From c0014efc4aac35ea2c47e63dcbf065e931116cc7 Mon Sep 17 00:00:00 2001
From: Kevin O'Connor <kevin@koconnor.net>
Date: Thu, 14 Nov 2024 12:26:06 -0500
Subject: [PATCH] rp2040: Resynchronize with upstream Klipper code and support
 rp2350 chips

Synchronize with the latest Klipper code.  This pulls in the latest
lib/ files (needed to use the pico-sdk v2.0.0 version).  It updates to
latest can2040 code (needed for pico-sdk v2.0.0 support).  It
implements USB double buffering (as is now done in Klipper).  It adds
in support for additional UART pins (as is now done in Klipper).  It
adds support for rp2350 chips.

This replaces the execute in ram code previously implemented in
Katapult with the execute in ram code that is now standard in Klipper.

The CONFIG_RP2040_ADD_BOOT_SIGNATURE kconfig symbol was removed and
the build now always produces a katapult.withclear.uf2 file.

Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
---
 lib/.gitignore                                |     1 +
 lib/README                                    |    29 +-
 lib/can2040/can2040.c                         |   115 +-
 lib/can2040/can2040.h                         |    10 +-
 lib/cmsis-core/core_cm33.h                    |  3264 +++
 lib/cmsis-core/mpu_armv8.h                    |   352 +
 lib/{rp2040 => }/elf2uf2/elf.h                |     0
 lib/{rp2040 => }/elf2uf2/main.cpp             |     2 +-
 lib/{rp2040 => pico-sdk}/boot/picoboot.h      |    65 +-
 lib/pico-sdk/boot/picoboot_constants.h        |    42 +
 lib/{rp2040 => pico-sdk}/boot/uf2.h           |    13 +-
 .../hardware/address_mapped.h                 |    64 +-
 lib/pico-sdk/hardware/flash.c                 |   221 +
 .../hw_flash.h => pico-sdk/hardware/flash.h}  |    36 +-
 lib/pico-sdk/hardware/platform_defs.h         |    31 +
 lib/pico-sdk/pico-sdk.patch                   |   117 +
 lib/pico-sdk/pico/bootrom.h                   |  1037 +
 lib/pico-sdk/pico/bootrom/lock.h              |    69 +
 lib/pico-sdk/pico/bootrom_constants.h         |   342 +
 lib/{rp2040 => pico-sdk}/pico/platform.h      |    26 +-
 lib/pico-sdk/rp2040/boot_stage2/BUILD.bazel   |   146 +
 .../rp2040/boot_stage2/CMakeLists.txt         |    24 +-
 .../boot2_helpers/exit_from_boot2.S           |     0
 .../boot2_helpers/read_flash_sreg.S           |     0
 .../asminclude/boot2_helpers/wait_ssi_ready.S |     0
 .../rp2040/boot_stage2/boot2_at25sf128a.S     |    21 +-
 .../rp2040/boot_stage2/boot2_generic_03h.S    |    27 +-
 .../rp2040/boot_stage2/boot2_is25lp080.S      |    44 +-
 .../rp2040/boot_stage2/boot2_usb_blinky.S     |    15 +-
 .../rp2040/boot_stage2/boot2_w25q080.S        |    23 +-
 .../rp2040/boot_stage2/boot2_w25x10cl.S       |    37 +-
 .../rp2040/boot_stage2/boot_stage2.ld         |     0
 .../rp2040/boot_stage2/compile_time_choice.S  |     0
 lib/{ => pico-sdk}/rp2040/boot_stage2/doc.h   |     0
 .../boot_stage2/include/boot_stage2/config.h  |    13 +-
 .../rp2040/boot_stage2/pad_checksum           |     2 +-
 lib/pico-sdk/rp2040/cmsis_include/RP2040.h    |  2675 ++
 .../rp2040/cmsis_include/system_RP2040.h      |     0
 lib/pico-sdk/rp2040/hardware/platform_defs.h  |   119 +
 lib/{ => pico-sdk}/rp2040/hardware/regs/adc.h |    18 +-
 .../rp2040/hardware/regs/addressmap.h         |    23 +-
 .../rp2040/hardware/regs/busctrl.h            |   203 +-
 .../rp2040/hardware/regs/clocks.h             |   437 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/dma.h |  1034 +-
 lib/pico-sdk/rp2040/hardware/regs/dreq.h      |   117 +
 lib/{ => pico-sdk}/rp2040/hardware/regs/i2c.h |  1233 +-
 lib/pico-sdk/rp2040/hardware/regs/intctrl.h   |   106 +
 .../rp2040/hardware/regs/io_bank0.h           |  4222 +--
 .../rp2040/hardware/regs/io_qspi.h            |   774 +-
 .../rp2040/hardware/regs/m0plus.h             |    22 +-
 .../rp2040/hardware/regs/pads_bank0.h         |   536 +-
 .../rp2040/hardware/regs/pads_qspi.h          |   120 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/pio.h |   184 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/pll.h |    14 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/psm.h |    80 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/pwm.h |   259 +-
 .../rp2040/hardware/regs/resets.h             |    87 +-
 .../rp2040/hardware/regs/rosc.h               |    94 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/rtc.h |    16 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/sio.h |   105 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/spi.h |    12 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/ssi.h |    77 +-
 .../rp2040/hardware/regs/syscfg.h             |    19 +-
 .../rp2040/hardware/regs/sysinfo.h            |    19 +-
 .../rp2040/hardware/regs/tbman.h              |    11 +-
 .../rp2040/hardware/regs/timer.h              |    27 +-
 .../rp2040/hardware/regs/uart.h               |    12 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/usb.h |   336 +-
 .../rp2040/hardware/regs/usb_device_dpram.h   |  6753 +++++
 .../hardware/regs/vreg_and_chip_reset.h       |    11 +-
 .../rp2040/hardware/regs/watchdog.h           |    14 +-
 lib/{ => pico-sdk}/rp2040/hardware/regs/xip.h |    15 +-
 .../rp2040/hardware/regs/xosc.h               |    82 +-
 lib/pico-sdk/rp2040/hardware/structs/adc.h    |    96 +
 .../rp2040/hardware/structs/bus_ctrl.h        |     9 +
 .../rp2040/hardware/structs/busctrl.h         |    85 +
 lib/pico-sdk/rp2040/hardware/structs/clocks.h |   504 +
 lib/pico-sdk/rp2040/hardware/structs/dma.h    |   239 +
 .../rp2040/hardware/structs/dma_debug.h       |    47 +
 lib/pico-sdk/rp2040/hardware/structs/i2c.h    |   338 +
 lib/pico-sdk/rp2040/hardware/structs/interp.h |    86 +
 .../rp2040/hardware/structs/io_bank0.h        |   236 +
 .../rp2040/hardware/structs/io_qspi.h         |   189 +
 .../rp2040/hardware/structs/iobank0.h         |     9 +
 lib/pico-sdk/rp2040/hardware/structs/ioqspi.h |     9 +
 lib/pico-sdk/rp2040/hardware/structs/m0plus.h |   197 +
 lib/pico-sdk/rp2040/hardware/structs/mpu.h    |    66 +
 lib/pico-sdk/rp2040/hardware/structs/nvic.h   |    69 +
 .../rp2040/hardware/structs/pads_bank0.h      |    49 +
 .../rp2040/hardware/structs/pads_qspi.h       |    49 +
 .../rp2040/hardware/structs/padsbank0.h       |     9 +
 lib/pico-sdk/rp2040/hardware/structs/pio.h    |   343 +
 lib/pico-sdk/rp2040/hardware/structs/pll.h    |    61 +
 lib/pico-sdk/rp2040/hardware/structs/psm.h    |   116 +
 lib/pico-sdk/rp2040/hardware/structs/pwm.h    |   172 +
 lib/pico-sdk/rp2040/hardware/structs/resets.h |   153 +
 lib/pico-sdk/rp2040/hardware/structs/rosc.h   |    92 +
 lib/pico-sdk/rp2040/hardware/structs/rtc.h    |   119 +
 lib/pico-sdk/rp2040/hardware/structs/scb.h    |    74 +
 lib/pico-sdk/rp2040/hardware/structs/sio.h    |   200 +
 lib/pico-sdk/rp2040/hardware/structs/spi.h    |   105 +
 lib/pico-sdk/rp2040/hardware/structs/ssi.h    |   215 +
 lib/pico-sdk/rp2040/hardware/structs/syscfg.h |    84 +
 .../rp2040/hardware/structs/sysinfo.h         |    52 +
 .../rp2040/hardware/structs/systick.h         |    57 +
 lib/pico-sdk/rp2040/hardware/structs/tbman.h  |    38 +
 lib/pico-sdk/rp2040/hardware/structs/timer.h  |   116 +
 lib/pico-sdk/rp2040/hardware/structs/uart.h   |   182 +
 lib/pico-sdk/rp2040/hardware/structs/usb.h    |   476 +
 .../rp2040/hardware/structs/usb_dpram.h}      |    59 +-
 .../hardware/structs/vreg_and_chip_reset.h    |    54 +
 .../rp2040/hardware/structs/watchdog.h        |    67 +
 lib/pico-sdk/rp2040/hardware/structs/xip.h    |    76 +
 .../rp2040/hardware/structs/xip_ctrl.h        |    11 +
 lib/pico-sdk/rp2040/hardware/structs/xosc.h   |    66 +
 lib/pico-sdk/rp2040/pico/asm_helper.S         |    52 +
 lib/pico-sdk/rp2350/cmsis_include/RP2350.h    |  6070 +++++
 .../rp2350/cmsis_include/system_RP2350.h      |    65 +
 .../rp2350/hardware/regs/accessctrl.h         |  4953 ++++
 lib/pico-sdk/rp2350/hardware/regs/adc.h       |   316 +
 .../rp2350/hardware/regs/addressmap.h         |   112 +
 lib/pico-sdk/rp2350/hardware/regs/bootram.h   |   130 +
 lib/pico-sdk/rp2350/hardware/regs/busctrl.h   |   753 +
 lib/pico-sdk/rp2350/hardware/regs/clocks.h    |  2764 ++
 .../rp2350/hardware/regs/coresight_trace.h    |    85 +
 lib/pico-sdk/rp2350/hardware/regs/dma.h       |  9914 +++++++
 lib/pico-sdk/rp2350/hardware/regs/dreq.h      |   147 +
 .../rp2350/hardware/regs/glitch_detector.h    |   213 +
 lib/pico-sdk/rp2350/hardware/regs/hstx_ctrl.h |   609 +
 lib/pico-sdk/rp2350/hardware/regs/hstx_fifo.h |    62 +
 lib/pico-sdk/rp2350/hardware/regs/i2c.h       |  2700 ++
 lib/pico-sdk/rp2350/hardware/regs/intctrl.h   |   184 +
 lib/pico-sdk/rp2350/hardware/regs/io_bank0.h  | 22339 ++++++++++++++++
 lib/pico-sdk/rp2350/hardware/regs/io_qspi.h   |  3663 +++
 lib/pico-sdk/rp2350/hardware/regs/m33.h       |  8988 +++++++
 lib/pico-sdk/rp2350/hardware/regs/m33_eppb.h  |    80 +
 lib/pico-sdk/rp2350/hardware/regs/otp.h       |  3467 +++
 lib/pico-sdk/rp2350/hardware/regs/otp_data.h  | 12373 +++++++++
 .../rp2350/hardware/regs/pads_bank0.h         |  3980 +++
 lib/pico-sdk/rp2350/hardware/regs/pads_qspi.h |   504 +
 lib/pico-sdk/rp2350/hardware/regs/pio.h       |  3417 +++
 lib/pico-sdk/rp2350/hardware/regs/pll.h       |   199 +
 lib/pico-sdk/rp2350/hardware/regs/powman.h    |  2194 ++
 lib/pico-sdk/rp2350/hardware/regs/psm.h       |   741 +
 lib/pico-sdk/rp2350/hardware/regs/pwm.h       |  2374 ++
 lib/pico-sdk/rp2350/hardware/regs/qmi.h       |  1781 ++
 lib/pico-sdk/rp2350/hardware/regs/resets.h    |   641 +
 lib/pico-sdk/rp2350/hardware/regs/riscv_dm.h  |  1025 +
 lib/pico-sdk/rp2350/hardware/regs/rosc.h      |   345 +
 lib/pico-sdk/rp2350/hardware/regs/rp_ap.h     |   729 +
 lib/pico-sdk/rp2350/hardware/regs/rvcsr.h     |  3154 +++
 lib/pico-sdk/rp2350/hardware/regs/sha256.h    |   228 +
 lib/pico-sdk/rp2350/hardware/regs/sio.h       |  2461 ++
 lib/pico-sdk/rp2350/hardware/regs/spi.h       |   523 +
 lib/pico-sdk/rp2350/hardware/regs/syscfg.h    |   279 +
 lib/pico-sdk/rp2350/hardware/regs/sysinfo.h   |   111 +
 lib/pico-sdk/rp2350/hardware/regs/tbman.h     |    48 +
 lib/pico-sdk/rp2350/hardware/regs/ticks.h     |   275 +
 lib/pico-sdk/rp2350/hardware/regs/timer.h     |   346 +
 lib/pico-sdk/rp2350/hardware/regs/trng.h      |   625 +
 lib/pico-sdk/rp2350/hardware/regs/uart.h      |  1150 +
 lib/pico-sdk/rp2350/hardware/regs/usb.h       |  4209 +++
 .../rp2350}/hardware/regs/usb_device_dpram.h  |  1164 +-
 lib/pico-sdk/rp2350/hardware/regs/watchdog.h  |   192 +
 lib/pico-sdk/rp2350/hardware/regs/xip.h       |   313 +
 lib/pico-sdk/rp2350/hardware/regs/xip_aux.h   |   123 +
 lib/pico-sdk/rp2350/hardware/regs/xosc.h      |   175 +
 .../rp2350/hardware/structs/accessctrl.h      |   519 +
 lib/pico-sdk/rp2350/hardware/structs/adc.h    |    96 +
 .../rp2350/hardware/structs/bootram.h         |    49 +
 .../rp2350/hardware/structs/bus_ctrl.h        |     9 +
 .../rp2350/hardware/structs/busctrl.h         |    90 +
 lib/pico-sdk/rp2350/hardware/structs/clocks.h |   580 +
 .../rp2350/hardware/structs/coresight_trace.h |    43 +
 lib/pico-sdk/rp2350/hardware/structs/dma.h    |   336 +
 .../rp2350/hardware/structs/dma_debug.h       |    47 +
 .../rp2350/hardware/structs/glitch_detector.h |    71 +
 .../rp2350/hardware/structs/hstx_ctrl.h       |    70 +
 .../rp2350/hardware/structs/hstx_fifo.h       |    45 +
 lib/pico-sdk/rp2350/hardware/structs/i2c.h    |   338 +
 lib/pico-sdk/rp2350/hardware/structs/interp.h |    87 +
 .../rp2350/hardware/structs/io_bank0.h        |   452 +
 .../rp2350/hardware/structs/io_qspi.h         |   316 +
 .../rp2350/hardware/structs/iobank0.h         |     9 +
 lib/pico-sdk/rp2350/hardware/structs/ioqspi.h |     9 +
 lib/pico-sdk/rp2350/hardware/structs/m33.h    |  1651 ++
 .../rp2350/hardware/structs/m33_eppb.h        |    50 +
 lib/pico-sdk/rp2350/hardware/structs/mpu.h    |   126 +
 lib/pico-sdk/rp2350/hardware/structs/nvic.h   |    94 +
 lib/pico-sdk/rp2350/hardware/structs/otp.h    |   192 +
 .../rp2350/hardware/structs/pads_bank0.h      |    49 +
 .../rp2350/hardware/structs/pads_qspi.h       |    49 +
 .../rp2350/hardware/structs/padsbank0.h       |     9 +
 lib/pico-sdk/rp2350/hardware/structs/pio.h    |   380 +
 lib/pico-sdk/rp2350/hardware/structs/pll.h    |    82 +
 lib/pico-sdk/rp2350/hardware/structs/powman.h |   338 +
 lib/pico-sdk/rp2350/hardware/structs/psm.h    |   148 +
 lib/pico-sdk/rp2350/hardware/structs/pwm.h    |   252 +
 lib/pico-sdk/rp2350/hardware/structs/qmi.h    |   125 +
 lib/pico-sdk/rp2350/hardware/structs/resets.h |   166 +
 lib/pico-sdk/rp2350/hardware/structs/rosc.h   |    99 +
 lib/pico-sdk/rp2350/hardware/structs/sau.h    |    65 +
 lib/pico-sdk/rp2350/hardware/structs/scb.h    |   264 +
 lib/pico-sdk/rp2350/hardware/structs/sha256.h |    53 +
 lib/pico-sdk/rp2350/hardware/structs/sio.h    |   336 +
 lib/pico-sdk/rp2350/hardware/structs/spi.h    |   105 +
 lib/pico-sdk/rp2350/hardware/structs/syscfg.h |    83 +
 .../rp2350/hardware/structs/sysinfo.h         |    60 +
 .../rp2350/hardware/structs/systick.h         |    62 +
 lib/pico-sdk/rp2350/hardware/structs/tbman.h  |    39 +
 lib/pico-sdk/rp2350/hardware/structs/ticks.h  |    63 +
 lib/pico-sdk/rp2350/hardware/structs/timer.h  |   127 +
 .../rp2350/hardware/structs/tmds_encode.h     |    92 +
 lib/pico-sdk/rp2350/hardware/structs/trng.h   |   153 +
 lib/pico-sdk/rp2350/hardware/structs/uart.h   |   182 +
 lib/pico-sdk/rp2350/hardware/structs/usb.h    |   602 +
 .../rp2350/hardware/structs/usb_dpram.h       |   128 +
 .../rp2350/hardware/structs/watchdog.h        |    59 +
 lib/pico-sdk/rp2350/hardware/structs/xip.h    |    79 +
 .../rp2350/hardware/structs/xip_aux.h         |    51 +
 .../rp2350/hardware/structs/xip_ctrl.h        |    11 +
 lib/pico-sdk/rp2350/hardware/structs/xosc.h   |    64 +
 lib/rp2040/cmsis_include/RP2040.h             |   109 -
 lib/rp2040/hardware/platform_defs.h           |    55 -
 lib/rp2040/hardware/regs/dreq.h               |    50 -
 lib/rp2040/hardware/regs/intctrl.h            |    63 -
 lib/rp2040/hardware/structs/adc.h             |    28 -
 lib/rp2040/hardware/structs/bus_ctrl.h        |    48 -
 lib/rp2040/hardware/structs/clocks.h          |    72 -
 lib/rp2040/hardware/structs/dma.h             |    64 -
 lib/rp2040/hardware/structs/i2c.h             |   134 -
 lib/rp2040/hardware/structs/interp.h          |    28 -
 lib/rp2040/hardware/structs/iobank0.h         |    35 -
 lib/rp2040/hardware/structs/ioqspi.h          |    23 -
 lib/rp2040/hardware/structs/mpu.h             |    23 -
 lib/rp2040/hardware/structs/pads_qspi.h       |    21 -
 lib/rp2040/hardware/structs/padsbank0.h       |    21 -
 lib/rp2040/hardware/structs/pio.h             |    48 -
 lib/rp2040/hardware/structs/pll.h             |    25 -
 lib/rp2040/hardware/structs/psm.h             |    23 -
 lib/rp2040/hardware/structs/pwm.h             |    33 -
 lib/rp2040/hardware/structs/resets.h          |    22 -
 lib/rp2040/hardware/structs/rosc.h            |    29 -
 lib/rp2040/hardware/structs/rtc.h             |    31 -
 lib/rp2040/hardware/structs/scb.h             |    24 -
 lib/rp2040/hardware/structs/sio.h             |    61 -
 lib/rp2040/hardware/structs/spi.h             |    29 -
 lib/rp2040/hardware/structs/ssi.h             |    47 -
 lib/rp2040/hardware/structs/syscfg.h          |    26 -
 lib/rp2040/hardware/structs/systick.h         |    22 -
 lib/rp2040/hardware/structs/timer.h           |    35 -
 lib/rp2040/hardware/structs/uart.h            |    35 -
 .../hardware/structs/vreg_and_chip_reset.h    |    22 -
 lib/rp2040/hardware/structs/watchdog.h        |    24 -
 lib/rp2040/hardware/structs/xip_ctrl.h        |    29 -
 lib/rp2040/hardware/structs/xosc.h            |    27 -
 lib/rp2040/pico/bootrom/bootrom.h             |   170 -
 lib/rp2040/pico/flash/hw_flash.c              |   200 -
 lib/rp2040/rp2040.patch                       |    41 -
 lib/rp2040_flash/Makefile                     |     4 +-
 lib/rp2040_flash/addresses.h                  |    94 +
 lib/rp2040_flash/main.c                       |    25 +-
 lib/rp2040_flash/picoboot_connection.c        |   347 +-
 lib/rp2040_flash/picoboot_connection.h        |    86 +-
 src/Kconfig                                   |     4 +-
 src/generic/armcm_boot.c                      |    39 +-
 src/generic/armcm_canboot.c                   |    51 +-
 src/generic/armcm_irq.c                       |     2 +-
 src/generic/armcm_reset.c                     |     2 +-
 src/rp2040/Kconfig                            |   100 +-
 src/rp2040/Makefile                           |    66 +-
 src/rp2040/armcm_canboot.c                    |   136 -
 src/rp2040/bootrom.c                          |   174 +
 src/rp2040/can.c                              |     6 +-
 src/rp2040/chipid.c                           |    10 +-
 src/rp2040/flash.c                            |     2 +-
 src/rp2040/gpio.h                             |     6 +-
 src/rp2040/internal.h                         |    16 +-
 src/rp2040/main.c                             |    44 +-
 src/rp2040/rp2350_bootrom.c                   |    59 +
 ...p2040_link.lds.S => rpxxxx_deployer.lds.S} |    45 +-
 src/rp2040/rpxxxx_link.lds.S                  |    97 +
 src/rp2040/serial.c                           |    73 +-
 src/rp2040/usbserial.c                        |   182 +-
 284 files changed, 148693 insertions(+), 9081 deletions(-)
 create mode 100644 lib/cmsis-core/core_cm33.h
 create mode 100644 lib/cmsis-core/mpu_armv8.h
 rename lib/{rp2040 => }/elf2uf2/elf.h (100%)
 rename lib/{rp2040 => }/elf2uf2/main.cpp (99%)
 rename lib/{rp2040 => pico-sdk}/boot/picoboot.h (63%)
 create mode 100644 lib/pico-sdk/boot/picoboot_constants.h
 rename lib/{rp2040 => pico-sdk}/boot/uf2.h (65%)
 rename lib/{rp2040 => pico-sdk}/hardware/address_mapped.h (63%)
 create mode 100644 lib/pico-sdk/hardware/flash.c
 rename lib/{rp2040/pico/flash/hw_flash.h => pico-sdk/hardware/flash.h} (71%)
 create mode 100644 lib/pico-sdk/hardware/platform_defs.h
 create mode 100644 lib/pico-sdk/pico-sdk.patch
 create mode 100644 lib/pico-sdk/pico/bootrom.h
 create mode 100644 lib/pico-sdk/pico/bootrom/lock.h
 create mode 100644 lib/pico-sdk/pico/bootrom_constants.h
 rename lib/{rp2040 => pico-sdk}/pico/platform.h (84%)
 create mode 100644 lib/pico-sdk/rp2040/boot_stage2/BUILD.bazel
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/CMakeLists.txt (84%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/asminclude/boot2_helpers/exit_from_boot2.S (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/asminclude/boot2_helpers/read_flash_sreg.S (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/asminclude/boot2_helpers/wait_ssi_ready.S (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_at25sf128a.S (95%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_generic_03h.S (86%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_is25lp080.S (91%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_usb_blinky.S (84%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_w25q080.S (95%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot2_w25x10cl.S (91%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/boot_stage2.ld (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/compile_time_choice.S (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/doc.h (100%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/include/boot_stage2/config.h (91%)
 rename lib/{ => pico-sdk}/rp2040/boot_stage2/pad_checksum (98%)
 create mode 100644 lib/pico-sdk/rp2040/cmsis_include/RP2040.h
 rename lib/{ => pico-sdk}/rp2040/cmsis_include/system_RP2040.h (100%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/platform_defs.h
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/adc.h (98%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/addressmap.h (84%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/busctrl.h (64%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/clocks.h (90%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/dma.h (90%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/regs/dreq.h
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/i2c.h (77%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/regs/intctrl.h
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/io_bank0.h (86%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/io_qspi.h (88%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/m0plus.h (99%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/pads_bank0.h (87%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/pads_qspi.h (86%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/pio.h (97%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/pll.h (95%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/psm.h (93%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/pwm.h (91%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/resets.h (93%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/rosc.h (86%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/rtc.h (98%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/sio.h (97%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/spi.h (99%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/ssi.h (95%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/syscfg.h (97%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/sysinfo.h (90%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/tbman.h (88%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/timer.h (96%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/uart.h (99%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/usb.h (96%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/regs/usb_device_dpram.h
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/vreg_and_chip_reset.h (96%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/watchdog.h (97%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/xip.h (97%)
 rename lib/{ => pico-sdk}/rp2040/hardware/regs/xosc.h (74%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/adc.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/bus_ctrl.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/busctrl.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/clocks.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/dma.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/dma_debug.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/i2c.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/interp.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/io_bank0.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/io_qspi.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/iobank0.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/ioqspi.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/m0plus.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/mpu.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/nvic.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/pads_bank0.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/pads_qspi.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/padsbank0.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/pio.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/pll.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/psm.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/pwm.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/resets.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/rosc.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/rtc.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/scb.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/sio.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/spi.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/ssi.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/syscfg.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/sysinfo.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/systick.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/tbman.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/timer.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/uart.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/usb.h
 rename lib/{rp2040/hardware/structs/usb.h => pico-sdk/rp2040/hardware/structs/usb_dpram.h} (76%)
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/vreg_and_chip_reset.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/watchdog.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/xip.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/xip_ctrl.h
 create mode 100644 lib/pico-sdk/rp2040/hardware/structs/xosc.h
 create mode 100644 lib/pico-sdk/rp2040/pico/asm_helper.S
 create mode 100644 lib/pico-sdk/rp2350/cmsis_include/RP2350.h
 create mode 100644 lib/pico-sdk/rp2350/cmsis_include/system_RP2350.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/accessctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/adc.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/addressmap.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/bootram.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/busctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/clocks.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/coresight_trace.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/dma.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/dreq.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/glitch_detector.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/hstx_ctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/hstx_fifo.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/i2c.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/intctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/io_bank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/io_qspi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/m33.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/m33_eppb.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/otp.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/otp_data.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/pads_bank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/pads_qspi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/pio.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/pll.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/powman.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/psm.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/pwm.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/qmi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/resets.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/riscv_dm.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/rosc.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/rp_ap.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/rvcsr.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/sha256.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/sio.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/spi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/syscfg.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/sysinfo.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/tbman.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/ticks.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/timer.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/trng.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/uart.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/usb.h
 rename lib/{rp2040 => pico-sdk/rp2350}/hardware/regs/usb_device_dpram.h (95%)
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/watchdog.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/xip.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/xip_aux.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/regs/xosc.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/accessctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/adc.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/bootram.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/bus_ctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/busctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/clocks.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/coresight_trace.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/dma.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/dma_debug.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/glitch_detector.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/hstx_ctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/hstx_fifo.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/i2c.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/interp.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/io_bank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/io_qspi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/iobank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/ioqspi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/m33.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/m33_eppb.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/mpu.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/nvic.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/otp.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/pads_bank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/pads_qspi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/padsbank0.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/pio.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/pll.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/powman.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/psm.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/pwm.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/qmi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/resets.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/rosc.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/sau.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/scb.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/sha256.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/sio.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/spi.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/syscfg.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/sysinfo.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/systick.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/tbman.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/ticks.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/timer.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/tmds_encode.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/trng.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/uart.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/usb.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/usb_dpram.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/watchdog.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/xip.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/xip_aux.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/xip_ctrl.h
 create mode 100644 lib/pico-sdk/rp2350/hardware/structs/xosc.h
 delete mode 100644 lib/rp2040/cmsis_include/RP2040.h
 delete mode 100644 lib/rp2040/hardware/platform_defs.h
 delete mode 100644 lib/rp2040/hardware/regs/dreq.h
 delete mode 100644 lib/rp2040/hardware/regs/intctrl.h
 delete mode 100644 lib/rp2040/hardware/structs/adc.h
 delete mode 100644 lib/rp2040/hardware/structs/bus_ctrl.h
 delete mode 100644 lib/rp2040/hardware/structs/clocks.h
 delete mode 100644 lib/rp2040/hardware/structs/dma.h
 delete mode 100644 lib/rp2040/hardware/structs/i2c.h
 delete mode 100644 lib/rp2040/hardware/structs/interp.h
 delete mode 100644 lib/rp2040/hardware/structs/iobank0.h
 delete mode 100644 lib/rp2040/hardware/structs/ioqspi.h
 delete mode 100644 lib/rp2040/hardware/structs/mpu.h
 delete mode 100644 lib/rp2040/hardware/structs/pads_qspi.h
 delete mode 100644 lib/rp2040/hardware/structs/padsbank0.h
 delete mode 100644 lib/rp2040/hardware/structs/pio.h
 delete mode 100644 lib/rp2040/hardware/structs/pll.h
 delete mode 100644 lib/rp2040/hardware/structs/psm.h
 delete mode 100644 lib/rp2040/hardware/structs/pwm.h
 delete mode 100644 lib/rp2040/hardware/structs/resets.h
 delete mode 100644 lib/rp2040/hardware/structs/rosc.h
 delete mode 100644 lib/rp2040/hardware/structs/rtc.h
 delete mode 100644 lib/rp2040/hardware/structs/scb.h
 delete mode 100644 lib/rp2040/hardware/structs/sio.h
 delete mode 100644 lib/rp2040/hardware/structs/spi.h
 delete mode 100644 lib/rp2040/hardware/structs/ssi.h
 delete mode 100644 lib/rp2040/hardware/structs/syscfg.h
 delete mode 100644 lib/rp2040/hardware/structs/systick.h
 delete mode 100644 lib/rp2040/hardware/structs/timer.h
 delete mode 100644 lib/rp2040/hardware/structs/uart.h
 delete mode 100644 lib/rp2040/hardware/structs/vreg_and_chip_reset.h
 delete mode 100644 lib/rp2040/hardware/structs/watchdog.h
 delete mode 100644 lib/rp2040/hardware/structs/xip_ctrl.h
 delete mode 100644 lib/rp2040/hardware/structs/xosc.h
 delete mode 100644 lib/rp2040/pico/bootrom/bootrom.h
 delete mode 100644 lib/rp2040/pico/flash/hw_flash.c
 delete mode 100644 lib/rp2040/rp2040.patch
 create mode 100644 lib/rp2040_flash/addresses.h
 delete mode 100644 src/rp2040/armcm_canboot.c
 create mode 100644 src/rp2040/bootrom.c
 create mode 100644 src/rp2040/rp2350_bootrom.c
 rename src/rp2040/{rp2040_link.lds.S => rpxxxx_deployer.lds.S} (56%)
 create mode 100644 src/rp2040/rpxxxx_link.lds.S

diff --git a/lib/.gitignore b/lib/.gitignore
index 5d195d3..48aa950 100644
--- a/lib/.gitignore
+++ b/lib/.gitignore
@@ -3,3 +3,4 @@ bossac/bin/
 bossac/obj/
 hidflash/hid-flash
 hub-ctrl/hub-ctrl
+rp2040_flash/rp2040_flash
diff --git a/lib/README b/lib/README
index 796e035..90e0313 100644
--- a/lib/README
+++ b/lib/README
@@ -63,6 +63,11 @@ The stm32f4 directory contains code from:
 version v1.24.1 (b5abca20c9676b04f8d2885a668a9b653ee65705). Contents
 taken from the Drivers/CMSIS/Device/ST/STM32F4xx/ directory.
 
+The stm32f7 directory contains code from:
+  https://github.com/STMicroelectronics/STM32CubeF7
+version v1.15.0 (3600603267ebc7da619f50542e99bbdfd7e35f4a). Contents
+taken from the Drivers/CMSIS/Device/ST/STM32F7xx/ directory.
+
 The stm32g0 directory contains code from:
   https://github.com/STMicroelectronics/STM32CubeG0
 version v1.4.1 (5cb06333a6a43cefbe145f10a5aa98d3cc4cffee). Contents
@@ -73,16 +78,23 @@ The stm32h7 directory contains code from:
 version v1.9.0 (ccb11556044540590ca6e45056e6b65cdca2deb2). Contents
 taken from the Drivers/CMSIS/Device/ST/STM32H7xx/ directory.
 
-The rp2040 directory contains code from the pico sdk:
+The pico-sdk directory contains code from the pico sdk:
   https://github.com/raspberrypi/pico-sdk.git
-version 1.2.0 (bfcbefafc5d2a210551a4d9d80b4303d4ae0adf7). It has been
+version 2.0.0 (efe2103f9b28458a1615ff096054479743ade236). It has been
 modified so that it can build outside of the pico sdk. See
-rp2040.patch for the modifications.
+pico-sdk.patch for the modifications.
+
+The elf2uf2 directory contains code from the pico sdk:
+  https://github.com/raspberrypi/pico-sdk.git
+version 1.2.0 (bfcbefafc5d2a210551a4d9d80b4303d4ae0adf7). Contents
+taken from the tools/elf2uf2/ directory.
 
 The rp2040_flash directory contains a light-weight bootsel flash tool.
 It uses C part of the the `picoboot_connection` directory found in:
   https://github.com/raspberrypi/picotool.git
-version v1.1.0 (55fd880c3dc029b961fc1a0967a6cfdc0af02721).
+version 2.0.0 (8a9af99ab10b20b1c6afb30cd9384e562a6647f9). Note that
+Makefile and main.c are locally developed files (the remaining files
+are from the picotool repo).
 
 The hub-ctrl directory contains code from:
   https://github.com/codazoda/hub-ctrl.c/
@@ -98,13 +110,6 @@ version 2.2.2 (2ab7927a27b7b78ef730782ea5f9b5d2c8f34671). It has been
 modified to work with Klipper - see hidflash/README for the
 details. See changes.diff for the modifications.
 
-The pru_rpmsg directory contains code from:
-  https://github.com/dinuxbg/pru-gcc-examples
-revision 425a42d82006cf0aa24be27b483d2f6a41607489. The code is taken
-from the repo's hc-sr04-range-sensor directory. It has been modified
-so that the IEP definitions compile correctly. See pru_rpmsg.patch for
-the modifications.
-
 The fast-hash directory contains code from:
   https://github.com/ztanml/fast-hash
 revision ae3bb53c199fe75619e940b5b6a3584ede99c5fc
@@ -125,4 +130,4 @@ callbacks.
 
 The can2040 directory contains code from:
   https://github.com/KevinOConnor/can2040
-revision 177b0073fe6f19281ee7f7fdbe9599e32d1b4b8b.
+commit 13321ce2bc046e059a47def70f977a579a984462.
diff --git a/lib/can2040/can2040.c b/lib/can2040/can2040.c
index 926893d..4e5108c 100644
--- a/lib/can2040/can2040.c
+++ b/lib/can2040/can2040.c
@@ -1,13 +1,13 @@
 // Software CANbus implementation for rp2040
 //
-// Copyright (C) 2022  Kevin O'Connor <kevin@koconnor.net>
+// Copyright (C) 2022,2023  Kevin O'Connor <kevin@koconnor.net>
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.
 
 #include <stdint.h> // uint32_t
 #include <string.h> // memset
-#include "RP2040.h" // hw_set_bits
 #include "can2040.h" // can2040_setup
+#include "cmsis_gcc.h" // __DMB
 #include "hardware/regs/dreq.h" // DREQ_PIO0_RX1
 #include "hardware/structs/dma.h" // dma_hw
 #include "hardware/structs/iobank0.h" // iobank0_hw
@@ -128,7 +128,7 @@ static void
 pio_sync_setup(struct can2040 *cd)
 {
     pio_hw_t *pio_hw = cd->pio_hw;
-    struct pio_sm_hw *sm = &pio_hw->sm[0];
+    pio_sm_hw_t *sm = &pio_hw->sm[0];
     sm->execctrl = (
         cd->gpio_rx << PIO_SM0_EXECCTRL_JMP_PIN_LSB
         | (can2040_offset_sync_end - 1) << PIO_SM0_EXECCTRL_WRAP_TOP_LSB
@@ -148,7 +148,7 @@ static void
 pio_rx_setup(struct can2040 *cd)
 {
     pio_hw_t *pio_hw = cd->pio_hw;
-    struct pio_sm_hw *sm = &pio_hw->sm[1];
+    pio_sm_hw_t *sm = &pio_hw->sm[1];
     sm->execctrl = (
         (can2040_offset_shared_rx_end - 1) << PIO_SM0_EXECCTRL_WRAP_TOP_LSB
         | can2040_offset_shared_rx_read << PIO_SM0_EXECCTRL_WRAP_BOTTOM_LSB);
@@ -165,7 +165,7 @@ static void
 pio_match_setup(struct can2040 *cd)
 {
     pio_hw_t *pio_hw = cd->pio_hw;
-    struct pio_sm_hw *sm = &pio_hw->sm[2];
+    pio_sm_hw_t *sm = &pio_hw->sm[2];
     sm->execctrl = (
         (can2040_offset_match_end - 1) << PIO_SM0_EXECCTRL_WRAP_TOP_LSB
         | can2040_offset_shared_rx_read << PIO_SM0_EXECCTRL_WRAP_BOTTOM_LSB);
@@ -173,7 +173,7 @@ pio_match_setup(struct can2040 *cd)
     sm->shiftctrl = 0;
     sm->instr = 0xe040; // set y, 0
     sm->instr = 0xa0e2; // mov osr, y
-    sm->instr = 0xa02a, // mov x, !y
+    sm->instr = 0xa02a; // mov x, !y
     sm->instr = can2040_offset_match_load_next; // jmp match_load_next
 }
 
@@ -182,7 +182,7 @@ static void
 pio_tx_setup(struct can2040 *cd)
 {
     pio_hw_t *pio_hw = cd->pio_hw;
-    struct pio_sm_hw *sm = &pio_hw->sm[3];
+    pio_sm_hw_t *sm = &pio_hw->sm[3];
     sm->execctrl = (
         cd->gpio_rx << PIO_SM0_EXECCTRL_JMP_PIN_LSB
         | can2040_offset_tx_conflict << PIO_SM0_EXECCTRL_WRAP_TOP_LSB
@@ -255,7 +255,7 @@ pio_tx_reset(struct can2040 *cd)
                     | (0x08 << PIO_CTRL_SM_RESTART_LSB));
     pio_hw->irq = (SI_MATCHED | SI_ACKDONE) >> 8; // clear PIO irq flags
     // Clear tx fifo
-    struct pio_sm_hw *sm = &pio_hw->sm[3];
+    pio_sm_hw_t *sm = &pio_hw->sm[3];
     sm->shiftctrl = 0;
     sm->shiftctrl = (PIO_SM0_SHIFTCTRL_FJOIN_TX_BITS
                      | PIO_SM0_SHIFTCTRL_AUTOPULL_BITS);
@@ -271,7 +271,7 @@ pio_tx_send(struct can2040 *cd, uint32_t *data, uint32_t count)
     uint32_t i;
     for (i=0; i<count; i++)
         pio_hw->txf[3] = data[i];
-    struct pio_sm_hw *sm = &pio_hw->sm[3];
+    pio_sm_hw_t *sm = &pio_hw->sm[3];
     sm->instr = 0xe001; // set pins, 1
     sm->instr = 0x6021; // out x, 1
     sm->instr = can2040_offset_tx_write_pin; // jmp tx_write_pin
@@ -287,7 +287,7 @@ pio_tx_inject_ack(struct can2040 *cd, uint32_t match_key)
     pio_tx_reset(cd);
     pio_hw->instr_mem[can2040_offset_tx_got_recessive] = 0xc023; // irq wait 3
     pio_hw->txf[3] = 0x7fffffff;
-    struct pio_sm_hw *sm = &pio_hw->sm[3];
+    pio_sm_hw_t *sm = &pio_hw->sm[3];
     sm->instr = 0xe001; // set pins, 1
     sm->instr = 0x6021; // out x, 1
     sm->instr = can2040_offset_tx_write_pin; // jmp tx_write_pin
@@ -318,6 +318,14 @@ pio_irq_set(struct can2040 *cd, uint32_t sm_irqs)
     pio_hw->inte0 = sm_irqs | SI_RX_DATA;
 }
 
+// Completely disable host irqs
+static void
+pio_irq_disable(struct can2040 *cd)
+{
+    pio_hw_t *pio_hw = cd->pio_hw;
+    pio_hw->inte0 = 0;
+}
+
 // Return current host irq mask
 static uint32_t
 pio_irq_get(struct can2040 *cd)
@@ -662,6 +670,7 @@ tx_schedule_transmit(struct can2040 *cd)
         pio_signal_set_txpending(cd);
     }
     cd->tx_state = TS_QUEUED;
+    cd->stats.tx_attempt++;
     struct can2040_transmit *qt = &cd->tx_queue[tx_qpos(cd, tx_pull_pos)];
     pio_tx_send(cd, qt->stuffed_data, qt->stuffed_words);
     return 0;
@@ -721,6 +730,7 @@ report_callback_error(struct can2040 *cd, uint32_t error_code)
 static void
 report_callback_rx_msg(struct can2040 *cd)
 {
+    cd->stats.rx_total++;
     cd->rx_cb(cd, CAN2040_NOTIFY_RX, &cd->parse_msg);
 }
 
@@ -729,6 +739,7 @@ static void
 report_callback_tx_msg(struct can2040 *cd)
 {
     writel(&cd->tx_pull_pos, cd->tx_pull_pos + 1);
+    cd->stats.tx_total++;
     cd->rx_cb(cd, CAN2040_NOTIFY_TX, &cd->parse_msg);
 }
 
@@ -748,11 +759,11 @@ report_handle_eof(struct can2040 *cd)
     pio_match_clear(cd);
 }
 
-// Check if in an rx message is being processed
+// Check if message being processed is an rx message (not self feedback from tx)
 static int
-report_is_rx_eof_pending(struct can2040 *cd)
+report_is_not_in_tx(struct can2040 *cd)
 {
-    return cd->report_state == RS_NEED_RX_EOF;
+    return !(cd->report_state & RS_NEED_TX_ACK);
 }
 
 // Parser found a new message start
@@ -817,7 +828,7 @@ report_note_eof_success(struct can2040 *cd)
 
 // Parser found unexpected data on input
 static void
-report_note_parse_error(struct can2040 *cd)
+report_note_discarding(struct can2040 *cd)
 {
     if (cd->report_state != RS_IDLE) {
         cd->report_state = RS_IDLE;
@@ -880,7 +891,7 @@ report_line_txpending(struct can2040 *cd)
         return;
     }
     // Tx request from can2040_transmit(), report_note_eof_success(),
-    // or report_note_parse_error().
+    // or report_note_discarding().
     uint32_t check_txpending = tx_schedule_transmit(cd);
     pio_irq_set(cd, (pio_irqs & ~SI_TXPENDING) | check_txpending);
 }
@@ -896,6 +907,13 @@ enum {
     MS_CRC, MS_ACK, MS_EOF0, MS_EOF1, MS_DISCARD
 };
 
+// Reset any bits in the incoming parsing state
+static void
+data_state_clear_bits(struct can2040 *cd)
+{
+    cd->raw_bit_count = cd->unstuf.stuffed_bits = cd->unstuf.count_stuff = 0;
+}
+
 // Transition to the next parsing state
 static void
 data_state_go_next(struct can2040 *cd, uint32_t state, uint32_t num_bits)
@@ -908,23 +926,35 @@ data_state_go_next(struct can2040 *cd, uint32_t state, uint32_t num_bits)
 static void
 data_state_go_discard(struct can2040 *cd)
 {
-    report_note_parse_error(cd);
-
     if (pio_rx_check_stall(cd)) {
         // CPU couldn't keep up for some read data - must reset pio state
-        cd->raw_bit_count = cd->unstuf.count_stuff = 0;
+        data_state_clear_bits(cd);
         pio_sm_setup(cd);
         report_callback_error(cd, 0);
     }
 
     data_state_go_next(cd, MS_DISCARD, 32);
+
+    // Clear report state and update hw irqs after transition to MS_DISCARD
+    report_note_discarding(cd);
+}
+
+// Note a data parse error and transition to discard state
+static void
+data_state_go_error(struct can2040 *cd)
+{
+    cd->stats.parse_error++;
+    data_state_go_discard(cd);
 }
 
 // Received six dominant bits on the line
 static void
 data_state_line_error(struct can2040 *cd)
 {
-    data_state_go_discard(cd);
+    if (cd->parse_state == MS_DISCARD)
+        data_state_go_discard(cd);
+    else
+        data_state_go_error(cd);
 }
 
 // Received six unexpected passive bits on the line
@@ -933,7 +963,7 @@ data_state_line_passive(struct can2040 *cd)
 {
     if (cd->parse_state != MS_DISCARD && cd->parse_state != MS_START) {
         // Bitstuff error
-        data_state_go_discard(cd);
+        data_state_go_error(cd);
         return;
     }
 
@@ -941,8 +971,7 @@ data_state_line_passive(struct can2040 *cd)
     uint32_t dom_bits = ~stuffed_bits;
     if (!dom_bits) {
         // Counter overflow in "sync" state machine - reset it
-        cd->unstuf.stuffed_bits = 0;
-        cd->raw_bit_count = cd->unstuf.count_stuff = 0;
+        data_state_clear_bits(cd);
         pio_sm_setup(cd);
         data_state_go_discard(cd);
         return;
@@ -972,7 +1001,7 @@ data_state_go_crc(struct can2040 *cd)
 
     int ret = report_note_crc_start(cd);
     if (ret) {
-        data_state_go_discard(cd);
+        data_state_go_error(cd);
         return;
     }
     data_state_go_next(cd, MS_CRC, 16);
@@ -1065,7 +1094,7 @@ static void
 data_state_update_crc(struct can2040 *cd, uint32_t data)
 {
     if (((cd->parse_crc << 1) | 1) != data) {
-        data_state_go_discard(cd);
+        data_state_go_error(cd);
         return;
     }
 
@@ -1083,7 +1112,7 @@ data_state_update_ack(struct can2040 *cd, uint32_t data)
         // data_state_line_passive()
         unstuf_restore_state(&cd->unstuf, (cd->parse_crc_bits << 2) | data);
 
-        data_state_go_discard(cd);
+        data_state_go_error(cd);
         return;
     }
     report_note_ack_success(cd);
@@ -1095,7 +1124,7 @@ static void
 data_state_update_eof0(struct can2040 *cd, uint32_t data)
 {
     if (data != 0x0f || pio_rx_check_stall(cd)) {
-        data_state_go_discard(cd);
+        data_state_go_error(cd);
         return;
     }
     unstuf_clear_state(&cd->unstuf);
@@ -1106,14 +1135,17 @@ data_state_update_eof0(struct can2040 *cd, uint32_t data)
 static void
 data_state_update_eof1(struct can2040 *cd, uint32_t data)
 {
-    if (data >= 0x1c || (data >= 0x18 && report_is_rx_eof_pending(cd)))
-        // Message is considered fully transmitted
+    if (data == 0x1f) {
+        // Success
         report_note_eof_success(cd);
-
-    if (data == 0x1f)
         data_state_go_next(cd, MS_START, 1);
-    else
+    } else if (data >= 0x1c || (data >= 0x18 && report_is_not_in_tx(cd))) {
+        // Message fully transmitted - followed by "overload frame"
+        report_note_eof_success(cd);
         data_state_go_discard(cd);
+    } else {
+        data_state_go_error(cd);
+    }
 }
 
 // Handle data received while in MS_DISCARD state
@@ -1310,13 +1342,28 @@ can2040_start(struct can2040 *cd, uint32_t sys_clock, uint32_t bitrate
 {
     cd->gpio_rx = gpio_rx;
     cd->gpio_tx = gpio_tx;
+    data_state_clear_bits(cd);
     pio_setup(cd, sys_clock, bitrate);
     data_state_go_discard(cd);
 }
 
-// API function to stop and uninitialize can2040 code
+// API function to stop can2040 code
 void
-can2040_shutdown(struct can2040 *cd)
+can2040_stop(struct can2040 *cd)
 {
-    // XXX
+    pio_irq_disable(cd);
+    pio_sm_setup(cd);
+}
+
+// API function to access can2040 statistics
+void
+can2040_get_statistics(struct can2040 *cd, struct can2040_stats *stats)
+{
+    for (;;) {
+        memcpy(stats, &cd->stats, sizeof(*stats));
+        if (memcmp(stats, &cd->stats, sizeof(*stats)) == 0)
+            // Successfully copied data
+            return;
+        // Raced with irq handler update - retry copy
+    }
 }
diff --git a/lib/can2040/can2040.h b/lib/can2040/can2040.h
index fc0bdd6..7dbee11 100644
--- a/lib/can2040/can2040.h
+++ b/lib/can2040/can2040.h
@@ -26,11 +26,18 @@ struct can2040;
 typedef void (*can2040_rx_cb)(struct can2040 *cd, uint32_t notify
                               , struct can2040_msg *msg);
 
+struct can2040_stats {
+    uint32_t rx_total, tx_total;
+    uint32_t tx_attempt;
+    uint32_t parse_error;
+};
+
 void can2040_setup(struct can2040 *cd, uint32_t pio_num);
 void can2040_callback_config(struct can2040 *cd, can2040_rx_cb rx_cb);
 void can2040_start(struct can2040 *cd, uint32_t sys_clock, uint32_t bitrate
                    , uint32_t gpio_rx, uint32_t gpio_tx);
-void can2040_shutdown(struct can2040 *cd);
+void can2040_stop(struct can2040 *cd);
+void can2040_get_statistics(struct can2040 *cd, struct can2040_stats *stats);
 void can2040_pio_irq_handler(struct can2040 *cd);
 int can2040_check_transmit(struct can2040 *cd);
 int can2040_transmit(struct can2040 *cd, struct can2040_msg *msg);
@@ -56,6 +63,7 @@ struct can2040 {
     void *pio_hw;
     uint32_t gpio_rx, gpio_tx;
     can2040_rx_cb rx_cb;
+    struct can2040_stats stats;
 
     // Bit unstuffing
     struct can2040_bitunstuffer unstuf;
diff --git a/lib/cmsis-core/core_cm33.h b/lib/cmsis-core/core_cm33.h
new file mode 100644
index 0000000..13359be
--- /dev/null
+++ b/lib/cmsis-core/core_cm33.h
@@ -0,0 +1,3264 @@
+/**************************************************************************//**
+ * @file     core_cm33.h
+ * @brief    CMSIS Cortex-M33 Core Peripheral Access Layer Header File
+ * @version  V5.2.0
+ * @date     27. March 2020
+ ******************************************************************************/
+/*
+ * Copyright (c) 2009-2020 Arm Limited. All rights reserved.
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the License); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#if   defined ( __ICCARM__ )
+  #pragma system_include                        /* treat file as system include file for MISRA check */
+#elif defined (__clang__)
+  #pragma clang system_header                   /* treat file as system include file */
+#elif defined ( __GNUC__ )
+  #pragma GCC diagnostic ignored "-Wpedantic"   /* disable pedantic warning due to unnamed structs/unions */
+#endif
+
+#ifndef __CORE_CM33_H_GENERIC
+#define __CORE_CM33_H_GENERIC
+
+#include <stdint.h>
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+
+/**
+  \page CMSIS_MISRA_Exceptions  MISRA-C:2004 Compliance Exceptions
+  CMSIS violates the following MISRA-C:2004 rules:
+
+   \li Required Rule 8.5, object/function definition in header file.<br>
+     Function definitions in header files are used to allow 'inlining'.
+
+   \li Required Rule 18.4, declaration of union type or object of union type: '{...}'.<br>
+     Unions are used for effective representation of core registers.
+
+   \li Advisory Rule 19.7, Function-like macro defined.<br>
+     Function-like macros are used to allow more efficient code.
+ */
+
+
+/*******************************************************************************
+ *                 CMSIS definitions
+ ******************************************************************************/
+/**
+  \ingroup Cortex_M33
+  @{
+ */
+
+#include "cmsis_version.h"
+
+/*  CMSIS CM33 definitions */
+#define __CM33_CMSIS_VERSION_MAIN  (__CM_CMSIS_VERSION_MAIN)                   /*!< \deprecated [31:16] CMSIS HAL main version */
+#define __CM33_CMSIS_VERSION_SUB   (__CM_CMSIS_VERSION_SUB)                    /*!< \deprecated [15:0]  CMSIS HAL sub version */
+#define __CM33_CMSIS_VERSION       ((__CM33_CMSIS_VERSION_MAIN << 16U) | \
+                                     __CM33_CMSIS_VERSION_SUB           )      /*!< \deprecated CMSIS HAL version number */
+
+#define __CORTEX_M                 (33U)                                       /*!< Cortex-M Core */
+
+/** __FPU_USED indicates whether an FPU is used or not.
+    For this, __FPU_PRESENT has to be checked prior to making use of FPU specific registers and functions.
+*/
+#if defined ( __CC_ARM )
+  #if defined (__TARGET_FPU_VFP)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+  #if defined (__ARM_FEATURE_DSP) && (__ARM_FEATURE_DSP == 1U)
+    #if defined (__DSP_PRESENT) && (__DSP_PRESENT == 1U)
+      #define __DSP_USED       1U
+    #else
+      #error "Compiler generates DSP (SIMD) instructions for a devices without DSP extensions (check __DSP_PRESENT)"
+      #define __DSP_USED         0U
+    #endif
+  #else
+    #define __DSP_USED         0U
+  #endif
+
+#elif defined (__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
+  #if defined (__ARM_FP)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+  #if defined (__ARM_FEATURE_DSP) && (__ARM_FEATURE_DSP == 1U)
+    #if defined (__DSP_PRESENT) && (__DSP_PRESENT == 1U)
+      #define __DSP_USED       1U
+    #else
+      #error "Compiler generates DSP (SIMD) instructions for a devices without DSP extensions (check __DSP_PRESENT)"
+      #define __DSP_USED         0U
+    #endif
+  #else
+    #define __DSP_USED         0U
+  #endif
+
+#elif defined ( __GNUC__ )
+  #if defined (__VFP_FP__) && !defined(__SOFTFP__)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+  #if defined (__ARM_FEATURE_DSP) && (__ARM_FEATURE_DSP == 1U)
+    #if defined (__DSP_PRESENT) && (__DSP_PRESENT == 1U)
+      #define __DSP_USED       1U
+    #else
+      #error "Compiler generates DSP (SIMD) instructions for a devices without DSP extensions (check __DSP_PRESENT)"
+      #define __DSP_USED         0U
+    #endif
+  #else
+    #define __DSP_USED         0U
+  #endif
+
+#elif defined ( __ICCARM__ )
+  #if defined (__ARMVFP__)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+  #if defined (__ARM_FEATURE_DSP) && (__ARM_FEATURE_DSP == 1U)
+    #if defined (__DSP_PRESENT) && (__DSP_PRESENT == 1U)
+      #define __DSP_USED       1U
+    #else
+      #error "Compiler generates DSP (SIMD) instructions for a devices without DSP extensions (check __DSP_PRESENT)"
+      #define __DSP_USED         0U
+    #endif
+  #else
+    #define __DSP_USED         0U
+  #endif
+
+#elif defined ( __TI_ARM__ )
+  #if defined (__TI_VFP_SUPPORT__)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+#elif defined ( __TASKING__ )
+  #if defined (__FPU_VFP__)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+#elif defined ( __CSMC__ )
+  #if ( __CSMC__ & 0x400U)
+    #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
+      #define __FPU_USED       1U
+    #else
+      #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
+      #define __FPU_USED       0U
+    #endif
+  #else
+    #define __FPU_USED         0U
+  #endif
+
+#endif
+
+#include "cmsis_compiler.h"               /* CMSIS compiler specific defines */
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __CORE_CM33_H_GENERIC */
+
+#ifndef __CMSIS_GENERIC
+
+#ifndef __CORE_CM33_H_DEPENDANT
+#define __CORE_CM33_H_DEPENDANT
+
+#ifdef __cplusplus
+ extern "C" {
+#endif
+
+/* check device defines and use defaults */
+#if defined __CHECK_DEVICE_DEFINES
+  #ifndef __CM33_REV
+    #define __CM33_REV                0x0000U
+    #warning "__CM33_REV not defined in device header file; using default!"
+  #endif
+
+  #ifndef __FPU_PRESENT
+    #define __FPU_PRESENT             0U
+    #warning "__FPU_PRESENT not defined in device header file; using default!"
+  #endif
+
+  #ifndef __MPU_PRESENT
+    #define __MPU_PRESENT             0U
+    #warning "__MPU_PRESENT not defined in device header file; using default!"
+  #endif
+
+  #ifndef __SAUREGION_PRESENT
+    #define __SAUREGION_PRESENT       0U
+    #warning "__SAUREGION_PRESENT not defined in device header file; using default!"
+  #endif
+
+  #ifndef __DSP_PRESENT
+    #define __DSP_PRESENT             0U
+    #warning "__DSP_PRESENT not defined in device header file; using default!"
+  #endif
+
+  #ifndef __VTOR_PRESENT
+    #define __VTOR_PRESENT             1U
+    #warning "__VTOR_PRESENT not defined in device header file; using default!"
+  #endif
+  
+  #ifndef __NVIC_PRIO_BITS
+    #define __NVIC_PRIO_BITS          3U
+    #warning "__NVIC_PRIO_BITS not defined in device header file; using default!"
+  #endif
+
+  #ifndef __Vendor_SysTickConfig
+    #define __Vendor_SysTickConfig    0U
+    #warning "__Vendor_SysTickConfig not defined in device header file; using default!"
+  #endif
+#endif
+
+/* IO definitions (access restrictions to peripheral registers) */
+/**
+    \defgroup CMSIS_glob_defs CMSIS Global Defines
+
+    <strong>IO Type Qualifiers</strong> are used
+    \li to specify the access to peripheral variables.
+    \li for automatic generation of peripheral register debug information.
+*/
+#ifdef __cplusplus
+  #define   __I     volatile             /*!< Defines 'read only' permissions */
+#else
+  #define   __I     volatile const       /*!< Defines 'read only' permissions */
+#endif
+#define     __O     volatile             /*!< Defines 'write only' permissions */
+#define     __IO    volatile             /*!< Defines 'read / write' permissions */
+
+/* following defines should be used for structure members */
+#define     __IM     volatile const      /*! Defines 'read only' structure member permissions */
+#define     __OM     volatile            /*! Defines 'write only' structure member permissions */
+#define     __IOM    volatile            /*! Defines 'read / write' structure member permissions */
+
+/*@} end of group Cortex_M33 */
+
+
+
+/*******************************************************************************
+ *                 Register Abstraction
+  Core Register contain:
+  - Core Register
+  - Core NVIC Register
+  - Core SCB Register
+  - Core SysTick Register
+  - Core Debug Register
+  - Core MPU Register
+  - Core SAU Register
+  - Core FPU Register
+ ******************************************************************************/
+/**
+  \defgroup CMSIS_core_register Defines and Type Definitions
+  \brief Type definitions and defines for Cortex-M processor based devices.
+*/
+
+/**
+  \ingroup    CMSIS_core_register
+  \defgroup   CMSIS_CORE  Status and Control Registers
+  \brief      Core Register type definitions.
+  @{
+ */
+
+/**
+  \brief  Union type to access the Application Program Status Register (APSR).
+ */
+typedef union
+{
+  struct
+  {
+    uint32_t _reserved0:16;              /*!< bit:  0..15  Reserved */
+    uint32_t GE:4;                       /*!< bit: 16..19  Greater than or Equal flags */
+    uint32_t _reserved1:7;               /*!< bit: 20..26  Reserved */
+    uint32_t Q:1;                        /*!< bit:     27  Saturation condition flag */
+    uint32_t V:1;                        /*!< bit:     28  Overflow condition code flag */
+    uint32_t C:1;                        /*!< bit:     29  Carry condition code flag */
+    uint32_t Z:1;                        /*!< bit:     30  Zero condition code flag */
+    uint32_t N:1;                        /*!< bit:     31  Negative condition code flag */
+  } b;                                   /*!< Structure used for bit  access */
+  uint32_t w;                            /*!< Type      used for word access */
+} APSR_Type;
+
+/* APSR Register Definitions */
+#define APSR_N_Pos                         31U                                            /*!< APSR: N Position */
+#define APSR_N_Msk                         (1UL << APSR_N_Pos)                            /*!< APSR: N Mask */
+
+#define APSR_Z_Pos                         30U                                            /*!< APSR: Z Position */
+#define APSR_Z_Msk                         (1UL << APSR_Z_Pos)                            /*!< APSR: Z Mask */
+
+#define APSR_C_Pos                         29U                                            /*!< APSR: C Position */
+#define APSR_C_Msk                         (1UL << APSR_C_Pos)                            /*!< APSR: C Mask */
+
+#define APSR_V_Pos                         28U                                            /*!< APSR: V Position */
+#define APSR_V_Msk                         (1UL << APSR_V_Pos)                            /*!< APSR: V Mask */
+
+#define APSR_Q_Pos                         27U                                            /*!< APSR: Q Position */
+#define APSR_Q_Msk                         (1UL << APSR_Q_Pos)                            /*!< APSR: Q Mask */
+
+#define APSR_GE_Pos                        16U                                            /*!< APSR: GE Position */
+#define APSR_GE_Msk                        (0xFUL << APSR_GE_Pos)                         /*!< APSR: GE Mask */
+
+
+/**
+  \brief  Union type to access the Interrupt Program Status Register (IPSR).
+ */
+typedef union
+{
+  struct
+  {
+    uint32_t ISR:9;                      /*!< bit:  0.. 8  Exception number */
+    uint32_t _reserved0:23;              /*!< bit:  9..31  Reserved */
+  } b;                                   /*!< Structure used for bit  access */
+  uint32_t w;                            /*!< Type      used for word access */
+} IPSR_Type;
+
+/* IPSR Register Definitions */
+#define IPSR_ISR_Pos                        0U                                            /*!< IPSR: ISR Position */
+#define IPSR_ISR_Msk                       (0x1FFUL /*<< IPSR_ISR_Pos*/)                  /*!< IPSR: ISR Mask */
+
+
+/**
+  \brief  Union type to access the Special-Purpose Program Status Registers (xPSR).
+ */
+typedef union
+{
+  struct
+  {
+    uint32_t ISR:9;                      /*!< bit:  0.. 8  Exception number */
+    uint32_t _reserved0:7;               /*!< bit:  9..15  Reserved */
+    uint32_t GE:4;                       /*!< bit: 16..19  Greater than or Equal flags */
+    uint32_t _reserved1:4;               /*!< bit: 20..23  Reserved */
+    uint32_t T:1;                        /*!< bit:     24  Thumb bit        (read 0) */
+    uint32_t IT:2;                       /*!< bit: 25..26  saved IT state   (read 0) */
+    uint32_t Q:1;                        /*!< bit:     27  Saturation condition flag */
+    uint32_t V:1;                        /*!< bit:     28  Overflow condition code flag */
+    uint32_t C:1;                        /*!< bit:     29  Carry condition code flag */
+    uint32_t Z:1;                        /*!< bit:     30  Zero condition code flag */
+    uint32_t N:1;                        /*!< bit:     31  Negative condition code flag */
+  } b;                                   /*!< Structure used for bit  access */
+  uint32_t w;                            /*!< Type      used for word access */
+} xPSR_Type;
+
+/* xPSR Register Definitions */
+#define xPSR_N_Pos                         31U                                            /*!< xPSR: N Position */
+#define xPSR_N_Msk                         (1UL << xPSR_N_Pos)                            /*!< xPSR: N Mask */
+
+#define xPSR_Z_Pos                         30U                                            /*!< xPSR: Z Position */
+#define xPSR_Z_Msk                         (1UL << xPSR_Z_Pos)                            /*!< xPSR: Z Mask */
+
+#define xPSR_C_Pos                         29U                                            /*!< xPSR: C Position */
+#define xPSR_C_Msk                         (1UL << xPSR_C_Pos)                            /*!< xPSR: C Mask */
+
+#define xPSR_V_Pos                         28U                                            /*!< xPSR: V Position */
+#define xPSR_V_Msk                         (1UL << xPSR_V_Pos)                            /*!< xPSR: V Mask */
+
+#define xPSR_Q_Pos                         27U                                            /*!< xPSR: Q Position */
+#define xPSR_Q_Msk                         (1UL << xPSR_Q_Pos)                            /*!< xPSR: Q Mask */
+
+#define xPSR_IT_Pos                        25U                                            /*!< xPSR: IT Position */
+#define xPSR_IT_Msk                        (3UL << xPSR_IT_Pos)                           /*!< xPSR: IT Mask */
+
+#define xPSR_T_Pos                         24U                                            /*!< xPSR: T Position */
+#define xPSR_T_Msk                         (1UL << xPSR_T_Pos)                            /*!< xPSR: T Mask */
+
+#define xPSR_GE_Pos                        16U                                            /*!< xPSR: GE Position */
+#define xPSR_GE_Msk                        (0xFUL << xPSR_GE_Pos)                         /*!< xPSR: GE Mask */
+
+#define xPSR_ISR_Pos                        0U                                            /*!< xPSR: ISR Position */
+#define xPSR_ISR_Msk                       (0x1FFUL /*<< xPSR_ISR_Pos*/)                  /*!< xPSR: ISR Mask */
+
+
+/**
+  \brief  Union type to access the Control Registers (CONTROL).
+ */
+typedef union
+{
+  struct
+  {
+    uint32_t nPRIV:1;                    /*!< bit:      0  Execution privilege in Thread mode */
+    uint32_t SPSEL:1;                    /*!< bit:      1  Stack-pointer select */
+    uint32_t FPCA:1;                     /*!< bit:      2  Floating-point context active */
+    uint32_t SFPA:1;                     /*!< bit:      3  Secure floating-point active */
+    uint32_t _reserved1:28;              /*!< bit:  4..31  Reserved */
+  } b;                                   /*!< Structure used for bit  access */
+  uint32_t w;                            /*!< Type      used for word access */
+} CONTROL_Type;
+
+/* CONTROL Register Definitions */
+#define CONTROL_SFPA_Pos                    3U                                            /*!< CONTROL: SFPA Position */
+#define CONTROL_SFPA_Msk                   (1UL << CONTROL_SFPA_Pos)                      /*!< CONTROL: SFPA Mask */
+
+#define CONTROL_FPCA_Pos                    2U                                            /*!< CONTROL: FPCA Position */
+#define CONTROL_FPCA_Msk                   (1UL << CONTROL_FPCA_Pos)                      /*!< CONTROL: FPCA Mask */
+
+#define CONTROL_SPSEL_Pos                   1U                                            /*!< CONTROL: SPSEL Position */
+#define CONTROL_SPSEL_Msk                  (1UL << CONTROL_SPSEL_Pos)                     /*!< CONTROL: SPSEL Mask */
+
+#define CONTROL_nPRIV_Pos                   0U                                            /*!< CONTROL: nPRIV Position */
+#define CONTROL_nPRIV_Msk                  (1UL /*<< CONTROL_nPRIV_Pos*/)                 /*!< CONTROL: nPRIV Mask */
+
+/*@} end of group CMSIS_CORE */
+
+
+/**
+  \ingroup    CMSIS_core_register
+  \defgroup   CMSIS_NVIC  Nested Vectored Interrupt Controller (NVIC)
+  \brief      Type definitions for the NVIC Registers
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Nested Vectored Interrupt Controller (NVIC).
+ */
+typedef struct
+{
+  __IOM uint32_t ISER[16U];              /*!< Offset: 0x000 (R/W)  Interrupt Set Enable Register */
+        uint32_t RESERVED0[16U];
+  __IOM uint32_t ICER[16U];              /*!< Offset: 0x080 (R/W)  Interrupt Clear Enable Register */
+        uint32_t RSERVED1[16U];
+  __IOM uint32_t ISPR[16U];              /*!< Offset: 0x100 (R/W)  Interrupt Set Pending Register */
+        uint32_t RESERVED2[16U];
+  __IOM uint32_t ICPR[16U];              /*!< Offset: 0x180 (R/W)  Interrupt Clear Pending Register */
+        uint32_t RESERVED3[16U];
+  __IOM uint32_t IABR[16U];              /*!< Offset: 0x200 (R/W)  Interrupt Active bit Register */
+        uint32_t RESERVED4[16U];
+  __IOM uint32_t ITNS[16U];              /*!< Offset: 0x280 (R/W)  Interrupt Non-Secure State Register */
+        uint32_t RESERVED5[16U];
+  __IOM uint8_t  IPR[496U];              /*!< Offset: 0x300 (R/W)  Interrupt Priority Register (8Bit wide) */
+        uint32_t RESERVED6[580U];
+  __OM  uint32_t STIR;                   /*!< Offset: 0xE00 ( /W)  Software Trigger Interrupt Register */
+}  NVIC_Type;
+
+/* Software Triggered Interrupt Register Definitions */
+#define NVIC_STIR_INTID_Pos                 0U                                         /*!< STIR: INTLINESNUM Position */
+#define NVIC_STIR_INTID_Msk                (0x1FFUL /*<< NVIC_STIR_INTID_Pos*/)        /*!< STIR: INTLINESNUM Mask */
+
+/*@} end of group CMSIS_NVIC */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_SCB     System Control Block (SCB)
+  \brief    Type definitions for the System Control Block Registers
+  @{
+ */
+
+/**
+  \brief  Structure type to access the System Control Block (SCB).
+ */
+typedef struct
+{
+  __IM  uint32_t CPUID;                  /*!< Offset: 0x000 (R/ )  CPUID Base Register */
+  __IOM uint32_t ICSR;                   /*!< Offset: 0x004 (R/W)  Interrupt Control and State Register */
+  __IOM uint32_t VTOR;                   /*!< Offset: 0x008 (R/W)  Vector Table Offset Register */
+  __IOM uint32_t AIRCR;                  /*!< Offset: 0x00C (R/W)  Application Interrupt and Reset Control Register */
+  __IOM uint32_t SCR;                    /*!< Offset: 0x010 (R/W)  System Control Register */
+  __IOM uint32_t CCR;                    /*!< Offset: 0x014 (R/W)  Configuration Control Register */
+  __IOM uint8_t  SHPR[12U];              /*!< Offset: 0x018 (R/W)  System Handlers Priority Registers (4-7, 8-11, 12-15) */
+  __IOM uint32_t SHCSR;                  /*!< Offset: 0x024 (R/W)  System Handler Control and State Register */
+  __IOM uint32_t CFSR;                   /*!< Offset: 0x028 (R/W)  Configurable Fault Status Register */
+  __IOM uint32_t HFSR;                   /*!< Offset: 0x02C (R/W)  HardFault Status Register */
+  __IOM uint32_t DFSR;                   /*!< Offset: 0x030 (R/W)  Debug Fault Status Register */
+  __IOM uint32_t MMFAR;                  /*!< Offset: 0x034 (R/W)  MemManage Fault Address Register */
+  __IOM uint32_t BFAR;                   /*!< Offset: 0x038 (R/W)  BusFault Address Register */
+  __IOM uint32_t AFSR;                   /*!< Offset: 0x03C (R/W)  Auxiliary Fault Status Register */
+  __IM  uint32_t ID_PFR[2U];             /*!< Offset: 0x040 (R/ )  Processor Feature Register */
+  __IM  uint32_t ID_DFR;                 /*!< Offset: 0x048 (R/ )  Debug Feature Register */
+  __IM  uint32_t ID_ADR;                 /*!< Offset: 0x04C (R/ )  Auxiliary Feature Register */
+  __IM  uint32_t ID_MMFR[4U];            /*!< Offset: 0x050 (R/ )  Memory Model Feature Register */
+  __IM  uint32_t ID_ISAR[6U];            /*!< Offset: 0x060 (R/ )  Instruction Set Attributes Register */
+  __IM  uint32_t CLIDR;                  /*!< Offset: 0x078 (R/ )  Cache Level ID register */
+  __IM  uint32_t CTR;                    /*!< Offset: 0x07C (R/ )  Cache Type register */
+  __IM  uint32_t CCSIDR;                 /*!< Offset: 0x080 (R/ )  Cache Size ID Register */
+  __IOM uint32_t CSSELR;                 /*!< Offset: 0x084 (R/W)  Cache Size Selection Register */
+  __IOM uint32_t CPACR;                  /*!< Offset: 0x088 (R/W)  Coprocessor Access Control Register */
+  __IOM uint32_t NSACR;                  /*!< Offset: 0x08C (R/W)  Non-Secure Access Control Register */
+        uint32_t RESERVED3[92U];
+  __OM  uint32_t STIR;                   /*!< Offset: 0x200 ( /W)  Software Triggered Interrupt Register */
+        uint32_t RESERVED4[15U];
+  __IM  uint32_t MVFR0;                  /*!< Offset: 0x240 (R/ )  Media and VFP Feature Register 0 */
+  __IM  uint32_t MVFR1;                  /*!< Offset: 0x244 (R/ )  Media and VFP Feature Register 1 */
+  __IM  uint32_t MVFR2;                  /*!< Offset: 0x248 (R/ )  Media and VFP Feature Register 2 */
+        uint32_t RESERVED5[1U];
+  __OM  uint32_t ICIALLU;                /*!< Offset: 0x250 ( /W)  I-Cache Invalidate All to PoU */
+        uint32_t RESERVED6[1U];
+  __OM  uint32_t ICIMVAU;                /*!< Offset: 0x258 ( /W)  I-Cache Invalidate by MVA to PoU */
+  __OM  uint32_t DCIMVAC;                /*!< Offset: 0x25C ( /W)  D-Cache Invalidate by MVA to PoC */
+  __OM  uint32_t DCISW;                  /*!< Offset: 0x260 ( /W)  D-Cache Invalidate by Set-way */
+  __OM  uint32_t DCCMVAU;                /*!< Offset: 0x264 ( /W)  D-Cache Clean by MVA to PoU */
+  __OM  uint32_t DCCMVAC;                /*!< Offset: 0x268 ( /W)  D-Cache Clean by MVA to PoC */
+  __OM  uint32_t DCCSW;                  /*!< Offset: 0x26C ( /W)  D-Cache Clean by Set-way */
+  __OM  uint32_t DCCIMVAC;               /*!< Offset: 0x270 ( /W)  D-Cache Clean and Invalidate by MVA to PoC */
+  __OM  uint32_t DCCISW;                 /*!< Offset: 0x274 ( /W)  D-Cache Clean and Invalidate by Set-way */
+} SCB_Type;
+
+/* SCB CPUID Register Definitions */
+#define SCB_CPUID_IMPLEMENTER_Pos          24U                                            /*!< SCB CPUID: IMPLEMENTER Position */
+#define SCB_CPUID_IMPLEMENTER_Msk          (0xFFUL << SCB_CPUID_IMPLEMENTER_Pos)          /*!< SCB CPUID: IMPLEMENTER Mask */
+
+#define SCB_CPUID_VARIANT_Pos              20U                                            /*!< SCB CPUID: VARIANT Position */
+#define SCB_CPUID_VARIANT_Msk              (0xFUL << SCB_CPUID_VARIANT_Pos)               /*!< SCB CPUID: VARIANT Mask */
+
+#define SCB_CPUID_ARCHITECTURE_Pos         16U                                            /*!< SCB CPUID: ARCHITECTURE Position */
+#define SCB_CPUID_ARCHITECTURE_Msk         (0xFUL << SCB_CPUID_ARCHITECTURE_Pos)          /*!< SCB CPUID: ARCHITECTURE Mask */
+
+#define SCB_CPUID_PARTNO_Pos                4U                                            /*!< SCB CPUID: PARTNO Position */
+#define SCB_CPUID_PARTNO_Msk               (0xFFFUL << SCB_CPUID_PARTNO_Pos)              /*!< SCB CPUID: PARTNO Mask */
+
+#define SCB_CPUID_REVISION_Pos              0U                                            /*!< SCB CPUID: REVISION Position */
+#define SCB_CPUID_REVISION_Msk             (0xFUL /*<< SCB_CPUID_REVISION_Pos*/)          /*!< SCB CPUID: REVISION Mask */
+
+/* SCB Interrupt Control State Register Definitions */
+#define SCB_ICSR_PENDNMISET_Pos            31U                                            /*!< SCB ICSR: PENDNMISET Position */
+#define SCB_ICSR_PENDNMISET_Msk            (1UL << SCB_ICSR_PENDNMISET_Pos)               /*!< SCB ICSR: PENDNMISET Mask */
+
+#define SCB_ICSR_NMIPENDSET_Pos            SCB_ICSR_PENDNMISET_Pos                        /*!< SCB ICSR: NMIPENDSET Position, backward compatibility */
+#define SCB_ICSR_NMIPENDSET_Msk            SCB_ICSR_PENDNMISET_Msk                        /*!< SCB ICSR: NMIPENDSET Mask, backward compatibility */
+
+#define SCB_ICSR_PENDNMICLR_Pos            30U                                            /*!< SCB ICSR: PENDNMICLR Position */
+#define SCB_ICSR_PENDNMICLR_Msk            (1UL << SCB_ICSR_PENDNMICLR_Pos)               /*!< SCB ICSR: PENDNMICLR Mask */
+
+#define SCB_ICSR_PENDSVSET_Pos             28U                                            /*!< SCB ICSR: PENDSVSET Position */
+#define SCB_ICSR_PENDSVSET_Msk             (1UL << SCB_ICSR_PENDSVSET_Pos)                /*!< SCB ICSR: PENDSVSET Mask */
+
+#define SCB_ICSR_PENDSVCLR_Pos             27U                                            /*!< SCB ICSR: PENDSVCLR Position */
+#define SCB_ICSR_PENDSVCLR_Msk             (1UL << SCB_ICSR_PENDSVCLR_Pos)                /*!< SCB ICSR: PENDSVCLR Mask */
+
+#define SCB_ICSR_PENDSTSET_Pos             26U                                            /*!< SCB ICSR: PENDSTSET Position */
+#define SCB_ICSR_PENDSTSET_Msk             (1UL << SCB_ICSR_PENDSTSET_Pos)                /*!< SCB ICSR: PENDSTSET Mask */
+
+#define SCB_ICSR_PENDSTCLR_Pos             25U                                            /*!< SCB ICSR: PENDSTCLR Position */
+#define SCB_ICSR_PENDSTCLR_Msk             (1UL << SCB_ICSR_PENDSTCLR_Pos)                /*!< SCB ICSR: PENDSTCLR Mask */
+
+#define SCB_ICSR_STTNS_Pos                 24U                                            /*!< SCB ICSR: STTNS Position (Security Extension) */
+#define SCB_ICSR_STTNS_Msk                 (1UL << SCB_ICSR_STTNS_Pos)                    /*!< SCB ICSR: STTNS Mask (Security Extension) */
+
+#define SCB_ICSR_ISRPREEMPT_Pos            23U                                            /*!< SCB ICSR: ISRPREEMPT Position */
+#define SCB_ICSR_ISRPREEMPT_Msk            (1UL << SCB_ICSR_ISRPREEMPT_Pos)               /*!< SCB ICSR: ISRPREEMPT Mask */
+
+#define SCB_ICSR_ISRPENDING_Pos            22U                                            /*!< SCB ICSR: ISRPENDING Position */
+#define SCB_ICSR_ISRPENDING_Msk            (1UL << SCB_ICSR_ISRPENDING_Pos)               /*!< SCB ICSR: ISRPENDING Mask */
+
+#define SCB_ICSR_VECTPENDING_Pos           12U                                            /*!< SCB ICSR: VECTPENDING Position */
+#define SCB_ICSR_VECTPENDING_Msk           (0x1FFUL << SCB_ICSR_VECTPENDING_Pos)          /*!< SCB ICSR: VECTPENDING Mask */
+
+#define SCB_ICSR_RETTOBASE_Pos             11U                                            /*!< SCB ICSR: RETTOBASE Position */
+#define SCB_ICSR_RETTOBASE_Msk             (1UL << SCB_ICSR_RETTOBASE_Pos)                /*!< SCB ICSR: RETTOBASE Mask */
+
+#define SCB_ICSR_VECTACTIVE_Pos             0U                                            /*!< SCB ICSR: VECTACTIVE Position */
+#define SCB_ICSR_VECTACTIVE_Msk            (0x1FFUL /*<< SCB_ICSR_VECTACTIVE_Pos*/)       /*!< SCB ICSR: VECTACTIVE Mask */
+
+/* SCB Vector Table Offset Register Definitions */
+#define SCB_VTOR_TBLOFF_Pos                 7U                                            /*!< SCB VTOR: TBLOFF Position */
+#define SCB_VTOR_TBLOFF_Msk                (0x1FFFFFFUL << SCB_VTOR_TBLOFF_Pos)           /*!< SCB VTOR: TBLOFF Mask */
+
+/* SCB Application Interrupt and Reset Control Register Definitions */
+#define SCB_AIRCR_VECTKEY_Pos              16U                                            /*!< SCB AIRCR: VECTKEY Position */
+#define SCB_AIRCR_VECTKEY_Msk              (0xFFFFUL << SCB_AIRCR_VECTKEY_Pos)            /*!< SCB AIRCR: VECTKEY Mask */
+
+#define SCB_AIRCR_VECTKEYSTAT_Pos          16U                                            /*!< SCB AIRCR: VECTKEYSTAT Position */
+#define SCB_AIRCR_VECTKEYSTAT_Msk          (0xFFFFUL << SCB_AIRCR_VECTKEYSTAT_Pos)        /*!< SCB AIRCR: VECTKEYSTAT Mask */
+
+#define SCB_AIRCR_ENDIANESS_Pos            15U                                            /*!< SCB AIRCR: ENDIANESS Position */
+#define SCB_AIRCR_ENDIANESS_Msk            (1UL << SCB_AIRCR_ENDIANESS_Pos)               /*!< SCB AIRCR: ENDIANESS Mask */
+
+#define SCB_AIRCR_PRIS_Pos                 14U                                            /*!< SCB AIRCR: PRIS Position */
+#define SCB_AIRCR_PRIS_Msk                 (1UL << SCB_AIRCR_PRIS_Pos)                    /*!< SCB AIRCR: PRIS Mask */
+
+#define SCB_AIRCR_BFHFNMINS_Pos            13U                                            /*!< SCB AIRCR: BFHFNMINS Position */
+#define SCB_AIRCR_BFHFNMINS_Msk            (1UL << SCB_AIRCR_BFHFNMINS_Pos)               /*!< SCB AIRCR: BFHFNMINS Mask */
+
+#define SCB_AIRCR_PRIGROUP_Pos              8U                                            /*!< SCB AIRCR: PRIGROUP Position */
+#define SCB_AIRCR_PRIGROUP_Msk             (7UL << SCB_AIRCR_PRIGROUP_Pos)                /*!< SCB AIRCR: PRIGROUP Mask */
+
+#define SCB_AIRCR_SYSRESETREQS_Pos          3U                                            /*!< SCB AIRCR: SYSRESETREQS Position */
+#define SCB_AIRCR_SYSRESETREQS_Msk         (1UL << SCB_AIRCR_SYSRESETREQS_Pos)            /*!< SCB AIRCR: SYSRESETREQS Mask */
+
+#define SCB_AIRCR_SYSRESETREQ_Pos           2U                                            /*!< SCB AIRCR: SYSRESETREQ Position */
+#define SCB_AIRCR_SYSRESETREQ_Msk          (1UL << SCB_AIRCR_SYSRESETREQ_Pos)             /*!< SCB AIRCR: SYSRESETREQ Mask */
+
+#define SCB_AIRCR_VECTCLRACTIVE_Pos         1U                                            /*!< SCB AIRCR: VECTCLRACTIVE Position */
+#define SCB_AIRCR_VECTCLRACTIVE_Msk        (1UL << SCB_AIRCR_VECTCLRACTIVE_Pos)           /*!< SCB AIRCR: VECTCLRACTIVE Mask */
+
+/* SCB System Control Register Definitions */
+#define SCB_SCR_SEVONPEND_Pos               4U                                            /*!< SCB SCR: SEVONPEND Position */
+#define SCB_SCR_SEVONPEND_Msk              (1UL << SCB_SCR_SEVONPEND_Pos)                 /*!< SCB SCR: SEVONPEND Mask */
+
+#define SCB_SCR_SLEEPDEEPS_Pos              3U                                            /*!< SCB SCR: SLEEPDEEPS Position */
+#define SCB_SCR_SLEEPDEEPS_Msk             (1UL << SCB_SCR_SLEEPDEEPS_Pos)                /*!< SCB SCR: SLEEPDEEPS Mask */
+
+#define SCB_SCR_SLEEPDEEP_Pos               2U                                            /*!< SCB SCR: SLEEPDEEP Position */
+#define SCB_SCR_SLEEPDEEP_Msk              (1UL << SCB_SCR_SLEEPDEEP_Pos)                 /*!< SCB SCR: SLEEPDEEP Mask */
+
+#define SCB_SCR_SLEEPONEXIT_Pos             1U                                            /*!< SCB SCR: SLEEPONEXIT Position */
+#define SCB_SCR_SLEEPONEXIT_Msk            (1UL << SCB_SCR_SLEEPONEXIT_Pos)               /*!< SCB SCR: SLEEPONEXIT Mask */
+
+/* SCB Configuration Control Register Definitions */
+#define SCB_CCR_BP_Pos                     18U                                            /*!< SCB CCR: BP Position */
+#define SCB_CCR_BP_Msk                     (1UL << SCB_CCR_BP_Pos)                        /*!< SCB CCR: BP Mask */
+
+#define SCB_CCR_IC_Pos                     17U                                            /*!< SCB CCR: IC Position */
+#define SCB_CCR_IC_Msk                     (1UL << SCB_CCR_IC_Pos)                        /*!< SCB CCR: IC Mask */
+
+#define SCB_CCR_DC_Pos                     16U                                            /*!< SCB CCR: DC Position */
+#define SCB_CCR_DC_Msk                     (1UL << SCB_CCR_DC_Pos)                        /*!< SCB CCR: DC Mask */
+
+#define SCB_CCR_STKOFHFNMIGN_Pos           10U                                            /*!< SCB CCR: STKOFHFNMIGN Position */
+#define SCB_CCR_STKOFHFNMIGN_Msk           (1UL << SCB_CCR_STKOFHFNMIGN_Pos)              /*!< SCB CCR: STKOFHFNMIGN Mask */
+
+#define SCB_CCR_BFHFNMIGN_Pos               8U                                            /*!< SCB CCR: BFHFNMIGN Position */
+#define SCB_CCR_BFHFNMIGN_Msk              (1UL << SCB_CCR_BFHFNMIGN_Pos)                 /*!< SCB CCR: BFHFNMIGN Mask */
+
+#define SCB_CCR_DIV_0_TRP_Pos               4U                                            /*!< SCB CCR: DIV_0_TRP Position */
+#define SCB_CCR_DIV_0_TRP_Msk              (1UL << SCB_CCR_DIV_0_TRP_Pos)                 /*!< SCB CCR: DIV_0_TRP Mask */
+
+#define SCB_CCR_UNALIGN_TRP_Pos             3U                                            /*!< SCB CCR: UNALIGN_TRP Position */
+#define SCB_CCR_UNALIGN_TRP_Msk            (1UL << SCB_CCR_UNALIGN_TRP_Pos)               /*!< SCB CCR: UNALIGN_TRP Mask */
+
+#define SCB_CCR_USERSETMPEND_Pos            1U                                            /*!< SCB CCR: USERSETMPEND Position */
+#define SCB_CCR_USERSETMPEND_Msk           (1UL << SCB_CCR_USERSETMPEND_Pos)              /*!< SCB CCR: USERSETMPEND Mask */
+
+/* SCB System Handler Control and State Register Definitions */
+#define SCB_SHCSR_HARDFAULTPENDED_Pos      21U                                            /*!< SCB SHCSR: HARDFAULTPENDED Position */
+#define SCB_SHCSR_HARDFAULTPENDED_Msk      (1UL << SCB_SHCSR_HARDFAULTPENDED_Pos)         /*!< SCB SHCSR: HARDFAULTPENDED Mask */
+
+#define SCB_SHCSR_SECUREFAULTPENDED_Pos    20U                                            /*!< SCB SHCSR: SECUREFAULTPENDED Position */
+#define SCB_SHCSR_SECUREFAULTPENDED_Msk    (1UL << SCB_SHCSR_SECUREFAULTPENDED_Pos)       /*!< SCB SHCSR: SECUREFAULTPENDED Mask */
+
+#define SCB_SHCSR_SECUREFAULTENA_Pos       19U                                            /*!< SCB SHCSR: SECUREFAULTENA Position */
+#define SCB_SHCSR_SECUREFAULTENA_Msk       (1UL << SCB_SHCSR_SECUREFAULTENA_Pos)          /*!< SCB SHCSR: SECUREFAULTENA Mask */
+
+#define SCB_SHCSR_USGFAULTENA_Pos          18U                                            /*!< SCB SHCSR: USGFAULTENA Position */
+#define SCB_SHCSR_USGFAULTENA_Msk          (1UL << SCB_SHCSR_USGFAULTENA_Pos)             /*!< SCB SHCSR: USGFAULTENA Mask */
+
+#define SCB_SHCSR_BUSFAULTENA_Pos          17U                                            /*!< SCB SHCSR: BUSFAULTENA Position */
+#define SCB_SHCSR_BUSFAULTENA_Msk          (1UL << SCB_SHCSR_BUSFAULTENA_Pos)             /*!< SCB SHCSR: BUSFAULTENA Mask */
+
+#define SCB_SHCSR_MEMFAULTENA_Pos          16U                                            /*!< SCB SHCSR: MEMFAULTENA Position */
+#define SCB_SHCSR_MEMFAULTENA_Msk          (1UL << SCB_SHCSR_MEMFAULTENA_Pos)             /*!< SCB SHCSR: MEMFAULTENA Mask */
+
+#define SCB_SHCSR_SVCALLPENDED_Pos         15U                                            /*!< SCB SHCSR: SVCALLPENDED Position */
+#define SCB_SHCSR_SVCALLPENDED_Msk         (1UL << SCB_SHCSR_SVCALLPENDED_Pos)            /*!< SCB SHCSR: SVCALLPENDED Mask */
+
+#define SCB_SHCSR_BUSFAULTPENDED_Pos       14U                                            /*!< SCB SHCSR: BUSFAULTPENDED Position */
+#define SCB_SHCSR_BUSFAULTPENDED_Msk       (1UL << SCB_SHCSR_BUSFAULTPENDED_Pos)          /*!< SCB SHCSR: BUSFAULTPENDED Mask */
+
+#define SCB_SHCSR_MEMFAULTPENDED_Pos       13U                                            /*!< SCB SHCSR: MEMFAULTPENDED Position */
+#define SCB_SHCSR_MEMFAULTPENDED_Msk       (1UL << SCB_SHCSR_MEMFAULTPENDED_Pos)          /*!< SCB SHCSR: MEMFAULTPENDED Mask */
+
+#define SCB_SHCSR_USGFAULTPENDED_Pos       12U                                            /*!< SCB SHCSR: USGFAULTPENDED Position */
+#define SCB_SHCSR_USGFAULTPENDED_Msk       (1UL << SCB_SHCSR_USGFAULTPENDED_Pos)          /*!< SCB SHCSR: USGFAULTPENDED Mask */
+
+#define SCB_SHCSR_SYSTICKACT_Pos           11U                                            /*!< SCB SHCSR: SYSTICKACT Position */
+#define SCB_SHCSR_SYSTICKACT_Msk           (1UL << SCB_SHCSR_SYSTICKACT_Pos)              /*!< SCB SHCSR: SYSTICKACT Mask */
+
+#define SCB_SHCSR_PENDSVACT_Pos            10U                                            /*!< SCB SHCSR: PENDSVACT Position */
+#define SCB_SHCSR_PENDSVACT_Msk            (1UL << SCB_SHCSR_PENDSVACT_Pos)               /*!< SCB SHCSR: PENDSVACT Mask */
+
+#define SCB_SHCSR_MONITORACT_Pos            8U                                            /*!< SCB SHCSR: MONITORACT Position */
+#define SCB_SHCSR_MONITORACT_Msk           (1UL << SCB_SHCSR_MONITORACT_Pos)              /*!< SCB SHCSR: MONITORACT Mask */
+
+#define SCB_SHCSR_SVCALLACT_Pos             7U                                            /*!< SCB SHCSR: SVCALLACT Position */
+#define SCB_SHCSR_SVCALLACT_Msk            (1UL << SCB_SHCSR_SVCALLACT_Pos)               /*!< SCB SHCSR: SVCALLACT Mask */
+
+#define SCB_SHCSR_NMIACT_Pos                5U                                            /*!< SCB SHCSR: NMIACT Position */
+#define SCB_SHCSR_NMIACT_Msk               (1UL << SCB_SHCSR_NMIACT_Pos)                  /*!< SCB SHCSR: NMIACT Mask */
+
+#define SCB_SHCSR_SECUREFAULTACT_Pos        4U                                            /*!< SCB SHCSR: SECUREFAULTACT Position */
+#define SCB_SHCSR_SECUREFAULTACT_Msk       (1UL << SCB_SHCSR_SECUREFAULTACT_Pos)          /*!< SCB SHCSR: SECUREFAULTACT Mask */
+
+#define SCB_SHCSR_USGFAULTACT_Pos           3U                                            /*!< SCB SHCSR: USGFAULTACT Position */
+#define SCB_SHCSR_USGFAULTACT_Msk          (1UL << SCB_SHCSR_USGFAULTACT_Pos)             /*!< SCB SHCSR: USGFAULTACT Mask */
+
+#define SCB_SHCSR_HARDFAULTACT_Pos          2U                                            /*!< SCB SHCSR: HARDFAULTACT Position */
+#define SCB_SHCSR_HARDFAULTACT_Msk         (1UL << SCB_SHCSR_HARDFAULTACT_Pos)            /*!< SCB SHCSR: HARDFAULTACT Mask */
+
+#define SCB_SHCSR_BUSFAULTACT_Pos           1U                                            /*!< SCB SHCSR: BUSFAULTACT Position */
+#define SCB_SHCSR_BUSFAULTACT_Msk          (1UL << SCB_SHCSR_BUSFAULTACT_Pos)             /*!< SCB SHCSR: BUSFAULTACT Mask */
+
+#define SCB_SHCSR_MEMFAULTACT_Pos           0U                                            /*!< SCB SHCSR: MEMFAULTACT Position */
+#define SCB_SHCSR_MEMFAULTACT_Msk          (1UL /*<< SCB_SHCSR_MEMFAULTACT_Pos*/)         /*!< SCB SHCSR: MEMFAULTACT Mask */
+
+/* SCB Configurable Fault Status Register Definitions */
+#define SCB_CFSR_USGFAULTSR_Pos            16U                                            /*!< SCB CFSR: Usage Fault Status Register Position */
+#define SCB_CFSR_USGFAULTSR_Msk            (0xFFFFUL << SCB_CFSR_USGFAULTSR_Pos)          /*!< SCB CFSR: Usage Fault Status Register Mask */
+
+#define SCB_CFSR_BUSFAULTSR_Pos             8U                                            /*!< SCB CFSR: Bus Fault Status Register Position */
+#define SCB_CFSR_BUSFAULTSR_Msk            (0xFFUL << SCB_CFSR_BUSFAULTSR_Pos)            /*!< SCB CFSR: Bus Fault Status Register Mask */
+
+#define SCB_CFSR_MEMFAULTSR_Pos             0U                                            /*!< SCB CFSR: Memory Manage Fault Status Register Position */
+#define SCB_CFSR_MEMFAULTSR_Msk            (0xFFUL /*<< SCB_CFSR_MEMFAULTSR_Pos*/)        /*!< SCB CFSR: Memory Manage Fault Status Register Mask */
+
+/* MemManage Fault Status Register (part of SCB Configurable Fault Status Register) */
+#define SCB_CFSR_MMARVALID_Pos             (SCB_SHCSR_MEMFAULTACT_Pos + 7U)               /*!< SCB CFSR (MMFSR): MMARVALID Position */
+#define SCB_CFSR_MMARVALID_Msk             (1UL << SCB_CFSR_MMARVALID_Pos)                /*!< SCB CFSR (MMFSR): MMARVALID Mask */
+
+#define SCB_CFSR_MLSPERR_Pos               (SCB_SHCSR_MEMFAULTACT_Pos + 5U)               /*!< SCB CFSR (MMFSR): MLSPERR Position */
+#define SCB_CFSR_MLSPERR_Msk               (1UL << SCB_CFSR_MLSPERR_Pos)                  /*!< SCB CFSR (MMFSR): MLSPERR Mask */
+
+#define SCB_CFSR_MSTKERR_Pos               (SCB_SHCSR_MEMFAULTACT_Pos + 4U)               /*!< SCB CFSR (MMFSR): MSTKERR Position */
+#define SCB_CFSR_MSTKERR_Msk               (1UL << SCB_CFSR_MSTKERR_Pos)                  /*!< SCB CFSR (MMFSR): MSTKERR Mask */
+
+#define SCB_CFSR_MUNSTKERR_Pos             (SCB_SHCSR_MEMFAULTACT_Pos + 3U)               /*!< SCB CFSR (MMFSR): MUNSTKERR Position */
+#define SCB_CFSR_MUNSTKERR_Msk             (1UL << SCB_CFSR_MUNSTKERR_Pos)                /*!< SCB CFSR (MMFSR): MUNSTKERR Mask */
+
+#define SCB_CFSR_DACCVIOL_Pos              (SCB_SHCSR_MEMFAULTACT_Pos + 1U)               /*!< SCB CFSR (MMFSR): DACCVIOL Position */
+#define SCB_CFSR_DACCVIOL_Msk              (1UL << SCB_CFSR_DACCVIOL_Pos)                 /*!< SCB CFSR (MMFSR): DACCVIOL Mask */
+
+#define SCB_CFSR_IACCVIOL_Pos              (SCB_SHCSR_MEMFAULTACT_Pos + 0U)               /*!< SCB CFSR (MMFSR): IACCVIOL Position */
+#define SCB_CFSR_IACCVIOL_Msk              (1UL /*<< SCB_CFSR_IACCVIOL_Pos*/)             /*!< SCB CFSR (MMFSR): IACCVIOL Mask */
+
+/* BusFault Status Register (part of SCB Configurable Fault Status Register) */
+#define SCB_CFSR_BFARVALID_Pos            (SCB_CFSR_BUSFAULTSR_Pos + 7U)                  /*!< SCB CFSR (BFSR): BFARVALID Position */
+#define SCB_CFSR_BFARVALID_Msk            (1UL << SCB_CFSR_BFARVALID_Pos)                 /*!< SCB CFSR (BFSR): BFARVALID Mask */
+
+#define SCB_CFSR_LSPERR_Pos               (SCB_CFSR_BUSFAULTSR_Pos + 5U)                  /*!< SCB CFSR (BFSR): LSPERR Position */
+#define SCB_CFSR_LSPERR_Msk               (1UL << SCB_CFSR_LSPERR_Pos)                    /*!< SCB CFSR (BFSR): LSPERR Mask */
+
+#define SCB_CFSR_STKERR_Pos               (SCB_CFSR_BUSFAULTSR_Pos + 4U)                  /*!< SCB CFSR (BFSR): STKERR Position */
+#define SCB_CFSR_STKERR_Msk               (1UL << SCB_CFSR_STKERR_Pos)                    /*!< SCB CFSR (BFSR): STKERR Mask */
+
+#define SCB_CFSR_UNSTKERR_Pos             (SCB_CFSR_BUSFAULTSR_Pos + 3U)                  /*!< SCB CFSR (BFSR): UNSTKERR Position */
+#define SCB_CFSR_UNSTKERR_Msk             (1UL << SCB_CFSR_UNSTKERR_Pos)                  /*!< SCB CFSR (BFSR): UNSTKERR Mask */
+
+#define SCB_CFSR_IMPRECISERR_Pos          (SCB_CFSR_BUSFAULTSR_Pos + 2U)                  /*!< SCB CFSR (BFSR): IMPRECISERR Position */
+#define SCB_CFSR_IMPRECISERR_Msk          (1UL << SCB_CFSR_IMPRECISERR_Pos)               /*!< SCB CFSR (BFSR): IMPRECISERR Mask */
+
+#define SCB_CFSR_PRECISERR_Pos            (SCB_CFSR_BUSFAULTSR_Pos + 1U)                  /*!< SCB CFSR (BFSR): PRECISERR Position */
+#define SCB_CFSR_PRECISERR_Msk            (1UL << SCB_CFSR_PRECISERR_Pos)                 /*!< SCB CFSR (BFSR): PRECISERR Mask */
+
+#define SCB_CFSR_IBUSERR_Pos              (SCB_CFSR_BUSFAULTSR_Pos + 0U)                  /*!< SCB CFSR (BFSR): IBUSERR Position */
+#define SCB_CFSR_IBUSERR_Msk              (1UL << SCB_CFSR_IBUSERR_Pos)                   /*!< SCB CFSR (BFSR): IBUSERR Mask */
+
+/* UsageFault Status Register (part of SCB Configurable Fault Status Register) */
+#define SCB_CFSR_DIVBYZERO_Pos            (SCB_CFSR_USGFAULTSR_Pos + 9U)                  /*!< SCB CFSR (UFSR): DIVBYZERO Position */
+#define SCB_CFSR_DIVBYZERO_Msk            (1UL << SCB_CFSR_DIVBYZERO_Pos)                 /*!< SCB CFSR (UFSR): DIVBYZERO Mask */
+
+#define SCB_CFSR_UNALIGNED_Pos            (SCB_CFSR_USGFAULTSR_Pos + 8U)                  /*!< SCB CFSR (UFSR): UNALIGNED Position */
+#define SCB_CFSR_UNALIGNED_Msk            (1UL << SCB_CFSR_UNALIGNED_Pos)                 /*!< SCB CFSR (UFSR): UNALIGNED Mask */
+
+#define SCB_CFSR_STKOF_Pos                (SCB_CFSR_USGFAULTSR_Pos + 4U)                  /*!< SCB CFSR (UFSR): STKOF Position */
+#define SCB_CFSR_STKOF_Msk                (1UL << SCB_CFSR_STKOF_Pos)                     /*!< SCB CFSR (UFSR): STKOF Mask */
+
+#define SCB_CFSR_NOCP_Pos                 (SCB_CFSR_USGFAULTSR_Pos + 3U)                  /*!< SCB CFSR (UFSR): NOCP Position */
+#define SCB_CFSR_NOCP_Msk                 (1UL << SCB_CFSR_NOCP_Pos)                      /*!< SCB CFSR (UFSR): NOCP Mask */
+
+#define SCB_CFSR_INVPC_Pos                (SCB_CFSR_USGFAULTSR_Pos + 2U)                  /*!< SCB CFSR (UFSR): INVPC Position */
+#define SCB_CFSR_INVPC_Msk                (1UL << SCB_CFSR_INVPC_Pos)                     /*!< SCB CFSR (UFSR): INVPC Mask */
+
+#define SCB_CFSR_INVSTATE_Pos             (SCB_CFSR_USGFAULTSR_Pos + 1U)                  /*!< SCB CFSR (UFSR): INVSTATE Position */
+#define SCB_CFSR_INVSTATE_Msk             (1UL << SCB_CFSR_INVSTATE_Pos)                  /*!< SCB CFSR (UFSR): INVSTATE Mask */
+
+#define SCB_CFSR_UNDEFINSTR_Pos           (SCB_CFSR_USGFAULTSR_Pos + 0U)                  /*!< SCB CFSR (UFSR): UNDEFINSTR Position */
+#define SCB_CFSR_UNDEFINSTR_Msk           (1UL << SCB_CFSR_UNDEFINSTR_Pos)                /*!< SCB CFSR (UFSR): UNDEFINSTR Mask */
+
+/* SCB Hard Fault Status Register Definitions */
+#define SCB_HFSR_DEBUGEVT_Pos              31U                                            /*!< SCB HFSR: DEBUGEVT Position */
+#define SCB_HFSR_DEBUGEVT_Msk              (1UL << SCB_HFSR_DEBUGEVT_Pos)                 /*!< SCB HFSR: DEBUGEVT Mask */
+
+#define SCB_HFSR_FORCED_Pos                30U                                            /*!< SCB HFSR: FORCED Position */
+#define SCB_HFSR_FORCED_Msk                (1UL << SCB_HFSR_FORCED_Pos)                   /*!< SCB HFSR: FORCED Mask */
+
+#define SCB_HFSR_VECTTBL_Pos                1U                                            /*!< SCB HFSR: VECTTBL Position */
+#define SCB_HFSR_VECTTBL_Msk               (1UL << SCB_HFSR_VECTTBL_Pos)                  /*!< SCB HFSR: VECTTBL Mask */
+
+/* SCB Debug Fault Status Register Definitions */
+#define SCB_DFSR_EXTERNAL_Pos               4U                                            /*!< SCB DFSR: EXTERNAL Position */
+#define SCB_DFSR_EXTERNAL_Msk              (1UL << SCB_DFSR_EXTERNAL_Pos)                 /*!< SCB DFSR: EXTERNAL Mask */
+
+#define SCB_DFSR_VCATCH_Pos                 3U                                            /*!< SCB DFSR: VCATCH Position */
+#define SCB_DFSR_VCATCH_Msk                (1UL << SCB_DFSR_VCATCH_Pos)                   /*!< SCB DFSR: VCATCH Mask */
+
+#define SCB_DFSR_DWTTRAP_Pos                2U                                            /*!< SCB DFSR: DWTTRAP Position */
+#define SCB_DFSR_DWTTRAP_Msk               (1UL << SCB_DFSR_DWTTRAP_Pos)                  /*!< SCB DFSR: DWTTRAP Mask */
+
+#define SCB_DFSR_BKPT_Pos                   1U                                            /*!< SCB DFSR: BKPT Position */
+#define SCB_DFSR_BKPT_Msk                  (1UL << SCB_DFSR_BKPT_Pos)                     /*!< SCB DFSR: BKPT Mask */
+
+#define SCB_DFSR_HALTED_Pos                 0U                                            /*!< SCB DFSR: HALTED Position */
+#define SCB_DFSR_HALTED_Msk                (1UL /*<< SCB_DFSR_HALTED_Pos*/)               /*!< SCB DFSR: HALTED Mask */
+
+/* SCB Non-Secure Access Control Register Definitions */
+#define SCB_NSACR_CP11_Pos                 11U                                            /*!< SCB NSACR: CP11 Position */
+#define SCB_NSACR_CP11_Msk                 (1UL << SCB_NSACR_CP11_Pos)                    /*!< SCB NSACR: CP11 Mask */
+
+#define SCB_NSACR_CP10_Pos                 10U                                            /*!< SCB NSACR: CP10 Position */
+#define SCB_NSACR_CP10_Msk                 (1UL << SCB_NSACR_CP10_Pos)                    /*!< SCB NSACR: CP10 Mask */
+
+#define SCB_NSACR_CPn_Pos                   0U                                            /*!< SCB NSACR: CPn Position */
+#define SCB_NSACR_CPn_Msk                  (1UL /*<< SCB_NSACR_CPn_Pos*/)                 /*!< SCB NSACR: CPn Mask */
+
+/* SCB Cache Level ID Register Definitions */
+#define SCB_CLIDR_LOUU_Pos                 27U                                            /*!< SCB CLIDR: LoUU Position */
+#define SCB_CLIDR_LOUU_Msk                 (7UL << SCB_CLIDR_LOUU_Pos)                    /*!< SCB CLIDR: LoUU Mask */
+
+#define SCB_CLIDR_LOC_Pos                  24U                                            /*!< SCB CLIDR: LoC Position */
+#define SCB_CLIDR_LOC_Msk                  (7UL << SCB_CLIDR_LOC_Pos)                     /*!< SCB CLIDR: LoC Mask */
+
+/* SCB Cache Type Register Definitions */
+#define SCB_CTR_FORMAT_Pos                 29U                                            /*!< SCB CTR: Format Position */
+#define SCB_CTR_FORMAT_Msk                 (7UL << SCB_CTR_FORMAT_Pos)                    /*!< SCB CTR: Format Mask */
+
+#define SCB_CTR_CWG_Pos                    24U                                            /*!< SCB CTR: CWG Position */
+#define SCB_CTR_CWG_Msk                    (0xFUL << SCB_CTR_CWG_Pos)                     /*!< SCB CTR: CWG Mask */
+
+#define SCB_CTR_ERG_Pos                    20U                                            /*!< SCB CTR: ERG Position */
+#define SCB_CTR_ERG_Msk                    (0xFUL << SCB_CTR_ERG_Pos)                     /*!< SCB CTR: ERG Mask */
+
+#define SCB_CTR_DMINLINE_Pos               16U                                            /*!< SCB CTR: DminLine Position */
+#define SCB_CTR_DMINLINE_Msk               (0xFUL << SCB_CTR_DMINLINE_Pos)                /*!< SCB CTR: DminLine Mask */
+
+#define SCB_CTR_IMINLINE_Pos                0U                                            /*!< SCB CTR: ImInLine Position */
+#define SCB_CTR_IMINLINE_Msk               (0xFUL /*<< SCB_CTR_IMINLINE_Pos*/)            /*!< SCB CTR: ImInLine Mask */
+
+/* SCB Cache Size ID Register Definitions */
+#define SCB_CCSIDR_WT_Pos                  31U                                            /*!< SCB CCSIDR: WT Position */
+#define SCB_CCSIDR_WT_Msk                  (1UL << SCB_CCSIDR_WT_Pos)                     /*!< SCB CCSIDR: WT Mask */
+
+#define SCB_CCSIDR_WB_Pos                  30U                                            /*!< SCB CCSIDR: WB Position */
+#define SCB_CCSIDR_WB_Msk                  (1UL << SCB_CCSIDR_WB_Pos)                     /*!< SCB CCSIDR: WB Mask */
+
+#define SCB_CCSIDR_RA_Pos                  29U                                            /*!< SCB CCSIDR: RA Position */
+#define SCB_CCSIDR_RA_Msk                  (1UL << SCB_CCSIDR_RA_Pos)                     /*!< SCB CCSIDR: RA Mask */
+
+#define SCB_CCSIDR_WA_Pos                  28U                                            /*!< SCB CCSIDR: WA Position */
+#define SCB_CCSIDR_WA_Msk                  (1UL << SCB_CCSIDR_WA_Pos)                     /*!< SCB CCSIDR: WA Mask */
+
+#define SCB_CCSIDR_NUMSETS_Pos             13U                                            /*!< SCB CCSIDR: NumSets Position */
+#define SCB_CCSIDR_NUMSETS_Msk             (0x7FFFUL << SCB_CCSIDR_NUMSETS_Pos)           /*!< SCB CCSIDR: NumSets Mask */
+
+#define SCB_CCSIDR_ASSOCIATIVITY_Pos        3U                                            /*!< SCB CCSIDR: Associativity Position */
+#define SCB_CCSIDR_ASSOCIATIVITY_Msk       (0x3FFUL << SCB_CCSIDR_ASSOCIATIVITY_Pos)      /*!< SCB CCSIDR: Associativity Mask */
+
+#define SCB_CCSIDR_LINESIZE_Pos             0U                                            /*!< SCB CCSIDR: LineSize Position */
+#define SCB_CCSIDR_LINESIZE_Msk            (7UL /*<< SCB_CCSIDR_LINESIZE_Pos*/)           /*!< SCB CCSIDR: LineSize Mask */
+
+/* SCB Cache Size Selection Register Definitions */
+#define SCB_CSSELR_LEVEL_Pos                1U                                            /*!< SCB CSSELR: Level Position */
+#define SCB_CSSELR_LEVEL_Msk               (7UL << SCB_CSSELR_LEVEL_Pos)                  /*!< SCB CSSELR: Level Mask */
+
+#define SCB_CSSELR_IND_Pos                  0U                                            /*!< SCB CSSELR: InD Position */
+#define SCB_CSSELR_IND_Msk                 (1UL /*<< SCB_CSSELR_IND_Pos*/)                /*!< SCB CSSELR: InD Mask */
+
+/* SCB Software Triggered Interrupt Register Definitions */
+#define SCB_STIR_INTID_Pos                  0U                                            /*!< SCB STIR: INTID Position */
+#define SCB_STIR_INTID_Msk                 (0x1FFUL /*<< SCB_STIR_INTID_Pos*/)            /*!< SCB STIR: INTID Mask */
+
+/* SCB D-Cache Invalidate by Set-way Register Definitions */
+#define SCB_DCISW_WAY_Pos                  30U                                            /*!< SCB DCISW: Way Position */
+#define SCB_DCISW_WAY_Msk                  (3UL << SCB_DCISW_WAY_Pos)                     /*!< SCB DCISW: Way Mask */
+
+#define SCB_DCISW_SET_Pos                   5U                                            /*!< SCB DCISW: Set Position */
+#define SCB_DCISW_SET_Msk                  (0x1FFUL << SCB_DCISW_SET_Pos)                 /*!< SCB DCISW: Set Mask */
+
+/* SCB D-Cache Clean by Set-way Register Definitions */
+#define SCB_DCCSW_WAY_Pos                  30U                                            /*!< SCB DCCSW: Way Position */
+#define SCB_DCCSW_WAY_Msk                  (3UL << SCB_DCCSW_WAY_Pos)                     /*!< SCB DCCSW: Way Mask */
+
+#define SCB_DCCSW_SET_Pos                   5U                                            /*!< SCB DCCSW: Set Position */
+#define SCB_DCCSW_SET_Msk                  (0x1FFUL << SCB_DCCSW_SET_Pos)                 /*!< SCB DCCSW: Set Mask */
+
+/* SCB D-Cache Clean and Invalidate by Set-way Register Definitions */
+#define SCB_DCCISW_WAY_Pos                 30U                                            /*!< SCB DCCISW: Way Position */
+#define SCB_DCCISW_WAY_Msk                 (3UL << SCB_DCCISW_WAY_Pos)                    /*!< SCB DCCISW: Way Mask */
+
+#define SCB_DCCISW_SET_Pos                  5U                                            /*!< SCB DCCISW: Set Position */
+#define SCB_DCCISW_SET_Msk                 (0x1FFUL << SCB_DCCISW_SET_Pos)                /*!< SCB DCCISW: Set Mask */
+
+/*@} end of group CMSIS_SCB */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_SCnSCB System Controls not in SCB (SCnSCB)
+  \brief    Type definitions for the System Control and ID Register not in the SCB
+  @{
+ */
+
+/**
+  \brief  Structure type to access the System Control and ID Register not in the SCB.
+ */
+typedef struct
+{
+        uint32_t RESERVED0[1U];
+  __IM  uint32_t ICTR;                   /*!< Offset: 0x004 (R/ )  Interrupt Controller Type Register */
+  __IOM uint32_t ACTLR;                  /*!< Offset: 0x008 (R/W)  Auxiliary Control Register */
+  __IOM uint32_t CPPWR;                  /*!< Offset: 0x00C (R/W)  Coprocessor Power Control  Register */
+} SCnSCB_Type;
+
+/* Interrupt Controller Type Register Definitions */
+#define SCnSCB_ICTR_INTLINESNUM_Pos         0U                                         /*!< ICTR: INTLINESNUM Position */
+#define SCnSCB_ICTR_INTLINESNUM_Msk        (0xFUL /*<< SCnSCB_ICTR_INTLINESNUM_Pos*/)  /*!< ICTR: INTLINESNUM Mask */
+
+/*@} end of group CMSIS_SCnotSCB */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_SysTick     System Tick Timer (SysTick)
+  \brief    Type definitions for the System Timer Registers.
+  @{
+ */
+
+/**
+  \brief  Structure type to access the System Timer (SysTick).
+ */
+typedef struct
+{
+  __IOM uint32_t CTRL;                   /*!< Offset: 0x000 (R/W)  SysTick Control and Status Register */
+  __IOM uint32_t LOAD;                   /*!< Offset: 0x004 (R/W)  SysTick Reload Value Register */
+  __IOM uint32_t VAL;                    /*!< Offset: 0x008 (R/W)  SysTick Current Value Register */
+  __IM  uint32_t CALIB;                  /*!< Offset: 0x00C (R/ )  SysTick Calibration Register */
+} SysTick_Type;
+
+/* SysTick Control / Status Register Definitions */
+#define SysTick_CTRL_COUNTFLAG_Pos         16U                                            /*!< SysTick CTRL: COUNTFLAG Position */
+#define SysTick_CTRL_COUNTFLAG_Msk         (1UL << SysTick_CTRL_COUNTFLAG_Pos)            /*!< SysTick CTRL: COUNTFLAG Mask */
+
+#define SysTick_CTRL_CLKSOURCE_Pos          2U                                            /*!< SysTick CTRL: CLKSOURCE Position */
+#define SysTick_CTRL_CLKSOURCE_Msk         (1UL << SysTick_CTRL_CLKSOURCE_Pos)            /*!< SysTick CTRL: CLKSOURCE Mask */
+
+#define SysTick_CTRL_TICKINT_Pos            1U                                            /*!< SysTick CTRL: TICKINT Position */
+#define SysTick_CTRL_TICKINT_Msk           (1UL << SysTick_CTRL_TICKINT_Pos)              /*!< SysTick CTRL: TICKINT Mask */
+
+#define SysTick_CTRL_ENABLE_Pos             0U                                            /*!< SysTick CTRL: ENABLE Position */
+#define SysTick_CTRL_ENABLE_Msk            (1UL /*<< SysTick_CTRL_ENABLE_Pos*/)           /*!< SysTick CTRL: ENABLE Mask */
+
+/* SysTick Reload Register Definitions */
+#define SysTick_LOAD_RELOAD_Pos             0U                                            /*!< SysTick LOAD: RELOAD Position */
+#define SysTick_LOAD_RELOAD_Msk            (0xFFFFFFUL /*<< SysTick_LOAD_RELOAD_Pos*/)    /*!< SysTick LOAD: RELOAD Mask */
+
+/* SysTick Current Register Definitions */
+#define SysTick_VAL_CURRENT_Pos             0U                                            /*!< SysTick VAL: CURRENT Position */
+#define SysTick_VAL_CURRENT_Msk            (0xFFFFFFUL /*<< SysTick_VAL_CURRENT_Pos*/)    /*!< SysTick VAL: CURRENT Mask */
+
+/* SysTick Calibration Register Definitions */
+#define SysTick_CALIB_NOREF_Pos            31U                                            /*!< SysTick CALIB: NOREF Position */
+#define SysTick_CALIB_NOREF_Msk            (1UL << SysTick_CALIB_NOREF_Pos)               /*!< SysTick CALIB: NOREF Mask */
+
+#define SysTick_CALIB_SKEW_Pos             30U                                            /*!< SysTick CALIB: SKEW Position */
+#define SysTick_CALIB_SKEW_Msk             (1UL << SysTick_CALIB_SKEW_Pos)                /*!< SysTick CALIB: SKEW Mask */
+
+#define SysTick_CALIB_TENMS_Pos             0U                                            /*!< SysTick CALIB: TENMS Position */
+#define SysTick_CALIB_TENMS_Msk            (0xFFFFFFUL /*<< SysTick_CALIB_TENMS_Pos*/)    /*!< SysTick CALIB: TENMS Mask */
+
+/*@} end of group CMSIS_SysTick */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_ITM     Instrumentation Trace Macrocell (ITM)
+  \brief    Type definitions for the Instrumentation Trace Macrocell (ITM)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Instrumentation Trace Macrocell Register (ITM).
+ */
+typedef struct
+{
+  __OM  union
+  {
+    __OM  uint8_t    u8;                 /*!< Offset: 0x000 ( /W)  ITM Stimulus Port 8-bit */
+    __OM  uint16_t   u16;                /*!< Offset: 0x000 ( /W)  ITM Stimulus Port 16-bit */
+    __OM  uint32_t   u32;                /*!< Offset: 0x000 ( /W)  ITM Stimulus Port 32-bit */
+  }  PORT [32U];                         /*!< Offset: 0x000 ( /W)  ITM Stimulus Port Registers */
+        uint32_t RESERVED0[864U];
+  __IOM uint32_t TER;                    /*!< Offset: 0xE00 (R/W)  ITM Trace Enable Register */
+        uint32_t RESERVED1[15U];
+  __IOM uint32_t TPR;                    /*!< Offset: 0xE40 (R/W)  ITM Trace Privilege Register */
+        uint32_t RESERVED2[15U];
+  __IOM uint32_t TCR;                    /*!< Offset: 0xE80 (R/W)  ITM Trace Control Register */
+        uint32_t RESERVED3[32U];
+        uint32_t RESERVED4[43U];
+  __OM  uint32_t LAR;                    /*!< Offset: 0xFB0 ( /W)  ITM Lock Access Register */
+  __IM  uint32_t LSR;                    /*!< Offset: 0xFB4 (R/ )  ITM Lock Status Register */
+        uint32_t RESERVED5[1U];
+  __IM  uint32_t DEVARCH;                /*!< Offset: 0xFBC (R/ )  ITM Device Architecture Register */
+        uint32_t RESERVED6[4U];
+  __IM  uint32_t PID4;                   /*!< Offset: 0xFD0 (R/ )  ITM Peripheral Identification Register #4 */
+  __IM  uint32_t PID5;                   /*!< Offset: 0xFD4 (R/ )  ITM Peripheral Identification Register #5 */
+  __IM  uint32_t PID6;                   /*!< Offset: 0xFD8 (R/ )  ITM Peripheral Identification Register #6 */
+  __IM  uint32_t PID7;                   /*!< Offset: 0xFDC (R/ )  ITM Peripheral Identification Register #7 */
+  __IM  uint32_t PID0;                   /*!< Offset: 0xFE0 (R/ )  ITM Peripheral Identification Register #0 */
+  __IM  uint32_t PID1;                   /*!< Offset: 0xFE4 (R/ )  ITM Peripheral Identification Register #1 */
+  __IM  uint32_t PID2;                   /*!< Offset: 0xFE8 (R/ )  ITM Peripheral Identification Register #2 */
+  __IM  uint32_t PID3;                   /*!< Offset: 0xFEC (R/ )  ITM Peripheral Identification Register #3 */
+  __IM  uint32_t CID0;                   /*!< Offset: 0xFF0 (R/ )  ITM Component  Identification Register #0 */
+  __IM  uint32_t CID1;                   /*!< Offset: 0xFF4 (R/ )  ITM Component  Identification Register #1 */
+  __IM  uint32_t CID2;                   /*!< Offset: 0xFF8 (R/ )  ITM Component  Identification Register #2 */
+  __IM  uint32_t CID3;                   /*!< Offset: 0xFFC (R/ )  ITM Component  Identification Register #3 */
+} ITM_Type;
+
+/* ITM Stimulus Port Register Definitions */
+#define ITM_STIM_DISABLED_Pos               1U                                            /*!< ITM STIM: DISABLED Position */
+#define ITM_STIM_DISABLED_Msk              (0x1UL << ITM_STIM_DISABLED_Pos)               /*!< ITM STIM: DISABLED Mask */
+
+#define ITM_STIM_FIFOREADY_Pos              0U                                            /*!< ITM STIM: FIFOREADY Position */
+#define ITM_STIM_FIFOREADY_Msk             (0x1UL /*<< ITM_STIM_FIFOREADY_Pos*/)          /*!< ITM STIM: FIFOREADY Mask */
+
+/* ITM Trace Privilege Register Definitions */
+#define ITM_TPR_PRIVMASK_Pos                0U                                            /*!< ITM TPR: PRIVMASK Position */
+#define ITM_TPR_PRIVMASK_Msk               (0xFFFFFFFFUL /*<< ITM_TPR_PRIVMASK_Pos*/)     /*!< ITM TPR: PRIVMASK Mask */
+
+/* ITM Trace Control Register Definitions */
+#define ITM_TCR_BUSY_Pos                   23U                                            /*!< ITM TCR: BUSY Position */
+#define ITM_TCR_BUSY_Msk                   (1UL << ITM_TCR_BUSY_Pos)                      /*!< ITM TCR: BUSY Mask */
+
+#define ITM_TCR_TRACEBUSID_Pos             16U                                            /*!< ITM TCR: ATBID Position */
+#define ITM_TCR_TRACEBUSID_Msk             (0x7FUL << ITM_TCR_TRACEBUSID_Pos)             /*!< ITM TCR: ATBID Mask */
+
+#define ITM_TCR_GTSFREQ_Pos                10U                                            /*!< ITM TCR: Global timestamp frequency Position */
+#define ITM_TCR_GTSFREQ_Msk                (3UL << ITM_TCR_GTSFREQ_Pos)                   /*!< ITM TCR: Global timestamp frequency Mask */
+
+#define ITM_TCR_TSPRESCALE_Pos              8U                                            /*!< ITM TCR: TSPRESCALE Position */
+#define ITM_TCR_TSPRESCALE_Msk             (3UL << ITM_TCR_TSPRESCALE_Pos)                /*!< ITM TCR: TSPRESCALE Mask */
+
+#define ITM_TCR_STALLENA_Pos                5U                                            /*!< ITM TCR: STALLENA Position */
+#define ITM_TCR_STALLENA_Msk               (1UL << ITM_TCR_STALLENA_Pos)                  /*!< ITM TCR: STALLENA Mask */
+
+#define ITM_TCR_SWOENA_Pos                  4U                                            /*!< ITM TCR: SWOENA Position */
+#define ITM_TCR_SWOENA_Msk                 (1UL << ITM_TCR_SWOENA_Pos)                    /*!< ITM TCR: SWOENA Mask */
+
+#define ITM_TCR_DWTENA_Pos                  3U                                            /*!< ITM TCR: DWTENA Position */
+#define ITM_TCR_DWTENA_Msk                 (1UL << ITM_TCR_DWTENA_Pos)                    /*!< ITM TCR: DWTENA Mask */
+
+#define ITM_TCR_SYNCENA_Pos                 2U                                            /*!< ITM TCR: SYNCENA Position */
+#define ITM_TCR_SYNCENA_Msk                (1UL << ITM_TCR_SYNCENA_Pos)                   /*!< ITM TCR: SYNCENA Mask */
+
+#define ITM_TCR_TSENA_Pos                   1U                                            /*!< ITM TCR: TSENA Position */
+#define ITM_TCR_TSENA_Msk                  (1UL << ITM_TCR_TSENA_Pos)                     /*!< ITM TCR: TSENA Mask */
+
+#define ITM_TCR_ITMENA_Pos                  0U                                            /*!< ITM TCR: ITM Enable bit Position */
+#define ITM_TCR_ITMENA_Msk                 (1UL /*<< ITM_TCR_ITMENA_Pos*/)                /*!< ITM TCR: ITM Enable bit Mask */
+
+/* ITM Lock Status Register Definitions */
+#define ITM_LSR_ByteAcc_Pos                 2U                                            /*!< ITM LSR: ByteAcc Position */
+#define ITM_LSR_ByteAcc_Msk                (1UL << ITM_LSR_ByteAcc_Pos)                   /*!< ITM LSR: ByteAcc Mask */
+
+#define ITM_LSR_Access_Pos                  1U                                            /*!< ITM LSR: Access Position */
+#define ITM_LSR_Access_Msk                 (1UL << ITM_LSR_Access_Pos)                    /*!< ITM LSR: Access Mask */
+
+#define ITM_LSR_Present_Pos                 0U                                            /*!< ITM LSR: Present Position */
+#define ITM_LSR_Present_Msk                (1UL /*<< ITM_LSR_Present_Pos*/)               /*!< ITM LSR: Present Mask */
+
+/*@}*/ /* end of group CMSIS_ITM */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_DWT     Data Watchpoint and Trace (DWT)
+  \brief    Type definitions for the Data Watchpoint and Trace (DWT)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Data Watchpoint and Trace Register (DWT).
+ */
+typedef struct
+{
+  __IOM uint32_t CTRL;                   /*!< Offset: 0x000 (R/W)  Control Register */
+  __IOM uint32_t CYCCNT;                 /*!< Offset: 0x004 (R/W)  Cycle Count Register */
+  __IOM uint32_t CPICNT;                 /*!< Offset: 0x008 (R/W)  CPI Count Register */
+  __IOM uint32_t EXCCNT;                 /*!< Offset: 0x00C (R/W)  Exception Overhead Count Register */
+  __IOM uint32_t SLEEPCNT;               /*!< Offset: 0x010 (R/W)  Sleep Count Register */
+  __IOM uint32_t LSUCNT;                 /*!< Offset: 0x014 (R/W)  LSU Count Register */
+  __IOM uint32_t FOLDCNT;                /*!< Offset: 0x018 (R/W)  Folded-instruction Count Register */
+  __IM  uint32_t PCSR;                   /*!< Offset: 0x01C (R/ )  Program Counter Sample Register */
+  __IOM uint32_t COMP0;                  /*!< Offset: 0x020 (R/W)  Comparator Register 0 */
+        uint32_t RESERVED1[1U];
+  __IOM uint32_t FUNCTION0;              /*!< Offset: 0x028 (R/W)  Function Register 0 */
+        uint32_t RESERVED2[1U];
+  __IOM uint32_t COMP1;                  /*!< Offset: 0x030 (R/W)  Comparator Register 1 */
+        uint32_t RESERVED3[1U];
+  __IOM uint32_t FUNCTION1;              /*!< Offset: 0x038 (R/W)  Function Register 1 */
+        uint32_t RESERVED4[1U];
+  __IOM uint32_t COMP2;                  /*!< Offset: 0x040 (R/W)  Comparator Register 2 */
+        uint32_t RESERVED5[1U];
+  __IOM uint32_t FUNCTION2;              /*!< Offset: 0x048 (R/W)  Function Register 2 */
+        uint32_t RESERVED6[1U];
+  __IOM uint32_t COMP3;                  /*!< Offset: 0x050 (R/W)  Comparator Register 3 */
+        uint32_t RESERVED7[1U];
+  __IOM uint32_t FUNCTION3;              /*!< Offset: 0x058 (R/W)  Function Register 3 */
+        uint32_t RESERVED8[1U];
+  __IOM uint32_t COMP4;                  /*!< Offset: 0x060 (R/W)  Comparator Register 4 */
+        uint32_t RESERVED9[1U];
+  __IOM uint32_t FUNCTION4;              /*!< Offset: 0x068 (R/W)  Function Register 4 */
+        uint32_t RESERVED10[1U];
+  __IOM uint32_t COMP5;                  /*!< Offset: 0x070 (R/W)  Comparator Register 5 */
+        uint32_t RESERVED11[1U];
+  __IOM uint32_t FUNCTION5;              /*!< Offset: 0x078 (R/W)  Function Register 5 */
+        uint32_t RESERVED12[1U];
+  __IOM uint32_t COMP6;                  /*!< Offset: 0x080 (R/W)  Comparator Register 6 */
+        uint32_t RESERVED13[1U];
+  __IOM uint32_t FUNCTION6;              /*!< Offset: 0x088 (R/W)  Function Register 6 */
+        uint32_t RESERVED14[1U];
+  __IOM uint32_t COMP7;                  /*!< Offset: 0x090 (R/W)  Comparator Register 7 */
+        uint32_t RESERVED15[1U];
+  __IOM uint32_t FUNCTION7;              /*!< Offset: 0x098 (R/W)  Function Register 7 */
+        uint32_t RESERVED16[1U];
+  __IOM uint32_t COMP8;                  /*!< Offset: 0x0A0 (R/W)  Comparator Register 8 */
+        uint32_t RESERVED17[1U];
+  __IOM uint32_t FUNCTION8;              /*!< Offset: 0x0A8 (R/W)  Function Register 8 */
+        uint32_t RESERVED18[1U];
+  __IOM uint32_t COMP9;                  /*!< Offset: 0x0B0 (R/W)  Comparator Register 9 */
+        uint32_t RESERVED19[1U];
+  __IOM uint32_t FUNCTION9;              /*!< Offset: 0x0B8 (R/W)  Function Register 9 */
+        uint32_t RESERVED20[1U];
+  __IOM uint32_t COMP10;                 /*!< Offset: 0x0C0 (R/W)  Comparator Register 10 */
+        uint32_t RESERVED21[1U];
+  __IOM uint32_t FUNCTION10;             /*!< Offset: 0x0C8 (R/W)  Function Register 10 */
+        uint32_t RESERVED22[1U];
+  __IOM uint32_t COMP11;                 /*!< Offset: 0x0D0 (R/W)  Comparator Register 11 */
+        uint32_t RESERVED23[1U];
+  __IOM uint32_t FUNCTION11;             /*!< Offset: 0x0D8 (R/W)  Function Register 11 */
+        uint32_t RESERVED24[1U];
+  __IOM uint32_t COMP12;                 /*!< Offset: 0x0E0 (R/W)  Comparator Register 12 */
+        uint32_t RESERVED25[1U];
+  __IOM uint32_t FUNCTION12;             /*!< Offset: 0x0E8 (R/W)  Function Register 12 */
+        uint32_t RESERVED26[1U];
+  __IOM uint32_t COMP13;                 /*!< Offset: 0x0F0 (R/W)  Comparator Register 13 */
+        uint32_t RESERVED27[1U];
+  __IOM uint32_t FUNCTION13;             /*!< Offset: 0x0F8 (R/W)  Function Register 13 */
+        uint32_t RESERVED28[1U];
+  __IOM uint32_t COMP14;                 /*!< Offset: 0x100 (R/W)  Comparator Register 14 */
+        uint32_t RESERVED29[1U];
+  __IOM uint32_t FUNCTION14;             /*!< Offset: 0x108 (R/W)  Function Register 14 */
+        uint32_t RESERVED30[1U];
+  __IOM uint32_t COMP15;                 /*!< Offset: 0x110 (R/W)  Comparator Register 15 */
+        uint32_t RESERVED31[1U];
+  __IOM uint32_t FUNCTION15;             /*!< Offset: 0x118 (R/W)  Function Register 15 */
+        uint32_t RESERVED32[934U];
+  __IM  uint32_t LSR;                    /*!< Offset: 0xFB4 (R  )  Lock Status Register */
+        uint32_t RESERVED33[1U];
+  __IM  uint32_t DEVARCH;                /*!< Offset: 0xFBC (R/ )  Device Architecture Register */
+} DWT_Type;
+
+/* DWT Control Register Definitions */
+#define DWT_CTRL_NUMCOMP_Pos               28U                                         /*!< DWT CTRL: NUMCOMP Position */
+#define DWT_CTRL_NUMCOMP_Msk               (0xFUL << DWT_CTRL_NUMCOMP_Pos)             /*!< DWT CTRL: NUMCOMP Mask */
+
+#define DWT_CTRL_NOTRCPKT_Pos              27U                                         /*!< DWT CTRL: NOTRCPKT Position */
+#define DWT_CTRL_NOTRCPKT_Msk              (0x1UL << DWT_CTRL_NOTRCPKT_Pos)            /*!< DWT CTRL: NOTRCPKT Mask */
+
+#define DWT_CTRL_NOEXTTRIG_Pos             26U                                         /*!< DWT CTRL: NOEXTTRIG Position */
+#define DWT_CTRL_NOEXTTRIG_Msk             (0x1UL << DWT_CTRL_NOEXTTRIG_Pos)           /*!< DWT CTRL: NOEXTTRIG Mask */
+
+#define DWT_CTRL_NOCYCCNT_Pos              25U                                         /*!< DWT CTRL: NOCYCCNT Position */
+#define DWT_CTRL_NOCYCCNT_Msk              (0x1UL << DWT_CTRL_NOCYCCNT_Pos)            /*!< DWT CTRL: NOCYCCNT Mask */
+
+#define DWT_CTRL_NOPRFCNT_Pos              24U                                         /*!< DWT CTRL: NOPRFCNT Position */
+#define DWT_CTRL_NOPRFCNT_Msk              (0x1UL << DWT_CTRL_NOPRFCNT_Pos)            /*!< DWT CTRL: NOPRFCNT Mask */
+
+#define DWT_CTRL_CYCDISS_Pos               23U                                         /*!< DWT CTRL: CYCDISS Position */
+#define DWT_CTRL_CYCDISS_Msk               (0x1UL << DWT_CTRL_CYCDISS_Pos)             /*!< DWT CTRL: CYCDISS Mask */
+
+#define DWT_CTRL_CYCEVTENA_Pos             22U                                         /*!< DWT CTRL: CYCEVTENA Position */
+#define DWT_CTRL_CYCEVTENA_Msk             (0x1UL << DWT_CTRL_CYCEVTENA_Pos)           /*!< DWT CTRL: CYCEVTENA Mask */
+
+#define DWT_CTRL_FOLDEVTENA_Pos            21U                                         /*!< DWT CTRL: FOLDEVTENA Position */
+#define DWT_CTRL_FOLDEVTENA_Msk            (0x1UL << DWT_CTRL_FOLDEVTENA_Pos)          /*!< DWT CTRL: FOLDEVTENA Mask */
+
+#define DWT_CTRL_LSUEVTENA_Pos             20U                                         /*!< DWT CTRL: LSUEVTENA Position */
+#define DWT_CTRL_LSUEVTENA_Msk             (0x1UL << DWT_CTRL_LSUEVTENA_Pos)           /*!< DWT CTRL: LSUEVTENA Mask */
+
+#define DWT_CTRL_SLEEPEVTENA_Pos           19U                                         /*!< DWT CTRL: SLEEPEVTENA Position */
+#define DWT_CTRL_SLEEPEVTENA_Msk           (0x1UL << DWT_CTRL_SLEEPEVTENA_Pos)         /*!< DWT CTRL: SLEEPEVTENA Mask */
+
+#define DWT_CTRL_EXCEVTENA_Pos             18U                                         /*!< DWT CTRL: EXCEVTENA Position */
+#define DWT_CTRL_EXCEVTENA_Msk             (0x1UL << DWT_CTRL_EXCEVTENA_Pos)           /*!< DWT CTRL: EXCEVTENA Mask */
+
+#define DWT_CTRL_CPIEVTENA_Pos             17U                                         /*!< DWT CTRL: CPIEVTENA Position */
+#define DWT_CTRL_CPIEVTENA_Msk             (0x1UL << DWT_CTRL_CPIEVTENA_Pos)           /*!< DWT CTRL: CPIEVTENA Mask */
+
+#define DWT_CTRL_EXCTRCENA_Pos             16U                                         /*!< DWT CTRL: EXCTRCENA Position */
+#define DWT_CTRL_EXCTRCENA_Msk             (0x1UL << DWT_CTRL_EXCTRCENA_Pos)           /*!< DWT CTRL: EXCTRCENA Mask */
+
+#define DWT_CTRL_PCSAMPLENA_Pos            12U                                         /*!< DWT CTRL: PCSAMPLENA Position */
+#define DWT_CTRL_PCSAMPLENA_Msk            (0x1UL << DWT_CTRL_PCSAMPLENA_Pos)          /*!< DWT CTRL: PCSAMPLENA Mask */
+
+#define DWT_CTRL_SYNCTAP_Pos               10U                                         /*!< DWT CTRL: SYNCTAP Position */
+#define DWT_CTRL_SYNCTAP_Msk               (0x3UL << DWT_CTRL_SYNCTAP_Pos)             /*!< DWT CTRL: SYNCTAP Mask */
+
+#define DWT_CTRL_CYCTAP_Pos                 9U                                         /*!< DWT CTRL: CYCTAP Position */
+#define DWT_CTRL_CYCTAP_Msk                (0x1UL << DWT_CTRL_CYCTAP_Pos)              /*!< DWT CTRL: CYCTAP Mask */
+
+#define DWT_CTRL_POSTINIT_Pos               5U                                         /*!< DWT CTRL: POSTINIT Position */
+#define DWT_CTRL_POSTINIT_Msk              (0xFUL << DWT_CTRL_POSTINIT_Pos)            /*!< DWT CTRL: POSTINIT Mask */
+
+#define DWT_CTRL_POSTPRESET_Pos             1U                                         /*!< DWT CTRL: POSTPRESET Position */
+#define DWT_CTRL_POSTPRESET_Msk            (0xFUL << DWT_CTRL_POSTPRESET_Pos)          /*!< DWT CTRL: POSTPRESET Mask */
+
+#define DWT_CTRL_CYCCNTENA_Pos              0U                                         /*!< DWT CTRL: CYCCNTENA Position */
+#define DWT_CTRL_CYCCNTENA_Msk             (0x1UL /*<< DWT_CTRL_CYCCNTENA_Pos*/)       /*!< DWT CTRL: CYCCNTENA Mask */
+
+/* DWT CPI Count Register Definitions */
+#define DWT_CPICNT_CPICNT_Pos               0U                                         /*!< DWT CPICNT: CPICNT Position */
+#define DWT_CPICNT_CPICNT_Msk              (0xFFUL /*<< DWT_CPICNT_CPICNT_Pos*/)       /*!< DWT CPICNT: CPICNT Mask */
+
+/* DWT Exception Overhead Count Register Definitions */
+#define DWT_EXCCNT_EXCCNT_Pos               0U                                         /*!< DWT EXCCNT: EXCCNT Position */
+#define DWT_EXCCNT_EXCCNT_Msk              (0xFFUL /*<< DWT_EXCCNT_EXCCNT_Pos*/)       /*!< DWT EXCCNT: EXCCNT Mask */
+
+/* DWT Sleep Count Register Definitions */
+#define DWT_SLEEPCNT_SLEEPCNT_Pos           0U                                         /*!< DWT SLEEPCNT: SLEEPCNT Position */
+#define DWT_SLEEPCNT_SLEEPCNT_Msk          (0xFFUL /*<< DWT_SLEEPCNT_SLEEPCNT_Pos*/)   /*!< DWT SLEEPCNT: SLEEPCNT Mask */
+
+/* DWT LSU Count Register Definitions */
+#define DWT_LSUCNT_LSUCNT_Pos               0U                                         /*!< DWT LSUCNT: LSUCNT Position */
+#define DWT_LSUCNT_LSUCNT_Msk              (0xFFUL /*<< DWT_LSUCNT_LSUCNT_Pos*/)       /*!< DWT LSUCNT: LSUCNT Mask */
+
+/* DWT Folded-instruction Count Register Definitions */
+#define DWT_FOLDCNT_FOLDCNT_Pos             0U                                         /*!< DWT FOLDCNT: FOLDCNT Position */
+#define DWT_FOLDCNT_FOLDCNT_Msk            (0xFFUL /*<< DWT_FOLDCNT_FOLDCNT_Pos*/)     /*!< DWT FOLDCNT: FOLDCNT Mask */
+
+/* DWT Comparator Function Register Definitions */
+#define DWT_FUNCTION_ID_Pos                27U                                         /*!< DWT FUNCTION: ID Position */
+#define DWT_FUNCTION_ID_Msk                (0x1FUL << DWT_FUNCTION_ID_Pos)             /*!< DWT FUNCTION: ID Mask */
+
+#define DWT_FUNCTION_MATCHED_Pos           24U                                         /*!< DWT FUNCTION: MATCHED Position */
+#define DWT_FUNCTION_MATCHED_Msk           (0x1UL << DWT_FUNCTION_MATCHED_Pos)         /*!< DWT FUNCTION: MATCHED Mask */
+
+#define DWT_FUNCTION_DATAVSIZE_Pos         10U                                         /*!< DWT FUNCTION: DATAVSIZE Position */
+#define DWT_FUNCTION_DATAVSIZE_Msk         (0x3UL << DWT_FUNCTION_DATAVSIZE_Pos)       /*!< DWT FUNCTION: DATAVSIZE Mask */
+
+#define DWT_FUNCTION_ACTION_Pos             4U                                         /*!< DWT FUNCTION: ACTION Position */
+#define DWT_FUNCTION_ACTION_Msk            (0x1UL << DWT_FUNCTION_ACTION_Pos)          /*!< DWT FUNCTION: ACTION Mask */
+
+#define DWT_FUNCTION_MATCH_Pos              0U                                         /*!< DWT FUNCTION: MATCH Position */
+#define DWT_FUNCTION_MATCH_Msk             (0xFUL /*<< DWT_FUNCTION_MATCH_Pos*/)       /*!< DWT FUNCTION: MATCH Mask */
+
+/*@}*/ /* end of group CMSIS_DWT */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_TPI     Trace Port Interface (TPI)
+  \brief    Type definitions for the Trace Port Interface (TPI)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Trace Port Interface Register (TPI).
+ */
+typedef struct
+{
+  __IM  uint32_t SSPSR;                  /*!< Offset: 0x000 (R/ )  Supported Parallel Port Size Register */
+  __IOM uint32_t CSPSR;                  /*!< Offset: 0x004 (R/W)  Current Parallel Port Size Register */
+        uint32_t RESERVED0[2U];
+  __IOM uint32_t ACPR;                   /*!< Offset: 0x010 (R/W)  Asynchronous Clock Prescaler Register */
+        uint32_t RESERVED1[55U];
+  __IOM uint32_t SPPR;                   /*!< Offset: 0x0F0 (R/W)  Selected Pin Protocol Register */
+        uint32_t RESERVED2[131U];
+  __IM  uint32_t FFSR;                   /*!< Offset: 0x300 (R/ )  Formatter and Flush Status Register */
+  __IOM uint32_t FFCR;                   /*!< Offset: 0x304 (R/W)  Formatter and Flush Control Register */
+  __IOM uint32_t PSCR;                   /*!< Offset: 0x308 (R/W)  Periodic Synchronization Control Register */
+        uint32_t RESERVED3[759U];
+  __IM  uint32_t TRIGGER;                /*!< Offset: 0xEE8 (R/ )  TRIGGER Register */
+  __IM  uint32_t ITFTTD0;                /*!< Offset: 0xEEC (R/ )  Integration Test FIFO Test Data 0 Register */
+  __IOM uint32_t ITATBCTR2;              /*!< Offset: 0xEF0 (R/W)  Integration Test ATB Control Register 2 */
+        uint32_t RESERVED4[1U];
+  __IM  uint32_t ITATBCTR0;              /*!< Offset: 0xEF8 (R/ )  Integration Test ATB Control Register 0 */
+  __IM  uint32_t ITFTTD1;                /*!< Offset: 0xEFC (R/ )  Integration Test FIFO Test Data 1 Register */
+  __IOM uint32_t ITCTRL;                 /*!< Offset: 0xF00 (R/W)  Integration Mode Control */
+        uint32_t RESERVED5[39U];
+  __IOM uint32_t CLAIMSET;               /*!< Offset: 0xFA0 (R/W)  Claim tag set */
+  __IOM uint32_t CLAIMCLR;               /*!< Offset: 0xFA4 (R/W)  Claim tag clear */
+        uint32_t RESERVED7[8U];
+  __IM  uint32_t DEVID;                  /*!< Offset: 0xFC8 (R/ )  Device Configuration Register */
+  __IM  uint32_t DEVTYPE;                /*!< Offset: 0xFCC (R/ )  Device Type Identifier Register */
+} TPI_Type;
+
+/* TPI Asynchronous Clock Prescaler Register Definitions */
+#define TPI_ACPR_PRESCALER_Pos              0U                                         /*!< TPI ACPR: PRESCALER Position */
+#define TPI_ACPR_PRESCALER_Msk             (0x1FFFUL /*<< TPI_ACPR_PRESCALER_Pos*/)    /*!< TPI ACPR: PRESCALER Mask */
+
+/* TPI Selected Pin Protocol Register Definitions */
+#define TPI_SPPR_TXMODE_Pos                 0U                                         /*!< TPI SPPR: TXMODE Position */
+#define TPI_SPPR_TXMODE_Msk                (0x3UL /*<< TPI_SPPR_TXMODE_Pos*/)          /*!< TPI SPPR: TXMODE Mask */
+
+/* TPI Formatter and Flush Status Register Definitions */
+#define TPI_FFSR_FtNonStop_Pos              3U                                         /*!< TPI FFSR: FtNonStop Position */
+#define TPI_FFSR_FtNonStop_Msk             (0x1UL << TPI_FFSR_FtNonStop_Pos)           /*!< TPI FFSR: FtNonStop Mask */
+
+#define TPI_FFSR_TCPresent_Pos              2U                                         /*!< TPI FFSR: TCPresent Position */
+#define TPI_FFSR_TCPresent_Msk             (0x1UL << TPI_FFSR_TCPresent_Pos)           /*!< TPI FFSR: TCPresent Mask */
+
+#define TPI_FFSR_FtStopped_Pos              1U                                         /*!< TPI FFSR: FtStopped Position */
+#define TPI_FFSR_FtStopped_Msk             (0x1UL << TPI_FFSR_FtStopped_Pos)           /*!< TPI FFSR: FtStopped Mask */
+
+#define TPI_FFSR_FlInProg_Pos               0U                                         /*!< TPI FFSR: FlInProg Position */
+#define TPI_FFSR_FlInProg_Msk              (0x1UL /*<< TPI_FFSR_FlInProg_Pos*/)        /*!< TPI FFSR: FlInProg Mask */
+
+/* TPI Formatter and Flush Control Register Definitions */
+#define TPI_FFCR_TrigIn_Pos                 8U                                         /*!< TPI FFCR: TrigIn Position */
+#define TPI_FFCR_TrigIn_Msk                (0x1UL << TPI_FFCR_TrigIn_Pos)              /*!< TPI FFCR: TrigIn Mask */
+
+#define TPI_FFCR_FOnMan_Pos                 6U                                         /*!< TPI FFCR: FOnMan Position */
+#define TPI_FFCR_FOnMan_Msk                (0x1UL << TPI_FFCR_FOnMan_Pos)              /*!< TPI FFCR: FOnMan Mask */
+
+#define TPI_FFCR_EnFCont_Pos                1U                                         /*!< TPI FFCR: EnFCont Position */
+#define TPI_FFCR_EnFCont_Msk               (0x1UL << TPI_FFCR_EnFCont_Pos)             /*!< TPI FFCR: EnFCont Mask */
+
+/* TPI TRIGGER Register Definitions */
+#define TPI_TRIGGER_TRIGGER_Pos             0U                                         /*!< TPI TRIGGER: TRIGGER Position */
+#define TPI_TRIGGER_TRIGGER_Msk            (0x1UL /*<< TPI_TRIGGER_TRIGGER_Pos*/)      /*!< TPI TRIGGER: TRIGGER Mask */
+
+/* TPI Integration Test FIFO Test Data 0 Register Definitions */
+#define TPI_ITFTTD0_ATB_IF2_ATVALID_Pos    29U                                         /*!< TPI ITFTTD0: ATB Interface 2 ATVALIDPosition */
+#define TPI_ITFTTD0_ATB_IF2_ATVALID_Msk    (0x3UL << TPI_ITFTTD0_ATB_IF2_ATVALID_Pos)  /*!< TPI ITFTTD0: ATB Interface 2 ATVALID Mask */
+
+#define TPI_ITFTTD0_ATB_IF2_bytecount_Pos  27U                                         /*!< TPI ITFTTD0: ATB Interface 2 byte count Position */
+#define TPI_ITFTTD0_ATB_IF2_bytecount_Msk  (0x3UL << TPI_ITFTTD0_ATB_IF2_bytecount_Pos) /*!< TPI ITFTTD0: ATB Interface 2 byte count Mask */
+
+#define TPI_ITFTTD0_ATB_IF1_ATVALID_Pos    26U                                         /*!< TPI ITFTTD0: ATB Interface 1 ATVALID Position */
+#define TPI_ITFTTD0_ATB_IF1_ATVALID_Msk    (0x3UL << TPI_ITFTTD0_ATB_IF1_ATVALID_Pos)  /*!< TPI ITFTTD0: ATB Interface 1 ATVALID Mask */
+
+#define TPI_ITFTTD0_ATB_IF1_bytecount_Pos  24U                                         /*!< TPI ITFTTD0: ATB Interface 1 byte count Position */
+#define TPI_ITFTTD0_ATB_IF1_bytecount_Msk  (0x3UL << TPI_ITFTTD0_ATB_IF1_bytecount_Pos) /*!< TPI ITFTTD0: ATB Interface 1 byte countt Mask */
+
+#define TPI_ITFTTD0_ATB_IF1_data2_Pos      16U                                         /*!< TPI ITFTTD0: ATB Interface 1 data2 Position */
+#define TPI_ITFTTD0_ATB_IF1_data2_Msk      (0xFFUL << TPI_ITFTTD0_ATB_IF1_data1_Pos)   /*!< TPI ITFTTD0: ATB Interface 1 data2 Mask */
+
+#define TPI_ITFTTD0_ATB_IF1_data1_Pos       8U                                         /*!< TPI ITFTTD0: ATB Interface 1 data1 Position */
+#define TPI_ITFTTD0_ATB_IF1_data1_Msk      (0xFFUL << TPI_ITFTTD0_ATB_IF1_data1_Pos)   /*!< TPI ITFTTD0: ATB Interface 1 data1 Mask */
+
+#define TPI_ITFTTD0_ATB_IF1_data0_Pos       0U                                          /*!< TPI ITFTTD0: ATB Interface 1 data0 Position */
+#define TPI_ITFTTD0_ATB_IF1_data0_Msk      (0xFFUL /*<< TPI_ITFTTD0_ATB_IF1_data0_Pos*/) /*!< TPI ITFTTD0: ATB Interface 1 data0 Mask */
+
+/* TPI Integration Test ATB Control Register 2 Register Definitions */
+#define TPI_ITATBCTR2_AFVALID2S_Pos         1U                                         /*!< TPI ITATBCTR2: AFVALID2S Position */
+#define TPI_ITATBCTR2_AFVALID2S_Msk        (0x1UL << TPI_ITATBCTR2_AFVALID2S_Pos)      /*!< TPI ITATBCTR2: AFVALID2SS Mask */
+
+#define TPI_ITATBCTR2_AFVALID1S_Pos         1U                                         /*!< TPI ITATBCTR2: AFVALID1S Position */
+#define TPI_ITATBCTR2_AFVALID1S_Msk        (0x1UL << TPI_ITATBCTR2_AFVALID1S_Pos)      /*!< TPI ITATBCTR2: AFVALID1SS Mask */
+
+#define TPI_ITATBCTR2_ATREADY2S_Pos         0U                                         /*!< TPI ITATBCTR2: ATREADY2S Position */
+#define TPI_ITATBCTR2_ATREADY2S_Msk        (0x1UL /*<< TPI_ITATBCTR2_ATREADY2S_Pos*/)  /*!< TPI ITATBCTR2: ATREADY2S Mask */
+
+#define TPI_ITATBCTR2_ATREADY1S_Pos         0U                                         /*!< TPI ITATBCTR2: ATREADY1S Position */
+#define TPI_ITATBCTR2_ATREADY1S_Msk        (0x1UL /*<< TPI_ITATBCTR2_ATREADY1S_Pos*/)  /*!< TPI ITATBCTR2: ATREADY1S Mask */
+
+/* TPI Integration Test FIFO Test Data 1 Register Definitions */
+#define TPI_ITFTTD1_ATB_IF2_ATVALID_Pos    29U                                         /*!< TPI ITFTTD1: ATB Interface 2 ATVALID Position */
+#define TPI_ITFTTD1_ATB_IF2_ATVALID_Msk    (0x3UL << TPI_ITFTTD1_ATB_IF2_ATVALID_Pos)  /*!< TPI ITFTTD1: ATB Interface 2 ATVALID Mask */
+
+#define TPI_ITFTTD1_ATB_IF2_bytecount_Pos  27U                                         /*!< TPI ITFTTD1: ATB Interface 2 byte count Position */
+#define TPI_ITFTTD1_ATB_IF2_bytecount_Msk  (0x3UL << TPI_ITFTTD1_ATB_IF2_bytecount_Pos) /*!< TPI ITFTTD1: ATB Interface 2 byte count Mask */
+
+#define TPI_ITFTTD1_ATB_IF1_ATVALID_Pos    26U                                         /*!< TPI ITFTTD1: ATB Interface 1 ATVALID Position */
+#define TPI_ITFTTD1_ATB_IF1_ATVALID_Msk    (0x3UL << TPI_ITFTTD1_ATB_IF1_ATVALID_Pos)  /*!< TPI ITFTTD1: ATB Interface 1 ATVALID Mask */
+
+#define TPI_ITFTTD1_ATB_IF1_bytecount_Pos  24U                                         /*!< TPI ITFTTD1: ATB Interface 1 byte count Position */
+#define TPI_ITFTTD1_ATB_IF1_bytecount_Msk  (0x3UL << TPI_ITFTTD1_ATB_IF1_bytecount_Pos) /*!< TPI ITFTTD1: ATB Interface 1 byte countt Mask */
+
+#define TPI_ITFTTD1_ATB_IF2_data2_Pos      16U                                         /*!< TPI ITFTTD1: ATB Interface 2 data2 Position */
+#define TPI_ITFTTD1_ATB_IF2_data2_Msk      (0xFFUL << TPI_ITFTTD1_ATB_IF2_data1_Pos)   /*!< TPI ITFTTD1: ATB Interface 2 data2 Mask */
+
+#define TPI_ITFTTD1_ATB_IF2_data1_Pos       8U                                         /*!< TPI ITFTTD1: ATB Interface 2 data1 Position */
+#define TPI_ITFTTD1_ATB_IF2_data1_Msk      (0xFFUL << TPI_ITFTTD1_ATB_IF2_data1_Pos)   /*!< TPI ITFTTD1: ATB Interface 2 data1 Mask */
+
+#define TPI_ITFTTD1_ATB_IF2_data0_Pos       0U                                          /*!< TPI ITFTTD1: ATB Interface 2 data0 Position */
+#define TPI_ITFTTD1_ATB_IF2_data0_Msk      (0xFFUL /*<< TPI_ITFTTD1_ATB_IF2_data0_Pos*/) /*!< TPI ITFTTD1: ATB Interface 2 data0 Mask */
+
+/* TPI Integration Test ATB Control Register 0 Definitions */
+#define TPI_ITATBCTR0_AFVALID2S_Pos         1U                                         /*!< TPI ITATBCTR0: AFVALID2S Position */
+#define TPI_ITATBCTR0_AFVALID2S_Msk        (0x1UL << TPI_ITATBCTR0_AFVALID2S_Pos)      /*!< TPI ITATBCTR0: AFVALID2SS Mask */
+
+#define TPI_ITATBCTR0_AFVALID1S_Pos         1U                                         /*!< TPI ITATBCTR0: AFVALID1S Position */
+#define TPI_ITATBCTR0_AFVALID1S_Msk        (0x1UL << TPI_ITATBCTR0_AFVALID1S_Pos)      /*!< TPI ITATBCTR0: AFVALID1SS Mask */
+
+#define TPI_ITATBCTR0_ATREADY2S_Pos         0U                                         /*!< TPI ITATBCTR0: ATREADY2S Position */
+#define TPI_ITATBCTR0_ATREADY2S_Msk        (0x1UL /*<< TPI_ITATBCTR0_ATREADY2S_Pos*/)  /*!< TPI ITATBCTR0: ATREADY2S Mask */
+
+#define TPI_ITATBCTR0_ATREADY1S_Pos         0U                                         /*!< TPI ITATBCTR0: ATREADY1S Position */
+#define TPI_ITATBCTR0_ATREADY1S_Msk        (0x1UL /*<< TPI_ITATBCTR0_ATREADY1S_Pos*/)  /*!< TPI ITATBCTR0: ATREADY1S Mask */
+
+/* TPI Integration Mode Control Register Definitions */
+#define TPI_ITCTRL_Mode_Pos                 0U                                         /*!< TPI ITCTRL: Mode Position */
+#define TPI_ITCTRL_Mode_Msk                (0x3UL /*<< TPI_ITCTRL_Mode_Pos*/)          /*!< TPI ITCTRL: Mode Mask */
+
+/* TPI DEVID Register Definitions */
+#define TPI_DEVID_NRZVALID_Pos             11U                                         /*!< TPI DEVID: NRZVALID Position */
+#define TPI_DEVID_NRZVALID_Msk             (0x1UL << TPI_DEVID_NRZVALID_Pos)           /*!< TPI DEVID: NRZVALID Mask */
+
+#define TPI_DEVID_MANCVALID_Pos            10U                                         /*!< TPI DEVID: MANCVALID Position */
+#define TPI_DEVID_MANCVALID_Msk            (0x1UL << TPI_DEVID_MANCVALID_Pos)          /*!< TPI DEVID: MANCVALID Mask */
+
+#define TPI_DEVID_PTINVALID_Pos             9U                                         /*!< TPI DEVID: PTINVALID Position */
+#define TPI_DEVID_PTINVALID_Msk            (0x1UL << TPI_DEVID_PTINVALID_Pos)          /*!< TPI DEVID: PTINVALID Mask */
+
+#define TPI_DEVID_FIFOSZ_Pos                6U                                         /*!< TPI DEVID: FIFOSZ Position */
+#define TPI_DEVID_FIFOSZ_Msk               (0x7UL << TPI_DEVID_FIFOSZ_Pos)             /*!< TPI DEVID: FIFOSZ Mask */
+
+#define TPI_DEVID_NrTraceInput_Pos          0U                                         /*!< TPI DEVID: NrTraceInput Position */
+#define TPI_DEVID_NrTraceInput_Msk         (0x3FUL /*<< TPI_DEVID_NrTraceInput_Pos*/)  /*!< TPI DEVID: NrTraceInput Mask */
+
+/* TPI DEVTYPE Register Definitions */
+#define TPI_DEVTYPE_SubType_Pos             4U                                         /*!< TPI DEVTYPE: SubType Position */
+#define TPI_DEVTYPE_SubType_Msk            (0xFUL /*<< TPI_DEVTYPE_SubType_Pos*/)      /*!< TPI DEVTYPE: SubType Mask */
+
+#define TPI_DEVTYPE_MajorType_Pos           0U                                         /*!< TPI DEVTYPE: MajorType Position */
+#define TPI_DEVTYPE_MajorType_Msk          (0xFUL << TPI_DEVTYPE_MajorType_Pos)        /*!< TPI DEVTYPE: MajorType Mask */
+
+/*@}*/ /* end of group CMSIS_TPI */
+
+
+#if defined (__MPU_PRESENT) && (__MPU_PRESENT == 1U)
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_MPU     Memory Protection Unit (MPU)
+  \brief    Type definitions for the Memory Protection Unit (MPU)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Memory Protection Unit (MPU).
+ */
+typedef struct
+{
+  __IM  uint32_t TYPE;                   /*!< Offset: 0x000 (R/ )  MPU Type Register */
+  __IOM uint32_t CTRL;                   /*!< Offset: 0x004 (R/W)  MPU Control Register */
+  __IOM uint32_t RNR;                    /*!< Offset: 0x008 (R/W)  MPU Region Number Register */
+  __IOM uint32_t RBAR;                   /*!< Offset: 0x00C (R/W)  MPU Region Base Address Register */
+  __IOM uint32_t RLAR;                   /*!< Offset: 0x010 (R/W)  MPU Region Limit Address Register */
+  __IOM uint32_t RBAR_A1;                /*!< Offset: 0x014 (R/W)  MPU Region Base Address Register Alias 1 */
+  __IOM uint32_t RLAR_A1;                /*!< Offset: 0x018 (R/W)  MPU Region Limit Address Register Alias 1 */
+  __IOM uint32_t RBAR_A2;                /*!< Offset: 0x01C (R/W)  MPU Region Base Address Register Alias 2 */
+  __IOM uint32_t RLAR_A2;                /*!< Offset: 0x020 (R/W)  MPU Region Limit Address Register Alias 2 */
+  __IOM uint32_t RBAR_A3;                /*!< Offset: 0x024 (R/W)  MPU Region Base Address Register Alias 3 */
+  __IOM uint32_t RLAR_A3;                /*!< Offset: 0x028 (R/W)  MPU Region Limit Address Register Alias 3 */
+        uint32_t RESERVED0[1];
+  union {
+  __IOM uint32_t MAIR[2];
+  struct {
+  __IOM uint32_t MAIR0;                  /*!< Offset: 0x030 (R/W)  MPU Memory Attribute Indirection Register 0 */
+  __IOM uint32_t MAIR1;                  /*!< Offset: 0x034 (R/W)  MPU Memory Attribute Indirection Register 1 */
+  };
+  };
+} MPU_Type;
+
+#define MPU_TYPE_RALIASES                  4U
+
+/* MPU Type Register Definitions */
+#define MPU_TYPE_IREGION_Pos               16U                                            /*!< MPU TYPE: IREGION Position */
+#define MPU_TYPE_IREGION_Msk               (0xFFUL << MPU_TYPE_IREGION_Pos)               /*!< MPU TYPE: IREGION Mask */
+
+#define MPU_TYPE_DREGION_Pos                8U                                            /*!< MPU TYPE: DREGION Position */
+#define MPU_TYPE_DREGION_Msk               (0xFFUL << MPU_TYPE_DREGION_Pos)               /*!< MPU TYPE: DREGION Mask */
+
+#define MPU_TYPE_SEPARATE_Pos               0U                                            /*!< MPU TYPE: SEPARATE Position */
+#define MPU_TYPE_SEPARATE_Msk              (1UL /*<< MPU_TYPE_SEPARATE_Pos*/)             /*!< MPU TYPE: SEPARATE Mask */
+
+/* MPU Control Register Definitions */
+#define MPU_CTRL_PRIVDEFENA_Pos             2U                                            /*!< MPU CTRL: PRIVDEFENA Position */
+#define MPU_CTRL_PRIVDEFENA_Msk            (1UL << MPU_CTRL_PRIVDEFENA_Pos)               /*!< MPU CTRL: PRIVDEFENA Mask */
+
+#define MPU_CTRL_HFNMIENA_Pos               1U                                            /*!< MPU CTRL: HFNMIENA Position */
+#define MPU_CTRL_HFNMIENA_Msk              (1UL << MPU_CTRL_HFNMIENA_Pos)                 /*!< MPU CTRL: HFNMIENA Mask */
+
+#define MPU_CTRL_ENABLE_Pos                 0U                                            /*!< MPU CTRL: ENABLE Position */
+#define MPU_CTRL_ENABLE_Msk                (1UL /*<< MPU_CTRL_ENABLE_Pos*/)               /*!< MPU CTRL: ENABLE Mask */
+
+/* MPU Region Number Register Definitions */
+#define MPU_RNR_REGION_Pos                  0U                                            /*!< MPU RNR: REGION Position */
+#define MPU_RNR_REGION_Msk                 (0xFFUL /*<< MPU_RNR_REGION_Pos*/)             /*!< MPU RNR: REGION Mask */
+
+/* MPU Region Base Address Register Definitions */
+#define MPU_RBAR_BASE_Pos                   5U                                            /*!< MPU RBAR: BASE Position */
+#define MPU_RBAR_BASE_Msk                  (0x7FFFFFFUL << MPU_RBAR_BASE_Pos)             /*!< MPU RBAR: BASE Mask */
+
+#define MPU_RBAR_SH_Pos                     3U                                            /*!< MPU RBAR: SH Position */
+#define MPU_RBAR_SH_Msk                    (0x3UL << MPU_RBAR_SH_Pos)                     /*!< MPU RBAR: SH Mask */
+
+#define MPU_RBAR_AP_Pos                     1U                                            /*!< MPU RBAR: AP Position */
+#define MPU_RBAR_AP_Msk                    (0x3UL << MPU_RBAR_AP_Pos)                     /*!< MPU RBAR: AP Mask */
+
+#define MPU_RBAR_XN_Pos                     0U                                            /*!< MPU RBAR: XN Position */
+#define MPU_RBAR_XN_Msk                    (01UL /*<< MPU_RBAR_XN_Pos*/)                  /*!< MPU RBAR: XN Mask */
+
+/* MPU Region Limit Address Register Definitions */
+#define MPU_RLAR_LIMIT_Pos                  5U                                            /*!< MPU RLAR: LIMIT Position */
+#define MPU_RLAR_LIMIT_Msk                 (0x7FFFFFFUL << MPU_RLAR_LIMIT_Pos)            /*!< MPU RLAR: LIMIT Mask */
+
+#define MPU_RLAR_AttrIndx_Pos               1U                                            /*!< MPU RLAR: AttrIndx Position */
+#define MPU_RLAR_AttrIndx_Msk              (0x7UL << MPU_RLAR_AttrIndx_Pos)               /*!< MPU RLAR: AttrIndx Mask */
+
+#define MPU_RLAR_EN_Pos                     0U                                            /*!< MPU RLAR: Region enable bit Position */
+#define MPU_RLAR_EN_Msk                    (1UL /*<< MPU_RLAR_EN_Pos*/)                   /*!< MPU RLAR: Region enable bit Disable Mask */
+
+/* MPU Memory Attribute Indirection Register 0 Definitions */
+#define MPU_MAIR0_Attr3_Pos                24U                                            /*!< MPU MAIR0: Attr3 Position */
+#define MPU_MAIR0_Attr3_Msk                (0xFFUL << MPU_MAIR0_Attr3_Pos)                /*!< MPU MAIR0: Attr3 Mask */
+
+#define MPU_MAIR0_Attr2_Pos                16U                                            /*!< MPU MAIR0: Attr2 Position */
+#define MPU_MAIR0_Attr2_Msk                (0xFFUL << MPU_MAIR0_Attr2_Pos)                /*!< MPU MAIR0: Attr2 Mask */
+
+#define MPU_MAIR0_Attr1_Pos                 8U                                            /*!< MPU MAIR0: Attr1 Position */
+#define MPU_MAIR0_Attr1_Msk                (0xFFUL << MPU_MAIR0_Attr1_Pos)                /*!< MPU MAIR0: Attr1 Mask */
+
+#define MPU_MAIR0_Attr0_Pos                 0U                                            /*!< MPU MAIR0: Attr0 Position */
+#define MPU_MAIR0_Attr0_Msk                (0xFFUL /*<< MPU_MAIR0_Attr0_Pos*/)            /*!< MPU MAIR0: Attr0 Mask */
+
+/* MPU Memory Attribute Indirection Register 1 Definitions */
+#define MPU_MAIR1_Attr7_Pos                24U                                            /*!< MPU MAIR1: Attr7 Position */
+#define MPU_MAIR1_Attr7_Msk                (0xFFUL << MPU_MAIR1_Attr7_Pos)                /*!< MPU MAIR1: Attr7 Mask */
+
+#define MPU_MAIR1_Attr6_Pos                16U                                            /*!< MPU MAIR1: Attr6 Position */
+#define MPU_MAIR1_Attr6_Msk                (0xFFUL << MPU_MAIR1_Attr6_Pos)                /*!< MPU MAIR1: Attr6 Mask */
+
+#define MPU_MAIR1_Attr5_Pos                 8U                                            /*!< MPU MAIR1: Attr5 Position */
+#define MPU_MAIR1_Attr5_Msk                (0xFFUL << MPU_MAIR1_Attr5_Pos)                /*!< MPU MAIR1: Attr5 Mask */
+
+#define MPU_MAIR1_Attr4_Pos                 0U                                            /*!< MPU MAIR1: Attr4 Position */
+#define MPU_MAIR1_Attr4_Msk                (0xFFUL /*<< MPU_MAIR1_Attr4_Pos*/)            /*!< MPU MAIR1: Attr4 Mask */
+
+/*@} end of group CMSIS_MPU */
+#endif
+
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_SAU     Security Attribution Unit (SAU)
+  \brief    Type definitions for the Security Attribution Unit (SAU)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Security Attribution Unit (SAU).
+ */
+typedef struct
+{
+  __IOM uint32_t CTRL;                   /*!< Offset: 0x000 (R/W)  SAU Control Register */
+  __IM  uint32_t TYPE;                   /*!< Offset: 0x004 (R/ )  SAU Type Register */
+#if defined (__SAUREGION_PRESENT) && (__SAUREGION_PRESENT == 1U)
+  __IOM uint32_t RNR;                    /*!< Offset: 0x008 (R/W)  SAU Region Number Register */
+  __IOM uint32_t RBAR;                   /*!< Offset: 0x00C (R/W)  SAU Region Base Address Register */
+  __IOM uint32_t RLAR;                   /*!< Offset: 0x010 (R/W)  SAU Region Limit Address Register */
+#else
+        uint32_t RESERVED0[3];
+#endif
+  __IOM uint32_t SFSR;                   /*!< Offset: 0x014 (R/W)  Secure Fault Status Register */
+  __IOM uint32_t SFAR;                   /*!< Offset: 0x018 (R/W)  Secure Fault Address Register */
+} SAU_Type;
+
+/* SAU Control Register Definitions */
+#define SAU_CTRL_ALLNS_Pos                  1U                                            /*!< SAU CTRL: ALLNS Position */
+#define SAU_CTRL_ALLNS_Msk                 (1UL << SAU_CTRL_ALLNS_Pos)                    /*!< SAU CTRL: ALLNS Mask */
+
+#define SAU_CTRL_ENABLE_Pos                 0U                                            /*!< SAU CTRL: ENABLE Position */
+#define SAU_CTRL_ENABLE_Msk                (1UL /*<< SAU_CTRL_ENABLE_Pos*/)               /*!< SAU CTRL: ENABLE Mask */
+
+/* SAU Type Register Definitions */
+#define SAU_TYPE_SREGION_Pos                0U                                            /*!< SAU TYPE: SREGION Position */
+#define SAU_TYPE_SREGION_Msk               (0xFFUL /*<< SAU_TYPE_SREGION_Pos*/)           /*!< SAU TYPE: SREGION Mask */
+
+#if defined (__SAUREGION_PRESENT) && (__SAUREGION_PRESENT == 1U)
+/* SAU Region Number Register Definitions */
+#define SAU_RNR_REGION_Pos                  0U                                            /*!< SAU RNR: REGION Position */
+#define SAU_RNR_REGION_Msk                 (0xFFUL /*<< SAU_RNR_REGION_Pos*/)             /*!< SAU RNR: REGION Mask */
+
+/* SAU Region Base Address Register Definitions */
+#define SAU_RBAR_BADDR_Pos                  5U                                            /*!< SAU RBAR: BADDR Position */
+#define SAU_RBAR_BADDR_Msk                 (0x7FFFFFFUL << SAU_RBAR_BADDR_Pos)            /*!< SAU RBAR: BADDR Mask */
+
+/* SAU Region Limit Address Register Definitions */
+#define SAU_RLAR_LADDR_Pos                  5U                                            /*!< SAU RLAR: LADDR Position */
+#define SAU_RLAR_LADDR_Msk                 (0x7FFFFFFUL << SAU_RLAR_LADDR_Pos)            /*!< SAU RLAR: LADDR Mask */
+
+#define SAU_RLAR_NSC_Pos                    1U                                            /*!< SAU RLAR: NSC Position */
+#define SAU_RLAR_NSC_Msk                   (1UL << SAU_RLAR_NSC_Pos)                      /*!< SAU RLAR: NSC Mask */
+
+#define SAU_RLAR_ENABLE_Pos                 0U                                            /*!< SAU RLAR: ENABLE Position */
+#define SAU_RLAR_ENABLE_Msk                (1UL /*<< SAU_RLAR_ENABLE_Pos*/)               /*!< SAU RLAR: ENABLE Mask */
+
+#endif /* defined (__SAUREGION_PRESENT) && (__SAUREGION_PRESENT == 1U) */
+
+/* Secure Fault Status Register Definitions */
+#define SAU_SFSR_LSERR_Pos                  7U                                            /*!< SAU SFSR: LSERR Position */
+#define SAU_SFSR_LSERR_Msk                 (1UL << SAU_SFSR_LSERR_Pos)                    /*!< SAU SFSR: LSERR Mask */
+
+#define SAU_SFSR_SFARVALID_Pos              6U                                            /*!< SAU SFSR: SFARVALID Position */
+#define SAU_SFSR_SFARVALID_Msk             (1UL << SAU_SFSR_SFARVALID_Pos)                /*!< SAU SFSR: SFARVALID Mask */
+
+#define SAU_SFSR_LSPERR_Pos                 5U                                            /*!< SAU SFSR: LSPERR Position */
+#define SAU_SFSR_LSPERR_Msk                (1UL << SAU_SFSR_LSPERR_Pos)                   /*!< SAU SFSR: LSPERR Mask */
+
+#define SAU_SFSR_INVTRAN_Pos                4U                                            /*!< SAU SFSR: INVTRAN Position */
+#define SAU_SFSR_INVTRAN_Msk               (1UL << SAU_SFSR_INVTRAN_Pos)                  /*!< SAU SFSR: INVTRAN Mask */
+
+#define SAU_SFSR_AUVIOL_Pos                 3U                                            /*!< SAU SFSR: AUVIOL Position */
+#define SAU_SFSR_AUVIOL_Msk                (1UL << SAU_SFSR_AUVIOL_Pos)                   /*!< SAU SFSR: AUVIOL Mask */
+
+#define SAU_SFSR_INVER_Pos                  2U                                            /*!< SAU SFSR: INVER Position */
+#define SAU_SFSR_INVER_Msk                 (1UL << SAU_SFSR_INVER_Pos)                    /*!< SAU SFSR: INVER Mask */
+
+#define SAU_SFSR_INVIS_Pos                  1U                                            /*!< SAU SFSR: INVIS Position */
+#define SAU_SFSR_INVIS_Msk                 (1UL << SAU_SFSR_INVIS_Pos)                    /*!< SAU SFSR: INVIS Mask */
+
+#define SAU_SFSR_INVEP_Pos                  0U                                            /*!< SAU SFSR: INVEP Position */
+#define SAU_SFSR_INVEP_Msk                 (1UL /*<< SAU_SFSR_INVEP_Pos*/)                /*!< SAU SFSR: INVEP Mask */
+
+/*@} end of group CMSIS_SAU */
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_FPU     Floating Point Unit (FPU)
+  \brief    Type definitions for the Floating Point Unit (FPU)
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Floating Point Unit (FPU).
+ */
+typedef struct
+{
+        uint32_t RESERVED0[1U];
+  __IOM uint32_t FPCCR;                  /*!< Offset: 0x004 (R/W)  Floating-Point Context Control Register */
+  __IOM uint32_t FPCAR;                  /*!< Offset: 0x008 (R/W)  Floating-Point Context Address Register */
+  __IOM uint32_t FPDSCR;                 /*!< Offset: 0x00C (R/W)  Floating-Point Default Status Control Register */
+  __IM  uint32_t MVFR0;                  /*!< Offset: 0x010 (R/ )  Media and VFP Feature Register 0 */
+  __IM  uint32_t MVFR1;                  /*!< Offset: 0x014 (R/ )  Media and VFP Feature Register 1 */
+  __IM  uint32_t MVFR2;                  /*!< Offset: 0x018 (R/ )  Media and VFP Feature Register 2 */
+} FPU_Type;
+
+/* Floating-Point Context Control Register Definitions */
+#define FPU_FPCCR_ASPEN_Pos                31U                                            /*!< FPCCR: ASPEN bit Position */
+#define FPU_FPCCR_ASPEN_Msk                (1UL << FPU_FPCCR_ASPEN_Pos)                   /*!< FPCCR: ASPEN bit Mask */
+
+#define FPU_FPCCR_LSPEN_Pos                30U                                            /*!< FPCCR: LSPEN Position */
+#define FPU_FPCCR_LSPEN_Msk                (1UL << FPU_FPCCR_LSPEN_Pos)                   /*!< FPCCR: LSPEN bit Mask */
+
+#define FPU_FPCCR_LSPENS_Pos               29U                                            /*!< FPCCR: LSPENS Position */
+#define FPU_FPCCR_LSPENS_Msk               (1UL << FPU_FPCCR_LSPENS_Pos)                  /*!< FPCCR: LSPENS bit Mask */
+
+#define FPU_FPCCR_CLRONRET_Pos             28U                                            /*!< FPCCR: CLRONRET Position */
+#define FPU_FPCCR_CLRONRET_Msk             (1UL << FPU_FPCCR_CLRONRET_Pos)                /*!< FPCCR: CLRONRET bit Mask */
+
+#define FPU_FPCCR_CLRONRETS_Pos            27U                                            /*!< FPCCR: CLRONRETS Position */
+#define FPU_FPCCR_CLRONRETS_Msk            (1UL << FPU_FPCCR_CLRONRETS_Pos)               /*!< FPCCR: CLRONRETS bit Mask */
+
+#define FPU_FPCCR_TS_Pos                   26U                                            /*!< FPCCR: TS Position */
+#define FPU_FPCCR_TS_Msk                   (1UL << FPU_FPCCR_TS_Pos)                      /*!< FPCCR: TS bit Mask */
+
+#define FPU_FPCCR_UFRDY_Pos                10U                                            /*!< FPCCR: UFRDY Position */
+#define FPU_FPCCR_UFRDY_Msk                (1UL << FPU_FPCCR_UFRDY_Pos)                   /*!< FPCCR: UFRDY bit Mask */
+
+#define FPU_FPCCR_SPLIMVIOL_Pos             9U                                            /*!< FPCCR: SPLIMVIOL Position */
+#define FPU_FPCCR_SPLIMVIOL_Msk            (1UL << FPU_FPCCR_SPLIMVIOL_Pos)               /*!< FPCCR: SPLIMVIOL bit Mask */
+
+#define FPU_FPCCR_MONRDY_Pos                8U                                            /*!< FPCCR: MONRDY Position */
+#define FPU_FPCCR_MONRDY_Msk               (1UL << FPU_FPCCR_MONRDY_Pos)                  /*!< FPCCR: MONRDY bit Mask */
+
+#define FPU_FPCCR_SFRDY_Pos                 7U                                            /*!< FPCCR: SFRDY Position */
+#define FPU_FPCCR_SFRDY_Msk                (1UL << FPU_FPCCR_SFRDY_Pos)                   /*!< FPCCR: SFRDY bit Mask */
+
+#define FPU_FPCCR_BFRDY_Pos                 6U                                            /*!< FPCCR: BFRDY Position */
+#define FPU_FPCCR_BFRDY_Msk                (1UL << FPU_FPCCR_BFRDY_Pos)                   /*!< FPCCR: BFRDY bit Mask */
+
+#define FPU_FPCCR_MMRDY_Pos                 5U                                            /*!< FPCCR: MMRDY Position */
+#define FPU_FPCCR_MMRDY_Msk                (1UL << FPU_FPCCR_MMRDY_Pos)                   /*!< FPCCR: MMRDY bit Mask */
+
+#define FPU_FPCCR_HFRDY_Pos                 4U                                            /*!< FPCCR: HFRDY Position */
+#define FPU_FPCCR_HFRDY_Msk                (1UL << FPU_FPCCR_HFRDY_Pos)                   /*!< FPCCR: HFRDY bit Mask */
+
+#define FPU_FPCCR_THREAD_Pos                3U                                            /*!< FPCCR: processor mode bit Position */
+#define FPU_FPCCR_THREAD_Msk               (1UL << FPU_FPCCR_THREAD_Pos)                  /*!< FPCCR: processor mode active bit Mask */
+
+#define FPU_FPCCR_S_Pos                     2U                                            /*!< FPCCR: Security status of the FP context bit Position */
+#define FPU_FPCCR_S_Msk                    (1UL << FPU_FPCCR_S_Pos)                       /*!< FPCCR: Security status of the FP context bit Mask */
+
+#define FPU_FPCCR_USER_Pos                  1U                                            /*!< FPCCR: privilege level bit Position */
+#define FPU_FPCCR_USER_Msk                 (1UL << FPU_FPCCR_USER_Pos)                    /*!< FPCCR: privilege level bit Mask */
+
+#define FPU_FPCCR_LSPACT_Pos                0U                                            /*!< FPCCR: Lazy state preservation active bit Position */
+#define FPU_FPCCR_LSPACT_Msk               (1UL /*<< FPU_FPCCR_LSPACT_Pos*/)              /*!< FPCCR: Lazy state preservation active bit Mask */
+
+/* Floating-Point Context Address Register Definitions */
+#define FPU_FPCAR_ADDRESS_Pos               3U                                            /*!< FPCAR: ADDRESS bit Position */
+#define FPU_FPCAR_ADDRESS_Msk              (0x1FFFFFFFUL << FPU_FPCAR_ADDRESS_Pos)        /*!< FPCAR: ADDRESS bit Mask */
+
+/* Floating-Point Default Status Control Register Definitions */
+#define FPU_FPDSCR_AHP_Pos                 26U                                            /*!< FPDSCR: AHP bit Position */
+#define FPU_FPDSCR_AHP_Msk                 (1UL << FPU_FPDSCR_AHP_Pos)                    /*!< FPDSCR: AHP bit Mask */
+
+#define FPU_FPDSCR_DN_Pos                  25U                                            /*!< FPDSCR: DN bit Position */
+#define FPU_FPDSCR_DN_Msk                  (1UL << FPU_FPDSCR_DN_Pos)                     /*!< FPDSCR: DN bit Mask */
+
+#define FPU_FPDSCR_FZ_Pos                  24U                                            /*!< FPDSCR: FZ bit Position */
+#define FPU_FPDSCR_FZ_Msk                  (1UL << FPU_FPDSCR_FZ_Pos)                     /*!< FPDSCR: FZ bit Mask */
+
+#define FPU_FPDSCR_RMode_Pos               22U                                            /*!< FPDSCR: RMode bit Position */
+#define FPU_FPDSCR_RMode_Msk               (3UL << FPU_FPDSCR_RMode_Pos)                  /*!< FPDSCR: RMode bit Mask */
+
+/* Media and VFP Feature Register 0 Definitions */
+#define FPU_MVFR0_FP_rounding_modes_Pos    28U                                            /*!< MVFR0: FP rounding modes bits Position */
+#define FPU_MVFR0_FP_rounding_modes_Msk    (0xFUL << FPU_MVFR0_FP_rounding_modes_Pos)     /*!< MVFR0: FP rounding modes bits Mask */
+
+#define FPU_MVFR0_Short_vectors_Pos        24U                                            /*!< MVFR0: Short vectors bits Position */
+#define FPU_MVFR0_Short_vectors_Msk        (0xFUL << FPU_MVFR0_Short_vectors_Pos)         /*!< MVFR0: Short vectors bits Mask */
+
+#define FPU_MVFR0_Square_root_Pos          20U                                            /*!< MVFR0: Square root bits Position */
+#define FPU_MVFR0_Square_root_Msk          (0xFUL << FPU_MVFR0_Square_root_Pos)           /*!< MVFR0: Square root bits Mask */
+
+#define FPU_MVFR0_Divide_Pos               16U                                            /*!< MVFR0: Divide bits Position */
+#define FPU_MVFR0_Divide_Msk               (0xFUL << FPU_MVFR0_Divide_Pos)                /*!< MVFR0: Divide bits Mask */
+
+#define FPU_MVFR0_FP_excep_trapping_Pos    12U                                            /*!< MVFR0: FP exception trapping bits Position */
+#define FPU_MVFR0_FP_excep_trapping_Msk    (0xFUL << FPU_MVFR0_FP_excep_trapping_Pos)     /*!< MVFR0: FP exception trapping bits Mask */
+
+#define FPU_MVFR0_Double_precision_Pos      8U                                            /*!< MVFR0: Double-precision bits Position */
+#define FPU_MVFR0_Double_precision_Msk     (0xFUL << FPU_MVFR0_Double_precision_Pos)      /*!< MVFR0: Double-precision bits Mask */
+
+#define FPU_MVFR0_Single_precision_Pos      4U                                            /*!< MVFR0: Single-precision bits Position */
+#define FPU_MVFR0_Single_precision_Msk     (0xFUL << FPU_MVFR0_Single_precision_Pos)      /*!< MVFR0: Single-precision bits Mask */
+
+#define FPU_MVFR0_A_SIMD_registers_Pos      0U                                            /*!< MVFR0: A_SIMD registers bits Position */
+#define FPU_MVFR0_A_SIMD_registers_Msk     (0xFUL /*<< FPU_MVFR0_A_SIMD_registers_Pos*/)  /*!< MVFR0: A_SIMD registers bits Mask */
+
+/* Media and VFP Feature Register 1 Definitions */
+#define FPU_MVFR1_FP_fused_MAC_Pos         28U                                            /*!< MVFR1: FP fused MAC bits Position */
+#define FPU_MVFR1_FP_fused_MAC_Msk         (0xFUL << FPU_MVFR1_FP_fused_MAC_Pos)          /*!< MVFR1: FP fused MAC bits Mask */
+
+#define FPU_MVFR1_FP_HPFP_Pos              24U                                            /*!< MVFR1: FP HPFP bits Position */
+#define FPU_MVFR1_FP_HPFP_Msk              (0xFUL << FPU_MVFR1_FP_HPFP_Pos)               /*!< MVFR1: FP HPFP bits Mask */
+
+#define FPU_MVFR1_D_NaN_mode_Pos            4U                                            /*!< MVFR1: D_NaN mode bits Position */
+#define FPU_MVFR1_D_NaN_mode_Msk           (0xFUL << FPU_MVFR1_D_NaN_mode_Pos)            /*!< MVFR1: D_NaN mode bits Mask */
+
+#define FPU_MVFR1_FtZ_mode_Pos              0U                                            /*!< MVFR1: FtZ mode bits Position */
+#define FPU_MVFR1_FtZ_mode_Msk             (0xFUL /*<< FPU_MVFR1_FtZ_mode_Pos*/)          /*!< MVFR1: FtZ mode bits Mask */
+
+/* Media and VFP Feature Register 2 Definitions */
+#define FPU_MVFR2_FPMisc_Pos                4U                                            /*!< MVFR2: FPMisc bits Position */
+#define FPU_MVFR2_FPMisc_Msk               (0xFUL << FPU_MVFR2_FPMisc_Pos)                /*!< MVFR2: FPMisc bits Mask */
+
+/*@} end of group CMSIS_FPU */
+
+/* CoreDebug is deprecated. replaced by DCB (Debug Control Block) */
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_CoreDebug       Core Debug Registers (CoreDebug)
+  \brief    Type definitions for the Core Debug Registers
+  @{
+ */
+
+/**
+  \brief  \deprecated Structure type to access the Core Debug Register (CoreDebug).
+ */
+typedef struct
+{
+  __IOM uint32_t DHCSR;                  /*!< Offset: 0x000 (R/W)  Debug Halting Control and Status Register */
+  __OM  uint32_t DCRSR;                  /*!< Offset: 0x004 ( /W)  Debug Core Register Selector Register */
+  __IOM uint32_t DCRDR;                  /*!< Offset: 0x008 (R/W)  Debug Core Register Data Register */
+  __IOM uint32_t DEMCR;                  /*!< Offset: 0x00C (R/W)  Debug Exception and Monitor Control Register */
+        uint32_t RESERVED0[1U];
+  __IOM uint32_t DAUTHCTRL;              /*!< Offset: 0x014 (R/W)  Debug Authentication Control Register */
+  __IOM uint32_t DSCSR;                  /*!< Offset: 0x018 (R/W)  Debug Security Control and Status Register */
+} CoreDebug_Type;
+
+/* Debug Halting Control and Status Register Definitions */
+#define CoreDebug_DHCSR_DBGKEY_Pos         16U                                            /*!< \deprecated CoreDebug DHCSR: DBGKEY Position */
+#define CoreDebug_DHCSR_DBGKEY_Msk         (0xFFFFUL << CoreDebug_DHCSR_DBGKEY_Pos)       /*!< \deprecated CoreDebug DHCSR: DBGKEY Mask */
+
+#define CoreDebug_DHCSR_S_RESTART_ST_Pos   26U                                            /*!< \deprecated CoreDebug DHCSR: S_RESTART_ST Position */
+#define CoreDebug_DHCSR_S_RESTART_ST_Msk   (1UL << CoreDebug_DHCSR_S_RESTART_ST_Pos)      /*!< \deprecated CoreDebug DHCSR: S_RESTART_ST Mask */
+
+#define CoreDebug_DHCSR_S_RESET_ST_Pos     25U                                            /*!< \deprecated CoreDebug DHCSR: S_RESET_ST Position */
+#define CoreDebug_DHCSR_S_RESET_ST_Msk     (1UL << CoreDebug_DHCSR_S_RESET_ST_Pos)        /*!< \deprecated CoreDebug DHCSR: S_RESET_ST Mask */
+
+#define CoreDebug_DHCSR_S_RETIRE_ST_Pos    24U                                            /*!< \deprecated CoreDebug DHCSR: S_RETIRE_ST Position */
+#define CoreDebug_DHCSR_S_RETIRE_ST_Msk    (1UL << CoreDebug_DHCSR_S_RETIRE_ST_Pos)       /*!< \deprecated CoreDebug DHCSR: S_RETIRE_ST Mask */
+
+#define CoreDebug_DHCSR_S_LOCKUP_Pos       19U                                            /*!< \deprecated CoreDebug DHCSR: S_LOCKUP Position */
+#define CoreDebug_DHCSR_S_LOCKUP_Msk       (1UL << CoreDebug_DHCSR_S_LOCKUP_Pos)          /*!< \deprecated CoreDebug DHCSR: S_LOCKUP Mask */
+
+#define CoreDebug_DHCSR_S_SLEEP_Pos        18U                                            /*!< \deprecated CoreDebug DHCSR: S_SLEEP Position */
+#define CoreDebug_DHCSR_S_SLEEP_Msk        (1UL << CoreDebug_DHCSR_S_SLEEP_Pos)           /*!< \deprecated CoreDebug DHCSR: S_SLEEP Mask */
+
+#define CoreDebug_DHCSR_S_HALT_Pos         17U                                            /*!< \deprecated CoreDebug DHCSR: S_HALT Position */
+#define CoreDebug_DHCSR_S_HALT_Msk         (1UL << CoreDebug_DHCSR_S_HALT_Pos)            /*!< \deprecated CoreDebug DHCSR: S_HALT Mask */
+
+#define CoreDebug_DHCSR_S_REGRDY_Pos       16U                                            /*!< \deprecated CoreDebug DHCSR: S_REGRDY Position */
+#define CoreDebug_DHCSR_S_REGRDY_Msk       (1UL << CoreDebug_DHCSR_S_REGRDY_Pos)          /*!< \deprecated CoreDebug DHCSR: S_REGRDY Mask */
+
+#define CoreDebug_DHCSR_C_SNAPSTALL_Pos     5U                                            /*!< \deprecated CoreDebug DHCSR: C_SNAPSTALL Position */
+#define CoreDebug_DHCSR_C_SNAPSTALL_Msk    (1UL << CoreDebug_DHCSR_C_SNAPSTALL_Pos)       /*!< \deprecated CoreDebug DHCSR: C_SNAPSTALL Mask */
+
+#define CoreDebug_DHCSR_C_MASKINTS_Pos      3U                                            /*!< \deprecated CoreDebug DHCSR: C_MASKINTS Position */
+#define CoreDebug_DHCSR_C_MASKINTS_Msk     (1UL << CoreDebug_DHCSR_C_MASKINTS_Pos)        /*!< \deprecated CoreDebug DHCSR: C_MASKINTS Mask */
+
+#define CoreDebug_DHCSR_C_STEP_Pos          2U                                            /*!< \deprecated CoreDebug DHCSR: C_STEP Position */
+#define CoreDebug_DHCSR_C_STEP_Msk         (1UL << CoreDebug_DHCSR_C_STEP_Pos)            /*!< \deprecated CoreDebug DHCSR: C_STEP Mask */
+
+#define CoreDebug_DHCSR_C_HALT_Pos          1U                                            /*!< \deprecated CoreDebug DHCSR: C_HALT Position */
+#define CoreDebug_DHCSR_C_HALT_Msk         (1UL << CoreDebug_DHCSR_C_HALT_Pos)            /*!< \deprecated CoreDebug DHCSR: C_HALT Mask */
+
+#define CoreDebug_DHCSR_C_DEBUGEN_Pos       0U                                            /*!< \deprecated CoreDebug DHCSR: C_DEBUGEN Position */
+#define CoreDebug_DHCSR_C_DEBUGEN_Msk      (1UL /*<< CoreDebug_DHCSR_C_DEBUGEN_Pos*/)     /*!< \deprecated CoreDebug DHCSR: C_DEBUGEN Mask */
+
+/* Debug Core Register Selector Register Definitions */
+#define CoreDebug_DCRSR_REGWnR_Pos         16U                                            /*!< \deprecated CoreDebug DCRSR: REGWnR Position */
+#define CoreDebug_DCRSR_REGWnR_Msk         (1UL << CoreDebug_DCRSR_REGWnR_Pos)            /*!< \deprecated CoreDebug DCRSR: REGWnR Mask */
+
+#define CoreDebug_DCRSR_REGSEL_Pos          0U                                            /*!< \deprecated CoreDebug DCRSR: REGSEL Position */
+#define CoreDebug_DCRSR_REGSEL_Msk         (0x1FUL /*<< CoreDebug_DCRSR_REGSEL_Pos*/)     /*!< \deprecated CoreDebug DCRSR: REGSEL Mask */
+
+/* Debug Exception and Monitor Control Register Definitions */
+#define CoreDebug_DEMCR_TRCENA_Pos         24U                                            /*!< \deprecated CoreDebug DEMCR: TRCENA Position */
+#define CoreDebug_DEMCR_TRCENA_Msk         (1UL << CoreDebug_DEMCR_TRCENA_Pos)            /*!< \deprecated CoreDebug DEMCR: TRCENA Mask */
+
+#define CoreDebug_DEMCR_MON_REQ_Pos        19U                                            /*!< \deprecated CoreDebug DEMCR: MON_REQ Position */
+#define CoreDebug_DEMCR_MON_REQ_Msk        (1UL << CoreDebug_DEMCR_MON_REQ_Pos)           /*!< \deprecated CoreDebug DEMCR: MON_REQ Mask */
+
+#define CoreDebug_DEMCR_MON_STEP_Pos       18U                                            /*!< \deprecated CoreDebug DEMCR: MON_STEP Position */
+#define CoreDebug_DEMCR_MON_STEP_Msk       (1UL << CoreDebug_DEMCR_MON_STEP_Pos)          /*!< \deprecated CoreDebug DEMCR: MON_STEP Mask */
+
+#define CoreDebug_DEMCR_MON_PEND_Pos       17U                                            /*!< \deprecated CoreDebug DEMCR: MON_PEND Position */
+#define CoreDebug_DEMCR_MON_PEND_Msk       (1UL << CoreDebug_DEMCR_MON_PEND_Pos)          /*!< \deprecated CoreDebug DEMCR: MON_PEND Mask */
+
+#define CoreDebug_DEMCR_MON_EN_Pos         16U                                            /*!< \deprecated CoreDebug DEMCR: MON_EN Position */
+#define CoreDebug_DEMCR_MON_EN_Msk         (1UL << CoreDebug_DEMCR_MON_EN_Pos)            /*!< \deprecated CoreDebug DEMCR: MON_EN Mask */
+
+#define CoreDebug_DEMCR_VC_HARDERR_Pos     10U                                            /*!< \deprecated CoreDebug DEMCR: VC_HARDERR Position */
+#define CoreDebug_DEMCR_VC_HARDERR_Msk     (1UL << CoreDebug_DEMCR_VC_HARDERR_Pos)        /*!< \deprecated CoreDebug DEMCR: VC_HARDERR Mask */
+
+#define CoreDebug_DEMCR_VC_INTERR_Pos       9U                                            /*!< \deprecated CoreDebug DEMCR: VC_INTERR Position */
+#define CoreDebug_DEMCR_VC_INTERR_Msk      (1UL << CoreDebug_DEMCR_VC_INTERR_Pos)         /*!< \deprecated CoreDebug DEMCR: VC_INTERR Mask */
+
+#define CoreDebug_DEMCR_VC_BUSERR_Pos       8U                                            /*!< \deprecated CoreDebug DEMCR: VC_BUSERR Position */
+#define CoreDebug_DEMCR_VC_BUSERR_Msk      (1UL << CoreDebug_DEMCR_VC_BUSERR_Pos)         /*!< \deprecated CoreDebug DEMCR: VC_BUSERR Mask */
+
+#define CoreDebug_DEMCR_VC_STATERR_Pos      7U                                            /*!< \deprecated CoreDebug DEMCR: VC_STATERR Position */
+#define CoreDebug_DEMCR_VC_STATERR_Msk     (1UL << CoreDebug_DEMCR_VC_STATERR_Pos)        /*!< \deprecated CoreDebug DEMCR: VC_STATERR Mask */
+
+#define CoreDebug_DEMCR_VC_CHKERR_Pos       6U                                            /*!< \deprecated CoreDebug DEMCR: VC_CHKERR Position */
+#define CoreDebug_DEMCR_VC_CHKERR_Msk      (1UL << CoreDebug_DEMCR_VC_CHKERR_Pos)         /*!< \deprecated CoreDebug DEMCR: VC_CHKERR Mask */
+
+#define CoreDebug_DEMCR_VC_NOCPERR_Pos      5U                                            /*!< \deprecated CoreDebug DEMCR: VC_NOCPERR Position */
+#define CoreDebug_DEMCR_VC_NOCPERR_Msk     (1UL << CoreDebug_DEMCR_VC_NOCPERR_Pos)        /*!< \deprecated CoreDebug DEMCR: VC_NOCPERR Mask */
+
+#define CoreDebug_DEMCR_VC_MMERR_Pos        4U                                            /*!< \deprecated CoreDebug DEMCR: VC_MMERR Position */
+#define CoreDebug_DEMCR_VC_MMERR_Msk       (1UL << CoreDebug_DEMCR_VC_MMERR_Pos)          /*!< \deprecated CoreDebug DEMCR: VC_MMERR Mask */
+
+#define CoreDebug_DEMCR_VC_CORERESET_Pos    0U                                            /*!< \deprecated CoreDebug DEMCR: VC_CORERESET Position */
+#define CoreDebug_DEMCR_VC_CORERESET_Msk   (1UL /*<< CoreDebug_DEMCR_VC_CORERESET_Pos*/)  /*!< \deprecated CoreDebug DEMCR: VC_CORERESET Mask */
+
+/* Debug Authentication Control Register Definitions */
+#define CoreDebug_DAUTHCTRL_INTSPNIDEN_Pos  3U                                            /*!< \deprecated CoreDebug DAUTHCTRL: INTSPNIDEN, Position */
+#define CoreDebug_DAUTHCTRL_INTSPNIDEN_Msk (1UL << CoreDebug_DAUTHCTRL_INTSPNIDEN_Pos)    /*!< \deprecated CoreDebug DAUTHCTRL: INTSPNIDEN, Mask */
+
+#define CoreDebug_DAUTHCTRL_SPNIDENSEL_Pos  2U                                            /*!< \deprecated CoreDebug DAUTHCTRL: SPNIDENSEL Position */
+#define CoreDebug_DAUTHCTRL_SPNIDENSEL_Msk (1UL << CoreDebug_DAUTHCTRL_SPNIDENSEL_Pos)    /*!< \deprecated CoreDebug DAUTHCTRL: SPNIDENSEL Mask */
+
+#define CoreDebug_DAUTHCTRL_INTSPIDEN_Pos   1U                                            /*!< \deprecated CoreDebug DAUTHCTRL: INTSPIDEN Position */
+#define CoreDebug_DAUTHCTRL_INTSPIDEN_Msk  (1UL << CoreDebug_DAUTHCTRL_INTSPIDEN_Pos)     /*!< \deprecated CoreDebug DAUTHCTRL: INTSPIDEN Mask */
+
+#define CoreDebug_DAUTHCTRL_SPIDENSEL_Pos   0U                                            /*!< \deprecated CoreDebug DAUTHCTRL: SPIDENSEL Position */
+#define CoreDebug_DAUTHCTRL_SPIDENSEL_Msk  (1UL /*<< CoreDebug_DAUTHCTRL_SPIDENSEL_Pos*/) /*!< \deprecated CoreDebug DAUTHCTRL: SPIDENSEL Mask */
+
+/* Debug Security Control and Status Register Definitions */
+#define CoreDebug_DSCSR_CDS_Pos            16U                                            /*!< \deprecated CoreDebug DSCSR: CDS Position */
+#define CoreDebug_DSCSR_CDS_Msk            (1UL << CoreDebug_DSCSR_CDS_Pos)               /*!< \deprecated CoreDebug DSCSR: CDS Mask */
+
+#define CoreDebug_DSCSR_SBRSEL_Pos          1U                                            /*!< \deprecated CoreDebug DSCSR: SBRSEL Position */
+#define CoreDebug_DSCSR_SBRSEL_Msk         (1UL << CoreDebug_DSCSR_SBRSEL_Pos)            /*!< \deprecated CoreDebug DSCSR: SBRSEL Mask */
+
+#define CoreDebug_DSCSR_SBRSELEN_Pos        0U                                            /*!< \deprecated CoreDebug DSCSR: SBRSELEN Position */
+#define CoreDebug_DSCSR_SBRSELEN_Msk       (1UL /*<< CoreDebug_DSCSR_SBRSELEN_Pos*/)      /*!< \deprecated CoreDebug DSCSR: SBRSELEN Mask */
+
+/*@} end of group CMSIS_CoreDebug */
+
+
+/**
+  \ingroup    CMSIS_core_register
+  \defgroup CMSIS_DCB       Debug Control Block
+  \brief    Type definitions for the Debug Control Block Registers
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Debug Control Block Registers (DCB).
+ */
+typedef struct
+{
+  __IOM uint32_t DHCSR;                  /*!< Offset: 0x000 (R/W)  Debug Halting Control and Status Register */
+  __OM  uint32_t DCRSR;                  /*!< Offset: 0x004 ( /W)  Debug Core Register Selector Register */
+  __IOM uint32_t DCRDR;                  /*!< Offset: 0x008 (R/W)  Debug Core Register Data Register */
+  __IOM uint32_t DEMCR;                  /*!< Offset: 0x00C (R/W)  Debug Exception and Monitor Control Register */
+        uint32_t RESERVED0[1U];
+  __IOM uint32_t DAUTHCTRL;              /*!< Offset: 0x014 (R/W)  Debug Authentication Control Register */
+  __IOM uint32_t DSCSR;                  /*!< Offset: 0x018 (R/W)  Debug Security Control and Status Register */
+} DCB_Type;
+
+/* DHCSR, Debug Halting Control and Status Register Definitions */
+#define DCB_DHCSR_DBGKEY_Pos               16U                                            /*!< DCB DHCSR: Debug key Position */
+#define DCB_DHCSR_DBGKEY_Msk               (0xFFFFUL << DCB_DHCSR_DBGKEY_Pos)             /*!< DCB DHCSR: Debug key Mask */
+
+#define DCB_DHCSR_S_RESTART_ST_Pos         26U                                            /*!< DCB DHCSR: Restart sticky status Position */
+#define DCB_DHCSR_S_RESTART_ST_Msk         (0x1UL << DCB_DHCSR_S_RESTART_ST_Pos)          /*!< DCB DHCSR: Restart sticky status Mask */
+
+#define DCB_DHCSR_S_RESET_ST_Pos           25U                                            /*!< DCB DHCSR: Reset sticky status Position */
+#define DCB_DHCSR_S_RESET_ST_Msk           (0x1UL << DCB_DHCSR_S_RESET_ST_Pos)            /*!< DCB DHCSR: Reset sticky status Mask */
+
+#define DCB_DHCSR_S_RETIRE_ST_Pos          24U                                            /*!< DCB DHCSR: Retire sticky status Position */
+#define DCB_DHCSR_S_RETIRE_ST_Msk          (0x1UL << DCB_DHCSR_S_RETIRE_ST_Pos)           /*!< DCB DHCSR: Retire sticky status Mask */
+
+#define DCB_DHCSR_S_SDE_Pos                20U                                            /*!< DCB DHCSR: Secure debug enabled Position */
+#define DCB_DHCSR_S_SDE_Msk                (0x1UL << DCB_DHCSR_S_SDE_Pos)                 /*!< DCB DHCSR: Secure debug enabled Mask */
+
+#define DCB_DHCSR_S_LOCKUP_Pos             19U                                            /*!< DCB DHCSR: Lockup status Position */
+#define DCB_DHCSR_S_LOCKUP_Msk             (0x1UL << DCB_DHCSR_S_LOCKUP_Pos)              /*!< DCB DHCSR: Lockup status Mask */
+
+#define DCB_DHCSR_S_SLEEP_Pos              18U                                            /*!< DCB DHCSR: Sleeping status Position */
+#define DCB_DHCSR_S_SLEEP_Msk              (0x1UL << DCB_DHCSR_S_SLEEP_Pos)               /*!< DCB DHCSR: Sleeping status Mask */
+
+#define DCB_DHCSR_S_HALT_Pos               17U                                            /*!< DCB DHCSR: Halted status Position */
+#define DCB_DHCSR_S_HALT_Msk               (0x1UL << DCB_DHCSR_S_HALT_Pos)                /*!< DCB DHCSR: Halted status Mask */
+
+#define DCB_DHCSR_S_REGRDY_Pos             16U                                            /*!< DCB DHCSR: Register ready status Position */
+#define DCB_DHCSR_S_REGRDY_Msk             (0x1UL << DCB_DHCSR_S_REGRDY_Pos)              /*!< DCB DHCSR: Register ready status Mask */
+
+#define DCB_DHCSR_C_SNAPSTALL_Pos           5U                                            /*!< DCB DHCSR: Snap stall control Position */
+#define DCB_DHCSR_C_SNAPSTALL_Msk          (0x1UL << DCB_DHCSR_C_SNAPSTALL_Pos)           /*!< DCB DHCSR: Snap stall control Mask */
+
+#define DCB_DHCSR_C_MASKINTS_Pos            3U                                            /*!< DCB DHCSR: Mask interrupts control Position */
+#define DCB_DHCSR_C_MASKINTS_Msk           (0x1UL << DCB_DHCSR_C_MASKINTS_Pos)            /*!< DCB DHCSR: Mask interrupts control Mask */
+
+#define DCB_DHCSR_C_STEP_Pos                2U                                            /*!< DCB DHCSR: Step control Position */
+#define DCB_DHCSR_C_STEP_Msk               (0x1UL << DCB_DHCSR_C_STEP_Pos)                /*!< DCB DHCSR: Step control Mask */
+
+#define DCB_DHCSR_C_HALT_Pos                1U                                            /*!< DCB DHCSR: Halt control Position */
+#define DCB_DHCSR_C_HALT_Msk               (0x1UL << DCB_DHCSR_C_HALT_Pos)                /*!< DCB DHCSR: Halt control Mask */
+
+#define DCB_DHCSR_C_DEBUGEN_Pos             0U                                            /*!< DCB DHCSR: Debug enable control Position */
+#define DCB_DHCSR_C_DEBUGEN_Msk            (0x1UL /*<< DCB_DHCSR_C_DEBUGEN_Pos*/)         /*!< DCB DHCSR: Debug enable control Mask */
+
+/* DCRSR, Debug Core Register Select Register Definitions */
+#define DCB_DCRSR_REGWnR_Pos               16U                                            /*!< DCB DCRSR: Register write/not-read Position */
+#define DCB_DCRSR_REGWnR_Msk               (0x1UL << DCB_DCRSR_REGWnR_Pos)                /*!< DCB DCRSR: Register write/not-read Mask */
+
+#define DCB_DCRSR_REGSEL_Pos                0U                                            /*!< DCB DCRSR: Register selector Position */
+#define DCB_DCRSR_REGSEL_Msk               (0x7FUL /*<< DCB_DCRSR_REGSEL_Pos*/)           /*!< DCB DCRSR: Register selector Mask */
+
+/* DCRDR, Debug Core Register Data Register Definitions */
+#define DCB_DCRDR_DBGTMP_Pos                0U                                            /*!< DCB DCRDR: Data temporary buffer Position */
+#define DCB_DCRDR_DBGTMP_Msk               (0xFFFFFFFFUL /*<< DCB_DCRDR_DBGTMP_Pos*/)     /*!< DCB DCRDR: Data temporary buffer Mask */
+
+/* DEMCR, Debug Exception and Monitor Control Register Definitions */
+#define DCB_DEMCR_TRCENA_Pos               24U                                            /*!< DCB DEMCR: Trace enable Position */
+#define DCB_DEMCR_TRCENA_Msk               (0x1UL << DCB_DEMCR_TRCENA_Pos)                /*!< DCB DEMCR: Trace enable Mask */
+
+#define DCB_DEMCR_MONPRKEY_Pos             23U                                            /*!< DCB DEMCR: Monitor pend req key Position */
+#define DCB_DEMCR_MONPRKEY_Msk             (0x1UL << DCB_DEMCR_MONPRKEY_Pos)              /*!< DCB DEMCR: Monitor pend req key Mask */
+
+#define DCB_DEMCR_UMON_EN_Pos              21U                                            /*!< DCB DEMCR: Unprivileged monitor enable Position */
+#define DCB_DEMCR_UMON_EN_Msk              (0x1UL << DCB_DEMCR_UMON_EN_Pos)               /*!< DCB DEMCR: Unprivileged monitor enable Mask */
+
+#define DCB_DEMCR_SDME_Pos                 20U                                            /*!< DCB DEMCR: Secure DebugMonitor enable Position */
+#define DCB_DEMCR_SDME_Msk                 (0x1UL << DCB_DEMCR_SDME_Pos)                  /*!< DCB DEMCR: Secure DebugMonitor enable Mask */
+
+#define DCB_DEMCR_MON_REQ_Pos              19U                                            /*!< DCB DEMCR: Monitor request Position */
+#define DCB_DEMCR_MON_REQ_Msk              (0x1UL << DCB_DEMCR_MON_REQ_Pos)               /*!< DCB DEMCR: Monitor request Mask */
+
+#define DCB_DEMCR_MON_STEP_Pos             18U                                            /*!< DCB DEMCR: Monitor step Position */
+#define DCB_DEMCR_MON_STEP_Msk             (0x1UL << DCB_DEMCR_MON_STEP_Pos)              /*!< DCB DEMCR: Monitor step Mask */
+
+#define DCB_DEMCR_MON_PEND_Pos             17U                                            /*!< DCB DEMCR: Monitor pend Position */
+#define DCB_DEMCR_MON_PEND_Msk             (0x1UL << DCB_DEMCR_MON_PEND_Pos)              /*!< DCB DEMCR: Monitor pend Mask */
+
+#define DCB_DEMCR_MON_EN_Pos               16U                                            /*!< DCB DEMCR: Monitor enable Position */
+#define DCB_DEMCR_MON_EN_Msk               (0x1UL << DCB_DEMCR_MON_EN_Pos)                /*!< DCB DEMCR: Monitor enable Mask */
+
+#define DCB_DEMCR_VC_SFERR_Pos             11U                                            /*!< DCB DEMCR: Vector Catch SecureFault Position */
+#define DCB_DEMCR_VC_SFERR_Msk             (0x1UL << DCB_DEMCR_VC_SFERR_Pos)              /*!< DCB DEMCR: Vector Catch SecureFault Mask */
+
+#define DCB_DEMCR_VC_HARDERR_Pos           10U                                            /*!< DCB DEMCR: Vector Catch HardFault errors Position */
+#define DCB_DEMCR_VC_HARDERR_Msk           (0x1UL << DCB_DEMCR_VC_HARDERR_Pos)            /*!< DCB DEMCR: Vector Catch HardFault errors Mask */
+
+#define DCB_DEMCR_VC_INTERR_Pos             9U                                            /*!< DCB DEMCR: Vector Catch interrupt errors Position */
+#define DCB_DEMCR_VC_INTERR_Msk            (0x1UL << DCB_DEMCR_VC_INTERR_Pos)             /*!< DCB DEMCR: Vector Catch interrupt errors Mask */
+
+#define DCB_DEMCR_VC_BUSERR_Pos             8U                                            /*!< DCB DEMCR: Vector Catch BusFault errors Position */
+#define DCB_DEMCR_VC_BUSERR_Msk            (0x1UL << DCB_DEMCR_VC_BUSERR_Pos)             /*!< DCB DEMCR: Vector Catch BusFault errors Mask */
+
+#define DCB_DEMCR_VC_STATERR_Pos            7U                                            /*!< DCB DEMCR: Vector Catch state errors Position */
+#define DCB_DEMCR_VC_STATERR_Msk           (0x1UL << DCB_DEMCR_VC_STATERR_Pos)            /*!< DCB DEMCR: Vector Catch state errors Mask */
+
+#define DCB_DEMCR_VC_CHKERR_Pos             6U                                            /*!< DCB DEMCR: Vector Catch check errors Position */
+#define DCB_DEMCR_VC_CHKERR_Msk            (0x1UL << DCB_DEMCR_VC_CHKERR_Pos)             /*!< DCB DEMCR: Vector Catch check errors Mask */
+
+#define DCB_DEMCR_VC_NOCPERR_Pos            5U                                            /*!< DCB DEMCR: Vector Catch NOCP errors Position */
+#define DCB_DEMCR_VC_NOCPERR_Msk           (0x1UL << DCB_DEMCR_VC_NOCPERR_Pos)            /*!< DCB DEMCR: Vector Catch NOCP errors Mask */
+
+#define DCB_DEMCR_VC_MMERR_Pos              4U                                            /*!< DCB DEMCR: Vector Catch MemManage errors Position */
+#define DCB_DEMCR_VC_MMERR_Msk             (0x1UL << DCB_DEMCR_VC_MMERR_Pos)              /*!< DCB DEMCR: Vector Catch MemManage errors Mask */
+
+#define DCB_DEMCR_VC_CORERESET_Pos          0U                                            /*!< DCB DEMCR: Vector Catch Core reset Position */
+#define DCB_DEMCR_VC_CORERESET_Msk         (0x1UL /*<< DCB_DEMCR_VC_CORERESET_Pos*/)      /*!< DCB DEMCR: Vector Catch Core reset Mask */
+
+/* DAUTHCTRL, Debug Authentication Control Register Definitions */
+#define DCB_DAUTHCTRL_INTSPNIDEN_Pos        3U                                            /*!< DCB DAUTHCTRL: Internal Secure non-invasive debug enable Position */
+#define DCB_DAUTHCTRL_INTSPNIDEN_Msk       (0x1UL << DCB_DAUTHCTRL_INTSPNIDEN_Pos)        /*!< DCB DAUTHCTRL: Internal Secure non-invasive debug enable Mask */
+
+#define DCB_DAUTHCTRL_SPNIDENSEL_Pos        2U                                            /*!< DCB DAUTHCTRL: Secure non-invasive debug enable select Position */
+#define DCB_DAUTHCTRL_SPNIDENSEL_Msk       (0x1UL << DCB_DAUTHCTRL_SPNIDENSEL_Pos)        /*!< DCB DAUTHCTRL: Secure non-invasive debug enable select Mask */
+
+#define DCB_DAUTHCTRL_INTSPIDEN_Pos         1U                                            /*!< DCB DAUTHCTRL: Internal Secure invasive debug enable Position */
+#define DCB_DAUTHCTRL_INTSPIDEN_Msk        (0x1UL << DCB_DAUTHCTRL_INTSPIDEN_Pos)         /*!< DCB DAUTHCTRL: Internal Secure invasive debug enable Mask */
+
+#define DCB_DAUTHCTRL_SPIDENSEL_Pos         0U                                            /*!< DCB DAUTHCTRL: Secure invasive debug enable select Position */
+#define DCB_DAUTHCTRL_SPIDENSEL_Msk        (0x1UL /*<< DCB_DAUTHCTRL_SPIDENSEL_Pos*/)     /*!< DCB DAUTHCTRL: Secure invasive debug enable select Mask */
+
+/* DSCSR, Debug Security Control and Status Register Definitions */
+#define DCB_DSCSR_CDSKEY_Pos               17U                                            /*!< DCB DSCSR: CDS write-enable key Position */
+#define DCB_DSCSR_CDSKEY_Msk               (0x1UL << DCB_DSCSR_CDSKEY_Pos)                /*!< DCB DSCSR: CDS write-enable key Mask */
+
+#define DCB_DSCSR_CDS_Pos                  16U                                            /*!< DCB DSCSR: Current domain Secure Position */
+#define DCB_DSCSR_CDS_Msk                  (0x1UL << DCB_DSCSR_CDS_Pos)                   /*!< DCB DSCSR: Current domain Secure Mask */
+
+#define DCB_DSCSR_SBRSEL_Pos                1U                                            /*!< DCB DSCSR: Secure banked register select Position */
+#define DCB_DSCSR_SBRSEL_Msk               (0x1UL << DCB_DSCSR_SBRSEL_Pos)                /*!< DCB DSCSR: Secure banked register select Mask */
+
+#define DCB_DSCSR_SBRSELEN_Pos              0U                                            /*!< DCB DSCSR: Secure banked register select enable Position */
+#define DCB_DSCSR_SBRSELEN_Msk             (0x1UL /*<< DCB_DSCSR_SBRSELEN_Pos*/)          /*!< DCB DSCSR: Secure banked register select enable Mask */
+
+/*@} end of group CMSIS_DCB */
+
+
+
+/**
+  \ingroup  CMSIS_core_register
+  \defgroup CMSIS_DIB       Debug Identification Block
+  \brief    Type definitions for the Debug Identification Block Registers
+  @{
+ */
+
+/**
+  \brief  Structure type to access the Debug Identification Block Registers (DIB).
+ */
+typedef struct
+{
+  __OM  uint32_t DLAR;                   /*!< Offset: 0x000 ( /W)  SCS Software Lock Access Register */
+  __IM  uint32_t DLSR;                   /*!< Offset: 0x004 (R/ )  SCS Software Lock Status Register */
+  __IM  uint32_t DAUTHSTATUS;            /*!< Offset: 0x008 (R/ )  Debug Authentication Status Register */
+  __IM  uint32_t DDEVARCH;               /*!< Offset: 0x00C (R/ )  SCS Device Architecture Register */
+  __IM  uint32_t DDEVTYPE;               /*!< Offset: 0x010 (R/ )  SCS Device Type Register */
+} DIB_Type;
+
+/* DLAR, SCS Software Lock Access Register Definitions */
+#define DIB_DLAR_KEY_Pos                    0U                                            /*!< DIB DLAR: KEY Position */
+#define DIB_DLAR_KEY_Msk                   (0xFFFFFFFFUL /*<< DIB_DLAR_KEY_Pos */)        /*!< DIB DLAR: KEY Mask */
+
+/* DLSR, SCS Software Lock Status Register Definitions */
+#define DIB_DLSR_nTT_Pos                    2U                                            /*!< DIB DLSR: Not thirty-two bit Position */
+#define DIB_DLSR_nTT_Msk                   (0x1UL << DIB_DLSR_nTT_Pos )                   /*!< DIB DLSR: Not thirty-two bit Mask */
+
+#define DIB_DLSR_SLK_Pos                    1U                                            /*!< DIB DLSR: Software Lock status Position */
+#define DIB_DLSR_SLK_Msk                   (0x1UL << DIB_DLSR_SLK_Pos )                   /*!< DIB DLSR: Software Lock status Mask */
+
+#define DIB_DLSR_SLI_Pos                    0U                                            /*!< DIB DLSR: Software Lock implemented Position */
+#define DIB_DLSR_SLI_Msk                   (0x1UL /*<< DIB_DLSR_SLI_Pos*/)                /*!< DIB DLSR: Software Lock implemented Mask */
+
+/* DAUTHSTATUS, Debug Authentication Status Register Definitions */
+#define DIB_DAUTHSTATUS_SNID_Pos            6U                                            /*!< DIB DAUTHSTATUS: Secure Non-invasive Debug Position */
+#define DIB_DAUTHSTATUS_SNID_Msk           (0x3UL << DIB_DAUTHSTATUS_SNID_Pos )           /*!< DIB DAUTHSTATUS: Secure Non-invasive Debug Mask */
+
+#define DIB_DAUTHSTATUS_SID_Pos             4U                                            /*!< DIB DAUTHSTATUS: Secure Invasive Debug Position */
+#define DIB_DAUTHSTATUS_SID_Msk            (0x3UL << DIB_DAUTHSTATUS_SID_Pos )            /*!< DIB DAUTHSTATUS: Secure Invasive Debug Mask */
+
+#define DIB_DAUTHSTATUS_NSNID_Pos           2U                                            /*!< DIB DAUTHSTATUS: Non-secure Non-invasive Debug Position */
+#define DIB_DAUTHSTATUS_NSNID_Msk          (0x3UL << DIB_DAUTHSTATUS_NSNID_Pos )          /*!< DIB DAUTHSTATUS: Non-secure Non-invasive Debug Mask */
+
+#define DIB_DAUTHSTATUS_NSID_Pos            0U                                            /*!< DIB DAUTHSTATUS: Non-secure Invasive Debug Position */
+#define DIB_DAUTHSTATUS_NSID_Msk           (0x3UL /*<< DIB_DAUTHSTATUS_NSID_Pos*/)        /*!< DIB DAUTHSTATUS: Non-secure Invasive Debug Mask */
+
+/* DDEVARCH, SCS Device Architecture Register Definitions */
+#define DIB_DDEVARCH_ARCHITECT_Pos         21U                                            /*!< DIB DDEVARCH: Architect Position */
+#define DIB_DDEVARCH_ARCHITECT_Msk         (0x7FFUL << DIB_DDEVARCH_ARCHITECT_Pos )       /*!< DIB DDEVARCH: Architect Mask */
+
+#define DIB_DDEVARCH_PRESENT_Pos           20U                                            /*!< DIB DDEVARCH: DEVARCH Present Position */
+#define DIB_DDEVARCH_PRESENT_Msk           (0x1FUL << DIB_DDEVARCH_PRESENT_Pos )          /*!< DIB DDEVARCH: DEVARCH Present Mask */
+
+#define DIB_DDEVARCH_REVISION_Pos          16U                                            /*!< DIB DDEVARCH: Revision Position */
+#define DIB_DDEVARCH_REVISION_Msk          (0xFUL << DIB_DDEVARCH_REVISION_Pos )          /*!< DIB DDEVARCH: Revision Mask */
+
+#define DIB_DDEVARCH_ARCHVER_Pos           12U                                            /*!< DIB DDEVARCH: Architecture Version Position */
+#define DIB_DDEVARCH_ARCHVER_Msk           (0xFUL << DIB_DDEVARCH_ARCHVER_Pos )           /*!< DIB DDEVARCH: Architecture Version Mask */
+
+#define DIB_DDEVARCH_ARCHPART_Pos           0U                                            /*!< DIB DDEVARCH: Architecture Part Position */
+#define DIB_DDEVARCH_ARCHPART_Msk          (0xFFFUL /*<< DIB_DDEVARCH_ARCHPART_Pos*/)     /*!< DIB DDEVARCH: Architecture Part Mask */
+
+/* DDEVTYPE, SCS Device Type Register Definitions */
+#define DIB_DDEVTYPE_SUB_Pos                4U                                            /*!< DIB DDEVTYPE: Sub-type Position */
+#define DIB_DDEVTYPE_SUB_Msk               (0xFUL << DIB_DDEVTYPE_SUB_Pos )               /*!< DIB DDEVTYPE: Sub-type Mask */
+
+#define DIB_DDEVTYPE_MAJOR_Pos              0U                                            /*!< DIB DDEVTYPE: Major type Position */
+#define DIB_DDEVTYPE_MAJOR_Msk             (0xFUL /*<< DIB_DDEVTYPE_MAJOR_Pos*/)          /*!< DIB DDEVTYPE: Major type Mask */
+
+
+/*@} end of group CMSIS_DIB */
+
+
+/**
+  \ingroup    CMSIS_core_register
+  \defgroup   CMSIS_core_bitfield     Core register bit field macros
+  \brief      Macros for use with bit field definitions (xxx_Pos, xxx_Msk).
+  @{
+ */
+
+/**
+  \brief   Mask and shift a bit field value for use in a register bit range.
+  \param[in] field  Name of the register bit field.
+  \param[in] value  Value of the bit field. This parameter is interpreted as an uint32_t type.
+  \return           Masked and shifted value.
+*/
+#define _VAL2FLD(field, value)    (((uint32_t)(value) << field ## _Pos) & field ## _Msk)
+
+/**
+  \brief     Mask and shift a register value to extract a bit filed value.
+  \param[in] field  Name of the register bit field.
+  \param[in] value  Value of register. This parameter is interpreted as an uint32_t type.
+  \return           Masked and shifted bit field value.
+*/
+#define _FLD2VAL(field, value)    (((uint32_t)(value) & field ## _Msk) >> field ## _Pos)
+
+/*@} end of group CMSIS_core_bitfield */
+
+
+/**
+  \ingroup    CMSIS_core_register
+  \defgroup   CMSIS_core_base     Core Definitions
+  \brief      Definitions for base addresses, unions, and structures.
+  @{
+ */
+
+/* Memory mapping of Core Hardware */
+  #define SCS_BASE            (0xE000E000UL)                             /*!< System Control Space Base Address */
+  #define ITM_BASE            (0xE0000000UL)                             /*!< ITM Base Address */
+  #define DWT_BASE            (0xE0001000UL)                             /*!< DWT Base Address */
+  #define TPI_BASE            (0xE0040000UL)                             /*!< TPI Base Address */
+  #define CoreDebug_BASE      (0xE000EDF0UL)                             /*!< \deprecated Core Debug Base Address */
+  #define DCB_BASE            (0xE000EDF0UL)                             /*!< DCB Base Address */
+  #define DIB_BASE            (0xE000EFB0UL)                             /*!< DIB Base Address */
+  #define SysTick_BASE        (SCS_BASE +  0x0010UL)                     /*!< SysTick Base Address */
+  #define NVIC_BASE           (SCS_BASE +  0x0100UL)                     /*!< NVIC Base Address */
+  #define SCB_BASE            (SCS_BASE +  0x0D00UL)                     /*!< System Control Block Base Address */
+
+  #define SCnSCB              ((SCnSCB_Type    *)     SCS_BASE         ) /*!< System control Register not in SCB */
+  #define SCB                 ((SCB_Type       *)     SCB_BASE         ) /*!< SCB configuration struct */
+  #define SysTick             ((SysTick_Type   *)     SysTick_BASE     ) /*!< SysTick configuration struct */
+  #define NVIC                ((NVIC_Type      *)     NVIC_BASE        ) /*!< NVIC configuration struct */
+  #define ITM                 ((ITM_Type       *)     ITM_BASE         ) /*!< ITM configuration struct */
+  #define DWT                 ((DWT_Type       *)     DWT_BASE         ) /*!< DWT configuration struct */
+  #define TPI                 ((TPI_Type       *)     TPI_BASE         ) /*!< TPI configuration struct */
+  #define CoreDebug           ((CoreDebug_Type *)     CoreDebug_BASE   ) /*!< \deprecated Core Debug configuration struct */
+  #define DCB                 ((DCB_Type       *)     DCB_BASE         ) /*!< DCB configuration struct */
+  #define DIB                 ((DIB_Type       *)     DIB_BASE         ) /*!< DIB configuration struct */
+
+  #if defined (__MPU_PRESENT) && (__MPU_PRESENT == 1U)
+    #define MPU_BASE          (SCS_BASE +  0x0D90UL)                     /*!< Memory Protection Unit */
+    #define MPU               ((MPU_Type       *)     MPU_BASE         ) /*!< Memory Protection Unit */
+  #endif
+
+  #if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+    #define SAU_BASE          (SCS_BASE +  0x0DD0UL)                     /*!< Security Attribution Unit */
+    #define SAU               ((SAU_Type       *)     SAU_BASE         ) /*!< Security Attribution Unit */
+  #endif
+
+  #define FPU_BASE            (SCS_BASE +  0x0F30UL)                     /*!< Floating Point Unit */
+  #define FPU                 ((FPU_Type       *)     FPU_BASE         ) /*!< Floating Point Unit */
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+  #define SCS_BASE_NS         (0xE002E000UL)                             /*!< System Control Space Base Address (non-secure address space) */
+  #define CoreDebug_BASE_NS   (0xE002EDF0UL)                             /*!< \deprecated Core Debug Base Address           (non-secure address space) */
+  #define DCB_BASE_NS         (0xE002EDF0UL)                             /*!< DCB Base Address                  (non-secure address space) */
+  #define DIB_BASE_NS         (0xE002EFB0UL)                             /*!< DIB Base Address                  (non-secure address space) */
+  #define SysTick_BASE_NS     (SCS_BASE_NS +  0x0010UL)                  /*!< SysTick Base Address              (non-secure address space) */
+  #define NVIC_BASE_NS        (SCS_BASE_NS +  0x0100UL)                  /*!< NVIC Base Address                 (non-secure address space) */
+  #define SCB_BASE_NS         (SCS_BASE_NS +  0x0D00UL)                  /*!< System Control Block Base Address (non-secure address space) */
+
+  #define SCnSCB_NS           ((SCnSCB_Type    *)     SCS_BASE_NS      ) /*!< System control Register not in SCB(non-secure address space) */
+  #define SCB_NS              ((SCB_Type       *)     SCB_BASE_NS      ) /*!< SCB configuration struct          (non-secure address space) */
+  #define SysTick_NS          ((SysTick_Type   *)     SysTick_BASE_NS  ) /*!< SysTick configuration struct      (non-secure address space) */
+  #define NVIC_NS             ((NVIC_Type      *)     NVIC_BASE_NS     ) /*!< NVIC configuration struct         (non-secure address space) */
+  #define CoreDebug_NS        ((CoreDebug_Type *)     CoreDebug_BASE_NS) /*!< \deprecated Core Debug configuration struct   (non-secure address space) */
+  #define DCB_NS              ((DCB_Type       *)     DCB_BASE_NS      ) /*!< DCB configuration struct          (non-secure address space) */
+  #define DIB_NS              ((DIB_Type       *)     DIB_BASE_NS      ) /*!< DIB configuration struct          (non-secure address space) */
+
+  #if defined (__MPU_PRESENT) && (__MPU_PRESENT == 1U)
+    #define MPU_BASE_NS       (SCS_BASE_NS +  0x0D90UL)                  /*!< Memory Protection Unit            (non-secure address space) */
+    #define MPU_NS            ((MPU_Type       *)     MPU_BASE_NS      ) /*!< Memory Protection Unit            (non-secure address space) */
+  #endif
+
+  #define FPU_BASE_NS         (SCS_BASE_NS +  0x0F30UL)                  /*!< Floating Point Unit               (non-secure address space) */
+  #define FPU_NS              ((FPU_Type       *)     FPU_BASE_NS      ) /*!< Floating Point Unit               (non-secure address space) */
+
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+/*@} */
+
+
+
+/*******************************************************************************
+ *                Hardware Abstraction Layer
+  Core Function Interface contains:
+  - Core NVIC Functions
+  - Core SysTick Functions
+  - Core Debug Functions
+  - Core Register Access Functions
+ ******************************************************************************/
+/**
+  \defgroup CMSIS_Core_FunctionInterface Functions and Instructions Reference
+*/
+
+
+
+/* ##########################   NVIC functions  #################################### */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_NVICFunctions NVIC Functions
+  \brief    Functions that manage interrupts and exceptions via the NVIC.
+  @{
+ */
+
+#ifdef CMSIS_NVIC_VIRTUAL
+  #ifndef CMSIS_NVIC_VIRTUAL_HEADER_FILE
+    #define CMSIS_NVIC_VIRTUAL_HEADER_FILE "cmsis_nvic_virtual.h"
+  #endif
+  #include CMSIS_NVIC_VIRTUAL_HEADER_FILE
+#else
+  #define NVIC_SetPriorityGrouping    __NVIC_SetPriorityGrouping
+  #define NVIC_GetPriorityGrouping    __NVIC_GetPriorityGrouping
+  #define NVIC_EnableIRQ              __NVIC_EnableIRQ
+  #define NVIC_GetEnableIRQ           __NVIC_GetEnableIRQ
+  #define NVIC_DisableIRQ             __NVIC_DisableIRQ
+  #define NVIC_GetPendingIRQ          __NVIC_GetPendingIRQ
+  #define NVIC_SetPendingIRQ          __NVIC_SetPendingIRQ
+  #define NVIC_ClearPendingIRQ        __NVIC_ClearPendingIRQ
+  #define NVIC_GetActive              __NVIC_GetActive
+  #define NVIC_SetPriority            __NVIC_SetPriority
+  #define NVIC_GetPriority            __NVIC_GetPriority
+  #define NVIC_SystemReset            __NVIC_SystemReset
+#endif /* CMSIS_NVIC_VIRTUAL */
+
+#ifdef CMSIS_VECTAB_VIRTUAL
+  #ifndef CMSIS_VECTAB_VIRTUAL_HEADER_FILE
+    #define CMSIS_VECTAB_VIRTUAL_HEADER_FILE "cmsis_vectab_virtual.h"
+  #endif
+  #include CMSIS_VECTAB_VIRTUAL_HEADER_FILE
+#else
+  #define NVIC_SetVector              __NVIC_SetVector
+  #define NVIC_GetVector              __NVIC_GetVector
+#endif  /* (CMSIS_VECTAB_VIRTUAL) */
+
+#define NVIC_USER_IRQ_OFFSET          16
+
+
+/* Special LR values for Secure/Non-Secure call handling and exception handling                                               */
+
+/* Function Return Payload (from ARMv8-M Architecture Reference Manual) LR value on entry from Secure BLXNS                   */
+#define FNC_RETURN                 (0xFEFFFFFFUL)     /* bit [0] ignored when processing a branch                             */
+
+/* The following EXC_RETURN mask values are used to evaluate the LR on exception entry */
+#define EXC_RETURN_PREFIX          (0xFF000000UL)     /* bits [31:24] set to indicate an EXC_RETURN value                     */
+#define EXC_RETURN_S               (0x00000040UL)     /* bit [6] stack used to push registers: 0=Non-secure 1=Secure          */
+#define EXC_RETURN_DCRS            (0x00000020UL)     /* bit [5] stacking rules for called registers: 0=skipped 1=saved       */
+#define EXC_RETURN_FTYPE           (0x00000010UL)     /* bit [4] allocate stack for floating-point context: 0=done 1=skipped  */
+#define EXC_RETURN_MODE            (0x00000008UL)     /* bit [3] processor mode for return: 0=Handler mode 1=Thread mode      */
+#define EXC_RETURN_SPSEL           (0x00000004UL)     /* bit [2] stack pointer used to restore context: 0=MSP 1=PSP           */
+#define EXC_RETURN_ES              (0x00000001UL)     /* bit [0] security state exception was taken to: 0=Non-secure 1=Secure */
+
+/* Integrity Signature (from ARMv8-M Architecture Reference Manual) for exception context stacking                            */
+#if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)  /* Value for processors with floating-point extension:                  */
+#define EXC_INTEGRITY_SIGNATURE     (0xFEFA125AUL)     /* bit [0] SFTC must match LR bit[4] EXC_RETURN_FTYPE                   */
+#else
+#define EXC_INTEGRITY_SIGNATURE     (0xFEFA125BUL)     /* Value for processors without floating-point extension                */
+#endif
+
+
+/**
+  \brief   Set Priority Grouping
+  \details Sets the priority grouping field using the required unlock sequence.
+           The parameter PriorityGroup is assigned to the field SCB->AIRCR [10:8] PRIGROUP field.
+           Only values from 0..7 are used.
+           In case of a conflict between priority grouping and available
+           priority bits (__NVIC_PRIO_BITS), the smallest possible priority group is set.
+  \param [in]      PriorityGroup  Priority grouping field.
+ */
+__STATIC_INLINE void __NVIC_SetPriorityGrouping(uint32_t PriorityGroup)
+{
+  uint32_t reg_value;
+  uint32_t PriorityGroupTmp = (PriorityGroup & (uint32_t)0x07UL);             /* only values 0..7 are used          */
+
+  reg_value  =  SCB->AIRCR;                                                   /* read old register configuration    */
+  reg_value &= ~((uint32_t)(SCB_AIRCR_VECTKEY_Msk | SCB_AIRCR_PRIGROUP_Msk)); /* clear bits to change               */
+  reg_value  =  (reg_value                                   |
+                ((uint32_t)0x5FAUL << SCB_AIRCR_VECTKEY_Pos) |
+                (PriorityGroupTmp << SCB_AIRCR_PRIGROUP_Pos)  );              /* Insert write key and priority group */
+  SCB->AIRCR =  reg_value;
+}
+
+
+/**
+  \brief   Get Priority Grouping
+  \details Reads the priority grouping field from the NVIC Interrupt Controller.
+  \return                Priority grouping field (SCB->AIRCR [10:8] PRIGROUP field).
+ */
+__STATIC_INLINE uint32_t __NVIC_GetPriorityGrouping(void)
+{
+  return ((uint32_t)((SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) >> SCB_AIRCR_PRIGROUP_Pos));
+}
+
+
+/**
+  \brief   Enable Interrupt
+  \details Enables a device specific interrupt in the NVIC interrupt controller.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void __NVIC_EnableIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    __COMPILER_BARRIER();
+    NVIC->ISER[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+    __COMPILER_BARRIER();
+  }
+}
+
+
+/**
+  \brief   Get Interrupt Enable status
+  \details Returns a device specific interrupt enable status from the NVIC interrupt controller.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt is not enabled.
+  \return             1  Interrupt is enabled.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t __NVIC_GetEnableIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC->ISER[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Disable Interrupt
+  \details Disables a device specific interrupt in the NVIC interrupt controller.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void __NVIC_DisableIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->ICER[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+    __DSB();
+    __ISB();
+  }
+}
+
+
+/**
+  \brief   Get Pending Interrupt
+  \details Reads the NVIC pending register and returns the pending bit for the specified device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt status is not pending.
+  \return             1  Interrupt status is pending.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t __NVIC_GetPendingIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC->ISPR[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Set Pending Interrupt
+  \details Sets the pending bit of a device specific interrupt in the NVIC pending register.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void __NVIC_SetPendingIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->ISPR[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Clear Pending Interrupt
+  \details Clears the pending bit of a device specific interrupt in the NVIC pending register.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void __NVIC_ClearPendingIRQ(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->ICPR[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Get Active Interrupt
+  \details Reads the active register in the NVIC and returns the active bit for the device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt status is not active.
+  \return             1  Interrupt status is active.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t __NVIC_GetActive(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC->IABR[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \brief   Get Interrupt Target State
+  \details Reads the interrupt target field in the NVIC and returns the interrupt target bit for the device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  if interrupt is assigned to Secure
+  \return             1  if interrupt is assigned to Non Secure
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t NVIC_GetTargetState(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC->ITNS[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Set Interrupt Target State
+  \details Sets the interrupt target field in the NVIC and returns the interrupt target bit for the device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  if interrupt is assigned to Secure
+                      1  if interrupt is assigned to Non Secure
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t NVIC_SetTargetState(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->ITNS[(((uint32_t)IRQn) >> 5UL)] |=  ((uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL)));
+    return((uint32_t)(((NVIC->ITNS[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Clear Interrupt Target State
+  \details Clears the interrupt target field in the NVIC and returns the interrupt target bit for the device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  if interrupt is assigned to Secure
+                      1  if interrupt is assigned to Non Secure
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t NVIC_ClearTargetState(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->ITNS[(((uint32_t)IRQn) >> 5UL)] &= ~((uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL)));
+    return((uint32_t)(((NVIC->ITNS[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+
+/**
+  \brief   Set Interrupt Priority
+  \details Sets the priority of a device specific interrupt or a processor exception.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+  \param [in]      IRQn  Interrupt number.
+  \param [in]  priority  Priority to set.
+  \note    The priority cannot be set for every processor exception.
+ */
+__STATIC_INLINE void __NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC->IPR[((uint32_t)IRQn)]               = (uint8_t)((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t)0xFFUL);
+  }
+  else
+  {
+    SCB->SHPR[(((uint32_t)IRQn) & 0xFUL)-4UL] = (uint8_t)((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t)0xFFUL);
+  }
+}
+
+
+/**
+  \brief   Get Interrupt Priority
+  \details Reads the priority of a device specific interrupt or a processor exception.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+  \param [in]   IRQn  Interrupt number.
+  \return             Interrupt Priority.
+                      Value is aligned automatically to the implemented priority bits of the microcontroller.
+ */
+__STATIC_INLINE uint32_t __NVIC_GetPriority(IRQn_Type IRQn)
+{
+
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return(((uint32_t)NVIC->IPR[((uint32_t)IRQn)]               >> (8U - __NVIC_PRIO_BITS)));
+  }
+  else
+  {
+    return(((uint32_t)SCB->SHPR[(((uint32_t)IRQn) & 0xFUL)-4UL] >> (8U - __NVIC_PRIO_BITS)));
+  }
+}
+
+
+/**
+  \brief   Encode Priority
+  \details Encodes the priority for an interrupt with the given priority group,
+           preemptive priority value, and subpriority value.
+           In case of a conflict between priority grouping and available
+           priority bits (__NVIC_PRIO_BITS), the smallest possible priority group is set.
+  \param [in]     PriorityGroup  Used priority group.
+  \param [in]   PreemptPriority  Preemptive priority value (starting from 0).
+  \param [in]       SubPriority  Subpriority value (starting from 0).
+  \return                        Encoded priority. Value can be used in the function \ref NVIC_SetPriority().
+ */
+__STATIC_INLINE uint32_t NVIC_EncodePriority (uint32_t PriorityGroup, uint32_t PreemptPriority, uint32_t SubPriority)
+{
+  uint32_t PriorityGroupTmp = (PriorityGroup & (uint32_t)0x07UL);   /* only values 0..7 are used          */
+  uint32_t PreemptPriorityBits;
+  uint32_t SubPriorityBits;
+
+  PreemptPriorityBits = ((7UL - PriorityGroupTmp) > (uint32_t)(__NVIC_PRIO_BITS)) ? (uint32_t)(__NVIC_PRIO_BITS) : (uint32_t)(7UL - PriorityGroupTmp);
+  SubPriorityBits     = ((PriorityGroupTmp + (uint32_t)(__NVIC_PRIO_BITS)) < (uint32_t)7UL) ? (uint32_t)0UL : (uint32_t)((PriorityGroupTmp - 7UL) + (uint32_t)(__NVIC_PRIO_BITS));
+
+  return (
+           ((PreemptPriority & (uint32_t)((1UL << (PreemptPriorityBits)) - 1UL)) << SubPriorityBits) |
+           ((SubPriority     & (uint32_t)((1UL << (SubPriorityBits    )) - 1UL)))
+         );
+}
+
+
+/**
+  \brief   Decode Priority
+  \details Decodes an interrupt priority value with a given priority group to
+           preemptive priority value and subpriority value.
+           In case of a conflict between priority grouping and available
+           priority bits (__NVIC_PRIO_BITS) the smallest possible priority group is set.
+  \param [in]         Priority   Priority value, which can be retrieved with the function \ref NVIC_GetPriority().
+  \param [in]     PriorityGroup  Used priority group.
+  \param [out] pPreemptPriority  Preemptive priority value (starting from 0).
+  \param [out]     pSubPriority  Subpriority value (starting from 0).
+ */
+__STATIC_INLINE void NVIC_DecodePriority (uint32_t Priority, uint32_t PriorityGroup, uint32_t* const pPreemptPriority, uint32_t* const pSubPriority)
+{
+  uint32_t PriorityGroupTmp = (PriorityGroup & (uint32_t)0x07UL);   /* only values 0..7 are used          */
+  uint32_t PreemptPriorityBits;
+  uint32_t SubPriorityBits;
+
+  PreemptPriorityBits = ((7UL - PriorityGroupTmp) > (uint32_t)(__NVIC_PRIO_BITS)) ? (uint32_t)(__NVIC_PRIO_BITS) : (uint32_t)(7UL - PriorityGroupTmp);
+  SubPriorityBits     = ((PriorityGroupTmp + (uint32_t)(__NVIC_PRIO_BITS)) < (uint32_t)7UL) ? (uint32_t)0UL : (uint32_t)((PriorityGroupTmp - 7UL) + (uint32_t)(__NVIC_PRIO_BITS));
+
+  *pPreemptPriority = (Priority >> SubPriorityBits) & (uint32_t)((1UL << (PreemptPriorityBits)) - 1UL);
+  *pSubPriority     = (Priority                   ) & (uint32_t)((1UL << (SubPriorityBits    )) - 1UL);
+}
+
+
+/**
+  \brief   Set Interrupt Vector
+  \details Sets an interrupt vector in SRAM based interrupt vector table.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+           VTOR must been relocated to SRAM before.
+  \param [in]   IRQn      Interrupt number
+  \param [in]   vector    Address of interrupt handler function
+ */
+__STATIC_INLINE void __NVIC_SetVector(IRQn_Type IRQn, uint32_t vector)
+{
+  uint32_t *vectors = (uint32_t *)SCB->VTOR;
+  vectors[(int32_t)IRQn + NVIC_USER_IRQ_OFFSET] = vector;
+  __DSB();
+}
+
+
+/**
+  \brief   Get Interrupt Vector
+  \details Reads an interrupt vector from interrupt vector table.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+  \param [in]   IRQn      Interrupt number.
+  \return                 Address of interrupt handler function
+ */
+__STATIC_INLINE uint32_t __NVIC_GetVector(IRQn_Type IRQn)
+{
+  uint32_t *vectors = (uint32_t *)SCB->VTOR;
+  return vectors[(int32_t)IRQn + NVIC_USER_IRQ_OFFSET];
+}
+
+
+/**
+  \brief   System Reset
+  \details Initiates a system reset request to reset the MCU.
+ */
+__NO_RETURN __STATIC_INLINE void __NVIC_SystemReset(void)
+{
+  __DSB();                                                          /* Ensure all outstanding memory accesses included
+                                                                       buffered write are completed before reset */
+  SCB->AIRCR  = (uint32_t)((0x5FAUL << SCB_AIRCR_VECTKEY_Pos)    |
+                           (SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) |
+                            SCB_AIRCR_SYSRESETREQ_Msk    );         /* Keep priority group unchanged */
+  __DSB();                                                          /* Ensure completion of memory access */
+
+  for(;;)                                                           /* wait until reset */
+  {
+    __NOP();
+  }
+}
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \brief   Set Priority Grouping (non-secure)
+  \details Sets the non-secure priority grouping field when in secure state using the required unlock sequence.
+           The parameter PriorityGroup is assigned to the field SCB->AIRCR [10:8] PRIGROUP field.
+           Only values from 0..7 are used.
+           In case of a conflict between priority grouping and available
+           priority bits (__NVIC_PRIO_BITS), the smallest possible priority group is set.
+  \param [in]      PriorityGroup  Priority grouping field.
+ */
+__STATIC_INLINE void TZ_NVIC_SetPriorityGrouping_NS(uint32_t PriorityGroup)
+{
+  uint32_t reg_value;
+  uint32_t PriorityGroupTmp = (PriorityGroup & (uint32_t)0x07UL);             /* only values 0..7 are used          */
+
+  reg_value  =  SCB_NS->AIRCR;                                                /* read old register configuration    */
+  reg_value &= ~((uint32_t)(SCB_AIRCR_VECTKEY_Msk | SCB_AIRCR_PRIGROUP_Msk)); /* clear bits to change               */
+  reg_value  =  (reg_value                                   |
+                ((uint32_t)0x5FAUL << SCB_AIRCR_VECTKEY_Pos) |
+                (PriorityGroupTmp << SCB_AIRCR_PRIGROUP_Pos)  );              /* Insert write key and priority group */
+  SCB_NS->AIRCR =  reg_value;
+}
+
+
+/**
+  \brief   Get Priority Grouping (non-secure)
+  \details Reads the priority grouping field from the non-secure NVIC when in secure state.
+  \return                Priority grouping field (SCB->AIRCR [10:8] PRIGROUP field).
+ */
+__STATIC_INLINE uint32_t TZ_NVIC_GetPriorityGrouping_NS(void)
+{
+  return ((uint32_t)((SCB_NS->AIRCR & SCB_AIRCR_PRIGROUP_Msk) >> SCB_AIRCR_PRIGROUP_Pos));
+}
+
+
+/**
+  \brief   Enable Interrupt (non-secure)
+  \details Enables a device specific interrupt in the non-secure NVIC interrupt controller when in secure state.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void TZ_NVIC_EnableIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC_NS->ISER[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Get Interrupt Enable status (non-secure)
+  \details Returns a device specific interrupt enable status from the non-secure NVIC interrupt controller when in secure state.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt is not enabled.
+  \return             1  Interrupt is enabled.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t TZ_NVIC_GetEnableIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC_NS->ISER[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Disable Interrupt (non-secure)
+  \details Disables a device specific interrupt in the non-secure NVIC interrupt controller when in secure state.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void TZ_NVIC_DisableIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC_NS->ICER[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Get Pending Interrupt (non-secure)
+  \details Reads the NVIC pending register in the non-secure NVIC when in secure state and returns the pending bit for the specified device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt status is not pending.
+  \return             1  Interrupt status is pending.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t TZ_NVIC_GetPendingIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC_NS->ISPR[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Set Pending Interrupt (non-secure)
+  \details Sets the pending bit of a device specific interrupt in the non-secure NVIC pending register when in secure state.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void TZ_NVIC_SetPendingIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC_NS->ISPR[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Clear Pending Interrupt (non-secure)
+  \details Clears the pending bit of a device specific interrupt in the non-secure NVIC pending register when in secure state.
+  \param [in]      IRQn  Device specific interrupt number.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE void TZ_NVIC_ClearPendingIRQ_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC_NS->ICPR[(((uint32_t)IRQn) >> 5UL)] = (uint32_t)(1UL << (((uint32_t)IRQn) & 0x1FUL));
+  }
+}
+
+
+/**
+  \brief   Get Active Interrupt (non-secure)
+  \details Reads the active register in non-secure NVIC when in secure state and returns the active bit for the device specific interrupt.
+  \param [in]      IRQn  Device specific interrupt number.
+  \return             0  Interrupt status is not active.
+  \return             1  Interrupt status is active.
+  \note    IRQn must not be negative.
+ */
+__STATIC_INLINE uint32_t TZ_NVIC_GetActive_NS(IRQn_Type IRQn)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return((uint32_t)(((NVIC_NS->IABR[(((uint32_t)IRQn) >> 5UL)] & (1UL << (((uint32_t)IRQn) & 0x1FUL))) != 0UL) ? 1UL : 0UL));
+  }
+  else
+  {
+    return(0U);
+  }
+}
+
+
+/**
+  \brief   Set Interrupt Priority (non-secure)
+  \details Sets the priority of a non-secure device specific interrupt or a non-secure processor exception when in secure state.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+  \param [in]      IRQn  Interrupt number.
+  \param [in]  priority  Priority to set.
+  \note    The priority cannot be set for every non-secure processor exception.
+ */
+__STATIC_INLINE void TZ_NVIC_SetPriority_NS(IRQn_Type IRQn, uint32_t priority)
+{
+  if ((int32_t)(IRQn) >= 0)
+  {
+    NVIC_NS->IPR[((uint32_t)IRQn)]               = (uint8_t)((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t)0xFFUL);
+  }
+  else
+  {
+    SCB_NS->SHPR[(((uint32_t)IRQn) & 0xFUL)-4UL] = (uint8_t)((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t)0xFFUL);
+  }
+}
+
+
+/**
+  \brief   Get Interrupt Priority (non-secure)
+  \details Reads the priority of a non-secure device specific interrupt or a non-secure processor exception when in secure state.
+           The interrupt number can be positive to specify a device specific interrupt,
+           or negative to specify a processor exception.
+  \param [in]   IRQn  Interrupt number.
+  \return             Interrupt Priority. Value is aligned automatically to the implemented priority bits of the microcontroller.
+ */
+__STATIC_INLINE uint32_t TZ_NVIC_GetPriority_NS(IRQn_Type IRQn)
+{
+
+  if ((int32_t)(IRQn) >= 0)
+  {
+    return(((uint32_t)NVIC_NS->IPR[((uint32_t)IRQn)]               >> (8U - __NVIC_PRIO_BITS)));
+  }
+  else
+  {
+    return(((uint32_t)SCB_NS->SHPR[(((uint32_t)IRQn) & 0xFUL)-4UL] >> (8U - __NVIC_PRIO_BITS)));
+  }
+}
+#endif /*  defined (__ARM_FEATURE_CMSE) &&(__ARM_FEATURE_CMSE == 3U) */
+
+/*@} end of CMSIS_Core_NVICFunctions */
+
+/* ##########################  MPU functions  #################################### */
+
+#if defined (__MPU_PRESENT) && (__MPU_PRESENT == 1U)
+
+#include "mpu_armv8.h"
+
+#endif
+
+/* ##########################  FPU functions  #################################### */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_FpuFunctions FPU Functions
+  \brief    Function that provides FPU type.
+  @{
+ */
+
+/**
+  \brief   get FPU type
+  \details returns the FPU type
+  \returns
+   - \b  0: No FPU
+   - \b  1: Single precision FPU
+   - \b  2: Double + Single precision FPU
+ */
+__STATIC_INLINE uint32_t SCB_GetFPUType(void)
+{
+  uint32_t mvfr0;
+
+  mvfr0 = FPU->MVFR0;
+  if      ((mvfr0 & (FPU_MVFR0_Single_precision_Msk | FPU_MVFR0_Double_precision_Msk)) == 0x220U)
+  {
+    return 2U;           /* Double + Single precision FPU */
+  }
+  else if ((mvfr0 & (FPU_MVFR0_Single_precision_Msk | FPU_MVFR0_Double_precision_Msk)) == 0x020U)
+  {
+    return 1U;           /* Single precision FPU */
+  }
+  else
+  {
+    return 0U;           /* No FPU */
+  }
+}
+
+
+/*@} end of CMSIS_Core_FpuFunctions */
+
+
+
+/* ##########################   SAU functions  #################################### */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_SAUFunctions SAU Functions
+  \brief    Functions that configure the SAU.
+  @{
+ */
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+
+/**
+  \brief   Enable SAU
+  \details Enables the Security Attribution Unit (SAU).
+ */
+__STATIC_INLINE void TZ_SAU_Enable(void)
+{
+    SAU->CTRL |=  (SAU_CTRL_ENABLE_Msk);
+}
+
+
+
+/**
+  \brief   Disable SAU
+  \details Disables the Security Attribution Unit (SAU).
+ */
+__STATIC_INLINE void TZ_SAU_Disable(void)
+{
+    SAU->CTRL &= ~(SAU_CTRL_ENABLE_Msk);
+}
+
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+/*@} end of CMSIS_Core_SAUFunctions */
+
+
+
+
+/* ##################################    Debug Control function  ############################################ */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_DCBFunctions Debug Control Functions
+  \brief    Functions that access the Debug Control Block.
+  @{
+ */
+
+ 
+/**
+  \brief   Set Debug Authentication Control Register
+  \details writes to Debug Authentication Control register.
+  \param [in]  value  value to be writen.
+ */
+__STATIC_INLINE void DCB_SetAuthCtrl(uint32_t value)
+{
+    __DSB();
+    __ISB();
+    DCB->DAUTHCTRL = value;
+    __DSB();
+    __ISB();
+}
+
+
+/**
+  \brief   Get Debug Authentication Control Register
+  \details Reads Debug Authentication Control register.
+  \return             Debug Authentication Control Register.
+ */
+__STATIC_INLINE uint32_t DCB_GetAuthCtrl(void)
+{
+    return (DCB->DAUTHCTRL);
+}
+
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \brief   Set Debug Authentication Control Register (non-secure)
+  \details writes to non-secure Debug Authentication Control register when in secure state.
+  \param [in]  value  value to be writen
+ */
+__STATIC_INLINE void TZ_DCB_SetAuthCtrl_NS(uint32_t value)
+{
+    __DSB();
+    __ISB();
+    DCB_NS->DAUTHCTRL = value;
+    __DSB();
+    __ISB();
+}
+
+
+/**
+  \brief   Get Debug Authentication Control Register (non-secure)
+  \details Reads non-secure Debug Authentication Control register when in secure state.
+  \return             Debug Authentication Control Register.
+ */
+__STATIC_INLINE uint32_t TZ_DCB_GetAuthCtrl_NS(void)
+{
+    return (DCB_NS->DAUTHCTRL);
+}
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+/*@} end of CMSIS_Core_DCBFunctions */
+
+
+
+
+/* ##################################    Debug Identification function  ############################################ */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_DIBFunctions Debug Identification Functions
+  \brief    Functions that access the Debug Identification Block.
+  @{
+ */
+
+ 
+/**
+  \brief   Get Debug Authentication Status Register
+  \details Reads Debug Authentication Status register.
+  \return             Debug Authentication Status Register.
+ */
+__STATIC_INLINE uint32_t DIB_GetAuthStatus(void)
+{
+    return (DIB->DAUTHSTATUS);
+}
+
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \brief   Get Debug Authentication Status Register (non-secure)
+  \details Reads non-secure Debug Authentication Status register when in secure state.
+  \return             Debug Authentication Status Register.
+ */
+__STATIC_INLINE uint32_t TZ_DIB_GetAuthStatus_NS(void)
+{
+    return (DIB_NS->DAUTHSTATUS);
+}
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+/*@} end of CMSIS_Core_DCBFunctions */
+
+
+
+
+/* ##################################    SysTick function  ############################################ */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_Core_SysTickFunctions SysTick Functions
+  \brief    Functions that configure the System.
+  @{
+ */
+
+#if defined (__Vendor_SysTickConfig) && (__Vendor_SysTickConfig == 0U)
+
+/**
+  \brief   System Tick Configuration
+  \details Initializes the System Timer and its interrupt, and starts the System Tick Timer.
+           Counter is in free running mode to generate periodic interrupts.
+  \param [in]  ticks  Number of ticks between two interrupts.
+  \return          0  Function succeeded.
+  \return          1  Function failed.
+  \note    When the variable <b>__Vendor_SysTickConfig</b> is set to 1, then the
+           function <b>SysTick_Config</b> is not included. In this case, the file <b><i>device</i>.h</b>
+           must contain a vendor-specific implementation of this function.
+ */
+__STATIC_INLINE uint32_t SysTick_Config(uint32_t ticks)
+{
+  if ((ticks - 1UL) > SysTick_LOAD_RELOAD_Msk)
+  {
+    return (1UL);                                                   /* Reload value impossible */
+  }
+
+  SysTick->LOAD  = (uint32_t)(ticks - 1UL);                         /* set reload register */
+  NVIC_SetPriority (SysTick_IRQn, (1UL << __NVIC_PRIO_BITS) - 1UL); /* set Priority for Systick Interrupt */
+  SysTick->VAL   = 0UL;                                             /* Load the SysTick Counter Value */
+  SysTick->CTRL  = SysTick_CTRL_CLKSOURCE_Msk |
+                   SysTick_CTRL_TICKINT_Msk   |
+                   SysTick_CTRL_ENABLE_Msk;                         /* Enable SysTick IRQ and SysTick Timer */
+  return (0UL);                                                     /* Function successful */
+}
+
+#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
+/**
+  \brief   System Tick Configuration (non-secure)
+  \details Initializes the non-secure System Timer and its interrupt when in secure state, and starts the System Tick Timer.
+           Counter is in free running mode to generate periodic interrupts.
+  \param [in]  ticks  Number of ticks between two interrupts.
+  \return          0  Function succeeded.
+  \return          1  Function failed.
+  \note    When the variable <b>__Vendor_SysTickConfig</b> is set to 1, then the
+           function <b>TZ_SysTick_Config_NS</b> is not included. In this case, the file <b><i>device</i>.h</b>
+           must contain a vendor-specific implementation of this function.
+
+ */
+__STATIC_INLINE uint32_t TZ_SysTick_Config_NS(uint32_t ticks)
+{
+  if ((ticks - 1UL) > SysTick_LOAD_RELOAD_Msk)
+  {
+    return (1UL);                                                         /* Reload value impossible */
+  }
+
+  SysTick_NS->LOAD  = (uint32_t)(ticks - 1UL);                            /* set reload register */
+  TZ_NVIC_SetPriority_NS (SysTick_IRQn, (1UL << __NVIC_PRIO_BITS) - 1UL); /* set Priority for Systick Interrupt */
+  SysTick_NS->VAL   = 0UL;                                                /* Load the SysTick Counter Value */
+  SysTick_NS->CTRL  = SysTick_CTRL_CLKSOURCE_Msk |
+                      SysTick_CTRL_TICKINT_Msk   |
+                      SysTick_CTRL_ENABLE_Msk;                            /* Enable SysTick IRQ and SysTick Timer */
+  return (0UL);                                                           /* Function successful */
+}
+#endif /* defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U) */
+
+#endif
+
+/*@} end of CMSIS_Core_SysTickFunctions */
+
+
+
+/* ##################################### Debug In/Output function ########################################### */
+/**
+  \ingroup  CMSIS_Core_FunctionInterface
+  \defgroup CMSIS_core_DebugFunctions ITM Functions
+  \brief    Functions that access the ITM debug interface.
+  @{
+ */
+
+extern volatile int32_t ITM_RxBuffer;                              /*!< External variable to receive characters. */
+#define                 ITM_RXBUFFER_EMPTY  ((int32_t)0x5AA55AA5U) /*!< Value identifying \ref ITM_RxBuffer is ready for next character. */
+
+
+/**
+  \brief   ITM Send Character
+  \details Transmits a character via the ITM channel 0, and
+           \li Just returns when no debugger is connected that has booked the output.
+           \li Is blocking when a debugger is connected, but the previous character sent has not been transmitted.
+  \param [in]     ch  Character to transmit.
+  \returns            Character to transmit.
+ */
+__STATIC_INLINE uint32_t ITM_SendChar (uint32_t ch)
+{
+  if (((ITM->TCR & ITM_TCR_ITMENA_Msk) != 0UL) &&      /* ITM enabled */
+      ((ITM->TER & 1UL               ) != 0UL)   )     /* ITM Port #0 enabled */
+  {
+    while (ITM->PORT[0U].u32 == 0UL)
+    {
+      __NOP();
+    }
+    ITM->PORT[0U].u8 = (uint8_t)ch;
+  }
+  return (ch);
+}
+
+
+/**
+  \brief   ITM Receive Character
+  \details Inputs a character via the external variable \ref ITM_RxBuffer.
+  \return             Received character.
+  \return         -1  No character pending.
+ */
+__STATIC_INLINE int32_t ITM_ReceiveChar (void)
+{
+  int32_t ch = -1;                           /* no character available */
+
+  if (ITM_RxBuffer != ITM_RXBUFFER_EMPTY)
+  {
+    ch = ITM_RxBuffer;
+    ITM_RxBuffer = ITM_RXBUFFER_EMPTY;       /* ready for next character */
+  }
+
+  return (ch);
+}
+
+
+/**
+  \brief   ITM Check Character
+  \details Checks whether a character is pending for reading in the variable \ref ITM_RxBuffer.
+  \return          0  No character available.
+  \return          1  Character available.
+ */
+__STATIC_INLINE int32_t ITM_CheckChar (void)
+{
+
+  if (ITM_RxBuffer == ITM_RXBUFFER_EMPTY)
+  {
+    return (0);                              /* no character available */
+  }
+  else
+  {
+    return (1);                              /*    character available */
+  }
+}
+
+/*@} end of CMSIS_core_DebugFunctions */
+
+
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* __CORE_CM33_H_DEPENDANT */
+
+#endif /* __CMSIS_GENERIC */
diff --git a/lib/cmsis-core/mpu_armv8.h b/lib/cmsis-core/mpu_armv8.h
new file mode 100644
index 0000000..ef44ad0
--- /dev/null
+++ b/lib/cmsis-core/mpu_armv8.h
@@ -0,0 +1,352 @@
+/******************************************************************************
+ * @file     mpu_armv8.h
+ * @brief    CMSIS MPU API for Armv8-M and Armv8.1-M MPU
+ * @version  V5.1.2
+ * @date     10. February 2020
+ ******************************************************************************/
+/*
+ * Copyright (c) 2017-2020 Arm Limited. All rights reserved.
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the License); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#if   defined ( __ICCARM__ )
+  #pragma system_include         /* treat file as system include file for MISRA check */
+#elif defined (__clang__)
+  #pragma clang system_header    /* treat file as system include file */
+#endif
+
+#ifndef ARM_MPU_ARMV8_H
+#define ARM_MPU_ARMV8_H
+
+/** \brief Attribute for device memory (outer only) */
+#define ARM_MPU_ATTR_DEVICE                           ( 0U )
+
+/** \brief Attribute for non-cacheable, normal memory */
+#define ARM_MPU_ATTR_NON_CACHEABLE                    ( 4U )
+
+/** \brief Attribute for normal memory (outer and inner)
+* \param NT Non-Transient: Set to 1 for non-transient data.
+* \param WB Write-Back: Set to 1 to use write-back update policy.
+* \param RA Read Allocation: Set to 1 to use cache allocation on read miss.
+* \param WA Write Allocation: Set to 1 to use cache allocation on write miss.
+*/
+#define ARM_MPU_ATTR_MEMORY_(NT, WB, RA, WA) \
+  ((((NT) & 1U) << 3U) | (((WB) & 1U) << 2U) | (((RA) & 1U) << 1U) | ((WA) & 1U))
+
+/** \brief Device memory type non Gathering, non Re-ordering, non Early Write Acknowledgement */
+#define ARM_MPU_ATTR_DEVICE_nGnRnE (0U)
+
+/** \brief Device memory type non Gathering, non Re-ordering, Early Write Acknowledgement */
+#define ARM_MPU_ATTR_DEVICE_nGnRE  (1U)
+
+/** \brief Device memory type non Gathering, Re-ordering, Early Write Acknowledgement */
+#define ARM_MPU_ATTR_DEVICE_nGRE   (2U)
+
+/** \brief Device memory type Gathering, Re-ordering, Early Write Acknowledgement */
+#define ARM_MPU_ATTR_DEVICE_GRE    (3U)
+
+/** \brief Memory Attribute
+* \param O Outer memory attributes
+* \param I O == ARM_MPU_ATTR_DEVICE: Device memory attributes, else: Inner memory attributes
+*/
+#define ARM_MPU_ATTR(O, I) ((((O) & 0xFU) << 4U) | ((((O) & 0xFU) != 0U) ? ((I) & 0xFU) : (((I) & 0x3U) << 2U)))
+
+/** \brief Normal memory non-shareable  */
+#define ARM_MPU_SH_NON   (0U)
+
+/** \brief Normal memory outer shareable  */
+#define ARM_MPU_SH_OUTER (2U)
+
+/** \brief Normal memory inner shareable  */
+#define ARM_MPU_SH_INNER (3U)
+
+/** \brief Memory access permissions
+* \param RO Read-Only: Set to 1 for read-only memory.
+* \param NP Non-Privileged: Set to 1 for non-privileged memory.
+*/
+#define ARM_MPU_AP_(RO, NP) ((((RO) & 1U) << 1U) | ((NP) & 1U))
+
+/** \brief Region Base Address Register value
+* \param BASE The base address bits [31:5] of a memory region. The value is zero extended. Effective address gets 32 byte aligned.
+* \param SH Defines the Shareability domain for this memory region.
+* \param RO Read-Only: Set to 1 for a read-only memory region.
+* \param NP Non-Privileged: Set to 1 for a non-privileged memory region.
+* \oaram XN eXecute Never: Set to 1 for a non-executable memory region.
+*/
+#define ARM_MPU_RBAR(BASE, SH, RO, NP, XN) \
+  (((BASE) & MPU_RBAR_BASE_Msk) | \
+  (((SH) << MPU_RBAR_SH_Pos) & MPU_RBAR_SH_Msk) | \
+  ((ARM_MPU_AP_(RO, NP) << MPU_RBAR_AP_Pos) & MPU_RBAR_AP_Msk) | \
+  (((XN) << MPU_RBAR_XN_Pos) & MPU_RBAR_XN_Msk))
+
+/** \brief Region Limit Address Register value
+* \param LIMIT The limit address bits [31:5] for this memory region. The value is one extended.
+* \param IDX The attribute index to be associated with this memory region.
+*/
+#define ARM_MPU_RLAR(LIMIT, IDX) \
+  (((LIMIT) & MPU_RLAR_LIMIT_Msk) | \
+  (((IDX) << MPU_RLAR_AttrIndx_Pos) & MPU_RLAR_AttrIndx_Msk) | \
+  (MPU_RLAR_EN_Msk))
+
+#if defined(MPU_RLAR_PXN_Pos)
+  
+/** \brief Region Limit Address Register with PXN value
+* \param LIMIT The limit address bits [31:5] for this memory region. The value is one extended.
+* \param PXN Privileged execute never. Defines whether code can be executed from this privileged region.
+* \param IDX The attribute index to be associated with this memory region.
+*/
+#define ARM_MPU_RLAR_PXN(LIMIT, PXN, IDX) \
+  (((LIMIT) & MPU_RLAR_LIMIT_Msk) | \
+  (((PXN) << MPU_RLAR_PXN_Pos) & MPU_RLAR_PXN_Msk) | \
+  (((IDX) << MPU_RLAR_AttrIndx_Pos) & MPU_RLAR_AttrIndx_Msk) | \
+  (MPU_RLAR_EN_Msk))
+  
+#endif
+
+/**
+* Struct for a single MPU Region
+*/
+typedef struct {
+  uint32_t RBAR;                   /*!< Region Base Address Register value */
+  uint32_t RLAR;                   /*!< Region Limit Address Register value */
+} ARM_MPU_Region_t;
+    
+/** Enable the MPU.
+* \param MPU_Control Default access permissions for unconfigured regions.
+*/
+__STATIC_INLINE void ARM_MPU_Enable(uint32_t MPU_Control)
+{
+  __DMB();
+  MPU->CTRL = MPU_Control | MPU_CTRL_ENABLE_Msk;
+#ifdef SCB_SHCSR_MEMFAULTENA_Msk
+  SCB->SHCSR |= SCB_SHCSR_MEMFAULTENA_Msk;
+#endif
+  __DSB();
+  __ISB();
+}
+
+/** Disable the MPU.
+*/
+__STATIC_INLINE void ARM_MPU_Disable(void)
+{
+  __DMB();
+#ifdef SCB_SHCSR_MEMFAULTENA_Msk
+  SCB->SHCSR &= ~SCB_SHCSR_MEMFAULTENA_Msk;
+#endif
+  MPU->CTRL  &= ~MPU_CTRL_ENABLE_Msk;
+  __DSB();
+  __ISB();
+}
+
+#ifdef MPU_NS
+/** Enable the Non-secure MPU.
+* \param MPU_Control Default access permissions for unconfigured regions.
+*/
+__STATIC_INLINE void ARM_MPU_Enable_NS(uint32_t MPU_Control)
+{
+  __DMB();
+  MPU_NS->CTRL = MPU_Control | MPU_CTRL_ENABLE_Msk;
+#ifdef SCB_SHCSR_MEMFAULTENA_Msk
+  SCB_NS->SHCSR |= SCB_SHCSR_MEMFAULTENA_Msk;
+#endif
+  __DSB();
+  __ISB();
+}
+
+/** Disable the Non-secure MPU.
+*/
+__STATIC_INLINE void ARM_MPU_Disable_NS(void)
+{
+  __DMB();
+#ifdef SCB_SHCSR_MEMFAULTENA_Msk
+  SCB_NS->SHCSR &= ~SCB_SHCSR_MEMFAULTENA_Msk;
+#endif
+  MPU_NS->CTRL  &= ~MPU_CTRL_ENABLE_Msk;
+  __DSB();
+  __ISB();
+}
+#endif
+
+/** Set the memory attribute encoding to the given MPU.
+* \param mpu Pointer to the MPU to be configured.
+* \param idx The attribute index to be set [0-7]
+* \param attr The attribute value to be set.
+*/
+__STATIC_INLINE void ARM_MPU_SetMemAttrEx(MPU_Type* mpu, uint8_t idx, uint8_t attr)
+{
+  const uint8_t reg = idx / 4U;
+  const uint32_t pos = ((idx % 4U) * 8U);
+  const uint32_t mask = 0xFFU << pos;
+  
+  if (reg >= (sizeof(mpu->MAIR) / sizeof(mpu->MAIR[0]))) {
+    return; // invalid index
+  }
+  
+  mpu->MAIR[reg] = ((mpu->MAIR[reg] & ~mask) | ((attr << pos) & mask));
+}
+
+/** Set the memory attribute encoding.
+* \param idx The attribute index to be set [0-7]
+* \param attr The attribute value to be set.
+*/
+__STATIC_INLINE void ARM_MPU_SetMemAttr(uint8_t idx, uint8_t attr)
+{
+  ARM_MPU_SetMemAttrEx(MPU, idx, attr);
+}
+
+#ifdef MPU_NS
+/** Set the memory attribute encoding to the Non-secure MPU.
+* \param idx The attribute index to be set [0-7]
+* \param attr The attribute value to be set.
+*/
+__STATIC_INLINE void ARM_MPU_SetMemAttr_NS(uint8_t idx, uint8_t attr)
+{
+  ARM_MPU_SetMemAttrEx(MPU_NS, idx, attr);
+}
+#endif
+
+/** Clear and disable the given MPU region of the given MPU.
+* \param mpu Pointer to MPU to be used.
+* \param rnr Region number to be cleared.
+*/
+__STATIC_INLINE void ARM_MPU_ClrRegionEx(MPU_Type* mpu, uint32_t rnr)
+{
+  mpu->RNR = rnr;
+  mpu->RLAR = 0U;
+}
+
+/** Clear and disable the given MPU region.
+* \param rnr Region number to be cleared.
+*/
+__STATIC_INLINE void ARM_MPU_ClrRegion(uint32_t rnr)
+{
+  ARM_MPU_ClrRegionEx(MPU, rnr);
+}
+
+#ifdef MPU_NS
+/** Clear and disable the given Non-secure MPU region.
+* \param rnr Region number to be cleared.
+*/
+__STATIC_INLINE void ARM_MPU_ClrRegion_NS(uint32_t rnr)
+{  
+  ARM_MPU_ClrRegionEx(MPU_NS, rnr);
+}
+#endif
+
+/** Configure the given MPU region of the given MPU.
+* \param mpu Pointer to MPU to be used.
+* \param rnr Region number to be configured.
+* \param rbar Value for RBAR register.
+* \param rlar Value for RLAR register.
+*/   
+__STATIC_INLINE void ARM_MPU_SetRegionEx(MPU_Type* mpu, uint32_t rnr, uint32_t rbar, uint32_t rlar)
+{
+  mpu->RNR = rnr;
+  mpu->RBAR = rbar;
+  mpu->RLAR = rlar;
+}
+
+/** Configure the given MPU region.
+* \param rnr Region number to be configured.
+* \param rbar Value for RBAR register.
+* \param rlar Value for RLAR register.
+*/   
+__STATIC_INLINE void ARM_MPU_SetRegion(uint32_t rnr, uint32_t rbar, uint32_t rlar)
+{
+  ARM_MPU_SetRegionEx(MPU, rnr, rbar, rlar);
+}
+
+#ifdef MPU_NS
+/** Configure the given Non-secure MPU region.
+* \param rnr Region number to be configured.
+* \param rbar Value for RBAR register.
+* \param rlar Value for RLAR register.
+*/   
+__STATIC_INLINE void ARM_MPU_SetRegion_NS(uint32_t rnr, uint32_t rbar, uint32_t rlar)
+{
+  ARM_MPU_SetRegionEx(MPU_NS, rnr, rbar, rlar);  
+}
+#endif
+
+/** Memcopy with strictly ordered memory access, e.g. for register targets.
+* \param dst Destination data is copied to.
+* \param src Source data is copied from.
+* \param len Amount of data words to be copied.
+*/
+__STATIC_INLINE void ARM_MPU_OrderedMemcpy(volatile uint32_t* dst, const uint32_t* __RESTRICT src, uint32_t len)
+{
+  uint32_t i;
+  for (i = 0U; i < len; ++i) 
+  {
+    dst[i] = src[i];
+  }
+}
+
+/** Load the given number of MPU regions from a table to the given MPU.
+* \param mpu Pointer to the MPU registers to be used.
+* \param rnr First region number to be configured.
+* \param table Pointer to the MPU configuration table.
+* \param cnt Amount of regions to be configured.
+*/
+__STATIC_INLINE void ARM_MPU_LoadEx(MPU_Type* mpu, uint32_t rnr, ARM_MPU_Region_t const* table, uint32_t cnt) 
+{
+  const uint32_t rowWordSize = sizeof(ARM_MPU_Region_t)/4U;
+  if (cnt == 1U) {
+    mpu->RNR = rnr;
+    ARM_MPU_OrderedMemcpy(&(mpu->RBAR), &(table->RBAR), rowWordSize);
+  } else {
+    uint32_t rnrBase   = rnr & ~(MPU_TYPE_RALIASES-1U);
+    uint32_t rnrOffset = rnr % MPU_TYPE_RALIASES;
+    
+    mpu->RNR = rnrBase;
+    while ((rnrOffset + cnt) > MPU_TYPE_RALIASES) {
+      uint32_t c = MPU_TYPE_RALIASES - rnrOffset;
+      ARM_MPU_OrderedMemcpy(&(mpu->RBAR)+(rnrOffset*2U), &(table->RBAR), c*rowWordSize);
+      table += c;
+      cnt -= c;
+      rnrOffset = 0U;
+      rnrBase += MPU_TYPE_RALIASES;
+      mpu->RNR = rnrBase;
+    }
+    
+    ARM_MPU_OrderedMemcpy(&(mpu->RBAR)+(rnrOffset*2U), &(table->RBAR), cnt*rowWordSize);
+  }
+}
+
+/** Load the given number of MPU regions from a table.
+* \param rnr First region number to be configured.
+* \param table Pointer to the MPU configuration table.
+* \param cnt Amount of regions to be configured.
+*/
+__STATIC_INLINE void ARM_MPU_Load(uint32_t rnr, ARM_MPU_Region_t const* table, uint32_t cnt) 
+{
+  ARM_MPU_LoadEx(MPU, rnr, table, cnt);
+}
+
+#ifdef MPU_NS
+/** Load the given number of MPU regions from a table to the Non-secure MPU.
+* \param rnr First region number to be configured.
+* \param table Pointer to the MPU configuration table.
+* \param cnt Amount of regions to be configured.
+*/
+__STATIC_INLINE void ARM_MPU_Load_NS(uint32_t rnr, ARM_MPU_Region_t const* table, uint32_t cnt) 
+{
+  ARM_MPU_LoadEx(MPU_NS, rnr, table, cnt);
+}
+#endif
+
+#endif
+
diff --git a/lib/rp2040/elf2uf2/elf.h b/lib/elf2uf2/elf.h
similarity index 100%
rename from lib/rp2040/elf2uf2/elf.h
rename to lib/elf2uf2/elf.h
diff --git a/lib/rp2040/elf2uf2/main.cpp b/lib/elf2uf2/main.cpp
similarity index 99%
rename from lib/rp2040/elf2uf2/main.cpp
rename to lib/elf2uf2/main.cpp
index b66f082..a108c2f 100644
--- a/lib/rp2040/elf2uf2/main.cpp
+++ b/lib/elf2uf2/main.cpp
@@ -60,7 +60,7 @@ struct address_range {
 typedef std::vector<address_range> address_ranges;
 
 #define MAIN_RAM_START        0x20000000u
-#define MAIN_RAM_END          0x20042000u
+#define MAIN_RAM_END          0x20082000u
 #define FLASH_START           0x10000000u
 #define FLASH_END             0x15000000u
 #define XIP_SRAM_START        0x15000000u
diff --git a/lib/rp2040/boot/picoboot.h b/lib/pico-sdk/boot/picoboot.h
similarity index 63%
rename from lib/rp2040/boot/picoboot.h
rename to lib/pico-sdk/boot/picoboot.h
index ddfa0aa..8645d52 100644
--- a/lib/rp2040/boot/picoboot.h
+++ b/lib/pico-sdk/boot/picoboot.h
@@ -16,18 +16,20 @@
 #endif
 
 /** \file picoboot.h
-*  \defgroup boot_picoboot boot_picoboot
+*  \defgroup boot_picoboot_headers boot_picoboot_headers
 *
-* Header file for the PICOBOOT USB interface exposed by an RP2040 in BOOTSEL mode.
+* \brief Header file for the PICOBOOT USB interface exposed by an RP2xxx chip in BOOTSEL mode
 */
 
+#include "picoboot_constants.h"
+
 #define PICOBOOT_MAGIC 0x431fd10bu
 
 // --------------------------------------------
 // CONTROL REQUESTS FOR THE PICOBOOT INTERFACE
 // --------------------------------------------
 
-// size 0 OUT - unstall EPs and reset
+// size 0 OUT - un-stall EPs and reset
 #define PICOBOOT_IF_RESET 0x41
 
 // size 16 IN - return the status of the last command
@@ -47,11 +49,17 @@ enum picoboot_cmd_id {
     PC_REBOOT = 0x2,
     PC_FLASH_ERASE = 0x3,
     PC_READ = 0x84, // either RAM or FLASH
-    PC_WRITE = 5, // either RAM or FLASH (does no erase)
+    PC_WRITE = 0x5, // either RAM or FLASH (does no erase)
     PC_EXIT_XIP = 0x6,
     PC_ENTER_CMD_XIP = 0x7,
     PC_EXEC = 0x8,
-    PC_VECTORIZE_FLASH = 0x9
+    PC_VECTORIZE_FLASH = 0x9,
+    // RP2350 only below here
+    PC_REBOOT2 = 0xa,
+    PC_GET_INFO = 0x8b,
+    PC_OTP_READ = 0x8c,
+    PC_OTP_WRITE = 0xd,
+    //PC_EXEC2 = 0xe, // currently unused
 };
 
 enum picoboot_status {
@@ -64,14 +72,32 @@ enum picoboot_status {
     PICOBOOT_INTERLEAVED_WRITE = 6,
     PICOBOOT_REBOOTING = 7,
     PICOBOOT_UNKNOWN_ERROR = 8,
+    PICOBOOT_INVALID_STATE = 9,
+    PICOBOOT_NOT_PERMITTED = 10,
+    PICOBOOT_INVALID_ARG = 11,
+    PICOBOOT_BUFFER_TOO_SMALL = 12,
+    PICOBOOT_PRECONDITION_NOT_MET = 13,
+    PICOBOOT_MODIFIED_DATA = 14,
+    PICOBOOT_INVALID_DATA = 15,
+    PICOBOOT_NOT_FOUND = 16,
+    PICOBOOT_UNSUPPORTED_MODIFICATION = 17,
 };
 
 struct __packed picoboot_reboot_cmd {
-    uint32_t dPC; // 0 means reset into bootrom
+    uint32_t dPC; // 0 means reset into regular boot path
     uint32_t dSP;
     uint32_t dDelayMS;
 };
 
+
+// note this (with pc_sp) union member has the same layout as picoboot_reboot_cmd except with extra dFlags
+struct __packed picoboot_reboot2_cmd {
+    uint32_t dFlags;
+    uint32_t dDelayMS;
+    uint32_t dParam0;
+    uint32_t dParam1;
+};
+
 // used for EXEC, VECTORIZE_FLASH
 struct __packed picoboot_address_only_cmd {
     uint32_t dAddr;
@@ -83,6 +109,13 @@ struct __packed picoboot_range_cmd {
     uint32_t dSize;
 };
 
+struct __packed picoboot_exec2_cmd {
+    uint32_t image_base;
+    uint32_t image_size;
+    uint32_t workarea_base;
+    uint32_t workarea_size;
+};
+
 enum picoboot_exclusive_type {
     NOT_EXCLUSIVE = 0,
     EXCLUSIVE,
@@ -93,6 +126,20 @@ struct __packed picoboot_exclusive_cmd {
     uint8_t bExclusive;
 };
 
+struct __packed picoboot_otp_cmd {
+    uint16_t wRow; // OTP row
+    uint16_t wRowCount; // number of rows to transfer
+    uint8_t bEcc; // use error correction (16 bit per register vs 24 (stored as 32) bit raw)
+};
+
+
+struct __packed picoboot_get_info_cmd {
+    uint8_t bType;
+    uint8_t bParam;
+    uint16_t wParam;
+    uint32_t dParams[3];
+};
+
 // little endian
 struct __packed __aligned(4) picoboot_cmd {
     uint32_t dMagic;
@@ -107,9 +154,12 @@ struct __packed __aligned(4) picoboot_cmd {
         struct picoboot_range_cmd range_cmd;
         struct picoboot_address_only_cmd address_only_cmd;
         struct picoboot_exclusive_cmd exclusive_cmd;
+        struct picoboot_reboot2_cmd reboot2_cmd;
+        struct picoboot_otp_cmd otp_cmd;
+        struct picoboot_get_info_cmd get_info_cmd;
+        struct picoboot_exec2_cmd exec2_cmd;
     };
 };
-
 static_assert(32 == sizeof(struct picoboot_cmd), "picoboot_cmd must be 32 bytes big");
 
 struct __packed __aligned(4) picoboot_cmd_status {
@@ -121,4 +171,5 @@ struct __packed __aligned(4) picoboot_cmd_status {
 };
 
 static_assert(16 == sizeof(struct picoboot_cmd_status), "picoboot_cmd_status must be 16 bytes big");
+
 #endif
diff --git a/lib/pico-sdk/boot/picoboot_constants.h b/lib/pico-sdk/boot/picoboot_constants.h
new file mode 100644
index 0000000..ac78ea2
--- /dev/null
+++ b/lib/pico-sdk/boot/picoboot_constants.h
@@ -0,0 +1,42 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _BOOT_PICOBOOT_CONSTANTS_H
+#define _BOOT_PICOBOOT_CONSTANTS_H
+
+#define REBOOT2_TYPE_MASK  0x0f
+
+// note these match REBOOT_TYPE in pico/bootrom_constants.h (also 0 is used for PC_SP for backwards compatibility with RP2040)
+// values 0-7 are secure/non-secure
+#define REBOOT2_FLAG_REBOOT_TYPE_NORMAL       0x0 // param0 = diagnostic partition
+#define REBOOT2_FLAG_REBOOT_TYPE_BOOTSEL      0x2 // param0 = bootsel_flags, param1 = gpio_config
+#define REBOOT2_FLAG_REBOOT_TYPE_RAM_IMAGE    0x3 // param0 = image_base, param1 = image_end
+#define REBOOT2_FLAG_REBOOT_TYPE_FLASH_UPDATE 0x4 // param0 = update_base
+
+// values 8-15 are secure only
+#define REBOOT2_FLAG_REBOOT_TYPE_PC_SP        0xd
+
+#define REBOOT2_FLAG_REBOOT_TO_ARM            0x10
+#define REBOOT2_FLAG_REBOOT_TO_RISCV          0x20
+
+#define REBOOT2_FLAG_NO_RETURN_ON_SUCCESS    0x100
+
+#define BOOTSEL_FLAG_DISABLE_MSD_INTERFACE      0x01
+#define BOOTSEL_FLAG_DISABLE_PICOBOOT_INTERFACE 0x02
+#define BOOTSEL_FLAG_GPIO_PIN_ACTIVE_LOW        0x10
+#define BOOTSEL_FLAG_GPIO_PIN_SPECIFIED         0x20
+
+#define PICOBOOT_GET_INFO_SYS              1
+#define PICOBOOT_GET_INFO_PARTTION_TABLE   2
+#define PICOBOOT_GET_INFO_UF2_TARGET_PARTITION 3
+#define PICOBOOT_GET_INFO_UF2_STATUS       4
+
+#define UF2_STATUS_IGNORED_FAMILY             0x01
+#define UF2_STATUS_ABORT_EXCLUSIVELY_LOCKED   0x10
+#define UF2_STATUS_ABORT_BAD_ADDRESS          0x20
+#define UF2_STATUS_ABORT_WRITE_ERROR          0x40
+#define UF2_STATUS_ABORT_REBOOT_FAILED        0x80
+#endif
\ No newline at end of file
diff --git a/lib/rp2040/boot/uf2.h b/lib/pico-sdk/boot/uf2.h
similarity index 65%
rename from lib/rp2040/boot/uf2.h
rename to lib/pico-sdk/boot/uf2.h
index a040242..271540a 100644
--- a/lib/rp2040/boot/uf2.h
+++ b/lib/pico-sdk/boot/uf2.h
@@ -11,9 +11,9 @@
 #include <assert.h>
 
 /** \file uf2.h
-*  \defgroup boot_uf2 boot_uf2
+*  \defgroup boot_uf2_headers boot_uf2_headers
 *
-* Header file for the UF2 format supported by an RP2040 in BOOTSEL mode.
+* \brief Header file for the UF2 format supported by a RP2xxx chip in BOOTSEL mode
 */
 
 #define UF2_MAGIC_START0 0x0A324655u
@@ -25,7 +25,14 @@
 #define UF2_FLAG_FAMILY_ID_PRESENT  0x00002000u
 #define UF2_FLAG_MD5_PRESENT        0x00004000u
 
-#define RP2040_FAMILY_ID 0xe48bff56
+#define RP2040_FAMILY_ID            0xe48bff56u
+#define ABSOLUTE_FAMILY_ID          0xe48bff57u
+#define DATA_FAMILY_ID              0xe48bff58u
+#define RP2350_ARM_S_FAMILY_ID      0xe48bff59u
+#define RP2350_RISCV_FAMILY_ID      0xe48bff5au
+#define RP2350_ARM_NS_FAMILY_ID     0xe48bff5bu
+#define FAMILY_ID_MAX               0xe48bff5bu
+
 
 struct uf2_block {
     // 32 byte header
diff --git a/lib/rp2040/hardware/address_mapped.h b/lib/pico-sdk/hardware/address_mapped.h
similarity index 63%
rename from lib/rp2040/hardware/address_mapped.h
rename to lib/pico-sdk/hardware/address_mapped.h
index d651f59..635a275 100644
--- a/lib/rp2040/hardware/address_mapped.h
+++ b/lib/pico-sdk/hardware/address_mapped.h
@@ -10,12 +10,13 @@
 //#include "pico.h"
 #define __force_inline inline
 #define static_assert(a,b)
+#define valid_params_if(a,b)
 #include "hardware/regs/addressmap.h"
 
 /** \file address_mapped.h
  *  \defgroup hardware_base hardware_base
  *
- *  Low-level types and (atomic) accessors for memory-mapped hardware registers
+ *  \brief Low-level types and (atomic) accessors for memory-mapped hardware registers
  *
  *  `hardware_base` defines the low level types and access functions for memory mapped hardware registers. It is included
  *  by default by all other hardware libraries.
@@ -36,7 +37,7 @@
  *  When dealing with these types, you will always use a pointer, i.e. `io_rw_32 *some_reg` is a pointer to a read/write
  *  32 bit register that you can write with `*some_reg = value`, or read with `value = *some_reg`.
  *
- *  RP2040 hardware is also aliased to provide atomic setting, clear or flipping of a subset of the bits within
+ *  RP-series hardware is also aliased to provide atomic setting, clear or flipping of a subset of the bits within
  *  a hardware register so that concurrent access by two cores is always consistent with one atomic operation
  *  being performed first, followed by the second.
  *
@@ -57,6 +58,14 @@ extern "C" {
 #define check_hw_layout(type, member, offset) static_assert(offsetof(type, member) == (offset), "hw offset mismatch")
 #define check_hw_size(type, size) static_assert(sizeof(type) == (size), "hw size mismatch")
 
+// PICO_CONFIG: PARAM_ASSERTIONS_ENABLED_ADDRESS_ALIAS, Enable/disable assertions in memory address aliasing macros, type=bool, default=0, group=hardware_base
+#ifndef PARAM_ASSERTIONS_ENABLED_ADDRESS_ALIAS
+#define PARAM_ASSERTIONS_ENABLED_ADDRESS_ALIAS 0
+#endif
+
+typedef volatile uint64_t io_rw_64;
+typedef const volatile uint64_t io_ro_64;
+typedef volatile uint64_t io_wo_64;
 typedef volatile uint32_t io_rw_32;
 typedef const volatile uint32_t io_ro_32;
 typedef volatile uint32_t io_wo_32;
@@ -70,15 +79,55 @@ typedef volatile uint8_t io_wo_8;
 typedef volatile uint8_t *const ioptr;
 typedef ioptr const const_ioptr;
 
+// A non-functional (empty) helper macro to help IDEs follow links from the autogenerated
+// hardware struct headers in hardware/structs/xxx.h to the raw register definitions
+// in hardware/regs/xxx.h. A preprocessor define such as TIMER_TIMEHW_OFFSET (a timer register offset)
+// is not generally clickable (in an IDE) if placed in a C comment, so _REG_(TIMER_TIMEHW_OFFSET) is
+// included outside of a comment instead
+#define _REG_(x)
+
+// Helper method used by hw_alias macros to optionally check input validity
+#define hw_alias_check_addr(addr) ((uintptr_t)(addr))
+// can't use the following impl as it breaks existing static declarations using hw_alias, so would be a backwards incompatibility
+//static __force_inline uint32_t hw_alias_check_addr(volatile void *addr) {
+//    uint32_t rc = (uintptr_t)addr;
+//    invalid_params_if(ADDRESS_ALIAS, rc < 0x40000000); // catch likely non HW pointer types
+//    return rc;
+//}
+
+#if PICO_RP2040
+// Helper method used by xip_alias macros to optionally check input validity
+__force_inline static uint32_t xip_alias_check_addr(const void *addr) {
+    uint32_t rc = (uintptr_t)addr;
+    valid_params_if(ADDRESS_ALIAS, rc >= XIP_MAIN_BASE && rc < XIP_NOALLOC_BASE);
+    return rc;
+}
+#else
+//static __force_inline uint32_t xip_alias_check_addr(const void *addr) {
+//    uint32_t rc = (uintptr_t)addr;
+//    valid_params_if(ADDRESS_ALIAS, rc >= XIP_BASE && rc < XIP_END);
+//    return rc;
+//}
+#endif
+
 // Untyped conversion alias pointer generation macros
-#define hw_set_alias_untyped(addr) ((void *)(REG_ALIAS_SET_BITS | (uintptr_t)(addr)))
-#define hw_clear_alias_untyped(addr) ((void *)(REG_ALIAS_CLR_BITS | (uintptr_t)(addr)))
-#define hw_xor_alias_untyped(addr) ((void *)(REG_ALIAS_XOR_BITS | (uintptr_t)(addr)))
+#define hw_set_alias_untyped(addr) ((void *)(REG_ALIAS_SET_BITS + hw_alias_check_addr(addr)))
+#define hw_clear_alias_untyped(addr) ((void *)(REG_ALIAS_CLR_BITS + hw_alias_check_addr(addr)))
+#define hw_xor_alias_untyped(addr) ((void *)(REG_ALIAS_XOR_BITS + hw_alias_check_addr(addr)))
+
+#if PICO_RP2040
+#define xip_noalloc_alias_untyped(addr) ((void *)(XIP_NOALLOC_BASE | xip_alias_check_addr(addr)))
+#define xip_nocache_alias_untyped(addr) ((void *)(XIP_NOCACHE_BASE | xip_alias_check_addr(addr)))
+#define xip_nocache_noalloc_alias_untyped(addr) ((void *)(XIP_NOCACHE_NOALLOC_BASE | xip_alias_check_addr(addr)))
+#endif
 
 // Typed conversion alias pointer generation macros
 #define hw_set_alias(p) ((typeof(p))hw_set_alias_untyped(p))
 #define hw_clear_alias(p) ((typeof(p))hw_clear_alias_untyped(p))
 #define hw_xor_alias(p) ((typeof(p))hw_xor_alias_untyped(p))
+#define xip_noalloc_alias(p) ((typeof(p))xip_noalloc_alias_untyped(p))
+#define xip_nocache_alias(p) ((typeof(p))xip_nocache_alias_untyped(p))
+#define xip_nocache_noalloc_alias(p) ((typeof(p))xip_nocache_noalloc_alias_untyped(p))
 
 /*! \brief Atomically set the specified bits to 1 in a HW register
  *  \ingroup hardware_base
@@ -126,6 +175,11 @@ __force_inline static void hw_write_masked(io_rw_32 *addr, uint32_t values, uint
     hw_xor_bits(addr, (*addr ^ values) & write_mask);
 }
 
+#if !PICO_RP2040
+// include this here to avoid the check in every other hardware/structs header that needs it
+#include "hardware/structs/accessctrl.h"
+#endif
+
 #ifdef __cplusplus
 }
 #endif
diff --git a/lib/pico-sdk/hardware/flash.c b/lib/pico-sdk/hardware/flash.c
new file mode 100644
index 0000000..2116b09
--- /dev/null
+++ b/lib/pico-sdk/hardware/flash.c
@@ -0,0 +1,221 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#include "hardware/flash.h"
+#include "pico/bootrom.h"
+
+#if PICO_RP2040
+#include "hardware/structs/io_qspi.h"
+#include "hardware/structs/ssi.h"
+#else
+#include "hardware/structs/qmi.h"
+#endif
+
+#define FLASH_BLOCK_ERASE_CMD 0xd8
+
+// Standard RUID instruction: 4Bh command prefix, 32 dummy bits, 64 data bits.
+#define FLASH_RUID_CMD 0x4b
+#define FLASH_RUID_DUMMY_BYTES 4
+#define FLASH_RUID_DATA_BYTES 8
+#define FLASH_RUID_TOTAL_BYTES (1 + FLASH_RUID_DUMMY_BYTES + FLASH_RUID_DATA_BYTES)
+
+//-----------------------------------------------------------------------------
+// Infrastructure for reentering XIP mode after exiting for programming (take
+// a copy of boot2 before XIP exit). Calling boot2 as a function works because
+// it accepts a return vector in LR (and doesn't trash r4-r7). Bootrom passes
+// NULL in LR, instructing boot2 to enter flash vector table's reset handler.
+
+#if !PICO_NO_FLASH
+
+#define BOOT2_SIZE_WORDS 64
+
+static uint32_t boot2_copyout[BOOT2_SIZE_WORDS];
+static bool boot2_copyout_valid = false;
+
+static void __no_inline_not_in_flash_func(flash_init_boot2_copyout)(void) {
+    if (boot2_copyout_valid)
+        return;
+    // todo we may want the option of boot2 just being a free function in
+    //      user RAM, e.g. if it is larger than 256 bytes
+#if PICO_RP2040
+    const volatile uint32_t *copy_from = (uint32_t *)XIP_BASE;
+#else
+    const volatile uint32_t *copy_from = (uint32_t *)BOOTRAM_BASE;
+#endif
+    for (int i = 0; i < BOOT2_SIZE_WORDS; ++i)
+        boot2_copyout[i] = copy_from[i];
+    __compiler_memory_barrier();
+    boot2_copyout_valid = true;
+}
+
+
+static void __no_inline_not_in_flash_func(flash_enable_xip_via_boot2)(void) {
+    ((void (*)(void))((intptr_t)boot2_copyout+1))();
+}
+
+#else
+
+static void __no_inline_not_in_flash_func(flash_init_boot2_copyout)(void) {}
+
+static void __no_inline_not_in_flash_func(flash_enable_xip_via_boot2)(void) {
+    // Set up XIP for 03h read on bus access (slow but generic)
+    rom_flash_enter_cmd_xip_fn flash_enter_cmd_xip_func = (rom_flash_enter_cmd_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_ENTER_CMD_XIP);
+    assert(flash_enter_cmd_xip_func);
+    flash_enter_cmd_xip_func();
+}
+
+#endif
+
+//-----------------------------------------------------------------------------
+// Actual flash programming shims (work whether or not PICO_NO_FLASH==1)
+
+void __no_inline_not_in_flash_func(flash_range_erase)(uint32_t flash_offs, size_t count) {
+#ifdef PICO_FLASH_SIZE_BYTES
+    hard_assert(flash_offs + count <= PICO_FLASH_SIZE_BYTES);
+#endif
+    invalid_params_if(HARDWARE_FLASH, flash_offs & (FLASH_SECTOR_SIZE - 1));
+    invalid_params_if(HARDWARE_FLASH, count & (FLASH_SECTOR_SIZE - 1));
+    rom_connect_internal_flash_fn connect_internal_flash_func = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
+    rom_flash_exit_xip_fn flash_exit_xip_func = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
+    rom_flash_range_erase_fn flash_range_erase_func = (rom_flash_range_erase_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_ERASE);
+    rom_flash_flush_cache_fn flash_flush_cache_func = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
+    assert(connect_internal_flash_func && flash_exit_xip_func && flash_range_erase_func && flash_flush_cache_func);
+    flash_init_boot2_copyout();
+
+    // No flash accesses after this point
+    __compiler_memory_barrier();
+
+    connect_internal_flash_func();
+    flash_exit_xip_func();
+    flash_range_erase_func(flash_offs, count, FLASH_BLOCK_SIZE, FLASH_BLOCK_ERASE_CMD);
+    flash_flush_cache_func(); // Note this is needed to remove CSn IO force as well as cache flushing
+    flash_enable_xip_via_boot2();
+}
+
+void __no_inline_not_in_flash_func(flash_flush_cache)(void) {
+    rom_flash_flush_cache_fn flash_flush_cache_func = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
+    flash_flush_cache_func();
+}
+
+void __no_inline_not_in_flash_func(flash_range_program)(uint32_t flash_offs, const uint8_t *data, size_t count) {
+#ifdef PICO_FLASH_SIZE_BYTES
+    hard_assert(flash_offs + count <= PICO_FLASH_SIZE_BYTES);
+#endif
+    invalid_params_if(HARDWARE_FLASH, flash_offs & (FLASH_PAGE_SIZE - 1));
+    invalid_params_if(HARDWARE_FLASH, count & (FLASH_PAGE_SIZE - 1));
+    rom_connect_internal_flash_fn connect_internal_flash_func = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
+    rom_flash_exit_xip_fn flash_exit_xip_func = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
+    rom_flash_range_program_fn flash_range_program_func = (rom_flash_range_program_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_PROGRAM);
+    rom_flash_flush_cache_fn flash_flush_cache_func = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
+    assert(connect_internal_flash_func && flash_exit_xip_func && flash_range_program_func && flash_flush_cache_func);
+    flash_init_boot2_copyout();
+
+    __compiler_memory_barrier();
+
+    connect_internal_flash_func();
+    flash_exit_xip_func();
+    flash_range_program_func(flash_offs, data, count);
+    flash_flush_cache_func(); // Note this is needed to remove CSn IO force as well as cache flushing
+    flash_enable_xip_via_boot2();
+}
+
+//-----------------------------------------------------------------------------
+// Lower-level flash access functions
+
+#if !PICO_NO_FLASH
+// Bitbanging the chip select using IO overrides, in case RAM-resident IRQs
+// are still running, and the FIFO bottoms out. (the bootrom does the same)
+static void __no_inline_not_in_flash_func(flash_cs_force)(bool high) {
+#if PICO_RP2040
+    uint32_t field_val = high ?
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH :
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW;
+    hw_write_masked(&io_qspi_hw->io[1].ctrl,
+        field_val << IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB,
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS
+    );
+#else
+    if (high) {
+        hw_clear_bits(&qmi_hw->direct_csr, QMI_DIRECT_CSR_ASSERT_CS0N_BITS);
+    } else {
+        hw_set_bits(&qmi_hw->direct_csr, QMI_DIRECT_CSR_ASSERT_CS0N_BITS);
+    }
+#endif
+}
+
+void __no_inline_not_in_flash_func(flash_do_cmd)(const uint8_t *txbuf, uint8_t *rxbuf, size_t count) {
+    rom_connect_internal_flash_fn connect_internal_flash_func = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
+    rom_flash_exit_xip_fn flash_exit_xip_func = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
+    rom_flash_flush_cache_fn flash_flush_cache_func = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
+    assert(connect_internal_flash_func && flash_exit_xip_func && flash_flush_cache_func);
+    flash_init_boot2_copyout();
+    __compiler_memory_barrier();
+    connect_internal_flash_func();
+    flash_exit_xip_func();
+
+    flash_cs_force(0);
+    size_t tx_remaining = count;
+    size_t rx_remaining = count;
+#if PICO_RP2040
+    // Synopsys SSI version
+    // We may be interrupted -- don't want FIFO to overflow if we're distracted.
+    const size_t max_in_flight = 16 - 2;
+    while (tx_remaining || rx_remaining) {
+        uint32_t flags = ssi_hw->sr;
+        bool can_put = flags & SSI_SR_TFNF_BITS;
+        bool can_get = flags & SSI_SR_RFNE_BITS;
+        if (can_put && tx_remaining && rx_remaining - tx_remaining < max_in_flight) {
+            ssi_hw->dr0 = *txbuf++;
+            --tx_remaining;
+        }
+        if (can_get && rx_remaining) {
+            *rxbuf++ = (uint8_t)ssi_hw->dr0;
+            --rx_remaining;
+        }
+    }
+#else
+    // QMI version -- no need to bound FIFO contents as QMI stalls on full DIRECT_RX.
+    hw_set_bits(&qmi_hw->direct_csr, QMI_DIRECT_CSR_EN_BITS);
+    while (tx_remaining || rx_remaining) {
+        uint32_t flags = qmi_hw->direct_csr;
+        bool can_put = !(flags & QMI_DIRECT_CSR_TXFULL_BITS);
+        bool can_get = !(flags & QMI_DIRECT_CSR_RXEMPTY_BITS);
+        if (can_put && tx_remaining) {
+            qmi_hw->direct_tx = *txbuf++;
+            --tx_remaining;
+        }
+        if (can_get && rx_remaining) {
+            *rxbuf++ = (uint8_t)qmi_hw->direct_rx;
+            --rx_remaining;
+        }
+    }
+    hw_clear_bits(&qmi_hw->direct_csr, QMI_DIRECT_CSR_EN_BITS);
+#endif
+    flash_cs_force(1);
+
+    flash_flush_cache_func();
+    flash_enable_xip_via_boot2();
+}
+#endif
+
+// Use standard RUID command to get a unique identifier for the flash (and
+// hence the board)
+
+static_assert(FLASH_UNIQUE_ID_SIZE_BYTES == FLASH_RUID_DATA_BYTES, "");
+
+void flash_get_unique_id(uint8_t *id_out) {
+#if PICO_NO_FLASH
+    __unused uint8_t *ignore = id_out;
+    panic_unsupported();
+#else
+    uint8_t txbuf[FLASH_RUID_TOTAL_BYTES] = {0};
+    uint8_t rxbuf[FLASH_RUID_TOTAL_BYTES] = {0};
+    txbuf[0] = FLASH_RUID_CMD;
+    flash_do_cmd(txbuf, rxbuf, FLASH_RUID_TOTAL_BYTES);
+    for (int i = 0; i < FLASH_RUID_DATA_BYTES; i++)
+        id_out[i] = rxbuf[i + 1 + FLASH_RUID_DUMMY_BYTES];
+#endif
+}
diff --git a/lib/rp2040/pico/flash/hw_flash.h b/lib/pico-sdk/hardware/flash.h
similarity index 71%
rename from lib/rp2040/pico/flash/hw_flash.h
rename to lib/pico-sdk/hardware/flash.h
index 4591bc1..0227922 100644
--- a/lib/rp2040/pico/flash/hw_flash.h
+++ b/lib/pico-sdk/hardware/flash.h
@@ -9,19 +9,19 @@
 
 //#include "pico.h"
 #include <stdint.h>
-#include <stdbool.h>
 #include <stddef.h>
-
+#include <stdbool.h>
 
 /** \file flash.h
  *  \defgroup hardware_flash hardware_flash
  *
- * Low level flash programming and erase API
+ * \brief Low level flash programming and erase API
  *
- * Note these functions are *unsafe* if you have two cores concurrently
- * executing from flash. In this case you must perform your own
- * synchronisation to make sure no XIP accesses take place during flash
- * programming.
+ * Note these functions are *unsafe* if you are using both cores, and the other 
+ * is executing from flash concurrently with the operation. In this could be the 
+ * case, you must perform your own synchronisation to make sure that no XIP
+ * accesses take place during flash programming. One option is to use the
+ * \ref multicore_lockout functions.
  *
  * Likewise they are *unsafe* if you have interrupt handlers or an interrupt
  * vector table in flash, so you must disable interrupts before calling in
@@ -37,18 +37,21 @@
  * \include flash_program.c
  */
 
-// PICO_CONFIG: PARAM_ASSERTIONS_ENABLED_FLASH, Enable/disable assertions in the flash module, type=bool, default=0, group=hardware_flash
-#ifndef PARAM_ASSERTIONS_ENABLED_FLASH
-#define PARAM_ASSERTIONS_ENABLED_FLASH 0
+// PICO_CONFIG: PARAM_ASSERTIONS_ENABLED_HARDWARE_FLASH, Enable/disable assertions in the hardware_flash module, type=bool, default=0, group=hardware_flash
+#ifndef PARAM_ASSERTIONS_ENABLED_HARDWARE_FLASH
+#ifdef PARAM_ASSERTIONS_ENABLED_FLASH // backwards compatibility with SDK < 2.0.0
+#define PARAM_ASSERTIONS_ENABLED_HARDWARE_FLASH PARAM_ASSERTIONS_ENABLED_FLASH
+#else
+#define PARAM_ASSERTIONS_ENABLED_HARDWARE_FLASH 0
+#endif
 #endif
-
 #define FLASH_PAGE_SIZE (1u << 8)
 #define FLASH_SECTOR_SIZE (1u << 12)
 #define FLASH_BLOCK_SIZE (1u << 16)
 
 #define FLASH_UNIQUE_ID_SIZE_BYTES 8
 
-// PICO_CONFIG: PICO_FLASH_SIZE_BYTES, size of primary flash in bytes, type=int, group=hardware_flash
+// PICO_CONFIG: PICO_FLASH_SIZE_BYTES, size of primary flash in bytes, type=int, default=Usually provided via board header, group=hardware_flash
 
 #ifdef __cplusplus
 extern "C" {
@@ -59,6 +62,10 @@ extern "C" {
  *
  * \param flash_offs Offset into flash, in bytes, to start the erase. Must be aligned to a 4096-byte flash sector.
  * \param count Number of bytes to be erased. Must be a multiple of 4096 bytes (one sector).
+ *
+ * @note Erasing a flash sector sets all the bits in all the pages in that sector to one.
+ * You can then "program" flash pages in the sector to turn some of the bits to zero.
+ * Once a bit is set to zero it can only be changed back to one by erasing the whole sector again.
  */
 void flash_range_erase(uint32_t flash_offs, size_t count);
 
@@ -68,6 +75,10 @@ void flash_range_erase(uint32_t flash_offs, size_t count);
  * \param flash_offs Flash address of the first byte to be programmed. Must be aligned to a 256-byte flash page.
  * \param data Pointer to the data to program into flash
  * \param count Number of bytes to program. Must be a multiple of 256 bytes (one page).
+ *
+ * @note: Programming a flash page effectively changes some of the bits from one to zero.
+ * The only way to change a zero bit back to one is to "erase" the whole sector that the page resides in.
+ * So you may need to make sure you have called flash_range_erase before calling flash_range_program.
  */
 
 void flash_range_program(uint32_t flash_offs, const uint8_t *data, size_t count);
@@ -109,6 +120,7 @@ void flash_get_unique_id(uint8_t *id_out);
  */
 void flash_do_cmd(const uint8_t *txbuf, uint8_t *rxbuf, size_t count);
 
+void flash_flush_cache(void);
 
 #ifdef __cplusplus
 }
diff --git a/lib/pico-sdk/hardware/platform_defs.h b/lib/pico-sdk/hardware/platform_defs.h
new file mode 100644
index 0000000..924336a
--- /dev/null
+++ b/lib/pico-sdk/hardware/platform_defs.h
@@ -0,0 +1,31 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _HARDWARE_PLATFORM_DEFS_H
+#define _HARDWARE_PLATFORM_DEFS_H
+
+#define NUM_CORES 2u
+
+#define NUM_DMA_CHANNELS 12u
+
+#define NUM_GENERIC_TIMERS 1u
+#define NUM_ALARMS 4u
+
+#define NUM_IRQS 32u
+
+#define NUM_SPIN_LOCKS 32u
+
+#define XOSC_HZ 12000000u
+
+#define NUM_SPIN_LOCKS 32u
+
+#define NUM_BANK0_GPIOS 30
+
+#ifndef _u
+#define _u(x) x ## u
+#endif
+
+#endif
diff --git a/lib/pico-sdk/pico-sdk.patch b/lib/pico-sdk/pico-sdk.patch
new file mode 100644
index 0000000..494a10b
--- /dev/null
+++ b/lib/pico-sdk/pico-sdk.patch
@@ -0,0 +1,117 @@
+diff --git a/lib/pico-sdk/hardware/address_mapped.h b/lib/pico-sdk/hardware/address_mapped.h
+index b384f55..635a275 100644
+--- a/lib/pico-sdk/hardware/address_mapped.h
++++ b/lib/pico-sdk/hardware/address_mapped.h
+@@ -7,7 +7,10 @@
+ #ifndef _HARDWARE_ADDRESS_MAPPED_H
+ #define _HARDWARE_ADDRESS_MAPPED_H
+ 
+-#include "pico.h"
++//#include "pico.h"
++#define __force_inline inline
++#define static_assert(a,b)
++#define valid_params_if(a,b)
+ #include "hardware/regs/addressmap.h"
+ 
+ /** \file address_mapped.h
+diff --git a/lib/pico-sdk/hardware/flash.h b/lib/pico-sdk/hardware/flash.h
+index 87dafb1..0227922 100644
+--- a/lib/pico-sdk/hardware/flash.h
++++ b/lib/pico-sdk/hardware/flash.h
+@@ -7,7 +7,10 @@
+ #ifndef _HARDWARE_FLASH_H
+ #define _HARDWARE_FLASH_H
+ 
+-#include "pico.h"
++//#include "pico.h"
++#include <stdint.h>
++#include <stddef.h>
++#include <stdbool.h>
+ 
+ /** \file flash.h
+  *  \defgroup hardware_flash hardware_flash
+diff --git a/lib/pico-sdk/pico/bootrom.h b/lib/pico-sdk/pico/bootrom.h
+index b55e098..6506183 100644
+--- a/lib/pico-sdk/pico/bootrom.h
++++ b/lib/pico-sdk/pico/bootrom.h
+@@ -7,7 +7,13 @@
+ #ifndef _PICO_BOOTROM_H
+ #define _PICO_BOOTROM_H
+ 
+-#include "pico.h"
++//#include "pico.h"
++#define __force_inline inline
++#define static_assert(a,b)
++#define invalid_params_if(a,b)
++#define assert(a)
++#define pico_processor_state_is_nonsecure() 0
++#define PICO_ERROR_INVALID_DATA BOOTROM_ERROR_INVALID_DATA
+ #include "pico/bootrom_constants.h"
+ 
+ /** \file bootrom.h
+diff --git a/lib/pico-sdk/pico/bootrom/lock.h b/lib/pico-sdk/pico/bootrom/lock.h
+index f436557..b98b7a8 100644
+--- a/lib/pico-sdk/pico/bootrom/lock.h
++++ b/lib/pico-sdk/pico/bootrom/lock.h
+@@ -7,7 +7,7 @@
+ #ifndef _PICO_BOOTROM_LOCK_H
+ #define _PICO_BOOTROM_LOCK_H
+ 
+-#include "hardware/boot_lock.h"
++//#include "hardware/boot_lock.h"
+ #include "pico/bootrom_constants.h"
+ 
+ // PICO_CONFIG: PICO_BOOTROM_LOCKING_ENABLED, Enable/disable locking for bootrom functions that use shared reqsources. If this flag is enabled bootrom lock checking is turned on and BOOT locks are taken around the relevant bootrom functions, type=bool, default=1, group=pico_bootrom
+diff --git a/lib/pico-sdk/rp2040/cmsis_include/RP2040.h b/lib/pico-sdk/rp2040/cmsis_include/RP2040.h
+index 8da431f..be66139 100644
+--- a/lib/pico-sdk/rp2040/cmsis_include/RP2040.h
++++ b/lib/pico-sdk/rp2040/cmsis_include/RP2040.h
+@@ -2572,6 +2572,7 @@ typedef struct {                                /*!< RTC Structure
+   * @{
+   */
+ 
++#if 0
+ #define RESETS_BASE                 0x4000C000UL
+ #define PSM_BASE                    0x40010000UL
+ #define CLOCKS_BASE                 0x40008000UL
+@@ -2608,6 +2609,7 @@ typedef struct {                                /*!< RTC Structure
+ #define TBMAN_BASE                  0x4006C000UL
+ #define VREG_AND_CHIP_RESET_BASE    0x40064000UL
+ #define RTC_BASE                    0x4005C000UL
++#endif
+ 
+ /** @} */ /* End of group Device_Peripheral_peripheralAddr */
+ 
+diff --git a/lib/pico-sdk/rp2040/pico/asm_helper.S b/lib/pico-sdk/rp2040/pico/asm_helper.S
+index aff1fc9..59c67db 100644
+--- a/lib/pico-sdk/rp2040/pico/asm_helper.S
++++ b/lib/pico-sdk/rp2040/pico/asm_helper.S
+@@ -4,7 +4,7 @@
+  * SPDX-License-Identifier: BSD-3-Clause
+  */
+ 
+-#include "pico.h"
++//#include "pico.h"
+ 
+ # note we don't do this by default in this file for backwards comaptibility with user code
+ # that may include this file, but not use unified syntax. Note that this macro does equivalent
+diff --git a/lib/pico-sdk/rp2350/cmsis_include/RP2350.h b/lib/pico-sdk/rp2350/cmsis_include/RP2350.h
+index 8ae014e..94d0f17 100644
+--- a/lib/pico-sdk/rp2350/cmsis_include/RP2350.h
++++ b/lib/pico-sdk/rp2350/cmsis_include/RP2350.h
+@@ -5933,6 +5933,7 @@ typedef struct {                                /*!< USB_DPRAM Structure
+   * @{
+   */
+ 
++#if 0
+ #define RESETS_BASE                 0x40020000UL
+ #define PSM_BASE                    0x40018000UL
+ #define CLOCKS_BASE                 0x40010000UL
+@@ -5986,6 +5987,7 @@ typedef struct {                                /*!< USB_DPRAM Structure
+ #define OTP_DATA_RAW_BASE           0x40134000UL
+ #define TBMAN_BASE                  0x40160000UL
+ #define USB_DPRAM_BASE              0x50100000UL
++#endif
+ 
+ /** @} */ /* End of group Device_Peripheral_peripheralAddr */
+ 
diff --git a/lib/pico-sdk/pico/bootrom.h b/lib/pico-sdk/pico/bootrom.h
new file mode 100644
index 0000000..6506183
--- /dev/null
+++ b/lib/pico-sdk/pico/bootrom.h
@@ -0,0 +1,1037 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _PICO_BOOTROM_H
+#define _PICO_BOOTROM_H
+
+//#include "pico.h"
+#define __force_inline inline
+#define static_assert(a,b)
+#define invalid_params_if(a,b)
+#define assert(a)
+#define pico_processor_state_is_nonsecure() 0
+#define PICO_ERROR_INVALID_DATA BOOTROM_ERROR_INVALID_DATA
+#include "pico/bootrom_constants.h"
+
+/** \file bootrom.h
+ * \defgroup pico_bootrom pico_bootrom
+ * \brief Access to functions and data in the bootrom
+ *
+ * This header may be included by assembly code
+ */
+
+#ifndef __ASSEMBLER__
+#include <string.h>
+#include "pico/bootrom/lock.h"
+// ROM FUNCTION SIGNATURES
+
+#if PICO_RP2040
+typedef uint32_t (*rom_popcount32_fn)(uint32_t);
+typedef uint32_t (*rom_reverse32_fn)(uint32_t);
+typedef uint32_t (*rom_clz32_fn)(uint32_t);
+typedef uint32_t (*rom_ctz32_fn)(uint32_t);
+typedef uint8_t *(*rom_memset_fn)(uint8_t *, uint8_t, uint32_t);
+typedef uint32_t *(*rom_memset4_fn)(uint32_t *, uint8_t, uint32_t);
+typedef uint32_t *(*rom_memcpy_fn)(uint8_t *, const uint8_t *, uint32_t);
+typedef uint32_t *(*rom_memcpy44_fn)(uint32_t *, const uint32_t *, uint32_t);
+#endif
+typedef void __attribute__((noreturn)) (*rom_reset_usb_boot_fn)(uint32_t, uint32_t);
+typedef int (*rom_reboot_fn)(uint32_t flags, uint32_t delay_ms, uint32_t p0, uint32_t p1);
+typedef rom_reset_usb_boot_fn reset_usb_boot_fn; // kept for backwards compatibility
+typedef void (*rom_connect_internal_flash_fn)(void);
+typedef void (*rom_flash_exit_xip_fn)(void);
+typedef void (*rom_flash_range_erase_fn)(uint32_t, size_t, uint32_t, uint8_t);
+typedef void (*rom_flash_range_program_fn)(uint32_t, const uint8_t*, size_t);
+typedef void (*rom_flash_flush_cache_fn)(void);
+typedef void (*rom_flash_enter_cmd_xip_fn)(void);
+#if !PICO_RP2040
+typedef void (*rom_bootrom_state_reset_fn)(uint32_t flags);
+typedef void (*rom_flash_reset_address_trans_fn)(void);
+typedef void (*rom_flash_select_xip_read_mode_fn)(bootrom_xip_mode_t mode, uint8_t clkdiv);
+typedef int (*rom_get_sys_info_fn)(uint32_t *out_buffer, uint32_t out_buffer_word_size, uint32_t flags);
+typedef int (*rom_get_partition_table_info_fn)(uint32_t *out_buffer, uint32_t out_buffer_word_size, uint32_t partition_and_flags);
+typedef int (*rom_explicit_buy_fn)(uint8_t *buffer, uint32_t buffer_size);
+typedef void* (*rom_validate_ns_buffer_fn)(const void *addr, uint32_t size, uint32_t write, uint32_t *ok);
+/**
+ * @return BOOTROM_OK if successful
+ *         BOOTROM_ERROR_INVALID_ARG if ns_api_num is out of range
+ */
+typedef intptr_t (*rom_set_rom_callback_fn)(uint callback_num, bootrom_api_callback_generic_t funcptr);
+typedef int (*rom_chain_image_fn)(uint8_t *workarea_base, uint32_t workarea_size, uint32_t window_base, uint32_t window_size);
+typedef int (*rom_load_partition_table_fn)(uint8_t *workarea_base, uint32_t workarea_size, bool force_reload);
+typedef int (*rom_pick_ab_partition_fn)(uint8_t *workarea_base, uint32_t workarea_size, uint partition_a_num, uint32_t flash_update_boot_window_base);
+typedef int (*rom_get_b_partition_fn)(uint pi_a);
+typedef int (*rom_get_uf2_target_partition_fn)(uint8_t *workarea_base, uint32_t workarea_size, uint32_t family_id, resident_partition_t *partition_out);
+typedef int (*rom_func_otp_access_fn)(uint8_t *buf, uint32_t buf_len, otp_cmd_t cmd);
+// Apply the address translation currently specified in QMI_ATRANSx ("rolling window" hardware
+// translation). Need to take care using this on the boot path, as the QMI may not yet have been
+// set up, but this should be suitable for translating system bus addresses into flash storage
+// addresses in user callbacks. Returns all-ones for an invalid address, which is also an invalid
+// flash storage address, so invalidity is propagated.
+typedef intptr_t (*rom_flash_runtime_to_storage_addr_fn)(uintptr_t flash_runtime_addr);
+
+// Perform the specified erase/program/read operation, translating addresses according to
+// QMI_ATRANSx if necessary, and checking flash permissions based on the resident partition table
+// and the specified effective security level. `addr` may be either a flash runtime address or a
+// flash storage address, depending on the ASPACE given in `flags`.
+//
+// NOTE: This function does not validate the buffer for NS access. This must be validated before
+// calling if the caller is reachable from a Secure Gateway.
+typedef int (*rom_flash_op_fn)(cflash_flags_t flags, uintptr_t addr, uint32_t size_bytes, uint8_t *buf);
+
+#ifndef __riscv
+typedef int (*rom_set_ns_api_permission_fn)(uint ns_api_num, bool allowed);
+/**
+ * Note this is not strictly a C function; you must pass the function you are calling in r4
+ * @param in_r4
+ * `0b0xxx xxxx xxxx xxxx xxxx xxxx xxxx xxxx` - a "well known" function selector; do not use for your own methods
+ * `0b10xx xxxx xxxx xxxx xxxx xxxx xxxx xxxx` - a "unique" function selector intended to be unlikely to clash with others'.
+ *                                               The lower 30 bits should be chosen at random
+ * `0b11xx xxxx xxxx xxxx xxxx xxxx xxxx xxxx` - a "private" function selector intended for use by tightly coupled NS and S code
+ *
+ * @return whatever the secure call returns
+ *         BOOTROM_ERROR_INVALID_STATE if no secure handler has been set from the secure side
+ *            via rom_set_rom_callback_fn(BOOTROM_API_CALLBACK_secure_call, ...)
+ */
+typedef int (*rom_func_secure_call)(uintptr_t a0, ...);
+#endif
+
+#ifdef __riscv
+typedef struct {
+    uint32_t *base;
+    uint32_t size;
+} bootrom_stack_t;
+// passed in, and out.
+typedef int (*rom_set_bootrom_stack_fn)(bootrom_stack_t *stack);
+#endif
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/*! \brief Return a bootrom lookup code based on two ASCII characters
+ * \ingroup pico_bootrom
+ *
+ * These codes are uses to lookup data or function addresses in the bootrom
+ *
+ * \param c1 the first character
+ * \param c2 the second character
+ * \return the 'code' to use in rom_func_lookup() or rom_data_lookup()
+ */
+static inline uint32_t rom_table_code(uint8_t c1, uint8_t c2) {
+    return ROM_TABLE_CODE((uint32_t) c1, (uint32_t) c2);
+}
+
+/*!
+ * \brief Lookup a bootrom function by its code
+ * \ingroup pico_bootrom
+ * \param code the code
+ * \return a pointer to the function, or NULL if the code does not match any bootrom function
+ */
+void *rom_func_lookup(uint32_t code);
+
+/*!
+ * \brief Lookup a bootrom data address by its code
+ * \ingroup pico_bootrom
+ * \param code the code
+ * \return a pointer to the data, or NULL if the code does not match any bootrom function
+ */
+void *rom_data_lookup(uint32_t code);
+
+/*!
+ * \brief Helper function to lookup the addresses of multiple bootrom functions
+ * \ingroup pico_bootrom
+ *
+ * This method looks up the 'codes' in the table, and convert each table entry to the looked up
+ * function pointer, if there is a function for that code in the bootrom.
+ *
+ * \param table an IN/OUT array, elements are codes on input, function pointers on success.
+ * \param count the number of elements in the table
+ * \return true if all the codes were found, and converted to function pointers, false otherwise
+ */
+bool rom_funcs_lookup(uint32_t *table, unsigned int count);
+
+// Bootrom function: rom_table_lookup
+// Returns the 32 bit pointer into the ROM if found or NULL otherwise.
+#if PICO_RP2040
+typedef void *(*rom_table_lookup_fn)(uint16_t *table, uint32_t code);
+#else
+typedef void *(*rom_table_lookup_fn)(uint32_t code, uint32_t mask);
+#endif
+
+#if PICO_C_COMPILER_IS_GNU && (__GNUC__ >= 12)
+// Convert a 16 bit pointer stored at the given rom address into a 32 bit pointer
+__force_inline static void *rom_hword_as_ptr(uint16_t rom_address) {
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Warray-bounds"
+    return (void *)(uintptr_t)*(uint16_t *)(uintptr_t)rom_address;
+#pragma GCC diagnostic pop
+}
+#else
+// Convert a 16 bit pointer stored at the given rom address into a 32 bit pointer
+#define rom_hword_as_ptr(rom_address) (void *)(uintptr_t)(*(uint16_t *)(uintptr_t)(rom_address))
+#endif
+
+#ifdef __riscv
+static __force_inline bool rom_size_is_64k(void) {
+#ifdef RASPBERRYPI_AMETHYST_FPGA
+    // Detect ROM size by testing for bus fault at +32k
+    uint result;
+    pico_default_asm_volatile (
+        "li %0, 0\n"
+        // Save and disable IRQs before touching trap vector
+        "csrr t2, mstatus\n"
+        "csrci mstatus, 0x8\n"
+        // Set up trap vector to skip the instruction which sets the %0 flag
+        "la t0, 1f\n"
+        "csrrw t0, mtvec, t0\n"
+        // This load will fault if the bootrom is no larger than 32k:
+        "li t1, 32 * 1024\n"
+        "lw t1, (t1)\n"
+        // No fault, so set return to true
+        "li %0, 1\n"
+        ".p2align 2\n"
+        // Always end up back here, restore the trap table
+        "1:\n"
+        "csrw mtvec, t0\n"
+        // Now safe to restore interrupts
+        "csrw mstatus, t2\n"
+        : "=r" (result)
+        :
+        : "t0", "t1", "t2"
+    );
+    return result;
+#else
+    return false;
+#endif
+}
+#endif
+
+/*!
+ * \brief Lookup a bootrom function by code. This method is forcibly inlined into the caller for FLASH/RAM sensitive code usage
+ * \ingroup pico_bootrom
+ * \param code the code
+ * \return a pointer to the function, or NULL if the code does not match any bootrom function
+ */
+#pragma GCC diagnostic push
+// diagnostic: GCC thinks near-zero value is a null pointer member access, but it's not
+#pragma GCC diagnostic ignored "-Warray-bounds"
+static __force_inline void *rom_func_lookup_inline(uint32_t code) {
+#if PICO_RP2040
+    rom_table_lookup_fn rom_table_lookup = (rom_table_lookup_fn) rom_hword_as_ptr(BOOTROM_TABLE_LOOKUP_OFFSET);
+    uint16_t *func_table = (uint16_t *) rom_hword_as_ptr(BOOTROM_FUNC_TABLE_OFFSET);
+    return rom_table_lookup(func_table, code);
+#else
+#ifdef __riscv
+    uint32_t rom_offset_adjust = rom_size_is_64k() ? 32 * 1024 : 0;
+    // on RISC-V the code (a jmp) is actually embedded in the table
+    rom_table_lookup_fn rom_table_lookup = (rom_table_lookup_fn) (uintptr_t)*(uint16_t*)(BOOTROM_TABLE_LOOKUP_ENTRY_OFFSET + rom_offset_adjust);
+    return rom_table_lookup(code, RT_FLAG_FUNC_RISCV);
+#else
+    // on ARM the function pointer is stored in the table, so we dereference it
+    // via lookup() rather than lookup_entry()
+    rom_table_lookup_fn rom_table_lookup = (rom_table_lookup_fn) (uintptr_t)*(uint16_t*)(BOOTROM_TABLE_LOOKUP_OFFSET);
+    if (pico_processor_state_is_nonsecure()) {
+        return rom_table_lookup(code, RT_FLAG_FUNC_ARM_NONSEC);
+    } else {
+        return rom_table_lookup(code, RT_FLAG_FUNC_ARM_SEC);
+    }
+#endif
+#endif
+}
+#pragma GCC diagnostic pop
+
+/*!
+ * \brief Reboot the device into BOOTSEL mode
+ * \ingroup pico_bootrom
+ *
+ * This function reboots the device into the BOOTSEL mode ('usb boot").
+ *
+ * Facilities are provided to enable an "activity light" via GPIO attached LED for the USB Mass Storage Device,
+ * and to limit the USB interfaces exposed.
+ *
+ * \param usb_activity_gpio_pin_mask 0 No pins are used as per a cold boot. Otherwise a single bit set indicating which
+ *                               GPIO pin should be set to output and raised whenever there is mass storage activity
+ *                               from the host.
+ * \param disable_interface_mask value to control exposed interfaces
+ *  - 0 To enable both interfaces (as per a cold boot)
+ *  - 1 To disable the USB Mass Storage Interface
+ *  - 2 To disable the USB PICOBOOT Interface
+ */
+void __attribute__((noreturn)) rom_reset_usb_boot(uint32_t usb_activity_gpio_pin_mask, uint32_t disable_interface_mask);
+static inline void __attribute__((noreturn)) reset_usb_boot(uint32_t usb_activity_gpio_pin_mask, uint32_t disable_interface_mask) {
+    rom_reset_usb_boot(usb_activity_gpio_pin_mask, disable_interface_mask);
+}
+
+/*!
+ * \brief Connect the SSI/QMI to the QSPI pads
+ * \ingroup pico_bootrom
+ * 
+ * Restore all QSPI pad controls to their default state, and connect the SSI/QMI peripheral to the QSPI pads.
+ * 
+ * \if rp2350_specific
+ * On RP2350 if a secondary flash chip select GPIO has been configured via OTP OTP_DATA_FLASH_DEVINFO, or by writing to the runtime
+ * copy of FLASH_DEVINFO in bootram, then this bank 0 GPIO is also initialised and the QMI peripheral is connected. Otherwise,
+ * bank 0 IOs are untouched.
+ * \endif
+ */
+static inline void rom_connect_internal_flash() {
+    rom_connect_internal_flash_fn func = (rom_connect_internal_flash_fn) rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
+    func();
+}
+
+/*!
+ * \brief Return the QSPI device from its XIP state to a serial command state
+ * \ingroup pico_bootrom
+ * 
+ * \if rp2040_specific
+ * On RP2040, first set up the SSI for serial-mode operations, then issue the fixed XIP exit sequence described in Section 2.8.1.2
+ * of the datasheet. Note that the bootrom code uses the IO forcing logic to drive the CS pin, which must be cleared before returning
+ * the SSI to XIP mode (e.g. by a call to _flash_flush_cache). This function configures the SSI with a fixed SCK clock divisor of /6.
+ * \endif
+ * 
+ * \if rp2350_specific
+ * On RP2350, Initialise the QMI for serial operations (direct mode), and also initialise a basic XIP mode, where the QMI will perform
+ * 03h serial read commands at low speed (CLKDIV=12) in response to XIP reads.
+ * 
+ * Then, issue a sequence to the QSPI device on chip select 0, designed to return it from continuous read mode ("XIP mode") and/or
+ * QPI mode to a state where it will accept serial commands. This is necessary after system reset to restore the QSPI device to a known
+ * state, because resetting RP2350 does not reset attached QSPI devices. It is also necessary when user code, having already performed
+ * some continuous-read-mode or QPI-mode accesses, wishes to return the QSPI device to a state where it will accept the serial erase and
+ * programming commands issued by the bootrom's flash access functions.
+ * 
+ * If a GPIO for the secondary chip select is configured via FLASH_DEVINFO, then the XIP exit sequence is also issued to chip select 1.
+ * 
+ * The QSPI device should be accessible for XIP reads after calling this function; the name flash_exit_xip refers to returning the QSPI
+ * device from its XIP state to a serial command state.
+ * \endif
+ */
+static inline void rom_flash_exit_xip() {
+    rom_flash_exit_xip_fn func = (rom_flash_exit_xip_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
+    func();
+}
+
+/*!
+ * \brief Erase bytes in flash
+ * \ingroup pico_bootrom
+ * 
+ * Erase count bytes, starting at addr (offset from start of flash). Optionally, pass a block erase command e.g. D8h block erase,
+ * and the size of the block erased by this command - this function will use the larger block erase where possible, for much higher
+ * erase speed. addr must be aligned to a 4096-byte sector, and count must be a multiple of 4096 bytes.
+ * 
+ * This is a low-level flash API, and no validation of the arguments is performed.
+ * 
+ * \if rp2350_specific
+ * See rom_flash_op on RP2350 for a higher-level API which checks alignment, flash bounds and partition permissions, and can transparently
+ * apply a runtime-to-storage address translation.
+ * 
+ * The QSPI device must be in a serial command state before calling this API, which can be achieved by calling rom_connect_internal_flash()
+ * followed by rom_flash_exit_xip(). After the erase, the flash cache should be flushed via rom_flash_flush_cache() to ensure the modified
+ * flash data is visible to cached XIP accesses.
+ * 
+ * Finally, the original XIP mode should be restored by copying the saved XIP setup function from bootram into SRAM, and executing it:
+ * the bootrom provides a default function which restores the flash mode/clkdiv discovered during flash scanning, and user programs can
+ * override this with their own XIP setup function.
+ * 
+ * For the duration of the erase operation, QMI is in direct mode and attempting to access XIP from DMA, the debugger or the other core will
+ * return a bus fault. XIP becomes accessible again once the function returns.
+ * \endif
+ * 
+ * \param addr the offset from start of flash to be erased
+ * \param count number of bytes to erase
+ * \param block_size optional size of block erased by block_cmd
+ * \param block_cmd optional block erase command e.g. D8h block erase
+ */
+static inline void rom_flash_range_erase(uint32_t addr, size_t count, uint32_t block_size, uint8_t block_cmd) {
+    rom_flash_range_erase_fn func = (rom_flash_range_erase_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_ERASE);
+    func(addr, count, block_size, block_cmd);
+}
+
+/*!
+ * \brief Program bytes in flash
+ * \ingroup pico_bootrom
+ * 
+ * Program data to a range of flash addresses starting at addr (offset from the start of flash) and count bytes in size. addr must be
+ * aligned to a 256-byte boundary, and count must be a multiple of 256.
+ * 
+ * This is a low-level flash API, and no validation of the arguments is performed.
+ * 
+ * \if rp2350_specific
+ * See rom_flash_op on RP2350 for a higher-level API which checks alignment, flash bounds and partition permissions,
+ * and can transparently apply a runtime-to-storage address translation.
+ * 
+ * The QSPI device must be in a serial command state before calling this API - see notes on rom_flash_range_erase
+ * \endif
+ * 
+ * \param addr the offset from start of flash to be erased
+ * \param data buffer containing the data to be written
+ * \param count number of bytes to erase
+ */
+static inline void rom_flash_range_program(uint32_t addr, const uint8_t *data, size_t count) {
+    rom_flash_range_program_fn func = (rom_flash_range_program_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_PROGRAM);
+    func(addr, data, count);
+}
+
+/*!
+ * \brief Flush the XIP cache
+ * \ingroup pico_bootrom
+ * 
+ * \if rp2040_specific
+ * Flush and enable the XIP cache. Also clears the IO forcing on QSPI CSn, so that the SSI can drive the flash chip select as normal.
+ * \endif
+ * 
+ * \if rp2350_specific
+ * Flush the entire XIP cache, by issuing an invalidate by set/way maintenance operation to every cache line. This ensures that flash
+ * program/erase operations are visible to subsequent cached XIP reads.
+ * 
+ * Note that this unpins pinned cache lines, which may interfere with cache-as-SRAM use of the XIP cache.
+ * 
+ * No other operations are performed.
+ * \endif
+ */
+static inline void rom_flash_flush_cache() {
+    rom_flash_flush_cache_fn func = (rom_flash_flush_cache_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
+    func();
+}
+
+/*!
+ * \brief Configure the SSI/QMI with a standard command
+ * \ingroup pico_bootrom
+ * 
+ * Configure the SSI/QMI to generate a standard 03h serial read command, with 24 address bits, upon each XIP access. This is a slow XIP
+ * configuration, but is widely supported. CLKDIV is set to 12 on RP2350. The debugger may call this function to ensure that flash is
+ * readable following a program/erase operation.
+ * 
+ * Note that the same setup is performed by flash_exit_xip(), and the RP2350 flash program/erase functions do not leave XIP in an
+ * inaccessible state, so calls to this function are largely redundant on RP2350. It is provided on RP2350 for compatibility with RP2040.
+ */
+static inline void rom_flash_enter_cmd_xip() {
+    rom_flash_enter_cmd_xip_fn func = (rom_flash_enter_cmd_xip_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_ENTER_CMD_XIP);
+    func();
+}
+
+#if !PICO_RP2040
+#ifdef __riscv
+/*!
+ * \brief Give the bootrom a new stack
+ * \ingroup pico_bootrom
+ * 
+ * Most bootrom functions are written just once, in Arm code, to save space. As a result these functions are emulated when
+ * running under the RISC-V architecture. This is largely transparent to the user, however the stack used by the Arm emulation
+ * is separate from the calling user's stack, and is stored in boot RAM but is of quite limited size. When using certain of the more
+ * complex APIs or if nesting bootrom calls from within IRQs, you may need to provide a large stack.
+ * 
+ * This method allows the caller to specify a region of RAM to use as the stack for the current core by passing a pointer to two values: the word aligned base address,
+ * and the size in bytes (multiple of 4).
+ * 
+ * The method fills in the previous base/size values into the passed array before returning.
+ * 
+ * \param stack bootrom_stack_t struct containing base and size
+ */
+static inline int rom_set_bootrom_stack(bootrom_stack_t *stack) {
+    rom_set_bootrom_stack_fn func = (rom_set_bootrom_stack_fn) rom_func_lookup_inline(ROM_FUNC_SET_BOOTROM_STACK);
+    return func(stack);
+}
+#endif
+
+/*!
+ * \brief Reboot using the watchdog
+ * \ingroup pico_bootrom
+ * 
+ * Resets the chip and uses the watchdog facility to restart.
+ * 
+ * The delay_ms is the millisecond delay before the reboot occurs. Note: by default this method is asynchronous
+ * (unless NO_RETURN_ON_SUCCESS is set - see below), so the method will return and the reboot will happen this many milliseconds later.
+ * 
+ * The flags field contains one of the following values:
+ * 
+ * REBOOT_TYPE_NORMAL - reboot into the normal boot path.
+ * 
+ * REBOOT_TYPE_BOOTSEL - reboot into BOOTSEL mode.
+ *  p0 - the GPIO number to use as an activity indicator (enabled by flag in p1).
+ *  p1 - a set of flags:
+ *   0x01 : DISABLE_MSD_INTERFACE - Disable the BOOTSEL USB drive (see <<section_bootrom_mass_storage>>)
+ *   0x02 : DISABLE_PICOBOOT_INTERFACE - Disable the {picoboot} interface (see <<section_bootrom_picoboot>>).
+ *   0x10 : GPIO_PIN_ACTIVE_LOW - The GPIO in p0 is active low.
+ *   0x20 : GPIO_PIN_ENABLED - Enable the activity indicator on the specified GPIO.
+ * 
+ * REBOOT_TYPE_RAM_IMAGE - reboot into an image in RAM. The region of RAM or XIP RAM is searched for an image to run. This is the type
+ * of reboot used when a RAM UF2 is dragged onto the BOOTSEL USB drive.
+ *  p0 - the region start address (word-aligned).
+ *  p1 - the region size (word-aligned).
+ * 
+ * REBOOT_TYPE_FLASH_UPDATE - variant of REBOOT_TYPE_NORMAL to use when flash has been updated. This is the type
+ * of reboot used after dragging a flash UF2 onto the BOOTSEL USB drive.
+ *  p0 - the address of the start of the region of flash that was updated. If this address matches the start address of a partition or slot, then that
+ *       partition or slot is treated preferentially during boot (when there is a choice). This type of boot facilitates TBYB and version downgrades.
+ * 
+ * REBOOT_TYPE_PC_SP - reboot to a specific PC and SP. Note: this is not allowed in the ARM-NS variant.
+ *  p0 - the initial program counter (PC) to start executing at. This must have the lowest bit set for Arm and clear for RISC-V
+ *  p1 - the initial stack pointer (SP).
+ * 
+ * All of the above, can have optional flags ORed in:
+ * 
+ * REBOOT_TO_ARM - switch both cores to the Arm architecture (rather than leaving them as is). The call will fail with BOOTROM_ERROR_INVALID_STATE if the Arm architecture is not supported.
+ * REBOOT_TO_RISCV - switch both cores to the RISC-V architecture (rather than leaving them as is). The call will fail with BOOTROM_ERROR_INVALID_STATE if the RISC-V architecture is not supported.
+ * NO_RETURN_ON_SUCCESS - the watchdog h/w is asynchronous. Setting this bit forces this method not to return if the reboot is successfully initiated.
+ * 
+ * \param flags the reboot flags, as detailed above
+ * \param delay_ms millisecond delay before the reboot occurs
+ * \param p0 parameter 0, depends on flags
+ * \param p1 parameter 1, depends on flags
+ */
+static inline int rom_reboot(uint32_t flags, uint32_t delay_ms, uint32_t p0, uint32_t p1) {
+    rom_reboot_fn func = (rom_reboot_fn) rom_func_lookup_inline(ROM_FUNC_REBOOT);
+    return func(flags, delay_ms, p0, p1);
+}
+
+bool rom_get_boot_random(uint32_t out[4]);
+
+/*!
+ * \brief Reset bootrom state
+ * \ingroup pico_bootrom
+ * 
+ * Resets internal bootrom state, based on the following flags:
+ * 
+ * STATE_RESET_CURRENT_CORE - Resets any internal bootrom state for the current core into a clean state.
+ * This method should be called prior to calling any other bootrom APIs on the current core,
+ * and is called automatically by the bootrom during normal boot of core 0 and launch of code on core 1.
+ * 
+ * STATE_RESET_OTHER_CORE - Resets any internal bootrom state for the other core into a clean state. This is generally called by
+ * a debugger when resetting the state of one core via code running on the other.
+ * 
+ * STATE_RESET_GLOBAL_STATE - Resets all non core-specific state, including:
+ *  Disables access to bootrom APIs from ARM-NS
+ *  Unlocks all BOOT spinlocks
+ *  Clears any secure code callbacks
+ * 
+ * Note: the sdk calls this method on runtime initialisation to put the bootrom into a known state. This
+ * allows the program to function correctly if it is entered (e.g. from a debugger) without taking the usual boot path (which
+ * resets the state appropriately itself).
+ * 
+ * \param flags flags, as detailed above
+ */
+static inline void rom_bootrom_state_reset(uint32_t flags) {
+    rom_bootrom_state_reset_fn func = (rom_bootrom_state_reset_fn) rom_func_lookup_inline(ROM_FUNC_BOOTROM_STATE_RESET);
+    return func(flags);
+}
+
+/*!
+ * \brief Reset address translation
+ * \ingroup pico_bootrom
+ * 
+ * Restore the QMI address translation registers, QMI_ATRANS0 through QMI_ATRANS7, to their reset state. This makes the
+ * runtime-to-storage address map an identity map, i.e. the mapped and unmapped address are equal, and the entire space is
+ * fully mapped.
+ */
+static inline void rom_flash_reset_address_trans(void) {
+    rom_flash_reset_address_trans_fn func = (rom_flash_reset_address_trans_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_RESET_ADDRESS_TRANS);
+    func();
+}
+
+/*!
+ * \brief Configure QMI in a XIP read mode
+ * \ingroup pico_bootrom
+ * 
+ * Configure QMI for one of a small menu of XIP read modes supported by the bootrom. This mode is configured for both memory
+ * windows (both chip selects), and the clock divisor is also applied to direct mode.
+ * 
+ * \param mode bootrom_xip_mode_t mode to use
+ * \param clkdiv clock divider
+ */
+static inline void rom_flash_select_xip_read_mode(bootrom_xip_mode_t mode, uint8_t clkdiv) {
+    rom_flash_select_xip_read_mode_fn func = (rom_flash_select_xip_read_mode_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_SELECT_XIP_READ_MODE);
+    func(mode, clkdiv);
+}
+
+/*!
+ * \brief Perform a flash read, erase, or program operation
+ * \ingroup pico_bootrom
+ * 
+ * The flash operation is bounds-checked against the known flash devices specified by the runtime value of FLASH_DEVINFO,
+ * stored in bootram. This is initialised by the bootrom to the OTP value OTP_DATA_FLASH_DEVINFO, if
+ * OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is set; otherwise it is initialised to 16 MiB for chip select 0 and 0 bytes
+ * for chip select 1. FLASH_DEVINFO can be updated at runtime by writing to its location in bootram, the pointer to which
+ * can be looked up in the ROM table.
+ * 
+ * If a resident partition table is in effect, then the flash operation is also checked against the partition permissions.
+ * The Secure version of this function can specify the caller's effective security level (Secure, Non-secure, bootloader)
+ * using the CFLASH_SECLEVEL_BITS bitfield of the flags argument, whereas the Non-secure function is always checked against
+ * the Non-secure permissions for the partition. Flash operations which span two partitions are not allowed, and will fail
+ * address validation.
+ * 
+ * If OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED is set, erase operations will use a D8h 64 kiB block erase command where
+ * possible (without erasing outside the specified region), for faster erase time. Otherwise, only 20h 4 kiB sector erase
+ * commands are used.
+ * 
+ * Optionally, this API can translate addr from flash runtime addresses to flash storage addresses, according to the
+ * translation currently configured by QMI address translation registers, QMI_ATRANS0 through QMI_ATRANS7. For example, an
+ * image stored at a +2 MiB offset in flash (but mapped at XIP address 0 at runtime), writing to an offset of +1 MiB into
+ * the image, will write to a physical flash storage address of 3 MiB. Translation is enabled by setting the
+ * CFLASH_ASPACE_BITS bitfield in the flags argument.
+ * 
+ * When translation is enabled, flash operations which cross address holes in the XIP runtime address space (created by
+ * non-maximum ATRANSx_SIZE) will return an error response. This check may tear: the transfer may be partially performed
+ * before encountering an address hole and ultimately returning failure.
+ * 
+ * When translation is enabled, flash operations are permitted to cross chip select boundaries, provided this does not
+ * span an ATRANS address hole. When translation is disabled, the entire operation must target a single flash chip select
+ * (as determined by bits 24 and upward of the address), else address validation will fail.
+ *
+ * \param flags controls the security level, address space, and flash operation
+ * \param addr the address of the first flash byte to be accessed, ranging from XIP_BASE to XIP_BASE + 0x1ffffff
+ * \param size_bytes size of buf, in bytes
+ * \param buf contains data to be written to flash, for program operations, and data read back from flash, for read operations
+ */
+static inline int rom_flash_op(cflash_flags_t flags, uintptr_t addr, uint32_t size_bytes, uint8_t *buf) {
+    rom_flash_op_fn func = (rom_flash_op_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_OP);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_FLASH_OP))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(flags, addr, size_bytes, buf);
+    bootrom_release_lock(BOOTROM_LOCK_FLASH_OP);
+    return rc;
+}
+
+/*!
+ * \brief Writes data from a buffer into OTP, or reads data from OTP into a buffer
+ * \ingroup pico_bootrom
+ *
+ * The buffer must be aligned to 2 bytes or 4 bytes according to the IS_ECC flag.
+ * 
+ * This method will read and write rows until the first row it encounters that fails a key or permission check at which
+ * it will return BOOTROM_ERROR_NOT_PERMITTED.
+ * 
+ * Writing will also stop at the first row where an attempt is made to set an OTP bit from a 1 to a 0, and
+ * BOOTROM_ERROR_UNSUPPORTED_MODIFICATION will be returned.
+ * 
+ * If all rows are read/written successfully, then BOOTROM_OK will be returned.
+ * 
+ * \param buf buffer to read to/write from
+ * \param buf_len size of buf
+ * \param cmd OTP command to execute
+ *  - 0x0000ffff - ROW_NUMBER: 16 low bits are row number (0-4095)
+ *  - 0x00010000 - IS_WRITE: if set, do a write (not a read)
+ *  - 0x00020000 - IS_ECC: if this bit is set, each value in the buffer is 2 bytes and ECC is used when read/writing from 24
+ *      bit value in OTP. If this bit is not set, each value in the buffer is 4 bytes, the low 24-bits of which are written
+ *      to or read from OTP.
+
+ */
+static inline int rom_func_otp_access(uint8_t *buf, uint32_t buf_len, otp_cmd_t cmd) {
+    rom_func_otp_access_fn func = (rom_func_otp_access_fn) rom_func_lookup_inline(ROM_FUNC_OTP_ACCESS);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_OTP))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(buf, buf_len, cmd);
+    bootrom_release_lock(BOOTROM_LOCK_OTP);
+    return rc;
+}
+
+/*!
+ * \brief Fills a buffer with information from the partition table
+ * \ingroup pico_bootrom
+ *
+ * Fills a buffer with information from the partition table. Note that this API is also used to return information over the
+ * picoboot interface.
+ * 
+ * On success, the buffer is filled, and the number of words filled in the buffer is returned. If the partition table
+ * has not been loaded (e.g. from a watchdog or RAM boot), then this method will return BOOTROM_ERROR_NO_DATA, and you
+ * should load the partition table via load_partition_table() first.
+ * 
+ * Note that not all data from the partition table is kept resident in memory by the bootrom due to size constraints.
+ * To protect against changes being made in flash after the bootrom has loaded the resident portion, the bootrom keeps
+ * a hash of the partition table as of the time it loaded it. If the hash has changed by the time this method is called,
+ * then it will return BOOTROM_ERROR_INVALID_STATE.
+ * 
+ * The information returned is chosen by the flags_and_partition parameter; the first word in the returned buffer,
+ * is the (sub)set of those flags that the API supports. You should always check this value before interpreting
+ * the buffer.
+ * 
+ * Following the first word, returns words of data for each present flag in order. With the exception of PT_INFO,
+ * all the flags select "per partition" information, so each field is returned in flag order for one partition after
+ * the next. The special SINGLE_PARTITION flag indicates that data for only a single partition is required.
+ * 
+ * \param out_buffer buffer to write data to
+ * \param out_buffer_word_size size of out_buffer, in words
+ * \param partition_and_flags partition number and flags
+ */
+static inline int rom_get_partition_table_info(uint32_t *out_buffer, uint32_t out_buffer_word_size, uint32_t partition_and_flags) {
+    rom_get_partition_table_info_fn func = (rom_get_partition_table_info_fn) rom_func_lookup_inline(ROM_FUNC_GET_PARTITION_TABLE_INFO);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_SHA_256))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(out_buffer, out_buffer_word_size, partition_and_flags);
+    bootrom_release_lock(BOOTROM_LOCK_SHA_256);
+    return rc;
+}
+
+// todo SECURE only
+/*!
+ * \brief Loads the current partition table from flash, if present
+ * \ingroup pico_bootrom
+ *
+ * This method potentially requires similar complexity to the boot path in terms of picking amongst versions, checking signatures etc.
+ * As a result it requires a user provided memory buffer as a work area. The work area should byte word-aligned and of sufficient size
+ * or BOOTROM_ERROR_INSUFFICIENT_RESOURCES will be returned. The work area size currently required is 3064, so 3K is a good choice.
+ * 
+ * If force_reload is false, then this method will return BOOTROM_OK immediately if the bootrom is loaded, otherwise it will
+ * reload the partition table if it has been loaded already, allowing for the partition table to be updated in a running program.
+ * 
+ * \param workarea_base base address of work area
+ * \param workarea_size size of work area
+ * \param force_reload force reloading of the partition table
+ */
+static inline int rom_load_partition_table(uint8_t *workarea_base, uint32_t workarea_size, bool force_reload) {
+    rom_load_partition_table_fn func = (rom_load_partition_table_fn) rom_func_lookup_inline(ROM_FUNC_LOAD_PARTITION_TABLE);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_SHA_256))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(workarea_base, workarea_size, force_reload);
+    bootrom_release_lock(BOOTROM_LOCK_SHA_256);
+    return rc;
+}
+
+// todo SECURE only
+/*!
+ * \brief Pick a partition from an A/B pair
+ * \ingroup pico_bootrom
+ *
+ * Determines which of the partitions has the "better" IMAGE_DEF. In the case of executable images, this is the one that would be booted
+ * 
+ * This method potentially requires similar complexity to the boot path in terms of picking amongst versions, checking signatures etc.
+ * As a result it requires a user provided memory buffer as a work area. The work area should bye word aligned, and of sufficient size
+ * or BOOTROM_ERROR_INSUFFICIENT_RESOURCES will be returned. The work area size currently required is 3064, so 3K is a good choice.
+ * 
+ * The passed partition number can be any valid partition number other than the "B" partition of an A/B pair.
+ * 
+ * This method returns a negative error code, or the partition number of the picked partition if (i.e. partition_a_num or the
+ * number of its "B" partition if any).
+ * 
+ * NOTE: This method does not look at owner partitions, only the A partition passed and it's corresponding B partition.
+ * 
+ * \param workarea_base base address of work area
+ * \param workarea_size size of work area
+ * \param partition_a_num the A partition of the pair
+ * \param flash_update_boot_window_base the flash update base, to pick that partition instead of the normally "better" partition
+ */
+static inline int rom_pick_ab_partition(uint8_t *workarea_base, uint32_t workarea_size, uint partition_a_num, uint32_t flash_update_boot_window_base) {
+    rom_pick_ab_partition_fn func = (rom_pick_ab_partition_fn) rom_func_lookup_inline(ROM_FUNC_PICK_AB_PARTITION);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_SHA_256))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(workarea_base, workarea_size, partition_a_num, flash_update_boot_window_base);
+    bootrom_release_lock(BOOTROM_LOCK_SHA_256);
+    return rc;
+}
+
+/*!
+ * \brief Get B partition
+ * \ingroup pico_bootrom
+ *
+ * Returns the index of the B partition of partition A if a partition table is present and loaded, and there is a partition A with a B partition;
+ * otherwise returns BOOTROM_ERROR_NOT_FOUND.
+ * 
+ * \param pi_a the A partition number
+ */
+static inline int rom_get_b_partition(uint pi_a) {
+    rom_get_b_partition_fn func = (rom_get_b_partition_fn) rom_func_lookup_inline(ROM_FUNC_GET_B_PARTITION);
+    return func(pi_a);
+}
+
+// todo SECURE only
+/*!
+ * \brief Get UF2 Target Partition
+ * \ingroup pico_bootrom
+ * 
+ * This method performs the same operation to decide on a target partition for a UF2 family ID as when a UF2 is dragged onto the USB
+ * drive in BOOTSEL mode.
+ * 
+ * This method potentially requires similar complexity to the boot path in terms of picking amongst versions, checking signatures etc.
+ * As a result it requires a user provided memory buffer as a work area. The work area should byte word-aligned and of sufficient size
+ * or `BOOTROM_ERROR_INSUFFICIENT_RESOURCES` will be returned. The work area size currently required is 3064, so 3K is a good choice.
+ * 
+ * If the partition table
+ * has not been loaded (e.g. from a watchdog or RAM boot), then this method will return `BOOTROM_ERROR_PRECONDITION_NOT_MET`, and you
+ * should load the partition table via <<api-load_partition_table, load_partition_table()>> first.
+ * 
+ * \param workarea_base base address of work area
+ * \param workarea_size size of work area
+ * \param family_id the family ID to place
+ * \param partition_out pointer to the resident_partition_t to fill with the partition data
+ */
+static inline int rom_get_uf2_target_partition(uint8_t *workarea_base, uint32_t workarea_size, uint32_t family_id, resident_partition_t *partition_out) {
+    rom_get_uf2_target_partition_fn func = (rom_get_uf2_target_partition_fn) rom_func_lookup_inline(ROM_FUNC_GET_UF2_TARGET_PARTITION);
+    if (!bootrom_try_acquire_lock(BOOTROM_LOCK_SHA_256))
+        return BOOTROM_ERROR_LOCK_REQUIRED;
+    int rc = func(workarea_base, workarea_size, family_id, partition_out);
+    bootrom_release_lock(BOOTROM_LOCK_SHA_256);
+    return rc;
+}
+
+/*!
+ * \brief Translate runtime to storage address
+ * \ingroup pico_bootrom
+ *
+ * Applies the address translation currently configured by QMI address translation registers.
+ * 
+ * Translating an address outside of the XIP runtime address window, or beyond the bounds of an ATRANSx_SIZE field, returns BOOTROM_ERROR_INVALID_ADDRESS,
+ * which is not a valid flash storage address. Otherwise, return the storage address which QMI would access when presented with the runtime address addr.
+ * This is effectively a virtual-to-physical address translation for QMI.
+ * 
+ * \param flash_runtime_addr the address to translate
+ */
+static inline intptr_t rom_flash_runtime_to_storage_addr(uintptr_t flash_runtime_addr) {
+    rom_flash_runtime_to_storage_addr_fn func = (rom_flash_runtime_to_storage_addr_fn) rom_func_lookup_inline(ROM_FUNC_FLASH_RUNTIME_TO_STORAGE_ADDR);
+    return func(flash_runtime_addr);
+}
+
+// todo SECURE only
+/*!
+ * \brief Chain into a launchable image
+ * \ingroup pico_bootrom
+ *
+ * Searches a memory region for a launchable image, and executes it if possible.
+ * 
+ * The region_base and region_size specify a word-aligned, word-multiple-sized area of RAM, XIP RAM or flash to search.
+ * The first 4 kiB of the region must contain the start of a Block Loop with an IMAGE_DEF. If the new image is launched,
+ * the call does not return otherwise an error is returned.
+ * 
+ * The region_base is signed, as a negative value can be passed, which indicates that the (negated back to positive value)
+ * is both the region_base and the base of the "flash update" region.
+ * 
+ * This method potentially requires similar complexity to the boot path in terms of picking amongst versions, checking signatures etc.
+ * As a result it requires a user provided memory buffer as a work area. The work area should be word aligned, and of sufficient size
+ * or BOOTROM_ERROR_INSUFFICIENT_RESOURCES will be returned. The work area size currently required is 3064, so 3K is a good choice.
+ * 
+ * NOTE: This method is primarily expected to be used when implementing bootloaders.
+ * 
+ * NOTE: When chaining into an image, the OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED flag will not be set, to prevent invalidating a bootloader
+ * without a rollback version by booting a binary which has one.
+ * 
+ * \param workarea_base base address of work area
+ * \param workarea_size size of work area
+ * \param region_base base address of image
+ * \param region_size size of window containing image
+ */
+static inline int rom_chain_image(uint8_t *workarea_base, uint32_t workarea_size, uint32_t region_base, uint32_t region_size) {
+    rom_chain_image_fn func = (rom_chain_image_fn) rom_func_lookup_inline(ROM_FUNC_CHAIN_IMAGE);
+    bootrom_release_lock(BOOTROM_LOCK_ENABLE);
+    int rc = func(workarea_base, workarea_size, region_base, region_size);
+    bootrom_acquire_lock_blocking(BOOTROM_LOCK_ENABLE);
+    return rc;
+}
+
+// todo SECURE only
+/*!
+ * \brief Buy an image
+ * \ingroup pico_bootrom
+ *
+ * Perform an "explicit" buy of an executable launched via an IMAGE_DEF which was "explicit buy" flagged. A "flash update"
+ * boot of such an image is a way to have the image execute once, but only become the "current" image if it calls
+ * back into the bootrom via this call.
+ * 
+ * This call may perform the following:
+ * 
+ * - Erase and rewrite the part of flash containing the "explicit buy" flag in order to clear said flag.
+ * - Erase the first sector of the other partition in an A/B partition scenario, if this new IMAGE_DEF is a version downgrade
+ *   (so this image will boot again when not doing a "flash update" boot)
+ * - Update the rollback version in OTP if the chip is secure, and a rollback version is present in the image.
+ * 
+ * NOTE: The device may reboot while updating the rollback version, if multiple rollback rows need to be written - this occurs
+ * when the version crosses a multiple of 24 (for example upgrading from version 23 to 25 requires a reboot, but 23 to 24 or 24 to 25 doesn't).
+ * The application should therefore be prepared to reboot when calling this function, if rollback versions are in use.
+ * 
+ * Note that the first of the above requires 4 kiB of scratch space, so you should pass a word aligned buffer of at least 4 kiB to this method,
+ * or it will return BOOTROM_ERROR_INSUFFICIENT_RESOURCES if the "explicit buy" flag needs to be cleared.
+ * 
+ * \param buffer base address of scratch space
+ * \param buffer_size size of scratch space
+ */
+static inline int rom_explicit_buy(uint8_t *buffer, uint32_t buffer_size) {
+    rom_explicit_buy_fn func = (rom_explicit_buy_fn) rom_func_lookup_inline(ROM_FUNC_EXPLICIT_BUY);
+    return func(buffer, buffer_size);
+}
+
+#ifndef __riscv
+/*!
+ * \brief Set NS API Permission
+ * \ingroup pico_bootrom
+ * 
+ * Allow or disallow the specific NS API (note all NS APIs default to disabled).
+ * 
+ * ns_api_num configures ARM-NS access to the given API. When an NS API is disabled,
+ * calling it will return BOOTROM_ERROR_NOT_PERMITTED.
+ * 
+ * NOTE: All permissions default to disallowed after a reset.
+ * 
+ * \param ns_api_num ns api number
+ * \param allowed permission
+ */
+static inline int rom_set_ns_api_permission(uint ns_api_num, bool allowed) {
+    rom_set_ns_api_permission_fn func = (rom_set_ns_api_permission_fn) rom_func_lookup_inline(ROM_FUNC_SET_NS_API_PERMISSION);
+    return func(ns_api_num, allowed);
+}
+#endif
+
+// todo SECURE only
+/*!
+ * \brief Validate NS Buffer
+ * \ingroup pico_bootrom
+ *
+ * Utility method that can be used by secure ARM code to validate a buffer passed to it from Non-secure code.
+ * 
+ * Both the write parameter and the (out) result parameter ok are RCP booleans, so 0xa500a500 for true, and 0x00c300c3
+ * for false. This enables hardening of this function, and indeed the write parameter must be one of these values or the RCP
+ * will hang the system.
+ * 
+ * For success, the entire buffer must fit in range XIP_BASE -> SRAM_END, and must be accessible by the Non-secure
+ * caller according to SAU + NS MPU (privileged or not based on current processor IPSR and NS CONTROL flag). Buffers
+ * in USB RAM are also allowed if access is granted to NS via ACCESSCTRL.
+ * 
+ * \param addr buffer address
+ * \param size buffer size
+ * \param write rcp boolean, true if writeable
+ * \param ok rcp boolean result
+ */
+static inline void* rom_validate_ns_buffer(const void *addr, uint32_t size, uint32_t write, uint32_t *ok) {
+    rom_validate_ns_buffer_fn func = (rom_validate_ns_buffer_fn) rom_func_lookup_inline(ROM_FUNC_VALIDATE_NS_BUFFER);
+    return func(addr, size, write, ok);
+}
+
+/*!
+ * \brief Set ROM callback function
+ * \ingroup pico_bootrom
+ * 
+ * The only currently supported callback_number is 0 which sets the callback used for the secure_call API.
+ * 
+ * A callback pointer of 0 deletes the callback function, a positive callback pointer (all valid function pointers are on RP2350)
+ * sets the callback function, but a negative callback pointer can be passed to get the old value without setting a new value.
+ * 
+ * If successful, returns >=0 (the existing value of the function pointer on entry to the function).
+ * 
+ * \param callback_num the callback number to set - only 0 is supported on RP2350
+ * \param funcptr pointer to the callback function
+ */
+static inline intptr_t rom_set_rom_callback(uint callback_num, bootrom_api_callback_generic_t funcptr) {
+    rom_set_rom_callback_fn func = (rom_set_rom_callback_fn) rom_func_lookup_inline(ROM_FUNC_SET_ROM_CALLBACK);
+    return func(callback_num, funcptr);
+}
+
+#define BOOT_TYPE_NORMAL     0
+#define BOOT_TYPE_BOOTSEL    2
+#define BOOT_TYPE_RAM_IMAGE  3
+#define BOOT_TYPE_FLASH_UPDATE 4
+
+// values 8-15 are secure only
+#define BOOT_TYPE_PC_SP      0xd
+
+// ORed in if a bootloader chained into the image
+#define BOOT_TYPE_CHAINED_FLAG 0x80
+
+/*!
+ * \brief Get system information
+ * \ingroup pico_bootrom
+ *
+ * Fills a buffer with various system information. Note that this API is also used to return information over the picoboot interface.
+ * 
+ * On success, the buffer is filled, and the number of words filled in the buffer is returned.
+ * 
+ * The information returned is chosen by the flags parameter; the first word in the returned buffer,
+ * is the (sub)set of those flags that the API supports. You should always check this value before interpreting
+ * the buffer.
+ * 
+ * "Boot Diagnostic" information is intended to help identify the cause of a failed boot, or booting into an unexpected binary.
+ * This information can be retrieved via picoboot after a watchdog reboot, however it will not survive
+ * a reset via the RUN pin or POWMAN reset.
+ * 
+ * There is only one word of diagnostic information. What it records is based on the pp selection above, which
+ * is itself set as a parameter when rebooting programmatically into a normal boot.
+ * 
+ * To get diagnostic info, pp must refer to a slot or an "A" partition; image diagnostics are automatically selected on boot
+ * from OTP or RAM image, or when chain_image() is called.)
+ * 
+ * The diagnostic word thus contains data for either slot 0 and slot 1, or the "A" partition (and its "B" partition if it has one). The low half word
+ * of the diagnostic word contains information from slot 0 or partition A; the high half word contains information from slot 1 or partition B.
+ * 
+ * To get a full picture of a failed boot involving slots and multiple partitions, the device can be rebooted
+ * multiple times to gather the information.
+ * 
+ * \param out_buffer buffer to write data to
+ * \param out_buffer_word_size size of out_buffer, in words
+ * \param flags flags
+ */
+static inline int rom_get_sys_info(uint32_t *out_buffer, uint32_t out_buffer_word_size, uint32_t flags) {
+    rom_get_sys_info_fn func = (rom_get_sys_info_fn)rom_func_lookup_inline(ROM_FUNC_GET_SYS_INFO);
+    return func(out_buffer, out_buffer_word_size, flags);
+}
+
+typedef struct {
+    union {
+        struct __packed {
+            int8_t diagnostic_partition_index; // used BOOT_PARTITION constants
+            uint8_t boot_type;
+            int8_t partition;
+            uint8_t tbyb_and_update_info;
+        };
+        uint32_t boot_word;
+    };
+    uint32_t boot_diagnostic;
+    uint32_t reboot_params[2];
+} boot_info_t;
+
+static inline int rom_get_boot_info(boot_info_t *info) {
+    uint32_t result[5];
+    int words_returned = rom_get_sys_info(result, 5, SYS_INFO_BOOT_INFO);
+    if (words_returned == (sizeof(result)/sizeof(result[0])) && result[0] == SYS_INFO_BOOT_INFO) {
+        memcpy(info, &result[1], sizeof(boot_info_t));
+        return true;
+    } else {
+        return false;
+    }
+}
+
+static inline int rom_get_last_boot_type_with_chained_flag(void) {
+    uint32_t result[5];
+    int words_returned = rom_get_sys_info(result, 5, SYS_INFO_BOOT_INFO);
+    if (words_returned == count_of(result) && result[0] == SYS_INFO_BOOT_INFO) {
+        // todo use struct
+        return (int)((result[1] & 0xff00u) >> 8);
+    } else {
+        return PICO_ERROR_INVALID_DATA;
+    }
+}
+
+// BOOT_TYPE_NORMAL       0x0
+// BOOT_TYPE_BOOTSEL      0x2
+// BOOT_TYPE_RAM_IMAGE    0x3
+// BOOT_TYPE_FLASH_UPDATE 0x4
+// BOOT_TYPE_PC_SP        0xd
+static inline int rom_get_last_boot_type(void) {
+    int rc = rom_get_last_boot_type_with_chained_flag();
+    if (rc >= 0) rc &= ~BOOT_TYPE_CHAINED_FLAG;
+    return rc;
+}
+
+/*! \brief  Add a runtime partition to the partition table to specify flash permissions
+ * \ingroup pico_bootrom
+ *
+ * Note that a partition is added to the runtime view of the partition table maintained by the bootrom if there is space to do so
+ *
+ * Note that these permissions cannot override the permissions for any pre-existing partitions, as permission matches are made on a first partition found basis.
+ *
+ * @param start_offset the start_offset into flash in bytes (must be a multiple of 4K)
+ * @param size the size in byte (must be a multiple of 4K)
+ * @param permissions the bitwise OR of permissions from PICOBIN_PARTITION_PERMISSION_ constants, e.g. \ref PICOBIN_PARTITION_PERMISSION_S_R_BITS from boot/picobin.h
+ * @return >= 0 the partition number added if
+ *         PICO_ERROR_BAD_ALIGNMENT if the start_offset or size aren't multiples of 4K.
+ *         PICO_ERROR_INVALID_ARG if the start_offset or size are out of range, or invalid permission bits are set.
+ */
+int rom_add_flash_runtime_partition(uint32_t start_offset, uint32_t size, uint32_t permissions);
+
+#endif
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif // !__ASSEMBLER__
+#endif
diff --git a/lib/pico-sdk/pico/bootrom/lock.h b/lib/pico-sdk/pico/bootrom/lock.h
new file mode 100644
index 0000000..b98b7a8
--- /dev/null
+++ b/lib/pico-sdk/pico/bootrom/lock.h
@@ -0,0 +1,69 @@
+/*
+ * Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _PICO_BOOTROM_LOCK_H
+#define _PICO_BOOTROM_LOCK_H
+
+//#include "hardware/boot_lock.h"
+#include "pico/bootrom_constants.h"
+
+// PICO_CONFIG: PICO_BOOTROM_LOCKING_ENABLED, Enable/disable locking for bootrom functions that use shared reqsources. If this flag is enabled bootrom lock checking is turned on and BOOT locks are taken around the relevant bootrom functions, type=bool, default=1, group=pico_bootrom
+#ifndef PICO_BOOTROM_LOCKING_ENABLED
+#if NUM_BOOT_LOCKS > 0
+#define PICO_BOOTROM_LOCKING_ENABLED 1
+#endif
+#endif
+
+/**
+ * \brief Try to acquire a bootrom lock
+ *
+ * If PICO_BOOTROM_LOCKING_ENABLED is false, this method returns true immediately
+ *
+ * \param lock_num the lock numbers - BOOTROM_LOCK_SHA_256, BOOTROM_LOCK_FLASH_OP or BOOTROM_LOCK_OTP
+ * \return true if the lock was acquired
+ */
+static inline bool bootrom_try_acquire_lock(uint lock_num) {
+#if PICO_BOOTROM_LOCKING_ENABLED
+    // unsafe as this is a long term lock (so no irq disable)
+    return boot_try_lock_unsafe(boot_lock_instance(lock_num));
+#else
+    (void)lock_num;
+    return true;
+#endif
+}
+
+/**
+ * \brief Acquire a bootrom lock. If the lock is unavailable, block until it is available
+ *
+ * If PICO_BOOTROM_LOCKING_ENABLED is false, this method does nothing
+ *
+ * \param lock_num the lock numbers - BOOTROM_LOCK_SHA_256, BOOTROM_LOCK_FLASH_OP or BOOTROM_LOCK_OTP
+ */
+static inline void bootrom_acquire_lock_blocking(uint lock_num) {
+#if PICO_BOOTROM_LOCKING_ENABLED
+    // unsafe as this is a long term lock (so no irq disable)
+    boot_lock_unsafe_blocking(boot_lock_instance(lock_num));
+#else
+    (void)lock_num;
+#endif
+}
+
+/**
+ * \brief Release a bootrom lock
+ *
+ * If PICO_BOOTROM_LOCKING_ENABLED is false, this method does nothing
+ *
+ * \param lock_num the lock numbers - BOOTROM_LOCK_SHA_256, BOOTROM_LOCK_FLASH_OP or BOOTROM_LOCK_OTP
+ */
+static inline void bootrom_release_lock(uint lock_num) {
+#if PICO_BOOTROM_LOCKING_ENABLED
+    boot_unlock_unsafe(boot_lock_instance(lock_num));
+#else
+    (void)lock_num;
+#endif
+}
+
+#endif
diff --git a/lib/pico-sdk/pico/bootrom_constants.h b/lib/pico-sdk/pico/bootrom_constants.h
new file mode 100644
index 0000000..924487f
--- /dev/null
+++ b/lib/pico-sdk/pico/bootrom_constants.h
@@ -0,0 +1,342 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _PICO_BOOTROM_CONSTANTS_H
+#define _PICO_BOOTROM_CONSTANTS_H
+
+#ifndef NO_PICO_PLATFORM
+#include "pico/platform.h"
+#endif
+
+// ROOT ADDRESSES
+#define BOOTROM_MAGIC_OFFSET 0x10
+#define BOOTROM_FUNC_TABLE_OFFSET 0x14
+#if PICO_RP2040
+#define BOOTROM_DATA_TABLE_OFFSET 0x16
+#endif
+
+#if PICO_RP2040
+#define BOOTROM_VTABLE_OFFSET           0x00
+#define BOOTROM_TABLE_LOOKUP_OFFSET     0x18
+#else
+// todo remove this (or #ifdef it for A1/A2)
+#define BOOTROM_IS_A2() ((*(volatile uint8_t *)0x13) == 2)
+#define BOOTROM_WELL_KNOWN_PTR_SIZE (BOOTROM_IS_A2() ? 2 : 4)
+#if defined(__riscv)
+#define BOOTROM_ENTRY_OFFSET            0x7dfc
+#define BOOTROM_TABLE_LOOKUP_ENTRY_OFFSET (BOOTROM_ENTRY_OFFSET - BOOTROM_WELL_KNOWN_PTR_SIZE)
+#define BOOTROM_TABLE_LOOKUP_OFFSET     (BOOTROM_ENTRY_OFFSET - BOOTROM_WELL_KNOWN_PTR_SIZE*2)
+#else
+#define BOOTROM_VTABLE_OFFSET 0x00
+#define BOOTROM_TABLE_LOOKUP_OFFSET     (BOOTROM_FUNC_TABLE_OFFSET + BOOTROM_WELL_KNOWN_PTR_SIZE)
+#endif
+#endif
+
+#if !PICO_RP2040 || PICO_COMBINED_DOCS
+
+#define BOOTROM_OK 0
+//#define BOOTROM_ERROR_TIMEOUT (-1)
+//#define BOOTROM_ERROR_GENERIC (-2)
+//#define BOOTROM_ERROR_NO_DATA (-3)                   // E.g. read from an empty buffer/FIFO
+#define BOOTROM_ERROR_NOT_PERMITTED (-4)             // Permission violation e.g. write to read-only flash partition
+#define BOOTROM_ERROR_INVALID_ARG (-5)               // Argument is outside of range of supported values`
+//#define BOOTROM_ERROR_IO (-6)
+//#define BOOTROM_ERROR_BADAUTH (-7)
+//#define BOOTROM_ERROR_CONNECT_FAILED (-8)
+//#define BOOTROM_ERROR_INSUFFICIENT_RESOURCES (-9)  // Dynamic allocation of resources failed
+#define BOOTROM_ERROR_INVALID_ADDRESS (-10)          // Address argument was out-of-bounds or was determined to be an address that the caller may not access
+#define BOOTROM_ERROR_BAD_ALIGNMENT (-11)            // Address modulo transfer chunk size was nonzero (e.g. word-aligned transfer with address % 4 != 0)
+#define BOOTROM_ERROR_INVALID_STATE (-12)            // Something happened or failed to happen in the past, and consequently we (currently) can't service the request
+#define BOOTROM_ERROR_BUFFER_TOO_SMALL (-13)         // A user-allocated buffer was too small to hold the result or working state of this function
+#define BOOTROM_ERROR_PRECONDITION_NOT_MET (-14)     // This call failed because another ROM function must be called first
+#define BOOTROM_ERROR_MODIFIED_DATA (-15)            // Cached data was determined to be inconsistent with the full version of the data it was calculated from
+#define BOOTROM_ERROR_INVALID_DATA (-16)             // A data structure failed to validate
+#define BOOTROM_ERROR_NOT_FOUND (-17)                // Attempted to access something that does not exist; or, a search failed
+#define BOOTROM_ERROR_UNSUPPORTED_MODIFICATION (-18) // Write is impossible based on previous writes; e.g. attempted to clear an OTP bit
+#define BOOTROM_ERROR_LOCK_REQUIRED (-19)            // A required lock is not owned
+#define BOOTROM_ERROR_LAST (-19)
+
+#define RT_FLAG_FUNC_RISCV      0x0001
+#define RT_FLAG_FUNC_RISCV_FAR  0x0003
+#define RT_FLAG_FUNC_ARM_SEC    0x0004
+// reserved for 32-bit pointer: 0x0008
+#define RT_FLAG_FUNC_ARM_NONSEC 0x0010
+// reserved for 32-bit pointer: 0x0020
+#define RT_FLAG_DATA            0x0040
+// reserved for 32-bit pointer: 0x0080
+
+#define PARTITION_TABLE_MAX_PARTITIONS    16
+// note this is deliberately > MAX_PARTITIONs is likely to be, and also -1 as a signed byte
+#define PARTITION_TABLE_NO_PARTITION_INDEX 0xff
+
+// todo these are duplicated in picoboot_constants.h
+// values 0-7 are secure/non-secure
+#define BOOT_TYPE_NORMAL     0
+#define BOOT_TYPE_BOOTSEL    2
+#define BOOT_TYPE_RAM_IMAGE  3
+#define BOOT_TYPE_FLASH_UPDATE 4
+
+// values 8-15 are secure only
+#define BOOT_TYPE_PC_SP      0xd
+
+// ORed in if a bootloader chained into the image
+#define BOOT_TYPE_CHAINED_FLAG 0x80
+
+// call from NS to S
+#ifndef __riscv
+#define BOOTROM_API_CALLBACK_secure_call 0
+#endif
+#define BOOTROM_API_CALLBACK_COUNT 1
+
+#define BOOTROM_LOCK_SHA_256   0
+#define BOOTROM_LOCK_FLASH_OP  1
+#define BOOTROM_LOCK_OTP       2
+#define BOOTROM_LOCK_MAX       2
+
+#define BOOTROM_LOCK_ENABLE    7
+
+#define BOOT_PARTITION_NONE (-1)
+#define BOOT_PARTITION_SLOT0 (-2)
+#define BOOT_PARTITION_SLOT1 (-3)
+#define BOOT_PARTITION_WINDOW (-4)
+
+#define BOOT_DIAGNOSTIC_WINDOW_SEARCHED                           0x01
+// note if both BOOT_DIAGNOSTIC_INVALID_BLOCK_LOOP and BOOT_DIAGNOSTIC_VALID_BLOCK_LOOP then the block loop was valid
+// but it has a PARTITION_TABLE which while it passed the initial verification (and hash/sig) had invalid contents
+// (discovered when it was later loaded)
+#define BOOT_DIAGNOSTIC_INVALID_BLOCK_LOOP                        0x02
+#define BOOT_DIAGNOSTIC_VALID_BLOCK_LOOP                          0x04
+#define BOOT_DIAGNOSTIC_VALID_IMAGE_DEF                           0x08
+#define BOOT_DIAGNOSTIC_HAS_PARTITION_TABLE                       0x10
+#define BOOT_DIAGNOSTIC_CONSIDERED                                0x20
+#define BOOT_DIAGNOSTIC_CHOSEN                                    0x40
+#define BOOT_DIAGNOSTIC_PARTITION_TABLE_LSB 7
+#define BOOT_DIAGNOSTIC_PARTITION_TABLE_MATCHING_KEY_FOR_VERIFY   0x80
+#define BOOT_DIAGNOSTIC_PARTITION_TABLE_HASH_FOR_VERIFY          0x100
+#define BOOT_DIAGNOSTIC_PARTITION_TABLE_VERIFIED_OK              0x200
+#define BOOT_DIAGNOSTIC_IMAGE_DEF_LSB 10
+#define BOOT_DIAGNOSTIC_IMAGE_DEF_MATCHING_KEY_FOR_VERIFY        0x400
+#define BOOT_DIAGNOSTIC_IMAGE_DEF_HASH_FOR_VERIFY                0x800
+#define BOOT_DIAGNOSTIC_IMAGE_DEF_VERIFIED_OK                   0x1000
+
+#define BOOT_DIAGNOSTIC_LOAD_MAP_ENTRIES_LOADED                 0x2000
+#define BOOT_DIAGNOSTIC_IMAGE_LAUNCHED                          0x4000
+#define BOOT_DIAGNOSTIC_IMAGE_CONDITION_FAILURE                 0x8000
+
+#define BOOT_PARSED_BLOCK_DIAGNOSTIC_MATCHING_KEY_FOR_VERIFY       0x1 // if this is present and VERIFIED_OK isn't the sig check failed
+#define BOOT_PARSED_BLOCK_DIAGNOSTIC_HASH_FOR_VERIFY               0x2 // if this is present and VERIFIED_OL isn't then hash check failed
+#define BOOT_PARSED_BLOCK_DIAGNOSTIC_VERIFIED_OK                   0x4
+
+#define BOOT_TBYB_AND_UPDATE_FLAG_BUY_PENDING                      0x1
+#define BOOT_TBYB_AND_UPDATE_FLAG_OTP_VERSION_APPLIED              0x2
+#define BOOT_TBYB_AND_UPDATE_FLAG_OTHER_ERASED                     0x4
+
+#ifndef __ASSEMBLER__
+// Limited to 3 arguments in case of varm multiplex hint (trashes Arm r3)
+typedef int (*bootrom_api_callback_generic_t)(uint32_t r0, uint32_t r1, uint32_t r2);
+// Return negative for error, else number of bytes transferred:
+//typedef int (*bootrom_api_callback_stdout_put_blocking_t)(const uint8_t *buffer, uint32_t size);
+//typedef int (*bootrom_api_callback_stdin_get_t)(uint8_t *buffer, uint32_t size);
+//typedef void (*bootrom_api_callback_core1_security_setup_t)(void);
+#endif
+
+#endif
+
+/*! \brief Return a bootrom lookup code based on two ASCII characters
+ * \ingroup pico_bootrom
+ *
+ * These codes are uses to lookup data or function addresses in the bootrom
+ *
+ * \param c1 the first character
+ * \param c2 the second character
+ * \return the 'code' to use in rom_func_lookup() or rom_data_lookup()
+ */
+#define ROM_TABLE_CODE(c1, c2) ((c1) | ((c2) << 8))
+
+// ROM FUNCTIONS
+
+// RP2040 & RP2350
+#define ROM_DATA_SOFTWARE_GIT_REVISION          ROM_TABLE_CODE('G', 'R')
+#define ROM_FUNC_FLASH_ENTER_CMD_XIP            ROM_TABLE_CODE('C', 'X')
+#define ROM_FUNC_FLASH_EXIT_XIP                 ROM_TABLE_CODE('E', 'X')
+#define ROM_FUNC_FLASH_FLUSH_CACHE              ROM_TABLE_CODE('F', 'C')
+#define ROM_FUNC_CONNECT_INTERNAL_FLASH         ROM_TABLE_CODE('I', 'F')
+#define ROM_FUNC_FLASH_RANGE_ERASE              ROM_TABLE_CODE('R', 'E')
+#define ROM_FUNC_FLASH_RANGE_PROGRAM            ROM_TABLE_CODE('R', 'P')
+
+
+#if PICO_RP2040
+// RP2040 only
+#define ROM_FUNC_MEMCPY44                       ROM_TABLE_CODE('C', '4')
+#define ROM_DATA_COPYRIGHT                      ROM_TABLE_CODE('C', 'R')
+#define ROM_FUNC_CLZ32                          ROM_TABLE_CODE('L', '3')
+#define ROM_FUNC_MEMCPY                         ROM_TABLE_CODE('M', 'C')
+#define ROM_FUNC_MEMSET                         ROM_TABLE_CODE('M', 'S')
+#define ROM_FUNC_POPCOUNT32                     ROM_TABLE_CODE('P', '3')
+#define ROM_FUNC_REVERSE32                      ROM_TABLE_CODE('R', '3')
+#define ROM_FUNC_MEMSET4                        ROM_TABLE_CODE('S', '4')
+#define ROM_FUNC_CTZ32                          ROM_TABLE_CODE('T', '3')
+#define ROM_FUNC_RESET_USB_BOOT                 ROM_TABLE_CODE('U', 'B')
+#endif
+
+#if !PICO_RP2040 || PICO_COMBINED_DOCS
+// RP2350 only
+#define ROM_FUNC_PICK_AB_PARTITION              ROM_TABLE_CODE('A', 'B')
+#define ROM_FUNC_CHAIN_IMAGE                    ROM_TABLE_CODE('C', 'I')
+#define ROM_FUNC_EXPLICIT_BUY                   ROM_TABLE_CODE('E', 'B')
+#define ROM_FUNC_FLASH_RUNTIME_TO_STORAGE_ADDR  ROM_TABLE_CODE('F', 'A')
+#define ROM_DATA_FLASH_DEVINFO16_PTR            ROM_TABLE_CODE('F', 'D')
+#define ROM_FUNC_FLASH_OP                       ROM_TABLE_CODE('F', 'O')
+#define ROM_FUNC_GET_B_PARTITION                ROM_TABLE_CODE('G', 'B')
+#define ROM_FUNC_GET_PARTITION_TABLE_INFO       ROM_TABLE_CODE('G', 'P')
+#define ROM_FUNC_GET_SYS_INFO                   ROM_TABLE_CODE('G', 'S')
+#define ROM_FUNC_GET_UF2_TARGET_PARTITION       ROM_TABLE_CODE('G', 'U')
+#define ROM_FUNC_LOAD_PARTITION_TABLE           ROM_TABLE_CODE('L', 'P')
+#define ROM_FUNC_OTP_ACCESS                     ROM_TABLE_CODE('O', 'A')
+#define ROM_DATA_PARTITION_TABLE_PTR            ROM_TABLE_CODE('P', 'T')
+#define ROM_FUNC_FLASH_RESET_ADDRESS_TRANS      ROM_TABLE_CODE('R', 'A')
+#define ROM_FUNC_REBOOT                         ROM_TABLE_CODE('R', 'B')
+#define ROM_FUNC_SET_ROM_CALLBACK               ROM_TABLE_CODE('R', 'C')
+#define ROM_FUNC_SECURE_CALL                    ROM_TABLE_CODE('S', 'C')
+#define ROM_FUNC_SET_NS_API_PERMISSION          ROM_TABLE_CODE('S', 'P')
+#define ROM_FUNC_BOOTROM_STATE_RESET            ROM_TABLE_CODE('S', 'R')
+#define ROM_FUNC_SET_BOOTROM_STACK              ROM_TABLE_CODE('S', 'S')
+#define ROM_DATA_SAVED_XIP_SETUP_FUNC_PTR       ROM_TABLE_CODE('X', 'F')
+#define ROM_FUNC_FLASH_SELECT_XIP_READ_MODE     ROM_TABLE_CODE('X', 'M')
+#define ROM_FUNC_VALIDATE_NS_BUFFER             ROM_TABLE_CODE('V', 'B')
+#endif
+
+// these form a bit set
+#define BOOTROM_STATE_RESET_CURRENT_CORE 0x01
+#define BOOTROM_STATE_RESET_OTHER_CORE   0x02
+#define BOOTROM_STATE_RESET_GLOBAL_STATE 0x04 // reset any global state (e.g. permissions)
+
+// partition level stuff is returned first (note PT_INFO flags is only 16 bits)
+
+// 3 words: pt_count, unpartitioned_perm_loc, unpartioned_perm_flags
+#define PT_INFO_PT_INFO                         0x0001
+#define PT_INFO_SINGLE_PARTITION                0x8000 // marker to just include a single partition in the results)
+
+// then in order per partition selected
+
+// 2 words: unpartitioned_perm_loc, unpartioned_perm_flags
+#define PT_INFO_PARTITION_LOCATION_AND_FLAGS    0x0010
+// 2 words: id lsb first
+#define PT_INFO_PARTITION_ID                    0x0020
+// n+1 words: n, family_id...
+#define PT_INFO_PARTITION_FAMILY_IDS            0x0040
+// (n+3)/4 words... bytes are: n (len), c0, c1, ... cn-1 padded to word boundary with zeroes
+#define PT_INFO_PARTITION_NAME                  0x0080
+
+// items are returned in order
+// 3 words package_id, device_id, wafer_id
+#define SYS_INFO_CHIP_INFO                      0x0001
+// 1 word: chip specific critical bits
+#define SYS_INFO_CRITICAL                       0x0002
+// 1 word: bytes: cpu_type, supported_cpu_type_bitfield
+#define SYS_INFO_CPU_INFO                       0x0004
+// 1 word: same as FLASH_DEVINFO row in OTP
+#define SYS_INFO_FLASH_DEV_INFO                 0x0008
+// 4 words
+#define SYS_INFO_BOOT_RANDOM                    0x0010
+// 2 words lsb first
+#define SYS_INFO_NONCE                          0x0020
+// 4 words boot_info, boot_diagnostic, boot_param0, boot_param1
+#define SYS_INFO_BOOT_INFO                      0x0040
+
+#define BOOTROM_NS_API_get_sys_info 0
+#define BOOTROM_NS_API_checked_flash_op 1
+#define BOOTROM_NS_API_flash_runtime_to_storage_addr 2
+#define BOOTROM_NS_API_get_partition_table_info 3
+#define BOOTROM_NS_API_secure_call 4
+#define BOOTROM_NS_API_otp_access 5
+#define BOOTROM_NS_API_reboot 6
+#define BOOTROM_NS_API_get_b_partition 7
+#define BOOTROM_NS_API_COUNT 8
+
+#ifndef __ASSEMBLER__
+
+typedef struct {
+    uint32_t permissions_and_location;
+    uint32_t permissions_and_flags;
+} resident_partition_t;
+static_assert(sizeof(resident_partition_t) == 8, "");
+
+#define OTP_CMD_ROW_BITS                    0x0000ffffu
+#define OTP_CMD_ROW_LSB                     0u
+#define OTP_CMD_WRITE_BITS                  0x00010000u
+#define OTP_CMD_ECC_BITS                    0x00020000u
+
+typedef struct otp_cmd {
+    uint32_t flags;
+} otp_cmd_t;
+
+typedef enum {
+    BOOTROM_XIP_MODE_03H_SERIAL = 0,
+    BOOTROM_XIP_MODE_0BH_SERIAL,
+    BOOTROM_XIP_MODE_BBH_DUAL,
+    BOOTROM_XIP_MODE_EBH_QUAD,
+    BOOTROM_XIP_MODE_N_MODES
+} bootrom_xip_mode_t;
+
+// The checked flash API wraps the low-level flash routines from generic_flash, adding bounds
+// checking, permission checking against the resident partition table, and simple address
+// translation. The low-level API deals with flash offsets (i.e. distance from the start of the
+// first flash device, measured in bytes) but the checked flash API accepts one of two types of
+// address:
+//
+// - Flash runtime addresses: the address of some flash-resident data or code in the currently
+//   running image. The flash addresses your binary is "linked at" by the linker.
+// - Flash storage addresses: a flash offset, plus the address base where QSPI hardware is first
+//   mapped on the system bus (XIP_BASE constant from addressmap.h)
+//
+// These addresses are one and the same *if* the currently running program is stored at the
+// beginning of flash. They are different if the start of your image has been "rolled" by the flash
+// boot path to make it appear at the address it was linked at even though it is stored at a
+// different location in flash, which is necessary when you have A/B images for example.
+//
+// The address translation between flash runtime and flash storage addresses is configured in
+// hardware by the QMI_ATRANSx registers, and this API assumes those registers contain a valid
+// address mapping which it can use to translate runtime to storage addresses.
+
+typedef struct cflash_flags {
+    uint32_t flags;
+} cflash_flags_t;
+
+// Bits which are permitted to be set in a flags variable -- any other bits being set is an error
+#define CFLASH_FLAGS_BITS               0x00070301u
+
+// Used to tell checked flash API which space a given address belongs to
+#define CFLASH_ASPACE_BITS              0x00000001u
+#define CFLASH_ASPACE_LSB               0u
+#define CFLASH_ASPACE_VALUE_STORAGE     0u
+#define CFLASH_ASPACE_VALUE_RUNTIME     1u
+
+// Used to tell checked flash APIs the effective security level of a flash access (may be forced to
+// one of these values for the NonSecure-exported version of this API)
+#define CFLASH_SECLEVEL_BITS            0x00000300u
+#define CFLASH_SECLEVEL_LSB             8u
+// Zero is not a valid security level:
+#define CFLASH_SECLEVEL_VALUE_SECURE    1u
+#define CFLASH_SECLEVEL_VALUE_NONSECURE 2u
+#define CFLASH_SECLEVEL_VALUE_BOOTLOADER 3u
+
+#define CFLASH_OP_BITS                  0x00070000u
+#define CFLASH_OP_LSB                   16u
+// Erase size_bytes bytes of flash, starting at address addr. Both addr and size_bytes must be a
+// multiple of 4096 bytes (one flash sector).
+#define CFLASH_OP_VALUE_ERASE           0u
+// Program size_bytes bytes of flash, starting at address addr. Both addr and size_bytes must be a
+// multiple of 256 bytes (one flash page).
+#define CFLASH_OP_VALUE_PROGRAM         1u
+// Read size_bytes bytes of flash, starting at address addr. There are no alignment restrictions on
+// addr or size_bytes.
+#define CFLASH_OP_VALUE_READ            2u
+#define CFLASH_OP_MAX                   2u
+
+#endif
+
+#endif
diff --git a/lib/rp2040/pico/platform.h b/lib/pico-sdk/pico/platform.h
similarity index 84%
rename from lib/rp2040/pico/platform.h
rename to lib/pico-sdk/pico/platform.h
index 499bdf6..dca69f2 100644
--- a/lib/rp2040/pico/platform.h
+++ b/lib/pico-sdk/pico/platform.h
@@ -4,10 +4,11 @@
  * SPDX-License-Identifier: BSD-3-Clause
  */
 
-#ifndef _PICO_PLATFORM_H_
-#define _PICO_PLATFORM_H_
+#ifndef _PICO_PLATFORM_H
+#define _PICO_PLATFORM_H
 
 #include "hardware/platform_defs.h"
+#include <stdint.h>
 #include <stddef.h>
 
 #ifdef __unix__
@@ -20,15 +21,21 @@
 extern "C" {
 #endif
 
-#define __not_in_flash(grup)
+#define __not_in_flash(group)
 #define __not_in_flash_func(func) func
-#define __no_inline_not_in_flash_func(func)
+#define __no_inline_not_in_flash_func(func) func
 #define __in_flash(group)
 #define __scratch_x(group)
 #define __scratch_y(group)
 
-#define __packed_aligned
+#ifndef _MSC_VER
+#define __packed __attribute__((packed))
+#define __packed_aligned __packed __attribute((aligned))
+#else
+// MSVC requires #pragma pack which isn't compatible with a single attribute style define
 #define __packed
+#define __packed_aligned
+#endif
 
 #define __time_critical_func(x) x
 #define __after_data(group)
@@ -60,6 +67,9 @@ extern void tight_loop_contents();
 #define PICO_WEAK_FUNCTION_DEF(x) _Pragma(__STRING(weak x))
 #define PICO_WEAK_FUNCTION_IMPL_NAME(x) x
 
+#ifndef __weak
+#define __weak __attribute__((weak))
+#endif
 #else
 #ifndef __noreturn
 #define __noreturn __declspec(noreturn)
@@ -133,6 +143,12 @@ static inline int32_t __mul_instruction(int32_t a,int32_t b)
 
 static inline void __compiler_memory_barrier(void) {
 }
+
+uint get_core_num();
+
+static inline uint __get_current_exception(void) {
+    return 0;
+}
 #ifdef __cplusplus
 }
 #endif
diff --git a/lib/pico-sdk/rp2040/boot_stage2/BUILD.bazel b/lib/pico-sdk/rp2040/boot_stage2/BUILD.bazel
new file mode 100644
index 0000000..65c9e76
--- /dev/null
+++ b/lib/pico-sdk/rp2040/boot_stage2/BUILD.bazel
@@ -0,0 +1,146 @@
+# Always include these libraries through //src/rp2_common:*!
+# This ensures that you'll get the right headers for the MCU you're targeting.
+
+load("@bazel_skylib//rules:copy_file.bzl", "copy_file")
+load("@bazel_skylib//rules:run_binary.bzl", "run_binary")
+load("@rules_python//python:defs.bzl", "py_binary")
+load("//bazel/toolchain:objcopy.bzl", "objcopy_to_bin")
+load("//bazel/util:multiple_choice_flag.bzl", "declare_flag_choices", "flag_choice")
+load("//bazel/util:transition.bzl", "rp2040_bootloader_binary")
+
+# There's a lot of implementation details in here that shouldn't be considered
+# stable, so allowlist visibility to just the public-facing pieces.
+package(default_visibility = ["//visibility:private"])
+
+# Known choices for boot2:
+BOOT2_CHOICES = [
+    "boot2_at25sf128a",
+    "boot2_generic_03h",
+    "boot2_is25lp080",
+    "boot2_usb_blinky",
+    "boot2_w25q080",
+    "boot2_w25x10cl",
+    "compile_time_choice",
+]
+
+BOOT2_CHOICE_FILES = [c + ".S" for c in BOOT2_CHOICES]
+
+BOOT2_CHOICE_FILE_MAP = {c: [c + ".S"] for c in BOOT2_CHOICES}
+
+BOOT2_CHOICE_DEFINE_MAP = {c: ['PICO_BUILD_BOOT_STAGE2_NAME=\\"{}\\"'.format(c)] for c in BOOT2_CHOICES}
+
+# Define shouldn't be set for compile_time_choice.
+BOOT2_CHOICE_DEFINE_MAP["compile_time_choice"] = []
+
+cc_library(
+    name = "config",
+    hdrs = [
+        "asminclude/boot2_helpers/exit_from_boot2.S",
+        "asminclude/boot2_helpers/read_flash_sreg.S",
+        "asminclude/boot2_helpers/wait_ssi_ready.S",
+        "include/boot_stage2/config.h",
+    ] + BOOT2_CHOICE_FILES,
+    defines = select(flag_choice(
+        "//bazel/config:PICO_DEFAULT_BOOT_STAGE2",
+        ":__pkg__",
+        BOOT2_CHOICE_DEFINE_MAP,
+    )),
+    includes = [
+        "asminclude",
+        "include",
+    ],
+    target_compatible_with = ["//bazel/constraint:rp2040"],
+    visibility = ["//visibility:public"],
+)
+
+# Creates a config_setting for each known boot2 option with the name:
+#     PICO_DEFAULT_BOOT_STAGE2_[choice]
+declare_flag_choices(
+    "//bazel/config:PICO_DEFAULT_BOOT_STAGE2",
+    BOOT2_CHOICES,
+)
+
+filegroup(
+    name = "build_selected_boot2",
+    srcs = select(flag_choice(
+        "//bazel/config:PICO_DEFAULT_BOOT_STAGE2",
+        ":__pkg__",
+        BOOT2_CHOICE_FILE_MAP,
+    )),
+    visibility = ["//src/rp2_common:__pkg__"],
+)
+
+cc_binary(
+    name = "boot_stage2_elf_actual",
+    srcs = ["//bazel/config:PICO_DEFAULT_BOOT_STAGE2_FILE"],
+    copts = ["-fPIC"],
+    # Incompatible with section garbage collection.
+    features = ["-gc_sections"],
+    linkopts = [
+        "-Wl,--no-gc-sections",
+        "-nostartfiles",
+        "-Wl,--entry=_stage2_boot",
+        "-T$(location boot_stage2.ld)",
+    ],
+    # this does nothing if someone passes --custom_malloc, so the
+    # rp2040_bootloader_binary transition forcibly clobbers --custom_malloc.
+    malloc = "//bazel:empty_cc_lib",
+    tags = ["manual"],  # Only build as an explicit dependency.
+    target_compatible_with = ["//bazel/constraint:rp2040"],
+    deps = [
+        "boot_stage2.ld",
+        ":config",
+        "//src/common/pico_base_headers",
+        "//src/rp2_common:pico_platform_internal",
+    ],
+)
+
+# Always build the bootloader with the bootloader-specific platform.
+rp2040_bootloader_binary(
+    name = "boot_stage2_elf",
+    src = "boot_stage2_elf_actual",
+)
+
+objcopy_to_bin(
+    name = "boot_stage2_bin",
+    src = ":boot_stage2_elf",
+    out = "boot_stage2.bin",
+    target_compatible_with = ["//bazel/constraint:rp2040"],
+)
+
+# WORKAROUND: Python rules always require a .py extension.
+copy_file(
+    name = "copy_tool_to_py",
+    src = "pad_checksum",
+    out = "pad_checksum_tool.py",
+    target_compatible_with = ["//bazel/constraint:host"],
+)
+
+py_binary(
+    name = "pad_checksum_tool",
+    srcs = ["pad_checksum_tool.py"],
+    target_compatible_with = ["//bazel/constraint:host"],
+)
+
+run_binary(
+    name = "boot_stage2_padded",
+    srcs = [":boot_stage2_bin"],
+    outs = ["boot_stage2.S"],
+    args = [
+        "-s 0xffffffff",
+        "$(location boot_stage2_bin)",
+        "$(location boot_stage2.S)",
+    ],
+    target_compatible_with = ["//bazel/constraint:rp2040"],
+    tool = ":pad_checksum_tool",
+)
+
+cc_library(
+    name = "boot_stage2",
+    srcs = [":boot_stage2_padded"],
+    target_compatible_with = ["//bazel/constraint:rp2040"],
+    visibility = ["//src/rp2_common:__pkg__"],
+    # This isn't referenced as a symbol, so alwayslink is required to ensure
+    # it doesn't get dropped before the linker script can find it.
+    alwayslink = True,
+)
diff --git a/lib/rp2040/boot_stage2/CMakeLists.txt b/lib/pico-sdk/rp2040/boot_stage2/CMakeLists.txt
similarity index 84%
rename from lib/rp2040/boot_stage2/CMakeLists.txt
rename to lib/pico-sdk/rp2040/boot_stage2/CMakeLists.txt
index 73c3e3e..c576878 100644
--- a/lib/rp2040/boot_stage2/CMakeLists.txt
+++ b/lib/pico-sdk/rp2040/boot_stage2/CMakeLists.txt
@@ -1,10 +1,10 @@
-# PICO_CMAKE_CONFIG: PICO_DEFAULT_BOOT_STAGE2_FILE, Default boot stage 2 file to use unless overridden by pico_set_boot_stage2 on the TARGET; this setting is useful when explicitly setting the default build from a per board CMake file, group=build
-# PICO_CMAKE_CONFIG: PICO_DEFAULT_BOOT_STAGE2, Simpler alternative to specifying PICO_DEFAULT_BOOT_STAGE2_FILE where the file is src/rp2_common/boot_stage2/{PICO_DEFAULT_BOOT_STAGE2}.S, default=compile_time_choice, group=build
+# PICO_CMAKE_CONFIG: PICO_DEFAULT_BOOT_STAGE2_FILE, Default boot stage 2 file to use unless overridden by pico_set_boot_stage2 on the TARGET; this setting is useful when explicitly setting the default build from a per board CMake file, type=string, group=build
+# PICO_CMAKE_CONFIG: PICO_DEFAULT_BOOT_STAGE2, Simpler alternative to specifying PICO_DEFAULT_BOOT_STAGE2_FILE where the latter is set to src/rp2_common/boot_stage2/{PICO_DEFAULT_BOOT_STAGE2}.S, type=string, default=compile_time_choice, group=build
 
 if (DEFINED ENV{PICO_DEFAULT_BOOT_STAGE2_FILE})
     set(PICO_DEFAULT_BOOT_STAGE2_FILE $ENV{PICO_DEFAULT_BOOT_STAGE2_FILE})
     message("Using PICO_DEFAULT_BOOT_STAGE2_FILE from environment ('${PICO_DEFAULT_BOOT_STAGE2_FILE}')")
-elif (PICO_DEFAULT_BOOT_STAGE2_FILE)
+elseif (PICO_DEFAULT_BOOT_STAGE2_FILE)
     # explicitly set, so cache it
     set(PICO_DEFAULT_BOOT_STAGE2_FILE "${PICO_DEFAULT_BOOT_STAGE2_FILE}" CACHE STRING "boot stage 2 source file" FORCE)
 endif()
@@ -25,12 +25,13 @@ endif()
 if (NOT EXISTS ${PICO_DEFAULT_BOOT_STAGE2_FILE})
     message(FATAL_ERROR "Specified boot stage 2 source '${PICO_DEFAULT_BOOT_STAGE2_FILE}' does not exist.")
 endif()
+pico_register_common_scope_var(PICO_DEFAULT_BOOT_STAGE2_FILE)
 
 # needed by function below
 set(PICO_BOOT_STAGE2_DIR "${CMAKE_CURRENT_LIST_DIR}" CACHE INTERNAL "")
 
 add_library(boot_stage2_headers INTERFACE)
-target_include_directories(boot_stage2_headers INTERFACE ${CMAKE_CURRENT_LIST_DIR}/include)
+target_include_directories(boot_stage2_headers SYSTEM INTERFACE ${CMAKE_CURRENT_LIST_DIR}/include)
 
 # by convention the first source file name without extension is used for the binary info name
 function(pico_define_boot_stage2 NAME SOURCES)
@@ -39,9 +40,9 @@ function(pico_define_boot_stage2 NAME SOURCES)
     )
 
     # todo bit of an abstraction failure - revisit for Clang support anyway
-    if (CMAKE_C_COMPILER_ID STREQUAL "Clang")
+    if (PICO_C_COMPILER_IS_CLANG)
         target_link_options(${NAME} PRIVATE "-nostdlib")
-    else ()
+    elseif (PICO_C_COMPILER_IS_GNU)
         target_link_options(${NAME} PRIVATE "--specs=nosys.specs")
         target_link_options(${NAME} PRIVATE "-nostartfiles")
     endif ()
@@ -62,12 +63,13 @@ function(pico_define_boot_stage2 NAME SOURCES)
     find_package (Python3 REQUIRED COMPONENTS Interpreter)
 
     add_custom_target(${NAME}_bin DEPENDS ${ORIGINAL_BIN})
-    add_custom_command(OUTPUT ${ORIGINAL_BIN} DEPENDS ${NAME} COMMAND ${CMAKE_OBJCOPY} -Obinary $<TARGET_FILE:${NAME}> ${ORIGINAL_BIN})
+    add_custom_command(OUTPUT ${ORIGINAL_BIN} DEPENDS ${NAME} COMMAND ${CMAKE_OBJCOPY} -Obinary $<TARGET_FILE:${NAME}> ${ORIGINAL_BIN}
+        VERBATIM)
 
     add_custom_target(${NAME}_padded_checksummed_asm DEPENDS ${PADDED_CHECKSUMMED_ASM})
     add_custom_command(OUTPUT ${PADDED_CHECKSUMMED_ASM} DEPENDS ${ORIGINAL_BIN}
             COMMAND ${Python3_EXECUTABLE} ${PICO_BOOT_STAGE2_DIR}/pad_checksum -s 0xffffffff ${ORIGINAL_BIN} ${PADDED_CHECKSUMMED_ASM}
-            )
+            VERBATIM)
 
     add_library(${NAME}_library INTERFACE)
     add_dependencies(${NAME}_library ${NAME}_padded_checksummed_asm)
@@ -98,3 +100,9 @@ endmacro()
 
 pico_define_boot_stage2(bs2_default ${PICO_DEFAULT_BOOT_STAGE2_FILE})
 
+# Create a new boot stage 2 target using the default implementation for the current build (PICO_BOARD derived)
+function(pico_clone_default_boot_stage2 NAME)
+    pico_define_boot_stage2(${NAME} ${PICO_DEFAULT_BOOT_STAGE2_FILE})
+endfunction()
+
+pico_promote_common_scope_vars()
diff --git a/lib/rp2040/boot_stage2/asminclude/boot2_helpers/exit_from_boot2.S b/lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/exit_from_boot2.S
similarity index 100%
rename from lib/rp2040/boot_stage2/asminclude/boot2_helpers/exit_from_boot2.S
rename to lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/exit_from_boot2.S
diff --git a/lib/rp2040/boot_stage2/asminclude/boot2_helpers/read_flash_sreg.S b/lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/read_flash_sreg.S
similarity index 100%
rename from lib/rp2040/boot_stage2/asminclude/boot2_helpers/read_flash_sreg.S
rename to lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/read_flash_sreg.S
diff --git a/lib/rp2040/boot_stage2/asminclude/boot2_helpers/wait_ssi_ready.S b/lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/wait_ssi_ready.S
similarity index 100%
rename from lib/rp2040/boot_stage2/asminclude/boot2_helpers/wait_ssi_ready.S
rename to lib/pico-sdk/rp2040/boot_stage2/asminclude/boot2_helpers/wait_ssi_ready.S
diff --git a/lib/rp2040/boot_stage2/boot2_at25sf128a.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_at25sf128a.S
similarity index 95%
rename from lib/rp2040/boot_stage2/boot2_at25sf128a.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_at25sf128a.S
index be232ff..72f751e 100644
--- a/lib/rp2040/boot_stage2/boot2_at25sf128a.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_at25sf128a.S
@@ -86,21 +86,18 @@
 // Start of 2nd Stage Boot Code
 // ----------------------------------------------------------------------------
 
-.syntax unified
-.cpu cortex-m0plus
-.thumb
+pico_default_asm_setup
 
 .section .text
 
-// The exit point is passed in lr. If entered from bootrom, this will be the
-// flash address immediately following this second stage (0x10000100).
-// Otherwise it will be a return address -- second stage being called as a
-// function by user code, after copying out of XIP region. r3 holds SSI base,
-// r0...2 used as temporaries. Other GPRs not used.
-.global _stage2_boot
-.type _stage2_boot,%function
-.thumb_func
-_stage2_boot:
+// lr will be zero on entry if entered from the bootrom, and the boot_stage2 is expected
+// to continue into the binary via the vector table at 0x10000100.
+//
+// lr will be non-zero on entry if this code has been copied into RAM by user code and called
+// from there, and the boot_stage2 should just return normally.
+//
+// r3 holds SSI base, r0...2 used as temporaries. Other GPRs not used.
+regular_func _stage2_boot
     push {lr}
 
     // Set pad configuration:
diff --git a/lib/rp2040/boot_stage2/boot2_generic_03h.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_generic_03h.S
similarity index 86%
rename from lib/rp2040/boot_stage2/boot2_generic_03h.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_generic_03h.S
index cc7e4fb..effef93 100644
--- a/lib/rp2040/boot_stage2/boot2_generic_03h.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_generic_03h.S
@@ -16,10 +16,12 @@
 //                4-byte checksum. Therefore code size cannot exceed 252 bytes.
 // ----------------------------------------------------------------------------
 
-//#include "pico/asm_helper.S"
+#include "pico/asm_helper.S"
 #include "hardware/regs/addressmap.h"
 #include "hardware/regs/ssi.h"
 
+pico_default_asm_setup
+
 // ----------------------------------------------------------------------------
 // Config section
 // ----------------------------------------------------------------------------
@@ -53,25 +55,26 @@
 // Start of 2nd Stage Boot Code
 // ----------------------------------------------------------------------------
 
-.cpu cortex-m0
-.thumb
-
 .section .text
 
-.global _stage2_boot
-.type _stage2_boot,%function
-.thumb_func
-_stage2_boot:
+// lr will be zero on entry if entered from the bootrom, and the boot_stage2 is expected
+// to continue into the binary via the vector table at 0x10000100.
+//
+// lr will be non-zero on entry if this code has been copied into RAM by user code and called
+// from there, and the boot_stage2 should just return normally.
+//
+// r3 holds SSI base, r0...2 used as temporaries. Other GPRs not used.
+regular_func _stage2_boot
     push {lr}
 
     ldr r3, =XIP_SSI_BASE                // Use as base address where possible
 
     // Disable SSI to allow further config
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
     // Set baud rate
-    mov r1, #PICO_FLASH_SPI_CLKDIV
+    movs r1, #PICO_FLASH_SPI_CLKDIV
     str r1, [r3, #SSI_BAUDR_OFFSET]
 
     ldr r1, =(CTRLR0_XIP)
@@ -82,11 +85,11 @@ _stage2_boot:
     str r1, [r0]
 
     // NDF=0 (single 32b read)
-    mov r1, #0x0
+    movs r1, #0x0
     str r1, [r3, #SSI_CTRLR1_OFFSET]
 
     // Re-enable SSI
-    mov r1, #1
+    movs r1, #1
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
 // We are now in XIP mode. Any bus accesses to the XIP address window will be
diff --git a/lib/rp2040/boot_stage2/boot2_is25lp080.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_is25lp080.S
similarity index 91%
rename from lib/rp2040/boot_stage2/boot2_is25lp080.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_is25lp080.S
index 80bf9d1..fda0f99 100644
--- a/lib/rp2040/boot_stage2/boot2_is25lp080.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_is25lp080.S
@@ -80,25 +80,27 @@
 // Start of 2nd Stage Boot Code
 // ----------------------------------------------------------------------------
 
-.cpu cortex-m0
-.thumb
+pico_default_asm_setup
 
 .section .text
-
-.global _stage2_boot
-.type _stage2_boot,%function
-.thumb_func
-_stage2_boot:
+// lr will be zero on entry if entered from the bootrom, and the boot_stage2 is expected
+// to continue into the binary via the vector table at 0x10000100.
+//
+// lr will be non-zero on entry if this code has been copied into RAM by user code and called
+// from there, and the boot_stage2 should just return normally.
+//
+// r3 holds SSI base, r0...2 used as temporaries. Other GPRs not used.
+regular_func _stage2_boot
     push {lr}
 
     ldr r3, =XIP_SSI_BASE                // Use as base address where possible
 
     // Disable SSI to allow further config
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
     // Set baud rate
-    mov r1, #PICO_FLASH_SPI_CLKDIV
+    movs r1, #PICO_FLASH_SPI_CLKDIV
     str r1, [r3, #SSI_BAUDR_OFFSET]
 
 // On QSPI parts we usually need a 01h SR-write command to enable QSPI mode
@@ -113,7 +115,7 @@ program_sregs:
     str r1, [r3, #SSI_CTRLR0_OFFSET]
 
      // Enable SSI and select slave 0
-    mov r1, #1
+    movs r1, #1
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
     // Check whether SR needs updating
@@ -124,7 +126,7 @@ program_sregs:
     beq skip_sreg_programming
 
     // Send write enable command
-    mov r1, #CMD_WRITE_ENABLE
+    movs r1, #CMD_WRITE_ENABLE
     str r1, [r3, #SSI_DR0_OFFSET]
 
     // Poll for completion and discard RX
@@ -132,9 +134,9 @@ program_sregs:
     ldr r1, [r3, #SSI_DR0_OFFSET]
 
     // Send status write command followed by data bytes
-    mov r1, #CMD_WRITE_STATUS
+    movs r1, #CMD_WRITE_STATUS
     str r1, [r3, #SSI_DR0_OFFSET]
-    mov r0, #0
+    movs r0, #0
     str r2, [r3, #SSI_DR0_OFFSET]
 
     bl wait_ssi_ready
@@ -145,7 +147,7 @@ program_sregs:
 1:
     ldr r0, =CMD_READ_STATUS
     bl read_flash_sreg
-    mov r1, #1
+    movs r1, #1
     tst r0, r1
     bne 1b
 
@@ -157,7 +159,7 @@ skip_sreg_programming:
 //    bl wait_ssi_ready
 
     // Disable SSI again so that it can be reconfigured
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET]
 #endif
 
@@ -182,7 +184,7 @@ dummy_read:
     ldr r1, =(CTRLR0_ENTER_XIP)
     str r1, [r3, #SSI_CTRLR0_OFFSET]
 
-    mov r1, #0x0                    // NDF=0 (single 32b read)
+    movs r1, #0x0                   // NDF=0 (single 32b read)
     str r1, [r3, #SSI_CTRLR1_OFFSET]
 
 #define SPI_CTRLR0_ENTER_XIP \
@@ -197,12 +199,12 @@ dummy_read:
     ldr r0, =(XIP_SSI_BASE + SSI_SPI_CTRLR0_OFFSET)  // SPI_CTRL0 Register
     str r1, [r0]
 
-    mov r1, #1                      // Re-enable SSI
+    movs r1, #1                     // Re-enable SSI
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
-    mov r1, #CMD_READ 
+    movs r1, #CMD_READ
     str r1, [r3, #SSI_DR0_OFFSET]   // Push SPI command into TX FIFO
-    mov r1, #MODE_CONTINUOUS_READ   // 32-bit: 24 address bits (we don't care, so 0) and M[7:4]=1010
+    movs r1, #MODE_CONTINUOUS_READ  // 32-bit: 24 address bits (we don't care, so 0) and M[7:4]=1010
     str r1, [r3, #SSI_DR0_OFFSET]   // Push Address into TX FIFO - this will trigger the transaction
 
     // Poll for completion
@@ -218,7 +220,7 @@ dummy_read:
 // to APM mode and generate a 28-bit address phase with the extra nibble set
 // to 4'b0000).
 
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET]   // Disable SSI (and clear FIFO) to allow further config
 
 // Note that the INST_L field is used to select what XIP data gets pushed into
@@ -240,7 +242,7 @@ configure_ssi:
     ldr r0, =(XIP_SSI_BASE + SSI_SPI_CTRLR0_OFFSET)
     str r1, [r0]
 
-    mov r1, #1
+    movs r1, #1
     str r1, [r3, #SSI_SSIENR_OFFSET]   // Re-enable SSI
 
 // We are now in XIP mode, with all transactions using Dual I/O and only
diff --git a/lib/rp2040/boot_stage2/boot2_usb_blinky.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_usb_blinky.S
similarity index 84%
rename from lib/rp2040/boot_stage2/boot2_usb_blinky.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_usb_blinky.S
index 74c47a3..0249a45 100644
--- a/lib/rp2040/boot_stage2/boot2_usb_blinky.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_usb_blinky.S
@@ -4,6 +4,8 @@
  * SPDX-License-Identifier: BSD-3-Clause
  */
 
+#include "pico/asm_helper.S"
+
 // Stub second stage which calls into USB bootcode, with parameters.
 // USB boot takes two parameters:
 // - A GPIO mask for activity LED -- if mask is 0, don't touch GPIOs at all
@@ -19,17 +21,12 @@
 #define ACTIVITY_LED 0
 #define BOOT_MODE USB_BOOT_MSD_AND_PICOBOOT
 
-.cpu cortex-m0
-.thumb
+pico_default_asm_setup
 
 .section .text
 
-.global _stage2_boot
-.type _stage2_boot,%function
-
-.thumb_func
-_stage2_boot:
-    mov r7, #0x14               // Pointer to _well_known pointer table in ROM
+regular_func _stage2_boot
+    movs r7, #0x14               // Pointer to _well_known pointer table in ROM
     ldrh r0, [r7, #0]           // Offset 0 is 16 bit pointer to function table
     ldrh r7, [r7, #4]           // Offset 4 is 16 bit pointer to table lookup routine
     ldr r1, =('U' | ('B' << 8)) // Symbol for USB Boot
@@ -39,7 +36,7 @@ _stage2_boot:
 
     mov r7, r0
     ldr r0, =(1u << ACTIVITY_LED) // Mask of which GPIO (or GPIOs) to use
-    mov r1, #BOOT_MODE
+    movs r1, #BOOT_MODE
     blx r7
 
 dead:
diff --git a/lib/rp2040/boot_stage2/boot2_w25q080.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_w25q080.S
similarity index 95%
rename from lib/rp2040/boot_stage2/boot2_w25q080.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_w25q080.S
index 8fb3def..c35fb81 100644
--- a/lib/rp2040/boot_stage2/boot2_w25q080.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_w25q080.S
@@ -26,7 +26,7 @@
 //                4-byte checksum. Therefore code size cannot exceed 252 bytes.
 // ----------------------------------------------------------------------------
 
-//#include "pico/asm_helper.S"
+#include "pico/asm_helper.S"
 #include "hardware/regs/addressmap.h"
 #include "hardware/regs/ssi.h"
 #include "hardware/regs/pads_qspi.h"
@@ -86,21 +86,18 @@
 // Start of 2nd Stage Boot Code
 // ----------------------------------------------------------------------------
 
-.syntax unified
-.cpu cortex-m0plus
-.thumb
+pico_default_asm_setup
 
 .section .text
 
-// The exit point is passed in lr. If entered from bootrom, this will be the
-// flash address immediately following this second stage (0x10000100).
-// Otherwise it will be a return address -- second stage being called as a
-// function by user code, after copying out of XIP region. r3 holds SSI base,
-// r0...2 used as temporaries. Other GPRs not used.
-.global _stage2_boot
-.type _stage2_boot,%function
-.thumb_func
-_stage2_boot:
+// lr will be zero on entry if entered from the bootrom, and the boot_stage2 is expected
+// to continue into the binary via the vector table at 0x10000100.
+//
+// lr will be non-zero on entry if this code has been copied into RAM by user code and called
+// from there, and the boot_stage2 should just return normally.
+//
+// r3 holds SSI base, r0...2 used as temporaries. Other GPRs not used.
+regular_func _stage2_boot
     push {lr}
 
     // Set pad configuration:
diff --git a/lib/rp2040/boot_stage2/boot2_w25x10cl.S b/lib/pico-sdk/rp2040/boot_stage2/boot2_w25x10cl.S
similarity index 91%
rename from lib/rp2040/boot_stage2/boot2_w25x10cl.S
rename to lib/pico-sdk/rp2040/boot_stage2/boot2_w25x10cl.S
index 02628d4..9aa51ac 100644
--- a/lib/rp2040/boot_stage2/boot2_w25x10cl.S
+++ b/lib/pico-sdk/rp2040/boot_stage2/boot2_w25x10cl.S
@@ -40,6 +40,8 @@
 #define PICO_FLASH_SPI_CLKDIV 4
 #endif
 
+pico_default_asm_setup
+
 // ----------------------------------------------------------------------------
 // The "System Control Block" is a set of internal Cortex-M0+ control registers
 // that are memory mapped and accessed like any other H/W register.  They have
@@ -69,31 +71,30 @@
 // Start of 2nd Stage Boot Code
 // ----------------------------------------------------------------------------
 
-.cpu cortex-m0
-.thumb
-
 .org 0
 
 .section .text
 
-// This code will get copied to 0x20000000 and then executed
-
-.global _stage2_boot
-.type _stage2_boot,%function
-.thumb_func
-_stage2_boot:
+// lr will be zero on entry if entered from the bootrom, and the boot_stage2 is expected
+// to continue into the binary via the vector table at 0x10000100.
+//
+// lr will be non-zero on entry if this code has been copied into RAM by user code and called
+// from there, and the boot_stage2 should just return normally.
+//
+// r3 holds SSI base, r0...2 used as temporaries. Other GPRs not used.
+regular_func _stage2_boot
     push {lr}
     ldr r3, =XIP_SSI_BASE                // Use as base address where possible
 
 // We are primarily interested in setting up Flash for DSPI XIP w/ continuous read
 
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET] // Disable SSI to allow further config
 
 // The Boot ROM sets a very conservative SPI clock frequency to be sure it can
 // read the initial 256 bytes from any device.  Here we can be more aggressive.
 
-    mov r1, #PICO_FLASH_SPI_CLKDIV
+    movs r1, #PICO_FLASH_SPI_CLKDIV
     str r1, [r3, #SSI_BAUDR_OFFSET]  // Set SSI Clock
 
 // First we need to send the initial command to get us in to Fast Read Dual I/O
@@ -116,7 +117,7 @@ _stage2_boot:
     ldr r1, =(CTRLR0_ENTER_XIP)
     str r1, [r3, #SSI_CTRLR0_OFFSET]
 
-    mov r1, #0x0                    // NDF=0 (single 32b read)
+    movs r1, #0x0                   // NDF=0 (single 32b read)
     str r1, [r3, #SSI_CTRLR1_OFFSET]
 
 #define SPI_CTRLR0_ENTER_XIP \
@@ -131,18 +132,18 @@ _stage2_boot:
     ldr r0, =(XIP_SSI_BASE + SSI_SPI_CTRLR0_OFFSET)  // SPI_CTRL0 Register
     str r1, [r0]
 
-    mov r1, #1                      // Re-enable SSI
+    movs r1, #1                     // Re-enable SSI
     str r1, [r3, #SSI_SSIENR_OFFSET]
 
-    mov r1, #W25X10CL_CMD_READ_DATA_FAST_DUAL_IO    // 8b command = 0xBB
+    movs r1, #W25X10CL_CMD_READ_DATA_FAST_DUAL_IO   // 8b command = 0xBB
     str r1, [r3, #SSI_DR0_OFFSET]   // Push SPI command into TX FIFO
-    mov r1, #0x0000002              // 28-bit Address for dummy read = 0x000000 + 0x2 Mode bits to set M[5:4]=10
+    movs r1, #0x0000002             // 28-bit Address for dummy read = 0x000000 + 0x2 Mode bits to set M[5:4]=10
     str r1, [r3, #SSI_DR0_OFFSET]   // Push Address into TX FIFO - this will trigger the transaction
 
 // Now we wait for the read transaction to complete by monitoring the SSI
 // status register and checking for the "RX FIFO Not Empty" flag to assert.
 
-    mov r1, #SSI_SR_RFNE_BITS
+    movs r1, #SSI_SR_RFNE_BITS
 00:
     ldr r0, [r3, #SSI_SR_OFFSET]    // Read status register
     tst r0, r1                      // RFNE status flag set?
@@ -158,7 +159,7 @@ _stage2_boot:
 // to APM mode and generate a 28-bit address phase with the extra nibble set
 // to 4'b0000).
 
-    mov r1, #0
+    movs r1, #0
     str r1, [r3, #SSI_SSIENR_OFFSET]   // Disable SSI (and clear FIFO) to allow further config
 
 // Note that the INST_L field is used to select what XIP data gets pushed into
@@ -180,7 +181,7 @@ _stage2_boot:
     ldr r0, =(XIP_SSI_BASE + SSI_SPI_CTRLR0_OFFSET)
     str r1, [r0]
 
-    mov r1, #1
+    movs r1, #1
     str r1, [r3, #SSI_SSIENR_OFFSET]   // Re-enable SSI
 
 // We are now in XIP mode, with all transactions using Dual I/O and only
diff --git a/lib/rp2040/boot_stage2/boot_stage2.ld b/lib/pico-sdk/rp2040/boot_stage2/boot_stage2.ld
similarity index 100%
rename from lib/rp2040/boot_stage2/boot_stage2.ld
rename to lib/pico-sdk/rp2040/boot_stage2/boot_stage2.ld
diff --git a/lib/rp2040/boot_stage2/compile_time_choice.S b/lib/pico-sdk/rp2040/boot_stage2/compile_time_choice.S
similarity index 100%
rename from lib/rp2040/boot_stage2/compile_time_choice.S
rename to lib/pico-sdk/rp2040/boot_stage2/compile_time_choice.S
diff --git a/lib/rp2040/boot_stage2/doc.h b/lib/pico-sdk/rp2040/boot_stage2/doc.h
similarity index 100%
rename from lib/rp2040/boot_stage2/doc.h
rename to lib/pico-sdk/rp2040/boot_stage2/doc.h
diff --git a/lib/rp2040/boot_stage2/include/boot_stage2/config.h b/lib/pico-sdk/rp2040/boot_stage2/include/boot_stage2/config.h
similarity index 91%
rename from lib/rp2040/boot_stage2/include/boot_stage2/config.h
rename to lib/pico-sdk/rp2040/boot_stage2/include/boot_stage2/config.h
index 5e57f95..e4d3262 100644
--- a/lib/rp2040/boot_stage2/include/boot_stage2/config.h
+++ b/lib/pico-sdk/rp2040/boot_stage2/include/boot_stage2/config.h
@@ -4,12 +4,12 @@
  * SPDX-License-Identifier: BSD-3-Clause
  */
 
-#ifndef _BOOT_STAGE2_CONFIG_H_
-#define _BOOT_STAGE2_CONFIG_H_
+#ifndef _BOOT_STAGE2_CONFIG_H
+#define _BOOT_STAGE2_CONFIG_H
 
 // NOTE THIS HEADER IS INCLUDED FROM ASSEMBLY
 
-#include "pico/config.h"
+#include "pico.h"
 
 // PICO_CONFIG: PICO_BUILD_BOOT_STAGE2_NAME, The name of the boot stage 2 if selected by the build, group=boot_stage2
 #ifdef PICO_BUILD_BOOT_STAGE2_NAME
@@ -85,10 +85,7 @@
         #error no boot stage 2 is defined by PICO_BOOT_STAGE2_CHOOSE_ macro
     #endif
     // we can't include cdefs in assembly, so define our own, but avoid conflict with real ones for c inclusion
-    #define _PICO__STRING(x) #x
-    #define _PICO__XSTRING(x) _PICO__STRING(x)
-    #define _PICO__CONCAT1(x, y) x ## y
-    #define PICO_BOOT_STAGE2_NAME _PICO__XSTRING(_BOOT_STAGE2)
-    #define PICO_BOOT_STAGE2_ASM _PICO__XSTRING(_PICO__CONCAT1(_BOOT_STAGE2,.S))
+    #define PICO_BOOT_STAGE2_NAME __PICO_XSTRING(_BOOT_STAGE2)
+    #define PICO_BOOT_STAGE2_ASM __PICO_XSTRING(__PICO_CONCAT1(_BOOT_STAGE2,.S))
 #endif
 #endif
diff --git a/lib/rp2040/boot_stage2/pad_checksum b/lib/pico-sdk/rp2040/boot_stage2/pad_checksum
similarity index 98%
rename from lib/rp2040/boot_stage2/pad_checksum
rename to lib/pico-sdk/rp2040/boot_stage2/pad_checksum
index 356227d..d301756 100755
--- a/lib/rp2040/boot_stage2/pad_checksum
+++ b/lib/pico-sdk/rp2040/boot_stage2/pad_checksum
@@ -31,7 +31,7 @@ try:
 except:
     sys.exit("Could not open input file '{}'".format(args.ifile))
 
-if len(idata) >= args.pad - 4:
+if len(idata) > args.pad - 4:
     sys.exit("Input file size ({} bytes) too large for final size ({} bytes)".format(len(idata), args.pad))
 
 idata_padded = idata + bytes(args.pad - 4 - len(idata))
diff --git a/lib/pico-sdk/rp2040/cmsis_include/RP2040.h b/lib/pico-sdk/rp2040/cmsis_include/RP2040.h
new file mode 100644
index 0000000..be66139
--- /dev/null
+++ b/lib/pico-sdk/rp2040/cmsis_include/RP2040.h
@@ -0,0 +1,2675 @@
+/*
+ * Copyright (c) 2024 Raspberry Pi Ltd. SPDX-License-Identifier: BSD-3-Clause
+ *
+ * @file     src/rp2_common/cmsis/stub/CMSIS/Device/RP2040/Include/RP2040.h
+ * @brief    CMSIS HeaderFile
+ * @version  0.1
+ * @date     Tue Aug  6 18:22:05 2024
+ * @note     Generated by SVDConv V3.3.47
+ *           from File 'src/rp2_common/cmsis/../../rp2040/hardware_regs/RP2040.svd',
+ *           last modified on Tue Aug  6 17:58:50 2024
+ */
+
+
+/** @addtogroup Raspberry Pi
+  * @{
+  */
+
+
+/** @addtogroup RP2040
+  * @{
+  */
+
+
+#ifndef RP2040_H
+#define RP2040_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+/** @addtogroup Configuration_of_CMSIS
+  * @{
+  */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                Interrupt Number Definition                                ================ */
+/* =========================================================================================================================== */
+
+typedef enum {
+/* =======================================  ARM Cortex-M0+ Specific Interrupt Numbers  ======================================= */
+  Reset_IRQn                = -15,              /*!< -15  Reset Vector, invoked on Power up and warm reset                     */
+  NonMaskableInt_IRQn       = -14,              /*!< -14  Non maskable Interrupt, cannot be stopped or preempted               */
+  HardFault_IRQn            = -13,              /*!< -13  Hard Fault, all classes of Fault                                     */
+  SVCall_IRQn               =  -5,              /*!< -5 System Service Call via SVC instruction                                */
+  PendSV_IRQn               =  -2,              /*!< -2 Pendable request for system service                                    */
+  SysTick_IRQn              =  -1,              /*!< -1 System Tick Timer                                                      */
+/* ===========================================  RP2040 Specific Interrupt Numbers  =========================================== */
+  TIMER_IRQ_0_IRQn          =   0,              /*!< 0  TIMER_IRQ_0                                                            */
+  TIMER_IRQ_1_IRQn          =   1,              /*!< 1  TIMER_IRQ_1                                                            */
+  TIMER_IRQ_2_IRQn          =   2,              /*!< 2  TIMER_IRQ_2                                                            */
+  TIMER_IRQ_3_IRQn          =   3,              /*!< 3  TIMER_IRQ_3                                                            */
+  PWM_IRQ_WRAP_IRQn         =   4,              /*!< 4  PWM_IRQ_WRAP                                                           */
+  USBCTRL_IRQ_IRQn          =   5,              /*!< 5  USBCTRL_IRQ                                                            */
+  XIP_IRQ_IRQn              =   6,              /*!< 6  XIP_IRQ                                                                */
+  PIO0_IRQ_0_IRQn           =   7,              /*!< 7  PIO0_IRQ_0                                                             */
+  PIO0_IRQ_1_IRQn           =   8,              /*!< 8  PIO0_IRQ_1                                                             */
+  PIO1_IRQ_0_IRQn           =   9,              /*!< 9  PIO1_IRQ_0                                                             */
+  PIO1_IRQ_1_IRQn           =  10,              /*!< 10 PIO1_IRQ_1                                                             */
+  DMA_IRQ_0_IRQn            =  11,              /*!< 11 DMA_IRQ_0                                                              */
+  DMA_IRQ_1_IRQn            =  12,              /*!< 12 DMA_IRQ_1                                                              */
+  IO_IRQ_BANK0_IRQn         =  13,              /*!< 13 IO_IRQ_BANK0                                                           */
+  IO_IRQ_QSPI_IRQn          =  14,              /*!< 14 IO_IRQ_QSPI                                                            */
+  SIO_IRQ_PROC0_IRQn        =  15,              /*!< 15 SIO_IRQ_PROC0                                                          */
+  SIO_IRQ_PROC1_IRQn        =  16,              /*!< 16 SIO_IRQ_PROC1                                                          */
+  CLOCKS_IRQ_IRQn           =  17,              /*!< 17 CLOCKS_IRQ                                                             */
+  SPI0_IRQ_IRQn             =  18,              /*!< 18 SPI0_IRQ                                                               */
+  SPI1_IRQ_IRQn             =  19,              /*!< 19 SPI1_IRQ                                                               */
+  UART0_IRQ_IRQn            =  20,              /*!< 20 UART0_IRQ                                                              */
+  UART1_IRQ_IRQn            =  21,              /*!< 21 UART1_IRQ                                                              */
+  ADC_IRQ_FIFO_IRQn         =  22,              /*!< 22 ADC_IRQ_FIFO                                                           */
+  I2C0_IRQ_IRQn             =  23,              /*!< 23 I2C0_IRQ                                                               */
+  I2C1_IRQ_IRQn             =  24,              /*!< 24 I2C1_IRQ                                                               */
+  RTC_IRQ_IRQn              =  25               /*!< 25 RTC_IRQ                                                                */
+} IRQn_Type;
+
+
+
+/* =========================================================================================================================== */
+/* ================                           Processor and Core Peripheral Section                           ================ */
+/* =========================================================================================================================== */
+
+/* ==========================  Configuration of the ARM Cortex-M0+ Processor and Core Peripherals  =========================== */
+#define __CM0PLUS_REV                 0x0001U   /*!< CM0PLUS Core Revision                                                     */
+#define __NVIC_PRIO_BITS               2        /*!< Number of Bits used for Priority Levels                                   */
+#define __Vendor_SysTickConfig         0        /*!< Set to 1 if different SysTick Config is used                              */
+#define __VTOR_PRESENT                 1        /*!< Set to 1 if CPU supports Vector Table Offset Register                     */
+#define __MPU_PRESENT                  1        /*!< MPU present                                                               */
+#define __FPU_PRESENT                  0        /*!< FPU present                                                               */
+
+
+/** @} */ /* End of group Configuration_of_CMSIS */
+
+#include "core_cm0plus.h"                       /*!< ARM Cortex-M0+ processor and core peripherals                             */
+#include "system_RP2040.h"                      /*!< RP2040 System                                                             */
+
+#ifndef __IM                                    /*!< Fallback for older CMSIS versions                                         */
+  #define __IM   __I
+#endif
+#ifndef __OM                                    /*!< Fallback for older CMSIS versions                                         */
+  #define __OM   __O
+#endif
+#ifndef __IOM                                   /*!< Fallback for older CMSIS versions                                         */
+  #define __IOM  __IO
+#endif
+
+
+/* =========================================================================================================================== */
+/* ================                            Device Specific Peripheral Section                             ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_peripherals
+  * @{
+  */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          RESETS                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief RESETS (RESETS)
+  */
+
+typedef struct {                                /*!< RESETS Structure                                                          */
+  __IOM uint32_t  RESET;                        /*!< Reset control. If a bit is set it means the peripheral is in
+                                                     reset. 0 means the peripheral's reset is deasserted.                      */
+  __IOM uint32_t  WDSEL;                        /*!< Watchdog select. If a bit is set then the watchdog will reset
+                                                     this peripheral when the watchdog fires.                                  */
+  __IOM uint32_t  RESET_DONE;                   /*!< Reset done. If a bit is set then a reset done signal has been
+                                                     returned by the peripheral. This indicates that the peripheral's
+                                                     registers are ready to be accessed.                                       */
+} RESETS_Type;                                  /*!< Size = 12 (0xc)                                                           */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PSM                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PSM (PSM)
+  */
+
+typedef struct {                                /*!< PSM Structure                                                             */
+  __IOM uint32_t  FRCE_ON;                      /*!< Force block out of reset (i.e. power it on)                               */
+  __IOM uint32_t  FRCE_OFF;                     /*!< Force into reset (i.e. power it off)                                      */
+  __IOM uint32_t  WDSEL;                        /*!< Set to 1 if this peripheral should be reset when the watchdog
+                                                     fires.                                                                    */
+  __IOM uint32_t  DONE;                         /*!< Indicates the peripheral's registers are ready to access.                 */
+} PSM_Type;                                     /*!< Size = 16 (0x10)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          CLOCKS                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief CLOCKS (CLOCKS)
+  */
+
+typedef struct {                                /*!< CLOCKS Structure                                                          */
+  __IOM uint32_t  CLK_GPOUT0_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT0_DIV;               /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_GPOUT0_SELECTED;          /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_GPOUT1_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT1_DIV;               /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_GPOUT1_SELECTED;          /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_GPOUT2_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT2_DIV;               /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_GPOUT2_SELECTED;          /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_GPOUT3_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT3_DIV;               /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_GPOUT3_SELECTED;          /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_REF_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_REF_DIV;                  /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_REF_SELECTED;             /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_SYS_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_SYS_DIV;                  /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_SYS_SELECTED;             /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_PERI_CTRL;                /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_PERI_DIV;                 /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_PERI_SELECTED;            /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_USB_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_USB_DIV;                  /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_USB_SELECTED;             /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_ADC_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_ADC_DIV;                  /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_ADC_SELECTED;             /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_RTC_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_RTC_DIV;                  /*!< Clock divisor, can be changed on-the-fly                                  */
+  __IOM uint32_t  CLK_RTC_SELECTED;             /*!< Indicates which SRC is currently selected by the glitchless
+                                                     mux (one-hot).                                                            */
+  __IOM uint32_t  CLK_SYS_RESUS_CTRL;           /*!< CLK_SYS_RESUS_CTRL                                                        */
+  __IOM uint32_t  CLK_SYS_RESUS_STATUS;         /*!< CLK_SYS_RESUS_STATUS                                                      */
+  __IOM uint32_t  FC0_REF_KHZ;                  /*!< Reference clock frequency in kHz                                          */
+  __IOM uint32_t  FC0_MIN_KHZ;                  /*!< Minimum pass frequency in kHz. This is optional. Set to 0 if
+                                                     you are not using the pass/fail flags                                     */
+  __IOM uint32_t  FC0_MAX_KHZ;                  /*!< Maximum pass frequency in kHz. This is optional. Set to 0x1ffffff
+                                                     if you are not using the pass/fail flags                                  */
+  __IOM uint32_t  FC0_DELAY;                    /*!< Delays the start of frequency counting to allow the mux to settle
+                                                     Delay is measured in multiples of the reference clock period              */
+  __IOM uint32_t  FC0_INTERVAL;                 /*!< The test interval is 0.98us * 2**interval, but let's call it
+                                                     1us * 2**interval The default gives a test interval of
+                                                     250us                                                                     */
+  __IOM uint32_t  FC0_SRC;                      /*!< Clock sent to frequency counter, set to 0 when not required
+                                                     Writing to this register initiates the frequency count                    */
+  __IOM uint32_t  FC0_STATUS;                   /*!< Frequency counter status                                                  */
+  __IOM uint32_t  FC0_RESULT;                   /*!< Result of frequency measurement, only valid when status_done=1            */
+  __IOM uint32_t  WAKE_EN0;                     /*!< enable clock in wake mode                                                 */
+  __IOM uint32_t  WAKE_EN1;                     /*!< enable clock in wake mode                                                 */
+  __IOM uint32_t  SLEEP_EN0;                    /*!< enable clock in sleep mode                                                */
+  __IOM uint32_t  SLEEP_EN1;                    /*!< enable clock in sleep mode                                                */
+  __IOM uint32_t  ENABLED0;                     /*!< indicates the state of the clock enable                                   */
+  __IOM uint32_t  ENABLED1;                     /*!< indicates the state of the clock enable                                   */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} CLOCKS_Type;                                  /*!< Size = 200 (0xc8)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                        PADS_BANK0                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PADS_BANK0 (PADS_BANK0)
+  */
+
+typedef struct {                                /*!< PADS_BANK0 Structure                                                      */
+  __IOM uint32_t  VOLTAGE_SELECT;               /*!< Voltage select. Per bank control                                          */
+  __IOM uint32_t  GPIO0;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO1;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO2;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO3;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO4;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO5;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO6;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO7;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO8;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO9;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO10;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO11;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO12;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO13;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO14;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO15;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO16;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO17;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO18;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO19;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO20;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO21;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO22;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO23;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO24;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO25;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO26;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO27;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO28;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO29;                       /*!< Pad control register                                                      */
+  __IOM uint32_t  SWCLK;                        /*!< Pad control register                                                      */
+  __IOM uint32_t  SWD;                          /*!< Pad control register                                                      */
+} PADS_BANK0_Type;                              /*!< Size = 132 (0x84)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         PADS_QSPI                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PADS_QSPI (PADS_QSPI)
+  */
+
+typedef struct {                                /*!< PADS_QSPI Structure                                                       */
+  __IOM uint32_t  VOLTAGE_SELECT;               /*!< Voltage select. Per bank control                                          */
+  __IOM uint32_t  GPIO_QSPI_SCLK;               /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD0;                /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD1;                /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD2;                /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD3;                /*!< Pad control register                                                      */
+  __IOM uint32_t  GPIO_QSPI_SS;                 /*!< Pad control register                                                      */
+} PADS_QSPI_Type;                               /*!< Size = 28 (0x1c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          IO_QSPI                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief IO_QSPI (IO_QSPI)
+  */
+
+typedef struct {                                /*!< IO_QSPI Structure                                                         */
+  __IOM uint32_t  GPIO_QSPI_SCLK_STATUS;        /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SCLK_CTRL;          /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO_QSPI_SS_STATUS;          /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SS_CTRL;            /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO_QSPI_SD0_STATUS;         /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SD0_CTRL;           /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO_QSPI_SD1_STATUS;         /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SD1_CTRL;           /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO_QSPI_SD2_STATUS;         /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SD2_CTRL;           /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO_QSPI_SD3_STATUS;         /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO_QSPI_SD3_CTRL;           /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  PROC0_INTE;                   /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTF;                   /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTS;                   /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC1_INTE;                   /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTF;                   /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTS;                   /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  DORMANT_WAKE_INTE;            /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTF;            /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTS;            /*!< Interrupt status after masking & forcing for dormant_wake                 */
+} IO_QSPI_Type;                                 /*!< Size = 88 (0x58)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         IO_BANK0                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief IO_BANK0 (IO_BANK0)
+  */
+
+typedef struct {                                /*!< IO_BANK0 Structure                                                        */
+  __IOM uint32_t  GPIO0_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO0_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO1_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO1_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO2_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO2_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO3_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO3_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO4_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO4_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO5_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO5_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO6_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO6_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO7_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO7_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO8_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO8_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO9_STATUS;                 /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO9_CTRL;                   /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO10_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO10_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO11_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO11_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO12_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO12_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO13_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO13_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO14_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO14_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO15_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO15_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO16_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO16_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO17_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO17_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO18_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO18_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO19_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO19_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO20_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO20_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO21_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO21_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO22_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO22_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO23_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO23_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO24_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO24_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO25_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO25_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO26_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO26_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO27_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO27_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO28_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO28_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  GPIO29_STATUS;                /*!< GPIO status                                                               */
+  __IOM uint32_t  GPIO29_CTRL;                  /*!< GPIO control including function select and overrides.                     */
+  __IOM uint32_t  INTR0;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR1;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR2;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR3;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  PROC0_INTE0;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE1;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE2;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE3;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTF0;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF1;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF2;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF3;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTS0;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS1;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS2;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS3;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC1_INTE0;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE1;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE2;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE3;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTF0;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF1;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF2;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF3;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTS0;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS1;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS2;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS3;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  DORMANT_WAKE_INTE0;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE1;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE2;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE3;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTF0;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF1;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF2;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF3;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTS0;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS1;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS2;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS3;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+} IO_BANK0_Type;                                /*!< Size = 400 (0x190)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          SYSINFO                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SYSINFO (SYSINFO)
+  */
+
+typedef struct {                                /*!< SYSINFO Structure                                                         */
+  __IOM uint32_t  CHIP_ID;                      /*!< JEDEC JEP-106 compliant chip identifier.                                  */
+  __IOM uint32_t  PLATFORM;                     /*!< Platform register. Allows software to know what environment
+                                                     it is running in.                                                         */
+  __IM  uint32_t  RESERVED[2];
+  __IOM uint32_t  GITREF_RP2040;                /*!< Git hash of the chip source. Used to identify chip version.               */
+} SYSINFO_Type;                                 /*!< Size = 20 (0x14)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PPB                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PPB (PPB)
+  */
+
+typedef struct {                                /*!< PPB Structure                                                             */
+  __IM  uint32_t  RESERVED[14340];
+  __IOM uint32_t  SYST_CSR;                     /*!< Use the SysTick Control and Status Register to enable the SysTick
+                                                     features.                                                                 */
+  __IOM uint32_t  SYST_RVR;                     /*!< Use the SysTick Reload Value Register to specify the start value
+                                                     to load into the current value register when the counter
+                                                     reaches 0. It can be any value between 0 and 0x00FFFFFF.
+                                                     A start value of 0 is possible, but has no effect because
+                                                     the SysTick interrupt and COUNTFLAG are activated when
+                                                     counting from 1 to 0. The reset value of this register
+                                                     is UNKNOWN. To generate a multi-shot timer with a period
+                                                     of N processor clock cycles, use a RELOAD value of N-1.
+                                                     For example, if the SysTick interrupt is required every
+                                                     100 clock pulses, set RELOAD to 99.                                       */
+  __IOM uint32_t  SYST_CVR;                     /*!< Use the SysTick Current Value Register to find the current value
+                                                     in the register. The reset value of this register is UNKNOWN.             */
+  __IOM uint32_t  SYST_CALIB;                   /*!< Use the SysTick Calibration Value Register to enable software
+                                                     to scale to any required speed using divide and multiply.                 */
+  __IM  uint32_t  RESERVED1[56];
+  __IOM uint32_t  NVIC_ISER;                    /*!< Use the Interrupt Set-Enable Register to enable interrupts and
+                                                     determine which interrupts are currently enabled. If a
+                                                     pending interrupt is enabled, the NVIC activates the interrupt
+                                                     based on its priority. If an interrupt is not enabled,
+                                                     asserting its interrupt signal changes the interrupt state
+                                                     to pending, but the NVIC never activates the interrupt,
+                                                     regardless of its priority.                                               */
+  __IM  uint32_t  RESERVED2[31];
+  __IOM uint32_t  NVIC_ICER;                    /*!< Use the Interrupt Clear-Enable Registers to disable interrupts
+                                                     and determine which interrupts are currently enabled.                     */
+  __IM  uint32_t  RESERVED3[31];
+  __IOM uint32_t  NVIC_ISPR;                    /*!< The NVIC_ISPR forces interrupts into the pending state, and
+                                                     shows which interrupts are pending.                                       */
+  __IM  uint32_t  RESERVED4[31];
+  __IOM uint32_t  NVIC_ICPR;                    /*!< Use the Interrupt Clear-Pending Register to clear pending interrupts
+                                                     and determine which interrupts are currently pending.                     */
+  __IM  uint32_t  RESERVED5[95];
+  __IOM uint32_t  NVIC_IPR0;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest. Note: Writing 1 to an NVIC_ICPR
+                                                     bit does not affect the active state of the corresponding
+                                                     interrupt. These registers are only word-accessible                       */
+  __IOM uint32_t  NVIC_IPR1;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR2;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR3;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR4;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR5;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR6;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IOM uint32_t  NVIC_IPR7;                    /*!< Use the Interrupt Priority Registers to assign a priority from
+                                                     0 to 3 to each of the available interrupts. 0 is the highest
+                                                     priority, and 3 is the lowest.                                            */
+  __IM  uint32_t  RESERVED6[568];
+  __IOM uint32_t  CPUID;                        /*!< Read the CPU ID Base Register to determine: the ID number of
+                                                     the processor core, the version number of the processor
+                                                     core, the implementation details of the processor core.                   */
+  __IOM uint32_t  ICSR;                         /*!< Use the Interrupt Control State Register to set a pending Non-Maskable
+                                                     Interrupt (NMI), set or clear a pending PendSV, set or
+                                                     clear a pending SysTick, check for pending exceptions,
+                                                     check the vector number of the highest priority pended
+                                                     exception, check the vector number of the active exception.               */
+  __IOM uint32_t  VTOR;                         /*!< The VTOR holds the vector table offset address.                           */
+  __IOM uint32_t  AIRCR;                        /*!< Use the Application Interrupt and Reset Control Register to:
+                                                     determine data endianness, clear all active state information
+                                                     from debug halt mode, request a system reset.                             */
+  __IOM uint32_t  SCR;                          /*!< System Control Register. Use the System Control Register for
+                                                     power-management functions: signal to the system when the
+                                                     processor can enter a low power state, control how the
+                                                     processor enters and exits low power states.                              */
+  __IOM uint32_t  CCR;                          /*!< The Configuration and Control Register permanently enables stack
+                                                     alignment and causes unaligned accesses to result in a
+                                                     Hard Fault.                                                               */
+  __IM  uint32_t  RESERVED7;
+  __IOM uint32_t  SHPR2;                        /*!< System handlers are a special class of exception handler that
+                                                     can have their priority set to any of the priority levels.
+                                                     Use the System Handler Priority Register 2 to set the priority
+                                                     of SVCall.                                                                */
+  __IOM uint32_t  SHPR3;                        /*!< System handlers are a special class of exception handler that
+                                                     can have their priority set to any of the priority levels.
+                                                     Use the System Handler Priority Register 3 to set the priority
+                                                     of PendSV and SysTick.                                                    */
+  __IOM uint32_t  SHCSR;                        /*!< Use the System Handler Control and State Register to determine
+                                                     or clear the pending status of SVCall.                                    */
+  __IM  uint32_t  RESERVED8[26];
+  __IOM uint32_t  MPU_TYPE;                     /*!< Read the MPU Type Register to determine if the processor implements
+                                                     an MPU, and how many regions the MPU supports.                            */
+  __IOM uint32_t  MPU_CTRL;                     /*!< Use the MPU Control Register to enable and disable the MPU,
+                                                     and to control whether the default memory map is enabled
+                                                     as a background region for privileged accesses, and whether
+                                                     the MPU is enabled for HardFaults and NMIs.                               */
+  __IOM uint32_t  MPU_RNR;                      /*!< Use the MPU Region Number Register to select the region currently
+                                                     accessed by MPU_RBAR and MPU_RASR.                                        */
+  __IOM uint32_t  MPU_RBAR;                     /*!< Read the MPU Region Base Address Register to determine the base
+                                                     address of the region identified by MPU_RNR. Write to update
+                                                     the base address of said region or that of a specified
+                                                     region, with whose number MPU_RNR will also be updated.                   */
+  __IOM uint32_t  MPU_RASR;                     /*!< Use the MPU Region Attribute and Size Register to define the
+                                                     size, access behaviour and memory type of the region identified
+                                                     by MPU_RNR, and enable that region.                                       */
+} PPB_Type;                                     /*!< Size = 60836 (0xeda4)                                                     */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            SSI                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DW_apb_ssi has the following features: 
+            * APB interface – Allows for easy integration into a DesignWare Synthesizable Components for AMBA 2 implementation. 
+            * APB3 and APB4 protocol support. 
+            * Scalable APB data bus width – Supports APB data bus widths of 8, 16, and 32 bits. 
+            * Serial-master or serial-slave operation – Enables serial communication with serial-master or serial-slave peripheral devices. 
+            * Programmable Dual/Quad/Octal SPI support in Master Mode. 
+            * Dual Data Rate (DDR) and Read Data Strobe (RDS) Support - Enables the DW_apb_ssi master to perform operations with the device in DDR and RDS modes when working in Dual/Quad/Octal mode of operation. 
+            * Data Mask Support - Enables the DW_apb_ssi to selectively update the bytes in the device. This feature is applicable only in enhanced SPI modes. 
+            * eXecute-In-Place (XIP) support - Enables the DW_apb_ssi master to behave as a memory mapped I/O and fetches the data from the device based on the APB read request. This feature is applicable only in enhanced SPI modes. 
+            * DMA Controller Interface – Enables the DW_apb_ssi to interface to a DMA controller over the bus using a handshaking interface for transfer requests. 
+            * Independent masking of interrupts – Master collision, transmit FIFO overflow, transmit FIFO empty, receive FIFO full, receive FIFO underflow, and receive FIFO overflow interrupts can all be masked independently. 
+            * Multi-master contention detection – Informs the processor of multiple serial-master accesses on the serial bus. 
+            * Bypass of meta-stability flip-flops for synchronous clocks – When the APB clock (pclk) and the DW_apb_ssi serial clock (ssi_clk) are synchronous, meta-stable flip-flops are not used when transferring control signals across these clock domains. 
+            * Programmable delay on the sample time of the received serial data bit (rxd); enables programmable control of routing delays resulting in higher serial data-bit rates. 
+            * Programmable features: 
+            - Serial interface operation – Choice of Motorola SPI, Texas Instruments Synchronous Serial Protocol or National Semiconductor Microwire. 
+            - Clock bit-rate – Dynamic control of the serial bit rate of the data transfer; used in only serial-master mode of operation. 
+            - Data Item size (4 to 32 bits) – Item size of each data transfer under the control of the programmer. 
+            * Configured features: 
+            - FIFO depth – 16 words deep. The FIFO width is fixed at 32 bits. 
+            - 1 slave select output. 
+            - Hardware slave-select – Dedicated hardware slave-select line. 
+            - Combined interrupt line - one combined interrupt line from the DW_apb_ssi to the interrupt controller. 
+            - Interrupt polarity – active high interrupt lines. 
+            - Serial clock polarity – low serial-clock polarity directly after reset. 
+            - Serial clock phase – capture on first edge of serial-clock directly after reset. (SSI)
+  */
+
+typedef struct {                                /*!< SSI Structure                                                             */
+  __IOM uint32_t  CTRLR0;                       /*!< Control register 0                                                        */
+  __IOM uint32_t  CTRLR1;                       /*!< Master Control register 1                                                 */
+  __IOM uint32_t  SSIENR;                       /*!< SSI Enable                                                                */
+  __IOM uint32_t  MWCR;                         /*!< Microwire Control                                                         */
+  __IOM uint32_t  SER;                          /*!< Slave enable                                                              */
+  __IOM uint32_t  BAUDR;                        /*!< Baud rate                                                                 */
+  __IOM uint32_t  TXFTLR;                       /*!< TX FIFO threshold level                                                   */
+  __IOM uint32_t  RXFTLR;                       /*!< RX FIFO threshold level                                                   */
+  __IOM uint32_t  TXFLR;                        /*!< TX FIFO level                                                             */
+  __IOM uint32_t  RXFLR;                        /*!< RX FIFO level                                                             */
+  __IOM uint32_t  SR;                           /*!< Status register                                                           */
+  __IOM uint32_t  IMR;                          /*!< Interrupt mask                                                            */
+  __IOM uint32_t  ISR;                          /*!< Interrupt status                                                          */
+  __IOM uint32_t  RISR;                         /*!< Raw interrupt status                                                      */
+  __IOM uint32_t  TXOICR;                       /*!< TX FIFO overflow interrupt clear                                          */
+  __IOM uint32_t  RXOICR;                       /*!< RX FIFO overflow interrupt clear                                          */
+  __IOM uint32_t  RXUICR;                       /*!< RX FIFO underflow interrupt clear                                         */
+  __IOM uint32_t  MSTICR;                       /*!< Multi-master interrupt clear                                              */
+  __IOM uint32_t  ICR;                          /*!< Interrupt clear                                                           */
+  __IOM uint32_t  DMACR;                        /*!< DMA control                                                               */
+  __IOM uint32_t  DMATDLR;                      /*!< DMA TX data level                                                         */
+  __IOM uint32_t  DMARDLR;                      /*!< DMA RX data level                                                         */
+  __IOM uint32_t  IDR;                          /*!< Identification register                                                   */
+  __IOM uint32_t  SSI_VERSION_ID;               /*!< Version ID                                                                */
+  __IOM uint32_t  DR0;                          /*!< Data Register 0 (of 36)                                                   */
+  __IM  uint32_t  RESERVED[35];
+  __IOM uint32_t  RX_SAMPLE_DLY;                /*!< RX sample delay                                                           */
+  __IOM uint32_t  SPI_CTRLR0;                   /*!< SPI control                                                               */
+  __IOM uint32_t  TXD_DRIVE_EDGE;               /*!< TX drive edge                                                             */
+} SSI_Type;                                     /*!< Size = 252 (0xfc)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         XIP_CTRL                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief QSPI flash execute-in-place block (XIP_CTRL)
+  */
+
+typedef struct {                                /*!< XIP_CTRL Structure                                                        */
+  __IOM uint32_t  CTRL;                         /*!< Cache control                                                             */
+  __IOM uint32_t  FLUSH;                        /*!< Cache Flush control                                                       */
+  __IOM uint32_t  STAT;                         /*!< Cache Status                                                              */
+  __IOM uint32_t  CTR_HIT;                      /*!< Cache Hit counter                                                         */
+  __IOM uint32_t  CTR_ACC;                      /*!< Cache Access counter                                                      */
+  __IOM uint32_t  STREAM_ADDR;                  /*!< FIFO stream address                                                       */
+  __IOM uint32_t  STREAM_CTR;                   /*!< FIFO stream control                                                       */
+  __IOM uint32_t  STREAM_FIFO;                  /*!< FIFO stream data                                                          */
+} XIP_CTRL_Type;                                /*!< Size = 32 (0x20)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          SYSCFG                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Register block for various chip control signals (SYSCFG)
+  */
+
+typedef struct {                                /*!< SYSCFG Structure                                                          */
+  __IOM uint32_t  PROC0_NMI_MASK;               /*!< Processor core 0 NMI source mask                                          */
+  __IOM uint32_t  PROC1_NMI_MASK;               /*!< Processor core 1 NMI source mask                                          */
+  __IOM uint32_t  PROC_CONFIG;                  /*!< Configuration for processors                                              */
+  __IOM uint32_t  PROC_IN_SYNC_BYPASS;          /*!< For each bit, if 1, bypass the input synchronizer between that
+                                                     GPIO and the GPIO input register in the SIO. The input
+                                                     synchronizers should generally be unbypassed, to avoid
+                                                     injecting metastabilities into processors. If you're feeling
+                                                     brave, you can bypass to save two cycles of input latency.
+                                                     This register applies to GPIO 0...29.                                     */
+  __IOM uint32_t  PROC_IN_SYNC_BYPASS_HI;       /*!< For each bit, if 1, bypass the input synchronizer between that
+                                                     GPIO and the GPIO input register in the SIO. The input
+                                                     synchronizers should generally be unbypassed, to avoid
+                                                     injecting metastabilities into processors. If you're feeling
+                                                     brave, you can bypass to save two cycles of input latency.
+                                                     This register applies to GPIO 30...35 (the QSPI IOs).                     */
+  __IOM uint32_t  DBGFORCE;                     /*!< Directly control the SWD debug port of either processor                   */
+  __IOM uint32_t  MEMPOWERDOWN;                 /*!< Control power downs to memories. Set high to power down memories.
+                                                     Use with extreme caution                                                  */
+} SYSCFG_Type;                                  /*!< Size = 28 (0x1c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           XOSC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Controls the crystal oscillator (XOSC)
+  */
+
+typedef struct {                                /*!< XOSC Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< Crystal Oscillator Control                                                */
+  __IOM uint32_t  STATUS;                       /*!< Crystal Oscillator Status                                                 */
+  __IOM uint32_t  DORMANT;                      /*!< Crystal Oscillator pause control                                          */
+  __IOM uint32_t  STARTUP;                      /*!< Controls the startup delay                                                */
+  __IM  uint32_t  RESERVED[3];
+  __IOM uint32_t  COUNT;                        /*!< A down counter running at the xosc frequency which counts to
+                                                     zero and stops. To start the counter write a non-zero value.
+                                                     Can be used for short software pauses when setting up time
+                                                     sensitive hardware.                                                       */
+} XOSC_Type;                                    /*!< Size = 32 (0x20)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          PLL_SYS                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PLL_SYS (PLL_SYS)
+  */
+
+typedef struct {                                /*!< PLL_SYS Structure                                                         */
+  __IOM uint32_t  CS;                           /*!< Control and Status GENERAL CONSTRAINTS: Reference clock frequency
+                                                     min=5MHz, max=800MHz Feedback divider min=16, max=320 VCO
+                                                     frequency min=750MHz, max=1600MHz                                         */
+  __IOM uint32_t  PWR;                          /*!< Controls the PLL power modes.                                             */
+  __IOM uint32_t  FBDIV_INT;                    /*!< Feedback divisor (note: this PLL does not support fractional
+                                                     division)                                                                 */
+  __IOM uint32_t  PRIM;                         /*!< Controls the PLL post dividers for the primary output (note:
+                                                     this PLL does not have a secondary output) the primary
+                                                     output is driven from VCO divided by postdiv1*postdiv2                    */
+} PLL_SYS_Type;                                 /*!< Size = 16 (0x10)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           UART0                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief UART0 (UART0)
+  */
+
+typedef struct {                                /*!< UART0 Structure                                                           */
+  __IOM uint32_t  UARTDR;                       /*!< Data Register, UARTDR                                                     */
+  __IOM uint32_t  UARTRSR;                      /*!< Receive Status Register/Error Clear Register, UARTRSR/UARTECR             */
+  __IM  uint32_t  RESERVED[4];
+  __IOM uint32_t  UARTFR;                       /*!< Flag Register, UARTFR                                                     */
+  __IM  uint32_t  RESERVED1;
+  __IOM uint32_t  UARTILPR;                     /*!< IrDA Low-Power Counter Register, UARTILPR                                 */
+  __IOM uint32_t  UARTIBRD;                     /*!< Integer Baud Rate Register, UARTIBRD                                      */
+  __IOM uint32_t  UARTFBRD;                     /*!< Fractional Baud Rate Register, UARTFBRD                                   */
+  __IOM uint32_t  UARTLCR_H;                    /*!< Line Control Register, UARTLCR_H                                          */
+  __IOM uint32_t  UARTCR;                       /*!< Control Register, UARTCR                                                  */
+  __IOM uint32_t  UARTIFLS;                     /*!< Interrupt FIFO Level Select Register, UARTIFLS                            */
+  __IOM uint32_t  UARTIMSC;                     /*!< Interrupt Mask Set/Clear Register, UARTIMSC                               */
+  __IOM uint32_t  UARTRIS;                      /*!< Raw Interrupt Status Register, UARTRIS                                    */
+  __IOM uint32_t  UARTMIS;                      /*!< Masked Interrupt Status Register, UARTMIS                                 */
+  __IOM uint32_t  UARTICR;                      /*!< Interrupt Clear Register, UARTICR                                         */
+  __IOM uint32_t  UARTDMACR;                    /*!< DMA Control Register, UARTDMACR                                           */
+  __IM  uint32_t  RESERVED2[997];
+  __IOM uint32_t  UARTPERIPHID0;                /*!< UARTPeriphID0 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID1;                /*!< UARTPeriphID1 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID2;                /*!< UARTPeriphID2 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID3;                /*!< UARTPeriphID3 Register                                                    */
+  __IOM uint32_t  UARTPCELLID0;                 /*!< UARTPCellID0 Register                                                     */
+  __IOM uint32_t  UARTPCELLID1;                 /*!< UARTPCellID1 Register                                                     */
+  __IOM uint32_t  UARTPCELLID2;                 /*!< UARTPCellID2 Register                                                     */
+  __IOM uint32_t  UARTPCELLID3;                 /*!< UARTPCellID3 Register                                                     */
+} UART0_Type;                                   /*!< Size = 4096 (0x1000)                                                      */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           ROSC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief ROSC (ROSC)
+  */
+
+typedef struct {                                /*!< ROSC Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< Ring Oscillator control                                                   */
+  __IOM uint32_t  FREQA;                        /*!< The FREQA & FREQB registers control the frequency by controlling
+                                                     the drive strength of each stage The drive strength has
+                                                     4 levels determined by the number of bits set Increasing
+                                                     the number of bits set increases the drive strength and
+                                                     increases the oscillation frequency 0 bits set is the default
+                                                     drive strength 1 bit set doubles the drive strength 2 bits
+                                                     set triples drive strength 3 bits set quadruples drive
+                                                     strength                                                                  */
+  __IOM uint32_t  FREQB;                        /*!< For a detailed description see freqa register                             */
+  __IOM uint32_t  DORMANT;                      /*!< Ring Oscillator pause control                                             */
+  __IOM uint32_t  DIV;                          /*!< Controls the output divider                                               */
+  __IOM uint32_t  PHASE;                        /*!< Controls the phase shifted output                                         */
+  __IOM uint32_t  STATUS;                       /*!< Ring Oscillator Status                                                    */
+  __IOM uint32_t  RANDOMBIT;                    /*!< This just reads the state of the oscillator output so randomness
+                                                     is compromised if the ring oscillator is stopped or run
+                                                     at a harmonic of the bus frequency                                        */
+  __IOM uint32_t  COUNT;                        /*!< A down counter running at the ROSC frequency which counts to
+                                                     zero and stops. To start the counter write a non-zero value.
+                                                     Can be used for short software pauses when setting up time
+                                                     sensitive hardware.                                                       */
+} ROSC_Type;                                    /*!< Size = 36 (0x24)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         WATCHDOG                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief WATCHDOG (WATCHDOG)
+  */
+
+typedef struct {                                /*!< WATCHDOG Structure                                                        */
+  __IOM uint32_t  CTRL;                         /*!< Watchdog control The rst_wdsel register determines which subsystems
+                                                     are reset when the watchdog is triggered. The watchdog
+                                                     can be triggered in software.                                             */
+  __IOM uint32_t  LOAD;                         /*!< Load the watchdog timer. The maximum setting is 0xffffff which
+                                                     corresponds to 0xffffff / 2 ticks before triggering a watchdog
+                                                     reset (see errata RP2040-E1).                                             */
+  __IOM uint32_t  REASON;                       /*!< Logs the reason for the last reset. Both bits are zero for the
+                                                     case of a hardware reset.                                                 */
+  __IOM uint32_t  SCRATCH0;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH1;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH2;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH3;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH4;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH5;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH6;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH7;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  TICK;                         /*!< Controls the tick generator                                               */
+} WATCHDOG_Type;                                /*!< Size = 48 (0x30)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            DMA                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DMA with separate read and write masters (DMA)
+  */
+
+typedef struct {                                /*!< DMA Structure                                                             */
+  __IOM uint32_t  CH0_READ_ADDR;                /*!< DMA Channel 0 Read Address pointer                                        */
+  __IOM uint32_t  CH0_WRITE_ADDR;               /*!< DMA Channel 0 Write Address pointer                                       */
+  __IOM uint32_t  CH0_TRANS_COUNT;              /*!< DMA Channel 0 Transfer Count                                              */
+  __IOM uint32_t  CH0_CTRL_TRIG;                /*!< DMA Channel 0 Control and Status                                          */
+  __IOM uint32_t  CH0_AL1_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL1_READ_ADDR;            /*!< Alias for channel 0 READ_ADDR register                                    */
+  __IOM uint32_t  CH0_AL1_WRITE_ADDR;           /*!< Alias for channel 0 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH0_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 0 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH0_AL2_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL2_TRANS_COUNT;          /*!< Alias for channel 0 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH0_AL2_READ_ADDR;            /*!< Alias for channel 0 READ_ADDR register                                    */
+  __IOM uint32_t  CH0_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 0 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH0_AL3_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL3_WRITE_ADDR;           /*!< Alias for channel 0 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH0_AL3_TRANS_COUNT;          /*!< Alias for channel 0 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH0_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 0 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_READ_ADDR;                /*!< DMA Channel 1 Read Address pointer                                        */
+  __IOM uint32_t  CH1_WRITE_ADDR;               /*!< DMA Channel 1 Write Address pointer                                       */
+  __IOM uint32_t  CH1_TRANS_COUNT;              /*!< DMA Channel 1 Transfer Count                                              */
+  __IOM uint32_t  CH1_CTRL_TRIG;                /*!< DMA Channel 1 Control and Status                                          */
+  __IOM uint32_t  CH1_AL1_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL1_READ_ADDR;            /*!< Alias for channel 1 READ_ADDR register                                    */
+  __IOM uint32_t  CH1_AL1_WRITE_ADDR;           /*!< Alias for channel 1 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH1_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 1 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_AL2_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL2_TRANS_COUNT;          /*!< Alias for channel 1 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH1_AL2_READ_ADDR;            /*!< Alias for channel 1 READ_ADDR register                                    */
+  __IOM uint32_t  CH1_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 1 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_AL3_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL3_WRITE_ADDR;           /*!< Alias for channel 1 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH1_AL3_TRANS_COUNT;          /*!< Alias for channel 1 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH1_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 1 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_READ_ADDR;                /*!< DMA Channel 2 Read Address pointer                                        */
+  __IOM uint32_t  CH2_WRITE_ADDR;               /*!< DMA Channel 2 Write Address pointer                                       */
+  __IOM uint32_t  CH2_TRANS_COUNT;              /*!< DMA Channel 2 Transfer Count                                              */
+  __IOM uint32_t  CH2_CTRL_TRIG;                /*!< DMA Channel 2 Control and Status                                          */
+  __IOM uint32_t  CH2_AL1_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL1_READ_ADDR;            /*!< Alias for channel 2 READ_ADDR register                                    */
+  __IOM uint32_t  CH2_AL1_WRITE_ADDR;           /*!< Alias for channel 2 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH2_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 2 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_AL2_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL2_TRANS_COUNT;          /*!< Alias for channel 2 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH2_AL2_READ_ADDR;            /*!< Alias for channel 2 READ_ADDR register                                    */
+  __IOM uint32_t  CH2_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 2 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_AL3_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL3_WRITE_ADDR;           /*!< Alias for channel 2 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH2_AL3_TRANS_COUNT;          /*!< Alias for channel 2 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH2_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 2 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_READ_ADDR;                /*!< DMA Channel 3 Read Address pointer                                        */
+  __IOM uint32_t  CH3_WRITE_ADDR;               /*!< DMA Channel 3 Write Address pointer                                       */
+  __IOM uint32_t  CH3_TRANS_COUNT;              /*!< DMA Channel 3 Transfer Count                                              */
+  __IOM uint32_t  CH3_CTRL_TRIG;                /*!< DMA Channel 3 Control and Status                                          */
+  __IOM uint32_t  CH3_AL1_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL1_READ_ADDR;            /*!< Alias for channel 3 READ_ADDR register                                    */
+  __IOM uint32_t  CH3_AL1_WRITE_ADDR;           /*!< Alias for channel 3 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH3_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 3 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_AL2_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL2_TRANS_COUNT;          /*!< Alias for channel 3 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH3_AL2_READ_ADDR;            /*!< Alias for channel 3 READ_ADDR register                                    */
+  __IOM uint32_t  CH3_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 3 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_AL3_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL3_WRITE_ADDR;           /*!< Alias for channel 3 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH3_AL3_TRANS_COUNT;          /*!< Alias for channel 3 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH3_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 3 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_READ_ADDR;                /*!< DMA Channel 4 Read Address pointer                                        */
+  __IOM uint32_t  CH4_WRITE_ADDR;               /*!< DMA Channel 4 Write Address pointer                                       */
+  __IOM uint32_t  CH4_TRANS_COUNT;              /*!< DMA Channel 4 Transfer Count                                              */
+  __IOM uint32_t  CH4_CTRL_TRIG;                /*!< DMA Channel 4 Control and Status                                          */
+  __IOM uint32_t  CH4_AL1_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL1_READ_ADDR;            /*!< Alias for channel 4 READ_ADDR register                                    */
+  __IOM uint32_t  CH4_AL1_WRITE_ADDR;           /*!< Alias for channel 4 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH4_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 4 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_AL2_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL2_TRANS_COUNT;          /*!< Alias for channel 4 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH4_AL2_READ_ADDR;            /*!< Alias for channel 4 READ_ADDR register                                    */
+  __IOM uint32_t  CH4_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 4 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_AL3_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL3_WRITE_ADDR;           /*!< Alias for channel 4 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH4_AL3_TRANS_COUNT;          /*!< Alias for channel 4 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH4_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 4 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_READ_ADDR;                /*!< DMA Channel 5 Read Address pointer                                        */
+  __IOM uint32_t  CH5_WRITE_ADDR;               /*!< DMA Channel 5 Write Address pointer                                       */
+  __IOM uint32_t  CH5_TRANS_COUNT;              /*!< DMA Channel 5 Transfer Count                                              */
+  __IOM uint32_t  CH5_CTRL_TRIG;                /*!< DMA Channel 5 Control and Status                                          */
+  __IOM uint32_t  CH5_AL1_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL1_READ_ADDR;            /*!< Alias for channel 5 READ_ADDR register                                    */
+  __IOM uint32_t  CH5_AL1_WRITE_ADDR;           /*!< Alias for channel 5 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH5_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 5 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_AL2_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL2_TRANS_COUNT;          /*!< Alias for channel 5 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH5_AL2_READ_ADDR;            /*!< Alias for channel 5 READ_ADDR register                                    */
+  __IOM uint32_t  CH5_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 5 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_AL3_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL3_WRITE_ADDR;           /*!< Alias for channel 5 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH5_AL3_TRANS_COUNT;          /*!< Alias for channel 5 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH5_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 5 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_READ_ADDR;                /*!< DMA Channel 6 Read Address pointer                                        */
+  __IOM uint32_t  CH6_WRITE_ADDR;               /*!< DMA Channel 6 Write Address pointer                                       */
+  __IOM uint32_t  CH6_TRANS_COUNT;              /*!< DMA Channel 6 Transfer Count                                              */
+  __IOM uint32_t  CH6_CTRL_TRIG;                /*!< DMA Channel 6 Control and Status                                          */
+  __IOM uint32_t  CH6_AL1_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL1_READ_ADDR;            /*!< Alias for channel 6 READ_ADDR register                                    */
+  __IOM uint32_t  CH6_AL1_WRITE_ADDR;           /*!< Alias for channel 6 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH6_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 6 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_AL2_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL2_TRANS_COUNT;          /*!< Alias for channel 6 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH6_AL2_READ_ADDR;            /*!< Alias for channel 6 READ_ADDR register                                    */
+  __IOM uint32_t  CH6_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 6 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_AL3_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL3_WRITE_ADDR;           /*!< Alias for channel 6 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH6_AL3_TRANS_COUNT;          /*!< Alias for channel 6 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH6_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 6 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_READ_ADDR;                /*!< DMA Channel 7 Read Address pointer                                        */
+  __IOM uint32_t  CH7_WRITE_ADDR;               /*!< DMA Channel 7 Write Address pointer                                       */
+  __IOM uint32_t  CH7_TRANS_COUNT;              /*!< DMA Channel 7 Transfer Count                                              */
+  __IOM uint32_t  CH7_CTRL_TRIG;                /*!< DMA Channel 7 Control and Status                                          */
+  __IOM uint32_t  CH7_AL1_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL1_READ_ADDR;            /*!< Alias for channel 7 READ_ADDR register                                    */
+  __IOM uint32_t  CH7_AL1_WRITE_ADDR;           /*!< Alias for channel 7 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH7_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 7 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_AL2_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL2_TRANS_COUNT;          /*!< Alias for channel 7 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH7_AL2_READ_ADDR;            /*!< Alias for channel 7 READ_ADDR register                                    */
+  __IOM uint32_t  CH7_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 7 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_AL3_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL3_WRITE_ADDR;           /*!< Alias for channel 7 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH7_AL3_TRANS_COUNT;          /*!< Alias for channel 7 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH7_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 7 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_READ_ADDR;                /*!< DMA Channel 8 Read Address pointer                                        */
+  __IOM uint32_t  CH8_WRITE_ADDR;               /*!< DMA Channel 8 Write Address pointer                                       */
+  __IOM uint32_t  CH8_TRANS_COUNT;              /*!< DMA Channel 8 Transfer Count                                              */
+  __IOM uint32_t  CH8_CTRL_TRIG;                /*!< DMA Channel 8 Control and Status                                          */
+  __IOM uint32_t  CH8_AL1_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL1_READ_ADDR;            /*!< Alias for channel 8 READ_ADDR register                                    */
+  __IOM uint32_t  CH8_AL1_WRITE_ADDR;           /*!< Alias for channel 8 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH8_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 8 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_AL2_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL2_TRANS_COUNT;          /*!< Alias for channel 8 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH8_AL2_READ_ADDR;            /*!< Alias for channel 8 READ_ADDR register                                    */
+  __IOM uint32_t  CH8_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 8 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_AL3_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL3_WRITE_ADDR;           /*!< Alias for channel 8 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH8_AL3_TRANS_COUNT;          /*!< Alias for channel 8 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH8_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 8 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_READ_ADDR;                /*!< DMA Channel 9 Read Address pointer                                        */
+  __IOM uint32_t  CH9_WRITE_ADDR;               /*!< DMA Channel 9 Write Address pointer                                       */
+  __IOM uint32_t  CH9_TRANS_COUNT;              /*!< DMA Channel 9 Transfer Count                                              */
+  __IOM uint32_t  CH9_CTRL_TRIG;                /*!< DMA Channel 9 Control and Status                                          */
+  __IOM uint32_t  CH9_AL1_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL1_READ_ADDR;            /*!< Alias for channel 9 READ_ADDR register                                    */
+  __IOM uint32_t  CH9_AL1_WRITE_ADDR;           /*!< Alias for channel 9 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH9_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 9 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_AL2_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL2_TRANS_COUNT;          /*!< Alias for channel 9 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH9_AL2_READ_ADDR;            /*!< Alias for channel 9 READ_ADDR register                                    */
+  __IOM uint32_t  CH9_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 9 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_AL3_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL3_WRITE_ADDR;           /*!< Alias for channel 9 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH9_AL3_TRANS_COUNT;          /*!< Alias for channel 9 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH9_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 9 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH10_READ_ADDR;               /*!< DMA Channel 10 Read Address pointer                                       */
+  __IOM uint32_t  CH10_WRITE_ADDR;              /*!< DMA Channel 10 Write Address pointer                                      */
+  __IOM uint32_t  CH10_TRANS_COUNT;             /*!< DMA Channel 10 Transfer Count                                             */
+  __IOM uint32_t  CH10_CTRL_TRIG;               /*!< DMA Channel 10 Control and Status                                         */
+  __IOM uint32_t  CH10_AL1_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL1_READ_ADDR;           /*!< Alias for channel 10 READ_ADDR register                                   */
+  __IOM uint32_t  CH10_AL1_WRITE_ADDR;          /*!< Alias for channel 10 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH10_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 10 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH10_AL2_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL2_TRANS_COUNT;         /*!< Alias for channel 10 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH10_AL2_READ_ADDR;           /*!< Alias for channel 10 READ_ADDR register                                   */
+  __IOM uint32_t  CH10_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 10 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH10_AL3_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL3_WRITE_ADDR;          /*!< Alias for channel 10 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH10_AL3_TRANS_COUNT;         /*!< Alias for channel 10 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH10_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 10 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH11_READ_ADDR;               /*!< DMA Channel 11 Read Address pointer                                       */
+  __IOM uint32_t  CH11_WRITE_ADDR;              /*!< DMA Channel 11 Write Address pointer                                      */
+  __IOM uint32_t  CH11_TRANS_COUNT;             /*!< DMA Channel 11 Transfer Count                                             */
+  __IOM uint32_t  CH11_CTRL_TRIG;               /*!< DMA Channel 11 Control and Status                                         */
+  __IOM uint32_t  CH11_AL1_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL1_READ_ADDR;           /*!< Alias for channel 11 READ_ADDR register                                   */
+  __IOM uint32_t  CH11_AL1_WRITE_ADDR;          /*!< Alias for channel 11 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH11_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 11 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH11_AL2_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL2_TRANS_COUNT;         /*!< Alias for channel 11 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH11_AL2_READ_ADDR;           /*!< Alias for channel 11 READ_ADDR register                                   */
+  __IOM uint32_t  CH11_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 11 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH11_AL3_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL3_WRITE_ADDR;          /*!< Alias for channel 11 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH11_AL3_TRANS_COUNT;         /*!< Alias for channel 11 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH11_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 11 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IM  uint32_t  RESERVED[64];
+  __IOM uint32_t  INTR;                         /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE0;                        /*!< Interrupt Enables for IRQ 0                                               */
+  __IOM uint32_t  INTF0;                        /*!< Force Interrupts                                                          */
+  __IOM uint32_t  INTS0;                        /*!< Interrupt Status for IRQ 0                                                */
+  __IOM uint32_t  INTR1;                        /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE1;                        /*!< Interrupt Enables for IRQ 1                                               */
+  __IOM uint32_t  INTF1;                        /*!< Force Interrupts for IRQ 1                                                */
+  __IOM uint32_t  INTS1;                        /*!< Interrupt Status (masked) for IRQ 1                                       */
+  __IOM uint32_t  TIMER0;                       /*!< Pacing (X/Y) Fractional Timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER1;                       /*!< Pacing (X/Y) Fractional Timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER2;                       /*!< Pacing (X/Y) Fractional Timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER3;                       /*!< Pacing (X/Y) Fractional Timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  MULTI_CHAN_TRIGGER;           /*!< Trigger one or more channels simultaneously                               */
+  __IOM uint32_t  SNIFF_CTRL;                   /*!< Sniffer Control                                                           */
+  __IOM uint32_t  SNIFF_DATA;                   /*!< Data accumulator for sniff hardware                                       */
+  __IM  uint32_t  RESERVED1;
+  __IOM uint32_t  FIFO_LEVELS;                  /*!< Debug RAF, WAF, TDF levels                                                */
+  __IOM uint32_t  CHAN_ABORT;                   /*!< Abort an in-progress transfer sequence on one or more channels            */
+  __IOM uint32_t  N_CHANNELS;                   /*!< The number of channels this DMA instance is equipped with. This
+                                                     DMA supports up to 16 hardware channels, but can be configured
+                                                     with as few as one, to minimise silicon area.                             */
+  __IM  uint32_t  RESERVED2[237];
+  __IOM uint32_t  CH0_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH0_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED3[14];
+  __IOM uint32_t  CH1_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH1_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED4[14];
+  __IOM uint32_t  CH2_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH2_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED5[14];
+  __IOM uint32_t  CH3_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH3_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED6[14];
+  __IOM uint32_t  CH4_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH4_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED7[14];
+  __IOM uint32_t  CH5_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH5_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED8[14];
+  __IOM uint32_t  CH6_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH6_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED9[14];
+  __IOM uint32_t  CH7_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH7_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED10[14];
+  __IOM uint32_t  CH8_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH8_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED11[14];
+  __IOM uint32_t  CH9_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH9_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED12[14];
+  __IOM uint32_t  CH10_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH10_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED13[14];
+  __IOM uint32_t  CH11_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH11_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+} DMA_Type;                                     /*!< Size = 2760 (0xac8)                                                       */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           TIMER                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Controls time and alarms 
+            time is a 64 bit value indicating the time in usec since power-on 
+            timeh is the top 32 bits of time & timel is the bottom 32 bits 
+            to change time write to timelw before timehw 
+            to read time read from timelr before timehr 
+            An alarm is set by setting alarm_enable and writing to the corresponding alarm register 
+            When an alarm is pending, the corresponding alarm_running signal will be high 
+            An alarm can be cancelled before it has finished by clearing the alarm_enable 
+            When an alarm fires, the corresponding alarm_irq is set and alarm_running is cleared 
+            To clear the interrupt write a 1 to the corresponding alarm_irq (TIMER)
+  */
+
+typedef struct {                                /*!< TIMER Structure                                                           */
+  __IOM uint32_t  TIMEHW;                       /*!< Write to bits 63:32 of time always write timelw before timehw             */
+  __IOM uint32_t  TIMELW;                       /*!< Write to bits 31:0 of time writes do not get copied to time
+                                                     until timehw is written                                                   */
+  __IOM uint32_t  TIMEHR;                       /*!< Read from bits 63:32 of time always read timelr before timehr             */
+  __IOM uint32_t  TIMELR;                       /*!< Read from bits 31:0 of time                                               */
+  __IOM uint32_t  ALARM0;                       /*!< Arm alarm 0, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM0 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM1;                       /*!< Arm alarm 1, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM1 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM2;                       /*!< Arm alarm 2, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM2 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM3;                       /*!< Arm alarm 3, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM3 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ARMED;                        /*!< Indicates the armed/disarmed status of each alarm. A write to
+                                                     the corresponding ALARMx register arms the alarm. Alarms
+                                                     automatically disarm upon firing, but writing ones here
+                                                     will disarm immediately without waiting to fire.                          */
+  __IOM uint32_t  TIMERAWH;                     /*!< Raw read from bits 63:32 of time (no side effects)                        */
+  __IOM uint32_t  TIMERAWL;                     /*!< Raw read from bits 31:0 of time (no side effects)                         */
+  __IOM uint32_t  DBGPAUSE;                     /*!< Set bits high to enable pause when the corresponding debug ports
+                                                     are active                                                                */
+  __IOM uint32_t  PAUSE;                        /*!< Set high to pause the timer                                               */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} TIMER_Type;                                   /*!< Size = 68 (0x44)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PWM                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Simple PWM (PWM)
+  */
+
+typedef struct {                                /*!< PWM Structure                                                             */
+  __IOM uint32_t  CH0_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH0_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH0_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH0_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH0_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH1_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH1_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH1_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH1_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH1_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH2_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH2_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH2_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH2_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH2_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH3_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH3_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH3_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH3_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH3_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH4_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH4_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH4_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH4_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH4_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH5_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH5_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH5_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH5_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH5_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH6_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH6_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH6_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH6_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH6_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH7_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH7_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH7_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH7_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH7_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  EN;                           /*!< This register aliases the CSR_EN bits for all channels. Writing
+                                                     to this register allows multiple channels to be enabled
+                                                     or disabled simultaneously, so they can run in perfect
+                                                     sync. For each channel, there is only one physical EN register
+                                                     bit, which can be accessed through here or CHx_CSR.                       */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} PWM_Type;                                     /*!< Size = 180 (0xb4)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            ADC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Control and data interface to SAR ADC (ADC)
+  */
+
+typedef struct {                                /*!< ADC Structure                                                             */
+  __IOM uint32_t  CS;                           /*!< ADC Control and Status                                                    */
+  __IOM uint32_t  RESULT;                       /*!< Result of most recent ADC conversion                                      */
+  __IOM uint32_t  FCS;                          /*!< FIFO control and status                                                   */
+  __IOM uint32_t  FIFO;                         /*!< Conversion result FIFO                                                    */
+  __IOM uint32_t  DIV;                          /*!< Clock divider. If non-zero, CS_START_MANY will start conversions
+                                                     at regular intervals rather than back-to-back. The divider
+                                                     is reset when either of these fields are written. Total
+                                                     period is 1 + INT + FRAC / 256                                            */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} ADC_Type;                                     /*!< Size = 36 (0x24)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           I2C0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DW_apb_i2c address block
+
+            List of configuration constants for the Synopsys I2C hardware (you may see references to these in I2C register header; these are *fixed* values, set at hardware design time):
+
+            IC_ULTRA_FAST_MODE ................ 0x0 
+            IC_UFM_TBUF_CNT_DEFAULT ........... 0x8 
+            IC_UFM_SCL_LOW_COUNT .............. 0x0008 
+            IC_UFM_SCL_HIGH_COUNT ............. 0x0006 
+            IC_TX_TL .......................... 0x0 
+            IC_TX_CMD_BLOCK ................... 0x1 
+            IC_HAS_DMA ........................ 0x1 
+            IC_HAS_ASYNC_FIFO ................. 0x0 
+            IC_SMBUS_ARP ...................... 0x0 
+            IC_FIRST_DATA_BYTE_STATUS ......... 0x1 
+            IC_INTR_IO ........................ 0x1 
+            IC_MASTER_MODE .................... 0x1 
+            IC_DEFAULT_ACK_GENERAL_CALL ....... 0x1 
+            IC_INTR_POL ....................... 0x1 
+            IC_OPTIONAL_SAR ................... 0x0 
+            IC_DEFAULT_TAR_SLAVE_ADDR ......... 0x055 
+            IC_DEFAULT_SLAVE_ADDR ............. 0x055 
+            IC_DEFAULT_HS_SPKLEN .............. 0x1 
+            IC_FS_SCL_HIGH_COUNT .............. 0x0006 
+            IC_HS_SCL_LOW_COUNT ............... 0x0008 
+            IC_DEVICE_ID_VALUE ................ 0x0 
+            IC_10BITADDR_MASTER ............... 0x0 
+            IC_CLK_FREQ_OPTIMIZATION .......... 0x0 
+            IC_DEFAULT_FS_SPKLEN .............. 0x7 
+            IC_ADD_ENCODED_PARAMS ............. 0x0 
+            IC_DEFAULT_SDA_HOLD ............... 0x000001 
+            IC_DEFAULT_SDA_SETUP .............. 0x64 
+            IC_AVOID_RX_FIFO_FLUSH_ON_TX_ABRT . 0x0 
+            IC_CLOCK_PERIOD ................... 100 
+            IC_EMPTYFIFO_HOLD_MASTER_EN ....... 1 
+            IC_RESTART_EN ..................... 0x1 
+            IC_TX_CMD_BLOCK_DEFAULT ........... 0x0 
+            IC_BUS_CLEAR_FEATURE .............. 0x0 
+            IC_CAP_LOADING .................... 100 
+            IC_FS_SCL_LOW_COUNT ............... 0x000d 
+            APB_DATA_WIDTH .................... 32 
+            IC_SDA_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff 
+            IC_SLV_DATA_NACK_ONLY ............. 0x1 
+            IC_10BITADDR_SLAVE ................ 0x0 
+            IC_CLK_TYPE ....................... 0x0 
+            IC_SMBUS_UDID_MSB ................. 0x0 
+            IC_SMBUS_SUSPEND_ALERT ............ 0x0 
+            IC_HS_SCL_HIGH_COUNT .............. 0x0006 
+            IC_SLV_RESTART_DET_EN ............. 0x1 
+            IC_SMBUS .......................... 0x0 
+            IC_OPTIONAL_SAR_DEFAULT ........... 0x0 
+            IC_PERSISTANT_SLV_ADDR_DEFAULT .... 0x0 
+            IC_USE_COUNTS ..................... 0x0 
+            IC_RX_BUFFER_DEPTH ................ 16 
+            IC_SCL_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff 
+            IC_RX_FULL_HLD_BUS_EN ............. 0x1 
+            IC_SLAVE_DISABLE .................. 0x1 
+            IC_RX_TL .......................... 0x0 
+            IC_DEVICE_ID ...................... 0x0 
+            IC_HC_COUNT_VALUES ................ 0x0 
+            I2C_DYNAMIC_TAR_UPDATE ............ 0 
+            IC_SMBUS_CLK_LOW_MEXT_DEFAULT ..... 0xffffffff 
+            IC_SMBUS_CLK_LOW_SEXT_DEFAULT ..... 0xffffffff 
+            IC_HS_MASTER_CODE ................. 0x1 
+            IC_SMBUS_RST_IDLE_CNT_DEFAULT ..... 0xffff 
+            IC_SMBUS_UDID_LSB_DEFAULT ......... 0xffffffff 
+            IC_SS_SCL_HIGH_COUNT .............. 0x0028 
+            IC_SS_SCL_LOW_COUNT ............... 0x002f 
+            IC_MAX_SPEED_MODE ................. 0x2 
+            IC_STAT_FOR_CLK_STRETCH ........... 0x0 
+            IC_STOP_DET_IF_MASTER_ACTIVE ...... 0x0 
+            IC_DEFAULT_UFM_SPKLEN ............. 0x1 
+            IC_TX_BUFFER_DEPTH ................ 16 (I2C0)
+  */
+
+typedef struct {                                /*!< I2C0 Structure                                                            */
+  __IOM uint32_t  IC_CON;                       /*!< I2C Control Register. This register can be written only when
+                                                     the DW_apb_i2c is disabled, which corresponds to the IC_ENABLE[0]
+                                                     register being set to 0. Writes at other times have no
+                                                     effect. Read/Write Access: - bit 10 is read only. - bit
+                                                     11 is read only - bit 16 is read only - bit 17 is read
+                                                     only - bits 18 and 19 are read only.                                      */
+  __IOM uint32_t  IC_TAR;                       /*!< I2C Target Address Register This register is 12 bits wide, and
+                                                     bits 31:12 are reserved. This register can be written to
+                                                     only when IC_ENABLE[0] is set to 0. Note: If the software
+                                                     or application is aware that the DW_apb_i2c is not using
+                                                     the TAR address for the pending commands in the Tx FIFO,
+                                                     then it is possible to update the TAR address even while
+                                                     the Tx FIFO has entries (IC_STATUS[2]= 0). - It is not
+                                                     necessary to perform any write to this register if DW_apb_i2c
+                                                     is enabled as an I2C slave only.                                          */
+  __IOM uint32_t  IC_SAR;                       /*!< I2C Slave Address Register                                                */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  IC_DATA_CMD;                  /*!< I2C Rx/Tx Data Buffer and Command Register; this is the register
+                                                     the CPU writes to when filling the TX FIFO and the CPU
+                                                     reads from when retrieving bytes from RX FIFO. The size
+                                                     of the register changes as follows: Write: - 11 bits when
+                                                     IC_EMPTYFIFO_HOLD_MASTER_EN=1 - 9 bits when IC_EMPTYFIFO_HOLD_MASTER_EN=0
+                                                     Read: - 12 bits when IC_FIRST_DATA_BYTE_STATUS = 1 - 8
+                                                     bits when IC_FIRST_DATA_BYTE_STATUS = 0 Note: In order
+                                                     for the DW_apb_i2c to continue acknowledging reads, a read
+                                                     command should be written for every byte that is to be
+                                                     received; otherwise the DW_apb_i2c will stop acknowledging.               */
+  __IOM uint32_t  IC_SS_SCL_HCNT;               /*!< Standard Speed I2C Clock SCL High Count Register                          */
+  __IOM uint32_t  IC_SS_SCL_LCNT;               /*!< Standard Speed I2C Clock SCL Low Count Register                           */
+  __IOM uint32_t  IC_FS_SCL_HCNT;               /*!< Fast Mode or Fast Mode Plus I2C Clock SCL High Count Register             */
+  __IOM uint32_t  IC_FS_SCL_LCNT;               /*!< Fast Mode or Fast Mode Plus I2C Clock SCL Low Count Register              */
+  __IM  uint32_t  RESERVED1[2];
+  __IOM uint32_t  IC_INTR_STAT;                 /*!< I2C Interrupt Status Register Each bit in this register has
+                                                     a corresponding mask bit in the IC_INTR_MASK register.
+                                                     These bits are cleared by reading the matching interrupt
+                                                     clear register. The unmasked raw versions of these bits
+                                                     are available in the IC_RAW_INTR_STAT register.                           */
+  __IOM uint32_t  IC_INTR_MASK;                 /*!< I2C Interrupt Mask Register. These bits mask their corresponding
+                                                     interrupt status bits. This register is active low; a value
+                                                     of 0 masks the interrupt, whereas a value of 1 unmasks
+                                                     the interrupt.                                                            */
+  __IOM uint32_t  IC_RAW_INTR_STAT;             /*!< I2C Raw Interrupt Status Register Unlike the IC_INTR_STAT register,
+                                                     these bits are not masked so they always show the true
+                                                     status of the DW_apb_i2c.                                                 */
+  __IOM uint32_t  IC_RX_TL;                     /*!< I2C Receive FIFO Threshold Register                                       */
+  __IOM uint32_t  IC_TX_TL;                     /*!< I2C Transmit FIFO Threshold Register                                      */
+  __IOM uint32_t  IC_CLR_INTR;                  /*!< Clear Combined and Individual Interrupt Register                          */
+  __IOM uint32_t  IC_CLR_RX_UNDER;              /*!< Clear RX_UNDER Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_RX_OVER;               /*!< Clear RX_OVER Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_TX_OVER;               /*!< Clear TX_OVER Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_RD_REQ;                /*!< Clear RD_REQ Interrupt Register                                           */
+  __IOM uint32_t  IC_CLR_TX_ABRT;               /*!< Clear TX_ABRT Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_RX_DONE;               /*!< Clear RX_DONE Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_ACTIVITY;              /*!< Clear ACTIVITY Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_STOP_DET;              /*!< Clear STOP_DET Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_START_DET;             /*!< Clear START_DET Interrupt Register                                        */
+  __IOM uint32_t  IC_CLR_GEN_CALL;              /*!< Clear GEN_CALL Interrupt Register                                         */
+  __IOM uint32_t  IC_ENABLE;                    /*!< I2C Enable Register                                                       */
+  __IOM uint32_t  IC_STATUS;                    /*!< I2C Status Register This is a read-only register used to indicate
+                                                     the current transfer status and FIFO status. The status
+                                                     register may be read at any time. None of the bits in this
+                                                     register request an interrupt. When the I2C is disabled
+                                                     by writing 0 in bit 0 of the IC_ENABLE register: - Bits
+                                                     1 and 2 are set to 1 - Bits 3 and 10 are set to 0 When
+                                                     the master or slave state machines goes to idle and ic_en=0:
+                                                     - Bits 5 and 6 are set to 0                                               */
+  __IOM uint32_t  IC_TXFLR;                     /*!< I2C Transmit FIFO Level Register This register contains the
+                                                     number of valid data entries in the transmit FIFO buffer.
+                                                     It is cleared whenever: - The I2C is disabled - There is
+                                                     a transmit abort - that is, TX_ABRT bit is set in the IC_RAW_INTR_STAT
+                                                     register - The slave bulk transmit mode is aborted The
+                                                     register increments whenever data is placed into the transmit
+                                                     FIFO and decrements when data is taken from the transmit
+                                                     FIFO.                                                                     */
+  __IOM uint32_t  IC_RXFLR;                     /*!< I2C Receive FIFO Level Register This register contains the number
+                                                     of valid data entries in the receive FIFO buffer. It is
+                                                     cleared whenever: - The I2C is disabled - Whenever there
+                                                     is a transmit abort caused by any of the events tracked
+                                                     in IC_TX_ABRT_SOURCE The register increments whenever data
+                                                     is placed into the receive FIFO and decrements when data
+                                                     is taken from the receive FIFO.                                           */
+  __IOM uint32_t  IC_SDA_HOLD;                  /*!< I2C SDA Hold Time Length Register The bits [15:0] of this register
+                                                     are used to control the hold time of SDA during transmit
+                                                     in both slave and master mode (after SCL goes from HIGH
+                                                     to LOW). The bits [23:16] of this register are used to
+                                                     extend the SDA transition (if any) whenever SCL is HIGH
+                                                     in the receiver in either master or slave mode. Writes
+                                                     to this register succeed only when IC_ENABLE[0]=0. The
+                                                     values in this register are in units of ic_clk period.
+                                                     The value programmed in IC_SDA_TX_HOLD must be greater
+                                                     than the minimum hold time in each mode (one cycle in master
+                                                     mode, seven cycles in slave mode) for the value to be implemented.
+                                                     The programmed SDA hold time during transmit (IC_SDA_TX_HOLD)
+                                                     cannot exceed at any time the duration of the low part
+                                                     of scl. Therefore the programmed value cannot be larger
+                                                     than N_SCL_LOW-2, where N_SCL_LOW is the duration of the
+                                                     low part of the scl period measured in ic_clk cycles.                     */
+  __IOM uint32_t  IC_TX_ABRT_SOURCE;            /*!< I2C Transmit Abort Source Register This register has 32 bits
+                                                     that indicate the source of the TX_ABRT bit. Except for
+                                                     Bit 9, this register is cleared whenever the IC_CLR_TX_ABRT
+                                                     register or the IC_CLR_INTR register is read. To clear
+                                                     Bit 9, the source of the ABRT_SBYTE_NORSTRT must be fixed
+                                                     first; RESTART must be enabled (IC_CON[5]=1), the SPECIAL
+                                                     bit must be cleared (IC_TAR[11]), or the GC_OR_START bit
+                                                     must be cleared (IC_TAR[10]). Once the source of the ABRT_SBYTE_NORSTRT
+                                                     is fixed, then this bit can be cleared in the same manner
+                                                     as other bits in this register. If the source of the ABRT_SBYTE_NORSTRT
+                                                     is not fixed before attempting to clear this bit, Bit 9
+                                                     clears for one cycle and is then re-asserted.                             */
+  __IOM uint32_t  IC_SLV_DATA_NACK_ONLY;        /*!< Generate Slave Data NACK Register The register is used to generate
+                                                     a NACK for the data part of a transfer when DW_apb_i2c
+                                                     is acting as a slave-receiver. This register only exists
+                                                     when the IC_SLV_DATA_NACK_ONLY parameter is set to 1. When
+                                                     this parameter disabled, this register does not exist and
+                                                     writing to the register's address has no effect. A write
+                                                     can occur on this register if both of the following conditions
+                                                     are met: - DW_apb_i2c is disabled (IC_ENABLE[0] = 0) -
+                                                     Slave part is inactive (IC_STATUS[6] = 0) Note: The IC_STATUS[6]
+                                                     is a register read-back location for the internal slv_activity
+                                                     signal; the user should poll this before writing the ic_slv_data_nack_onl
+                                                     bit.                                                                      */
+  __IOM uint32_t  IC_DMA_CR;                    /*!< DMA Control Register The register is used to enable the DMA
+                                                     Controller interface operation. There is a separate bit
+                                                     for transmit and receive. This can be programmed regardless
+                                                     of the state of IC_ENABLE.                                                */
+  __IOM uint32_t  IC_DMA_TDLR;                  /*!< DMA Transmit Data Level Register                                          */
+  __IOM uint32_t  IC_DMA_RDLR;                  /*!< I2C Receive Data Level Register                                           */
+  __IOM uint32_t  IC_SDA_SETUP;                 /*!< I2C SDA Setup Register This register controls the amount of
+                                                     time delay (in terms of number of ic_clk clock periods)
+                                                     introduced in the rising edge of SCL - relative to SDA
+                                                     changing - when DW_apb_i2c services a read request in a
+                                                     slave-transmitter operation. The relevant I2C requirement
+                                                     is tSU:DAT (note 4) as detailed in the I2C Bus Specification.
+                                                     This register must be programmed with a value equal to
+                                                     or greater than 2. Writes to this register succeed only
+                                                     when IC_ENABLE[0] = 0. Note: The length of setup time is
+                                                     calculated using [(IC_SDA_SETUP - 1) * (ic_clk_period)],
+                                                     so if the user requires 10 ic_clk periods of setup time,
+                                                     they should program a value of 11. The IC_SDA_SETUP register
+                                                     is only used by the DW_apb_i2c when operating as a slave
+                                                     transmitter.                                                              */
+  __IOM uint32_t  IC_ACK_GENERAL_CALL;          /*!< I2C ACK General Call Register The register controls whether
+                                                     DW_apb_i2c responds with a ACK or NACK when it receives
+                                                     an I2C General Call address. This register is applicable
+                                                     only when the DW_apb_i2c is in slave mode.                                */
+  __IOM uint32_t  IC_ENABLE_STATUS;             /*!< I2C Enable Status Register The register is used to report the
+                                                     DW_apb_i2c hardware status when the IC_ENABLE[0] register
+                                                     is set from 1 to 0; that is, when DW_apb_i2c is disabled.
+                                                     If IC_ENABLE[0] has been set to 1, bits 2:1 are forced
+                                                     to 0, and bit 0 is forced to 1. If IC_ENABLE[0] has been
+                                                     set to 0, bits 2:1 is only be valid as soon as bit 0 is
+                                                     read as '0'. Note: When IC_ENABLE[0] has been set to 0,
+                                                     a delay occurs for bit 0 to be read as 0 because disabling
+                                                     the DW_apb_i2c depends on I2C bus activities.                             */
+  __IOM uint32_t  IC_FS_SPKLEN;                 /*!< I2C SS, FS or FM+ spike suppression limit This register is used
+                                                     to store the duration, measured in ic_clk cycles, of the
+                                                     longest spike that is filtered out by the spike suppression
+                                                     logic when the component is operating in SS, FS or FM+
+                                                     modes. The relevant I2C requirement is tSP (table 4) as
+                                                     detailed in the I2C Bus Specification. This register must
+                                                     be programmed with a minimum value of 1.                                  */
+  __IM  uint32_t  RESERVED2;
+  __IOM uint32_t  IC_CLR_RESTART_DET;           /*!< Clear RESTART_DET Interrupt Register                                      */
+  __IM  uint32_t  RESERVED3[18];
+  __IOM uint32_t  IC_COMP_PARAM_1;              /*!< Component Parameter Register 1 Note This register is not implemented
+                                                     and therefore reads as 0. If it was implemented it would
+                                                     be a constant read-only register that contains encoded
+                                                     information about the component's parameter settings. Fields
+                                                     shown below are the settings for those parameters                         */
+  __IOM uint32_t  IC_COMP_VERSION;              /*!< I2C Component Version Register                                            */
+  __IOM uint32_t  IC_COMP_TYPE;                 /*!< I2C Component Type Register                                               */
+} I2C0_Type;                                    /*!< Size = 256 (0x100)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           SPI0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SPI0 (SPI0)
+  */
+
+typedef struct {                                /*!< SPI0 Structure                                                            */
+  __IOM uint32_t  SSPCR0;                       /*!< Control register 0, SSPCR0 on page 3-4                                    */
+  __IOM uint32_t  SSPCR1;                       /*!< Control register 1, SSPCR1 on page 3-5                                    */
+  __IOM uint32_t  SSPDR;                        /*!< Data register, SSPDR on page 3-6                                          */
+  __IOM uint32_t  SSPSR;                        /*!< Status register, SSPSR on page 3-7                                        */
+  __IOM uint32_t  SSPCPSR;                      /*!< Clock prescale register, SSPCPSR on page 3-8                              */
+  __IOM uint32_t  SSPIMSC;                      /*!< Interrupt mask set or clear register, SSPIMSC on page 3-9                 */
+  __IOM uint32_t  SSPRIS;                       /*!< Raw interrupt status register, SSPRIS on page 3-10                        */
+  __IOM uint32_t  SSPMIS;                       /*!< Masked interrupt status register, SSPMIS on page 3-11                     */
+  __IOM uint32_t  SSPICR;                       /*!< Interrupt clear register, SSPICR on page 3-11                             */
+  __IOM uint32_t  SSPDMACR;                     /*!< DMA control register, SSPDMACR on page 3-12                               */
+  __IM  uint32_t  RESERVED[1006];
+  __IOM uint32_t  SSPPERIPHID0;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID1;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID2;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID3;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPCELLID0;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID1;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID2;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID3;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+} SPI0_Type;                                    /*!< Size = 4096 (0x1000)                                                      */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           PIO0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Programmable IO block (PIO0)
+  */
+
+typedef struct {                                /*!< PIO0 Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< PIO control register                                                      */
+  __IOM uint32_t  FSTAT;                        /*!< FIFO status register                                                      */
+  __IOM uint32_t  FDEBUG;                       /*!< FIFO debug register                                                       */
+  __IOM uint32_t  FLEVEL;                       /*!< FIFO levels                                                               */
+  __IOM uint32_t  TXF0;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF1;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF2;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF3;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  RXF0;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF1;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF2;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF3;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  IRQ;                          /*!< State machine IRQ flags register. Write 1 to clear. There are
+                                                     8 state machine IRQ flags, which can be set, cleared, and
+                                                     waited on by the state machines. There's no fixed association
+                                                     between flags and state machines -- any state machine can
+                                                     use any flag. Any of the 8 flags can be used for timing
+                                                     synchronisation between state machines, using IRQ and WAIT
+                                                     instructions. The lower four of these flags are also routed
+                                                     out to system-level interrupt requests, alongside FIFO
+                                                     status interrupts -- see e.g. IRQ0_INTE.                                  */
+  __IOM uint32_t  IRQ_FORCE;                    /*!< Writing a 1 to each of these bits will forcibly assert the corresponding
+                                                     IRQ. Note this is different to the INTF register: writing
+                                                     here affects PIO internal state. INTF just asserts the
+                                                     processor-facing IRQ signal for testing ISRs, and is not
+                                                     visible to the state machines.                                            */
+  __IOM uint32_t  INPUT_SYNC_BYPASS;            /*!< There is a 2-flipflop synchronizer on each GPIO input, which
+                                                     protects PIO logic from metastabilities. This increases
+                                                     input delay, and for fast synchronous IO (e.g. SPI) these
+                                                     synchronizers may need to be bypassed. Each bit in this
+                                                     register corresponds to one GPIO. 0 -> input is synchronized
+                                                     (default) 1 -> synchronizer is bypassed If in doubt, leave
+                                                     this register as all zeroes.                                              */
+  __IOM uint32_t  DBG_PADOUT;                   /*!< Read to sample the pad output values PIO is currently driving
+                                                     to the GPIOs. On RP2040 there are 30 GPIOs, so the two
+                                                     most significant bits are hardwired to 0.                                 */
+  __IOM uint32_t  DBG_PADOE;                    /*!< Read to sample the pad output enables (direction) PIO is currently
+                                                     driving to the GPIOs. On RP2040 there are 30 GPIOs, so
+                                                     the two most significant bits are hardwired to 0.                         */
+  __IOM uint32_t  DBG_CFGINFO;                  /*!< The PIO hardware has some free parameters that may vary between
+                                                     chip products. These should be provided in the chip datasheet,
+                                                     but are also exposed here.                                                */
+  __IOM uint32_t  INSTR_MEM0;                   /*!< Write-only access to instruction memory location 0                        */
+  __IOM uint32_t  INSTR_MEM1;                   /*!< Write-only access to instruction memory location 1                        */
+  __IOM uint32_t  INSTR_MEM2;                   /*!< Write-only access to instruction memory location 2                        */
+  __IOM uint32_t  INSTR_MEM3;                   /*!< Write-only access to instruction memory location 3                        */
+  __IOM uint32_t  INSTR_MEM4;                   /*!< Write-only access to instruction memory location 4                        */
+  __IOM uint32_t  INSTR_MEM5;                   /*!< Write-only access to instruction memory location 5                        */
+  __IOM uint32_t  INSTR_MEM6;                   /*!< Write-only access to instruction memory location 6                        */
+  __IOM uint32_t  INSTR_MEM7;                   /*!< Write-only access to instruction memory location 7                        */
+  __IOM uint32_t  INSTR_MEM8;                   /*!< Write-only access to instruction memory location 8                        */
+  __IOM uint32_t  INSTR_MEM9;                   /*!< Write-only access to instruction memory location 9                        */
+  __IOM uint32_t  INSTR_MEM10;                  /*!< Write-only access to instruction memory location 10                       */
+  __IOM uint32_t  INSTR_MEM11;                  /*!< Write-only access to instruction memory location 11                       */
+  __IOM uint32_t  INSTR_MEM12;                  /*!< Write-only access to instruction memory location 12                       */
+  __IOM uint32_t  INSTR_MEM13;                  /*!< Write-only access to instruction memory location 13                       */
+  __IOM uint32_t  INSTR_MEM14;                  /*!< Write-only access to instruction memory location 14                       */
+  __IOM uint32_t  INSTR_MEM15;                  /*!< Write-only access to instruction memory location 15                       */
+  __IOM uint32_t  INSTR_MEM16;                  /*!< Write-only access to instruction memory location 16                       */
+  __IOM uint32_t  INSTR_MEM17;                  /*!< Write-only access to instruction memory location 17                       */
+  __IOM uint32_t  INSTR_MEM18;                  /*!< Write-only access to instruction memory location 18                       */
+  __IOM uint32_t  INSTR_MEM19;                  /*!< Write-only access to instruction memory location 19                       */
+  __IOM uint32_t  INSTR_MEM20;                  /*!< Write-only access to instruction memory location 20                       */
+  __IOM uint32_t  INSTR_MEM21;                  /*!< Write-only access to instruction memory location 21                       */
+  __IOM uint32_t  INSTR_MEM22;                  /*!< Write-only access to instruction memory location 22                       */
+  __IOM uint32_t  INSTR_MEM23;                  /*!< Write-only access to instruction memory location 23                       */
+  __IOM uint32_t  INSTR_MEM24;                  /*!< Write-only access to instruction memory location 24                       */
+  __IOM uint32_t  INSTR_MEM25;                  /*!< Write-only access to instruction memory location 25                       */
+  __IOM uint32_t  INSTR_MEM26;                  /*!< Write-only access to instruction memory location 26                       */
+  __IOM uint32_t  INSTR_MEM27;                  /*!< Write-only access to instruction memory location 27                       */
+  __IOM uint32_t  INSTR_MEM28;                  /*!< Write-only access to instruction memory location 28                       */
+  __IOM uint32_t  INSTR_MEM29;                  /*!< Write-only access to instruction memory location 29                       */
+  __IOM uint32_t  INSTR_MEM30;                  /*!< Write-only access to instruction memory location 30                       */
+  __IOM uint32_t  INSTR_MEM31;                  /*!< Write-only access to instruction memory location 31                       */
+  __IOM uint32_t  SM0_CLKDIV;                   /*!< Clock divisor register for state machine 0 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM0_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 0                        */
+  __IOM uint32_t  SM0_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 0                                                                 */
+  __IOM uint32_t  SM0_ADDR;                     /*!< Current instruction address of state machine 0                            */
+  __IOM uint32_t  SM0_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     0's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM0_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM1_CLKDIV;                   /*!< Clock divisor register for state machine 1 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM1_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 1                        */
+  __IOM uint32_t  SM1_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 1                                                                 */
+  __IOM uint32_t  SM1_ADDR;                     /*!< Current instruction address of state machine 1                            */
+  __IOM uint32_t  SM1_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     1's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM1_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM2_CLKDIV;                   /*!< Clock divisor register for state machine 2 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM2_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 2                        */
+  __IOM uint32_t  SM2_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 2                                                                 */
+  __IOM uint32_t  SM2_ADDR;                     /*!< Current instruction address of state machine 2                            */
+  __IOM uint32_t  SM2_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     2's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM2_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM3_CLKDIV;                   /*!< Clock divisor register for state machine 3 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM3_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 3                        */
+  __IOM uint32_t  SM3_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 3                                                                 */
+  __IOM uint32_t  SM3_ADDR;                     /*!< Current instruction address of state machine 3                            */
+  __IOM uint32_t  SM3_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     3's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM3_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  IRQ0_INTE;                    /*!< Interrupt Enable for irq0                                                 */
+  __IOM uint32_t  IRQ0_INTF;                    /*!< Interrupt Force for irq0                                                  */
+  __IOM uint32_t  IRQ0_INTS;                    /*!< Interrupt status after masking & forcing for irq0                         */
+  __IOM uint32_t  IRQ1_INTE;                    /*!< Interrupt Enable for irq1                                                 */
+  __IOM uint32_t  IRQ1_INTF;                    /*!< Interrupt Force for irq1                                                  */
+  __IOM uint32_t  IRQ1_INTS;                    /*!< Interrupt status after masking & forcing for irq1                         */
+} PIO0_Type;                                    /*!< Size = 324 (0x144)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          BUSCTRL                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Register block for busfabric control signals and performance counters (BUSCTRL)
+  */
+
+typedef struct {                                /*!< BUSCTRL Structure                                                         */
+  __IOM uint32_t  BUS_PRIORITY;                 /*!< Set the priority of each master for bus arbitration.                      */
+  __IOM uint32_t  BUS_PRIORITY_ACK;             /*!< Bus priority acknowledge                                                  */
+  __IOM uint32_t  PERFCTR0;                     /*!< Bus fabric performance counter 0                                          */
+  __IOM uint32_t  PERFSEL0;                     /*!< Bus fabric performance event select for PERFCTR0                          */
+  __IOM uint32_t  PERFCTR1;                     /*!< Bus fabric performance counter 1                                          */
+  __IOM uint32_t  PERFSEL1;                     /*!< Bus fabric performance event select for PERFCTR1                          */
+  __IOM uint32_t  PERFCTR2;                     /*!< Bus fabric performance counter 2                                          */
+  __IOM uint32_t  PERFSEL2;                     /*!< Bus fabric performance event select for PERFCTR2                          */
+  __IOM uint32_t  PERFCTR3;                     /*!< Bus fabric performance counter 3                                          */
+  __IOM uint32_t  PERFSEL3;                     /*!< Bus fabric performance event select for PERFCTR3                          */
+} BUSCTRL_Type;                                 /*!< Size = 40 (0x28)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            SIO                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Single-cycle IO block 
+            Provides core-local and inter-core hardware for the two processors, with single-cycle access. (SIO)
+  */
+
+typedef struct {                                /*!< SIO Structure                                                             */
+  __IOM uint32_t  CPUID;                        /*!< Processor core identifier                                                 */
+  __IOM uint32_t  GPIO_IN;                      /*!< Input value for GPIO pins                                                 */
+  __IOM uint32_t  GPIO_HI_IN;                   /*!< Input value for QSPI pins                                                 */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  GPIO_OUT;                     /*!< GPIO output value                                                         */
+  __IOM uint32_t  GPIO_OUT_SET;                 /*!< GPIO output value set                                                     */
+  __IOM uint32_t  GPIO_OUT_CLR;                 /*!< GPIO output value clear                                                   */
+  __IOM uint32_t  GPIO_OUT_XOR;                 /*!< GPIO output value XOR                                                     */
+  __IOM uint32_t  GPIO_OE;                      /*!< GPIO output enable                                                        */
+  __IOM uint32_t  GPIO_OE_SET;                  /*!< GPIO output enable set                                                    */
+  __IOM uint32_t  GPIO_OE_CLR;                  /*!< GPIO output enable clear                                                  */
+  __IOM uint32_t  GPIO_OE_XOR;                  /*!< GPIO output enable XOR                                                    */
+  __IOM uint32_t  GPIO_HI_OUT;                  /*!< QSPI output value                                                         */
+  __IOM uint32_t  GPIO_HI_OUT_SET;              /*!< QSPI output value set                                                     */
+  __IOM uint32_t  GPIO_HI_OUT_CLR;              /*!< QSPI output value clear                                                   */
+  __IOM uint32_t  GPIO_HI_OUT_XOR;              /*!< QSPI output value XOR                                                     */
+  __IOM uint32_t  GPIO_HI_OE;                   /*!< QSPI output enable                                                        */
+  __IOM uint32_t  GPIO_HI_OE_SET;               /*!< QSPI output enable set                                                    */
+  __IOM uint32_t  GPIO_HI_OE_CLR;               /*!< QSPI output enable clear                                                  */
+  __IOM uint32_t  GPIO_HI_OE_XOR;               /*!< QSPI output enable XOR                                                    */
+  __IOM uint32_t  FIFO_ST;                      /*!< Status register for inter-core FIFOs (mailboxes). There is one
+                                                     FIFO in the core 0 -> core 1 direction, and one core 1
+                                                     -> core 0. Both are 32 bits wide and 8 words deep. Core
+                                                     0 can see the read side of the 1->0 FIFO (RX), and the
+                                                     write side of 0->1 FIFO (TX). Core 1 can see the read side
+                                                     of the 0->1 FIFO (RX), and the write side of 1->0 FIFO
+                                                     (TX). The SIO IRQ for each core is the logical OR of the
+                                                     VLD, WOF and ROE fields of its FIFO_ST register.                          */
+  __IOM uint32_t  FIFO_WR;                      /*!< Write access to this core's TX FIFO                                       */
+  __IOM uint32_t  FIFO_RD;                      /*!< Read access to this core's RX FIFO                                        */
+  __IOM uint32_t  SPINLOCK_ST;                  /*!< Spinlock state A bitmap containing the state of all 32 spinlocks
+                                                     (1=locked). Mainly intended for debugging.                                */
+  __IOM uint32_t  DIV_UDIVIDEND;                /*!< Divider unsigned dividend Write to the DIVIDEND operand of the
+                                                     divider, i.e. the p in `p / q`. Any operand write starts
+                                                     a new calculation. The results appear in QUOTIENT, REMAINDER.
+                                                     UDIVIDEND/SDIVIDEND are aliases of the same internal register.
+                                                     The U alias starts an unsigned calculation, and the S alias
+                                                     starts a signed calculation.                                              */
+  __IOM uint32_t  DIV_UDIVISOR;                 /*!< Divider unsigned divisor Write to the DIVISOR operand of the
+                                                     divider, i.e. the q in `p / q`. Any operand write starts
+                                                     a new calculation. The results appear in QUOTIENT, REMAINDER.
+                                                     UDIVISOR/SDIVISOR are aliases of the same internal register.
+                                                     The U alias starts an unsigned calculation, and the S alias
+                                                     starts a signed calculation.                                              */
+  __IOM uint32_t  DIV_SDIVIDEND;                /*!< Divider signed dividend The same as UDIVIDEND, but starts a
+                                                     signed calculation, rather than unsigned.                                 */
+  __IOM uint32_t  DIV_SDIVISOR;                 /*!< Divider signed divisor The same as UDIVISOR, but starts a signed
+                                                     calculation, rather than unsigned.                                        */
+  __IOM uint32_t  DIV_QUOTIENT;                 /*!< Divider result quotient The result of `DIVIDEND / DIVISOR` (division).
+                                                     Contents undefined while CSR_READY is low. For signed calculations,
+                                                     QUOTIENT is negative when the signs of DIVIDEND and DIVISOR
+                                                     differ. This register can be written to directly, for context
+                                                     save/restore purposes. This halts any in-progress calculation
+                                                     and sets the CSR_READY and CSR_DIRTY flags. Reading from
+                                                     QUOTIENT clears the CSR_DIRTY flag, so should read results
+                                                     in the order REMAINDER, QUOTIENT if CSR_DIRTY is used.                    */
+  __IOM uint32_t  DIV_REMAINDER;                /*!< Divider result remainder The result of `DIVIDEND % DIVISOR`
+                                                     (modulo). Contents undefined while CSR_READY is low. For
+                                                     signed calculations, REMAINDER is negative only when DIVIDEND
+                                                     is negative. This register can be written to directly,
+                                                     for context save/restore purposes. This halts any in-progress
+                                                     calculation and sets the CSR_READY and CSR_DIRTY flags.                   */
+  __IOM uint32_t  DIV_CSR;                      /*!< Control and status register for divider.                                  */
+  __IM  uint32_t  RESERVED1;
+  __IOM uint32_t  INTERP0_ACCUM0;               /*!< Read/write access to accumulator 0                                        */
+  __IOM uint32_t  INTERP0_ACCUM1;               /*!< Read/write access to accumulator 1                                        */
+  __IOM uint32_t  INTERP0_BASE0;                /*!< Read/write access to BASE0 register.                                      */
+  __IOM uint32_t  INTERP0_BASE1;                /*!< Read/write access to BASE1 register.                                      */
+  __IOM uint32_t  INTERP0_BASE2;                /*!< Read/write access to BASE2 register.                                      */
+  __IOM uint32_t  INTERP0_POP_LANE0;            /*!< Read LANE0 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP0_POP_LANE1;            /*!< Read LANE1 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP0_POP_FULL;             /*!< Read FULL result, and simultaneously write lane results to both
+                                                     accumulators (POP).                                                       */
+  __IOM uint32_t  INTERP0_PEEK_LANE0;           /*!< Read LANE0 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP0_PEEK_LANE1;           /*!< Read LANE1 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP0_PEEK_FULL;            /*!< Read FULL result, without altering any internal state (PEEK).             */
+  __IOM uint32_t  INTERP0_CTRL_LANE0;           /*!< Control register for lane 0                                               */
+  __IOM uint32_t  INTERP0_CTRL_LANE1;           /*!< Control register for lane 1                                               */
+  __IOM uint32_t  INTERP0_ACCUM0_ADD;           /*!< Values written here are atomically added to ACCUM0 Reading yields
+                                                     lane 0's raw shift and mask value (BASE0 not added).                      */
+  __IOM uint32_t  INTERP0_ACCUM1_ADD;           /*!< Values written here are atomically added to ACCUM1 Reading yields
+                                                     lane 1's raw shift and mask value (BASE1 not added).                      */
+  __IOM uint32_t  INTERP0_BASE_1AND0;           /*!< On write, the lower 16 bits go to BASE0, upper bits to BASE1
+                                                     simultaneously. Each half is sign-extended to 32 bits if
+                                                     that lane's SIGNED flag is set.                                           */
+  __IOM uint32_t  INTERP1_ACCUM0;               /*!< Read/write access to accumulator 0                                        */
+  __IOM uint32_t  INTERP1_ACCUM1;               /*!< Read/write access to accumulator 1                                        */
+  __IOM uint32_t  INTERP1_BASE0;                /*!< Read/write access to BASE0 register.                                      */
+  __IOM uint32_t  INTERP1_BASE1;                /*!< Read/write access to BASE1 register.                                      */
+  __IOM uint32_t  INTERP1_BASE2;                /*!< Read/write access to BASE2 register.                                      */
+  __IOM uint32_t  INTERP1_POP_LANE0;            /*!< Read LANE0 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP1_POP_LANE1;            /*!< Read LANE1 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP1_POP_FULL;             /*!< Read FULL result, and simultaneously write lane results to both
+                                                     accumulators (POP).                                                       */
+  __IOM uint32_t  INTERP1_PEEK_LANE0;           /*!< Read LANE0 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP1_PEEK_LANE1;           /*!< Read LANE1 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP1_PEEK_FULL;            /*!< Read FULL result, without altering any internal state (PEEK).             */
+  __IOM uint32_t  INTERP1_CTRL_LANE0;           /*!< Control register for lane 0                                               */
+  __IOM uint32_t  INTERP1_CTRL_LANE1;           /*!< Control register for lane 1                                               */
+  __IOM uint32_t  INTERP1_ACCUM0_ADD;           /*!< Values written here are atomically added to ACCUM0 Reading yields
+                                                     lane 0's raw shift and mask value (BASE0 not added).                      */
+  __IOM uint32_t  INTERP1_ACCUM1_ADD;           /*!< Values written here are atomically added to ACCUM1 Reading yields
+                                                     lane 1's raw shift and mask value (BASE1 not added).                      */
+  __IOM uint32_t  INTERP1_BASE_1AND0;           /*!< On write, the lower 16 bits go to BASE0, upper bits to BASE1
+                                                     simultaneously. Each half is sign-extended to 32 bits if
+                                                     that lane's SIGNED flag is set.                                           */
+  __IOM uint32_t  SPINLOCK0;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK1;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK2;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK3;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK4;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK5;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK6;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK7;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK8;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK9;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK10;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK11;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK12;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK13;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK14;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK15;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK16;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK17;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK18;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK19;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK20;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK21;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK22;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK23;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK24;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK25;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK26;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK27;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK28;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK29;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK30;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK31;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+} SIO_Type;                                     /*!< Size = 384 (0x180)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            USB                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief USB FS/LS controller device registers (USB)
+  */
+
+typedef struct {                                /*!< USB Structure                                                             */
+  __IOM uint32_t  ADDR_ENDP;                    /*!< Device address and endpoint control                                       */
+  __IOM uint32_t  ADDR_ENDP1;                   /*!< Interrupt endpoint 1. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP2;                   /*!< Interrupt endpoint 2. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP3;                   /*!< Interrupt endpoint 3. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP4;                   /*!< Interrupt endpoint 4. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP5;                   /*!< Interrupt endpoint 5. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP6;                   /*!< Interrupt endpoint 6. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP7;                   /*!< Interrupt endpoint 7. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP8;                   /*!< Interrupt endpoint 8. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP9;                   /*!< Interrupt endpoint 9. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP10;                  /*!< Interrupt endpoint 10. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP11;                  /*!< Interrupt endpoint 11. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP12;                  /*!< Interrupt endpoint 12. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP13;                  /*!< Interrupt endpoint 13. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP14;                  /*!< Interrupt endpoint 14. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP15;                  /*!< Interrupt endpoint 15. Only valid for HOST mode.                          */
+  __IOM uint32_t  MAIN_CTRL;                    /*!< Main control register                                                     */
+  __IOM uint32_t  SOF_WR;                       /*!< Set the SOF (Start of Frame) frame number in the host controller.
+                                                     The SOF packet is sent every 1ms and the host will increment
+                                                     the frame number by 1 each time.                                          */
+  __IOM uint32_t  SOF_RD;                       /*!< Read the last SOF (Start of Frame) frame number seen. In device
+                                                     mode the last SOF received from the host. In host mode
+                                                     the last SOF sent by the host.                                            */
+  __IOM uint32_t  SIE_CTRL;                     /*!< SIE control register                                                      */
+  __IOM uint32_t  SIE_STATUS;                   /*!< SIE status register                                                       */
+  __IOM uint32_t  INT_EP_CTRL;                  /*!< interrupt endpoint control register                                       */
+  __IOM uint32_t  BUFF_STATUS;                  /*!< Buffer status register. A bit set here indicates that a buffer
+                                                     has completed on the endpoint (if the buffer interrupt
+                                                     is enabled). It is possible for 2 buffers to be completed,
+                                                     so clearing the buffer status bit may instantly re set
+                                                     it on the next clock cycle.                                               */
+  __IOM uint32_t  BUFF_CPU_SHOULD_HANDLE;       /*!< Which of the double buffers should be handled. Only valid if
+                                                     using an interrupt per buffer (i.e. not per 2 buffers).
+                                                     Not valid for host interrupt endpoint polling because they
+                                                     are only single buffered.                                                 */
+  __IOM uint32_t  EP_ABORT;                     /*!< Device only: Can be set to ignore the buffer control register
+                                                     for this endpoint in case you would like to revoke a buffer.
+                                                     A NAK will be sent for every access to the endpoint until
+                                                     this bit is cleared. A corresponding bit in `EP_ABORT_DONE`
+                                                     is set when it is safe to modify the buffer control register.             */
+  __IOM uint32_t  EP_ABORT_DONE;                /*!< Device only: Used in conjunction with `EP_ABORT`. Set once an
+                                                     endpoint is idle so the programmer knows it is safe to
+                                                     modify the buffer control register.                                       */
+  __IOM uint32_t  EP_STALL_ARM;                 /*!< Device: this bit must be set in conjunction with the `STALL`
+                                                     bit in the buffer control register to send a STALL on EP0.
+                                                     The device controller clears these bits when a SETUP packet
+                                                     is received because the USB spec requires that a STALL
+                                                     condition is cleared when a SETUP packet is received.                     */
+  __IOM uint32_t  NAK_POLL;                     /*!< Used by the host controller. Sets the wait time in microseconds
+                                                     before trying again if the device replies with a NAK.                     */
+  __IOM uint32_t  EP_STATUS_STALL_NAK;          /*!< Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL`
+                                                     bits are set. For EP0 this comes from `SIE_CTRL`. For all
+                                                     other endpoints it comes from the endpoint control register.              */
+  __IOM uint32_t  USB_MUXING;                   /*!< Where to connect the USB controller. Should be to_phy by default.         */
+  __IOM uint32_t  USB_PWR;                      /*!< Overrides for the power signals in the event that the VBUS signals
+                                                     are not hooked up to GPIO. Set the value of the override
+                                                     and then the override enable so switch over to the override
+                                                     value.                                                                    */
+  __IOM uint32_t  USBPHY_DIRECT;                /*!< Note that most functions are driven directly from usb_fsls controller.
+                                                     This register allows more detailed control/status from
+                                                     the USB PHY. Useful for debug but not expected to be used
+                                                     in normal operation Use in conjunction with usbphy_direct_override
+                                                     register                                                                  */
+  __IOM uint32_t  USBPHY_DIRECT_OVERRIDE;       /*!< USBPHY_DIRECT_OVERRIDE                                                    */
+  __IOM uint32_t  USBPHY_TRIM;                  /*!< Note that most functions are driven directly from usb_fsls controller.
+                                                     This register allows more detailed control/status from
+                                                     the USB PHY. Useful for debug but not expected to be used
+                                                     in normal operation                                                       */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} USB_Type;                                     /*!< Size = 156 (0x9c)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         USB_DPRAM                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DPRAM layout for USB device. (USB_DPRAM)
+  */
+
+typedef struct {                                /*!< USB_DPRAM Structure                                                       */
+  __IOM uint32_t  SETUP_PACKET_LOW;             /*!< Bytes 0-3 of the SETUP packet from the host.                              */
+  __IOM uint32_t  SETUP_PACKET_HIGH;            /*!< Bytes 4-7 of the setup packet from the host.                              */
+  __IOM uint32_t  EP1_IN_CONTROL;               /*!< EP1_IN_CONTROL                                                            */
+  __IOM uint32_t  EP1_OUT_CONTROL;              /*!< EP1_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP2_IN_CONTROL;               /*!< EP2_IN_CONTROL                                                            */
+  __IOM uint32_t  EP2_OUT_CONTROL;              /*!< EP2_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP3_IN_CONTROL;               /*!< EP3_IN_CONTROL                                                            */
+  __IOM uint32_t  EP3_OUT_CONTROL;              /*!< EP3_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP4_IN_CONTROL;               /*!< EP4_IN_CONTROL                                                            */
+  __IOM uint32_t  EP4_OUT_CONTROL;              /*!< EP4_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP5_IN_CONTROL;               /*!< EP5_IN_CONTROL                                                            */
+  __IOM uint32_t  EP5_OUT_CONTROL;              /*!< EP5_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP6_IN_CONTROL;               /*!< EP6_IN_CONTROL                                                            */
+  __IOM uint32_t  EP6_OUT_CONTROL;              /*!< EP6_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP7_IN_CONTROL;               /*!< EP7_IN_CONTROL                                                            */
+  __IOM uint32_t  EP7_OUT_CONTROL;              /*!< EP7_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP8_IN_CONTROL;               /*!< EP8_IN_CONTROL                                                            */
+  __IOM uint32_t  EP8_OUT_CONTROL;              /*!< EP8_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP9_IN_CONTROL;               /*!< EP9_IN_CONTROL                                                            */
+  __IOM uint32_t  EP9_OUT_CONTROL;              /*!< EP9_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP10_IN_CONTROL;              /*!< EP10_IN_CONTROL                                                           */
+  __IOM uint32_t  EP10_OUT_CONTROL;             /*!< EP10_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP11_IN_CONTROL;              /*!< EP11_IN_CONTROL                                                           */
+  __IOM uint32_t  EP11_OUT_CONTROL;             /*!< EP11_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP12_IN_CONTROL;              /*!< EP12_IN_CONTROL                                                           */
+  __IOM uint32_t  EP12_OUT_CONTROL;             /*!< EP12_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP13_IN_CONTROL;              /*!< EP13_IN_CONTROL                                                           */
+  __IOM uint32_t  EP13_OUT_CONTROL;             /*!< EP13_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP14_IN_CONTROL;              /*!< EP14_IN_CONTROL                                                           */
+  __IOM uint32_t  EP14_OUT_CONTROL;             /*!< EP14_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP15_IN_CONTROL;              /*!< EP15_IN_CONTROL                                                           */
+  __IOM uint32_t  EP15_OUT_CONTROL;             /*!< EP15_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP0_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP0_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP1_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP1_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP2_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP2_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP3_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP3_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP4_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP4_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP5_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP5_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP6_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP6_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP7_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP7_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP8_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP8_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP9_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP9_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP10_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP10_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP11_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP11_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP12_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP12_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP13_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP13_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP14_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP14_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP15_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP15_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+} USB_DPRAM_Type;                               /*!< Size = 256 (0x100)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           TBMAN                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Testbench manager. Allows the programmer to know what platform their software is running on. (TBMAN)
+  */
+
+typedef struct {                                /*!< TBMAN Structure                                                           */
+  __IOM uint32_t  PLATFORM;                     /*!< Indicates the type of platform in use                                     */
+} TBMAN_Type;                                   /*!< Size = 4 (0x4)                                                            */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                    VREG_AND_CHIP_RESET                                    ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief control and status for on-chip voltage regulator and chip level reset subsystem (VREG_AND_CHIP_RESET)
+  */
+
+typedef struct {                                /*!< VREG_AND_CHIP_RESET Structure                                             */
+  __IOM uint32_t  VREG;                         /*!< Voltage regulator control and status                                      */
+  __IOM uint32_t  BOD;                          /*!< brown-out detection control                                               */
+  __IOM uint32_t  CHIP_RESET;                   /*!< Chip reset control and status                                             */
+} VREG_AND_CHIP_RESET_Type;                     /*!< Size = 12 (0xc)                                                           */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            RTC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Register block to control RTC (RTC)
+  */
+
+typedef struct {                                /*!< RTC Structure                                                             */
+  __IOM uint32_t  CLKDIV_M1;                    /*!< Divider minus 1 for the 1 second counter. Safe to change the
+                                                     value when RTC is not enabled.                                            */
+  __IOM uint32_t  SETUP_0;                      /*!< RTC setup register 0                                                      */
+  __IOM uint32_t  SETUP_1;                      /*!< RTC setup register 1                                                      */
+  __IOM uint32_t  CTRL;                         /*!< RTC Control and status                                                    */
+  __IOM uint32_t  IRQ_SETUP_0;                  /*!< Interrupt setup register 0                                                */
+  __IOM uint32_t  IRQ_SETUP_1;                  /*!< Interrupt setup register 1                                                */
+  __IOM uint32_t  RTC_1;                        /*!< RTC register 1.                                                           */
+  __IOM uint32_t  RTC_0;                        /*!< RTC register 0 Read this before RTC 1!                                    */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} RTC_Type;                                     /*!< Size = 48 (0x30)                                                          */
+
+
+/** @} */ /* End of group Device_Peripheral_peripherals */
+
+
+/* =========================================================================================================================== */
+/* ================                          Device Specific Peripheral Address Map                           ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_peripheralAddr
+  * @{
+  */
+
+#if 0
+#define RESETS_BASE                 0x4000C000UL
+#define PSM_BASE                    0x40010000UL
+#define CLOCKS_BASE                 0x40008000UL
+#define PADS_BANK0_BASE             0x4001C000UL
+#define PADS_QSPI_BASE              0x40020000UL
+#define IO_QSPI_BASE                0x40018000UL
+#define IO_BANK0_BASE               0x40014000UL
+#define SYSINFO_BASE                0x40000000UL
+#define PPB_BASE                    0xE0000000UL
+#define SSI_BASE                    0x18000000UL
+#define XIP_CTRL_BASE               0x14000000UL
+#define SYSCFG_BASE                 0x40004000UL
+#define XOSC_BASE                   0x40024000UL
+#define PLL_SYS_BASE                0x40028000UL
+#define PLL_USB_BASE                0x4002C000UL
+#define UART0_BASE                  0x40034000UL
+#define UART1_BASE                  0x40038000UL
+#define ROSC_BASE                   0x40060000UL
+#define WATCHDOG_BASE               0x40058000UL
+#define DMA_BASE                    0x50000000UL
+#define TIMER_BASE                  0x40054000UL
+#define PWM_BASE                    0x40050000UL
+#define ADC_BASE                    0x4004C000UL
+#define I2C0_BASE                   0x40044000UL
+#define I2C1_BASE                   0x40048000UL
+#define SPI0_BASE                   0x4003C000UL
+#define SPI1_BASE                   0x40040000UL
+#define PIO0_BASE                   0x50200000UL
+#define PIO1_BASE                   0x50300000UL
+#define BUSCTRL_BASE                0x40030000UL
+#define SIO_BASE                    0xD0000000UL
+#define USB_BASE                    0x50110000UL
+#define USB_DPRAM_BASE              0x50100000UL
+#define TBMAN_BASE                  0x4006C000UL
+#define VREG_AND_CHIP_RESET_BASE    0x40064000UL
+#define RTC_BASE                    0x4005C000UL
+#endif
+
+/** @} */ /* End of group Device_Peripheral_peripheralAddr */
+
+
+/* =========================================================================================================================== */
+/* ================                                  Peripheral declaration                                   ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_declaration
+  * @{
+  */
+
+#define RESETS                      ((RESETS_Type*)            RESETS_BASE)
+#define PSM                         ((PSM_Type*)               PSM_BASE)
+#define CLOCKS                      ((CLOCKS_Type*)            CLOCKS_BASE)
+#define PADS_BANK0                  ((PADS_BANK0_Type*)        PADS_BANK0_BASE)
+#define PADS_QSPI                   ((PADS_QSPI_Type*)         PADS_QSPI_BASE)
+#define IO_QSPI                     ((IO_QSPI_Type*)           IO_QSPI_BASE)
+#define IO_BANK0                    ((IO_BANK0_Type*)          IO_BANK0_BASE)
+#define SYSINFO                     ((SYSINFO_Type*)           SYSINFO_BASE)
+#define PPB                         ((PPB_Type*)               PPB_BASE)
+#define SSI                         ((SSI_Type*)               SSI_BASE)
+#define XIP_CTRL                    ((XIP_CTRL_Type*)          XIP_CTRL_BASE)
+#define SYSCFG                      ((SYSCFG_Type*)            SYSCFG_BASE)
+#define XOSC                        ((XOSC_Type*)              XOSC_BASE)
+#define PLL_SYS                     ((PLL_SYS_Type*)           PLL_SYS_BASE)
+#define PLL_USB                     ((PLL_SYS_Type*)           PLL_USB_BASE)
+#define UART0                       ((UART0_Type*)             UART0_BASE)
+#define UART1                       ((UART0_Type*)             UART1_BASE)
+#define ROSC                        ((ROSC_Type*)              ROSC_BASE)
+#define WATCHDOG                    ((WATCHDOG_Type*)          WATCHDOG_BASE)
+#define DMA                         ((DMA_Type*)               DMA_BASE)
+#define TIMER                       ((TIMER_Type*)             TIMER_BASE)
+#define PWM                         ((PWM_Type*)               PWM_BASE)
+#define ADC                         ((ADC_Type*)               ADC_BASE)
+#define I2C0                        ((I2C0_Type*)              I2C0_BASE)
+#define I2C1                        ((I2C0_Type*)              I2C1_BASE)
+#define SPI0                        ((SPI0_Type*)              SPI0_BASE)
+#define SPI1                        ((SPI0_Type*)              SPI1_BASE)
+#define PIO0                        ((PIO0_Type*)              PIO0_BASE)
+#define PIO1                        ((PIO0_Type*)              PIO1_BASE)
+#define BUSCTRL                     ((BUSCTRL_Type*)           BUSCTRL_BASE)
+#define SIO                         ((SIO_Type*)               SIO_BASE)
+#define USB                         ((USB_Type*)               USB_BASE)
+#define USB_DPRAM                   ((USB_DPRAM_Type*)         USB_DPRAM_BASE)
+#define TBMAN                       ((TBMAN_Type*)             TBMAN_BASE)
+#define VREG_AND_CHIP_RESET         ((VREG_AND_CHIP_RESET_Type*)  VREG_AND_CHIP_RESET_BASE)
+#define RTC                         ((RTC_Type*)               RTC_BASE)
+
+/** @} */ /* End of group Device_Peripheral_declaration */
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* RP2040_H */
+
+
+/** @} */ /* End of group RP2040 */
+
+/** @} */ /* End of group Raspberry Pi */
diff --git a/lib/rp2040/cmsis_include/system_RP2040.h b/lib/pico-sdk/rp2040/cmsis_include/system_RP2040.h
similarity index 100%
rename from lib/rp2040/cmsis_include/system_RP2040.h
rename to lib/pico-sdk/rp2040/cmsis_include/system_RP2040.h
diff --git a/lib/pico-sdk/rp2040/hardware/platform_defs.h b/lib/pico-sdk/rp2040/hardware/platform_defs.h
new file mode 100644
index 0000000..54d9344
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/platform_defs.h
@@ -0,0 +1,119 @@
+/*
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _HARDWARE_PLATFORM_DEFS_H
+#define _HARDWARE_PLATFORM_DEFS_H
+
+// This header is included from C and assembler - intended mostly for #defines; guard other stuff with #ifdef __ASSEMBLER__
+
+#ifndef _u
+#ifdef __ASSEMBLER__
+#define _u(x) x
+#else
+#define _u(x) x ## u
+#endif
+#endif
+
+#define NUM_CORES _u(2)
+#define NUM_DMA_CHANNELS _u(12)
+#define NUM_DMA_TIMERS _u(4)
+#define NUM_DMA_IRQS _u(2)
+#define NUM_IRQS _u(32)
+#define NUM_USER_IRQS _u(6)
+#define NUM_PIOS _u(2)
+#define NUM_PIO_STATE_MACHINES _u(4)
+#define NUM_PIO_IRQS _u(2)
+#define NUM_PWM_SLICES _u(8)
+#define NUM_PWM_IRQS _u(1)
+#define NUM_SPIN_LOCKS _u(32)
+#define NUM_UARTS _u(2)
+#define NUM_I2CS _u(2)
+#define NUM_SPIS _u(2)
+#define NUM_GENERIC_TIMERS _u(1)
+#define NUM_ALARMS _u(4)
+#define ADC_BASE_PIN _u(26)
+#define NUM_ADC_CHANNELS _u(5)
+#define NUM_RESETS _u(24)
+#define NUM_BANK0_GPIOS _u(30)
+#define NUM_QSPI_GPIOS _u(6)
+
+#define PIO_INSTRUCTION_COUNT _u(32)
+
+#define USBCTRL_DPRAM_SIZE _u(4096)
+
+#define HAS_SIO_DIVIDER 1
+#define HAS_RP2040_RTC  1
+// PICO_CONFIG: XOSC_HZ, Crystal oscillator frequency in Hz, type=int, default=12000000, advanced=true, group=hardware_base
+// NOTE:  The system and USB clocks are generated from the frequency using two PLLs.
+// If you override this define, or SYS_CLK_HZ/USB_CLK_HZ below, you will *also* need to add your own adjusted PLL set-up defines to
+// override the defaults which live in src/rp2_common/hardware_clocks/include/hardware/clocks.h
+// Please see the comments there about calculating the new PLL setting values.
+#ifndef XOSC_HZ
+#ifdef XOSC_KHZ
+#define XOSC_HZ ((XOSC_KHZ) * _u(1000))
+#elif defined(XOSC_MHZ)
+#define XOSC_HZ ((XOSC_MHZ) * _u(1000000))
+#else
+#define XOSC_HZ _u(12000000)
+#endif
+#endif
+
+// PICO_CONFIG: SYS_CLK_HZ, System operating frequency in Hz, type=int, default=125000000, advanced=true, group=hardware_base
+#ifndef SYS_CLK_HZ
+#ifdef SYS_CLK_KHZ
+#define SYS_CLK_HZ ((SYS_CLK_KHZ) * _u(1000))
+#elif defined(SYS_CLK_MHZ)
+#define SYS_CLK_HZ ((SYS_CLK_MHZ) * _u(1000000))
+#else
+#define SYS_CLK_HZ _u(125000000)
+#endif
+#endif
+
+// PICO_CONFIG: USB_CLK_HZ, USB clock frequency. Must be 48MHz for the USB interface to operate correctly, type=int, default=48000000, advanced=true, group=hardware_base
+#ifndef USB_CLK_HZ
+#ifdef USB_CLK_KHZ
+#define USB_CLK_HZ ((USB_CLK_KHZ) * _u(1000))
+#elif defined(USB_CLK_MHZ)
+#define USB_CLK_HZ ((USB_CLK_MHZ) * _u(1000000))
+#else
+#define USB_CLK_HZ _u(48000000)
+#endif
+#endif
+
+// For backwards compatibility define XOSC_KHZ if the frequency is indeed an integer number of Khz.
+#if defined(XOSC_HZ) && !defined(XOSC_KHZ) && (XOSC_HZ % 1000 == 0)
+#define XOSC_KHZ (XOSC_HZ / 1000)
+#endif
+
+// For backwards compatibility define XOSC_MHZ if the frequency is indeed an integer number of Mhz.
+#if defined(XOSC_KHZ) && !defined(XOSC_MHZ) && (XOSC_KHZ % 1000 == 0)
+#define XOSC_MHZ (XOSC_KHZ / 1000)
+#endif
+
+// For backwards compatibility define SYS_CLK_KHZ if the frequency is indeed an integer number of Khz.
+#if defined(SYS_CLK_HZ) && !defined(SYS_CLK_KHZ) && (SYS_CLK_HZ % 1000 == 0)
+#define SYS_CLK_KHZ (SYS_CLK_HZ / 1000)
+#endif
+
+// For backwards compatibility define SYS_CLK_MHZ if the frequency is indeed an integer number of Mhz.
+#if defined(SYS_CLK_KHZ) && !defined(SYS_CLK_MHZ) && (SYS_CLK_KHZ % 1000 == 0)
+#define SYS_CLK_MHZ (SYS_CLK_KHZ / 1000)
+#endif
+
+// For backwards compatibility define USB_CLK_KHZ if the frequency is indeed an integer number of Khz.
+#if defined(USB_CLK_HZ) && !defined(USB_CLK_KHZ) && (USB_CLK_HZ % 1000 == 0)
+#define USB_CLK_KHZ (USB_CLK_HZ / 1000)
+#endif
+
+// For backwards compatibility define USB_CLK_MHZ if the frequency is indeed an integer number of Mhz.
+#if defined(USB_CLK_KHZ) && !defined(USB_CLK_MHZ) && (USB_CLK_KHZ % 1000 == 0)
+#define USB_CLK_MHZ (USB_CLK_KHZ / 1000)
+#endif
+
+#define FIRST_USER_IRQ (NUM_IRQS - NUM_USER_IRQS)
+#define VTABLE_FIRST_IRQ 16
+
+#endif
diff --git a/lib/rp2040/hardware/regs/adc.h b/lib/pico-sdk/rp2040/hardware/regs/adc.h
similarity index 98%
rename from lib/rp2040/hardware/regs/adc.h
rename to lib/pico-sdk/rp2040/hardware/regs/adc.h
index 47510be..3077f16 100644
--- a/lib/rp2040/hardware/regs/adc.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/adc.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : Control and data interface to SAR ADC
 // =============================================================================
-#ifndef HARDWARE_REGS_ADC_DEFINED
-#define HARDWARE_REGS_ADC_DEFINED
+#ifndef _HARDWARE_REGS_ADC_H
+#define _HARDWARE_REGS_ADC_H
 // =============================================================================
 // Register    : ADC_CS
 // Description : ADC Control and Status
@@ -25,8 +27,8 @@
 //               round-robin fashion.
 //               The first channel to be sampled will be the one currently
 //               indicated by AINSEL.
-//               AINSEL will be updated after each conversion with the
-//               newly-selected channel.
+//               AINSEL will be updated after each conversion with the newly-
+//               selected channel.
 #define ADC_CS_RROBIN_RESET  _u(0x00)
 #define ADC_CS_RROBIN_BITS   _u(0x001f0000)
 #define ADC_CS_RROBIN_MSB    _u(20)
@@ -153,7 +155,6 @@
 #define ADC_FCS_UNDER_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : ADC_FCS_FULL
-// Description : None
 #define ADC_FCS_FULL_RESET  _u(0x0)
 #define ADC_FCS_FULL_BITS   _u(0x00000200)
 #define ADC_FCS_FULL_MSB    _u(9)
@@ -161,7 +162,6 @@
 #define ADC_FCS_FULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : ADC_FCS_EMPTY
-// Description : None
 #define ADC_FCS_EMPTY_RESET  _u(0x0)
 #define ADC_FCS_EMPTY_BITS   _u(0x00000100)
 #define ADC_FCS_EMPTY_MSB    _u(8)
@@ -218,7 +218,6 @@
 #define ADC_FIFO_ERR_ACCESS "RF"
 // -----------------------------------------------------------------------------
 // Field       : ADC_FIFO_VAL
-// Description : None
 #define ADC_FIFO_VAL_RESET  "-"
 #define ADC_FIFO_VAL_BITS   _u(0x00000fff)
 #define ADC_FIFO_VAL_MSB    _u(11)
@@ -311,4 +310,5 @@
 #define ADC_INTS_FIFO_LSB    _u(0)
 #define ADC_INTS_FIFO_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_ADC_DEFINED
+#endif // _HARDWARE_REGS_ADC_H
+
diff --git a/lib/rp2040/hardware/regs/addressmap.h b/lib/pico-sdk/rp2040/hardware/regs/addressmap.h
similarity index 84%
rename from lib/rp2040/hardware/regs/addressmap.h
rename to lib/pico-sdk/rp2040/hardware/regs/addressmap.h
index b39ab45..61da68c 100644
--- a/lib/rp2040/hardware/regs/addressmap.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/addressmap.h
@@ -1,18 +1,24 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
-#ifndef _ADDRESSMAP_H_
-#define _ADDRESSMAP_H_
+#ifndef _ADDRESSMAP_H
+#define _ADDRESSMAP_H
+
+/**
+ * \file rp2040/addressmap.h
+ */
 
 #include "hardware/platform_defs.h"
 
 // Register address offsets for atomic RMW aliases
-#define REG_ALIAS_RW_BITS  (0x0u << 12u)
-#define REG_ALIAS_XOR_BITS (0x1u << 12u)
-#define REG_ALIAS_SET_BITS (0x2u << 12u)
-#define REG_ALIAS_CLR_BITS (0x3u << 12u)
+#define REG_ALIAS_RW_BITS  (_u(0x0) << _u(12))
+#define REG_ALIAS_XOR_BITS (_u(0x1) << _u(12))
+#define REG_ALIAS_SET_BITS (_u(0x2) << _u(12))
+#define REG_ALIAS_CLR_BITS (_u(0x3) << _u(12))
 
 #define ROM_BASE _u(0x00000000)
 #define XIP_BASE _u(0x10000000)
@@ -71,4 +77,5 @@
 #define SIO_BASE _u(0xd0000000)
 #define PPB_BASE _u(0xe0000000)
 
-#endif // _ADDRESSMAP_H_
+#endif // _ADDRESSMAP_H
+
diff --git a/lib/rp2040/hardware/regs/busctrl.h b/lib/pico-sdk/rp2040/hardware/regs/busctrl.h
similarity index 64%
rename from lib/rp2040/hardware/regs/busctrl.h
rename to lib/pico-sdk/rp2040/hardware/regs/busctrl.h
index 8be0d86..ee5f153 100644
--- a/lib/rp2040/hardware/regs/busctrl.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/busctrl.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -10,8 +12,8 @@
 // Description    : Register block for busfabric control signals and performance
 //                  counters
 // =============================================================================
-#ifndef HARDWARE_REGS_BUSCTRL_DEFINED
-#define HARDWARE_REGS_BUSCTRL_DEFINED
+#ifndef _HARDWARE_REGS_BUSCTRL_H
+#define _HARDWARE_REGS_BUSCTRL_H
 // =============================================================================
 // Register    : BUSCTRL_BUS_PRIORITY
 // Description : Set the priority of each master for bus arbitration.
@@ -102,32 +104,32 @@
 //               0x11 -> xip_main
 //               0x12 -> rom_contested
 //               0x13 -> rom
-#define BUSCTRL_PERFSEL0_OFFSET                   _u(0x0000000c)
-#define BUSCTRL_PERFSEL0_BITS                     _u(0x0000001f)
-#define BUSCTRL_PERFSEL0_RESET                    _u(0x0000001f)
-#define BUSCTRL_PERFSEL0_MSB                      _u(4)
-#define BUSCTRL_PERFSEL0_LSB                      _u(0)
-#define BUSCTRL_PERFSEL0_ACCESS                   "RW"
-#define BUSCTRL_PERFSEL0_VALUE_APB_CONTESTED      _u(0x00)
-#define BUSCTRL_PERFSEL0_VALUE_APB                _u(0x01)
+#define BUSCTRL_PERFSEL0_OFFSET _u(0x0000000c)
+#define BUSCTRL_PERFSEL0_BITS   _u(0x0000001f)
+#define BUSCTRL_PERFSEL0_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL0_MSB    _u(4)
+#define BUSCTRL_PERFSEL0_LSB    _u(0)
+#define BUSCTRL_PERFSEL0_ACCESS "RW"
+#define BUSCTRL_PERFSEL0_VALUE_APB_CONTESTED _u(0x00)
+#define BUSCTRL_PERFSEL0_VALUE_APB _u(0x01)
 #define BUSCTRL_PERFSEL0_VALUE_FASTPERI_CONTESTED _u(0x02)
-#define BUSCTRL_PERFSEL0_VALUE_FASTPERI           _u(0x03)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM5_CONTESTED    _u(0x04)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM5              _u(0x05)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM4_CONTESTED    _u(0x06)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM4              _u(0x07)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM3_CONTESTED    _u(0x08)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM3              _u(0x09)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM2_CONTESTED    _u(0x0a)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM2              _u(0x0b)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM1_CONTESTED    _u(0x0c)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM1              _u(0x0d)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM0_CONTESTED    _u(0x0e)
-#define BUSCTRL_PERFSEL0_VALUE_SRAM0              _u(0x0f)
+#define BUSCTRL_PERFSEL0_VALUE_FASTPERI _u(0x03)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5_CONTESTED _u(0x04)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5 _u(0x05)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4 _u(0x07)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3_CONTESTED _u(0x08)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3 _u(0x09)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2 _u(0x0b)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1_CONTESTED _u(0x0c)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1 _u(0x0d)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0 _u(0x0f)
 #define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN_CONTESTED _u(0x10)
-#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN           _u(0x11)
-#define BUSCTRL_PERFSEL0_VALUE_ROM_CONTESTED      _u(0x12)
-#define BUSCTRL_PERFSEL0_VALUE_ROM                _u(0x13)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN _u(0x11)
+#define BUSCTRL_PERFSEL0_VALUE_ROM_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL0_VALUE_ROM _u(0x13)
 // =============================================================================
 // Register    : BUSCTRL_PERFCTR1
 // Description : Bus fabric performance counter 1
@@ -166,32 +168,32 @@
 //               0x11 -> xip_main
 //               0x12 -> rom_contested
 //               0x13 -> rom
-#define BUSCTRL_PERFSEL1_OFFSET                   _u(0x00000014)
-#define BUSCTRL_PERFSEL1_BITS                     _u(0x0000001f)
-#define BUSCTRL_PERFSEL1_RESET                    _u(0x0000001f)
-#define BUSCTRL_PERFSEL1_MSB                      _u(4)
-#define BUSCTRL_PERFSEL1_LSB                      _u(0)
-#define BUSCTRL_PERFSEL1_ACCESS                   "RW"
-#define BUSCTRL_PERFSEL1_VALUE_APB_CONTESTED      _u(0x00)
-#define BUSCTRL_PERFSEL1_VALUE_APB                _u(0x01)
+#define BUSCTRL_PERFSEL1_OFFSET _u(0x00000014)
+#define BUSCTRL_PERFSEL1_BITS   _u(0x0000001f)
+#define BUSCTRL_PERFSEL1_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL1_MSB    _u(4)
+#define BUSCTRL_PERFSEL1_LSB    _u(0)
+#define BUSCTRL_PERFSEL1_ACCESS "RW"
+#define BUSCTRL_PERFSEL1_VALUE_APB_CONTESTED _u(0x00)
+#define BUSCTRL_PERFSEL1_VALUE_APB _u(0x01)
 #define BUSCTRL_PERFSEL1_VALUE_FASTPERI_CONTESTED _u(0x02)
-#define BUSCTRL_PERFSEL1_VALUE_FASTPERI           _u(0x03)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM5_CONTESTED    _u(0x04)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM5              _u(0x05)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM4_CONTESTED    _u(0x06)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM4              _u(0x07)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM3_CONTESTED    _u(0x08)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM3              _u(0x09)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM2_CONTESTED    _u(0x0a)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM2              _u(0x0b)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM1_CONTESTED    _u(0x0c)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM1              _u(0x0d)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM0_CONTESTED    _u(0x0e)
-#define BUSCTRL_PERFSEL1_VALUE_SRAM0              _u(0x0f)
+#define BUSCTRL_PERFSEL1_VALUE_FASTPERI _u(0x03)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5_CONTESTED _u(0x04)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5 _u(0x05)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4 _u(0x07)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3_CONTESTED _u(0x08)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3 _u(0x09)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2 _u(0x0b)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1_CONTESTED _u(0x0c)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1 _u(0x0d)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0 _u(0x0f)
 #define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN_CONTESTED _u(0x10)
-#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN           _u(0x11)
-#define BUSCTRL_PERFSEL1_VALUE_ROM_CONTESTED      _u(0x12)
-#define BUSCTRL_PERFSEL1_VALUE_ROM                _u(0x13)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN _u(0x11)
+#define BUSCTRL_PERFSEL1_VALUE_ROM_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL1_VALUE_ROM _u(0x13)
 // =============================================================================
 // Register    : BUSCTRL_PERFCTR2
 // Description : Bus fabric performance counter 2
@@ -230,32 +232,32 @@
 //               0x11 -> xip_main
 //               0x12 -> rom_contested
 //               0x13 -> rom
-#define BUSCTRL_PERFSEL2_OFFSET                   _u(0x0000001c)
-#define BUSCTRL_PERFSEL2_BITS                     _u(0x0000001f)
-#define BUSCTRL_PERFSEL2_RESET                    _u(0x0000001f)
-#define BUSCTRL_PERFSEL2_MSB                      _u(4)
-#define BUSCTRL_PERFSEL2_LSB                      _u(0)
-#define BUSCTRL_PERFSEL2_ACCESS                   "RW"
-#define BUSCTRL_PERFSEL2_VALUE_APB_CONTESTED      _u(0x00)
-#define BUSCTRL_PERFSEL2_VALUE_APB                _u(0x01)
+#define BUSCTRL_PERFSEL2_OFFSET _u(0x0000001c)
+#define BUSCTRL_PERFSEL2_BITS   _u(0x0000001f)
+#define BUSCTRL_PERFSEL2_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL2_MSB    _u(4)
+#define BUSCTRL_PERFSEL2_LSB    _u(0)
+#define BUSCTRL_PERFSEL2_ACCESS "RW"
+#define BUSCTRL_PERFSEL2_VALUE_APB_CONTESTED _u(0x00)
+#define BUSCTRL_PERFSEL2_VALUE_APB _u(0x01)
 #define BUSCTRL_PERFSEL2_VALUE_FASTPERI_CONTESTED _u(0x02)
-#define BUSCTRL_PERFSEL2_VALUE_FASTPERI           _u(0x03)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM5_CONTESTED    _u(0x04)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM5              _u(0x05)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM4_CONTESTED    _u(0x06)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM4              _u(0x07)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM3_CONTESTED    _u(0x08)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM3              _u(0x09)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM2_CONTESTED    _u(0x0a)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM2              _u(0x0b)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM1_CONTESTED    _u(0x0c)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM1              _u(0x0d)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM0_CONTESTED    _u(0x0e)
-#define BUSCTRL_PERFSEL2_VALUE_SRAM0              _u(0x0f)
+#define BUSCTRL_PERFSEL2_VALUE_FASTPERI _u(0x03)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5_CONTESTED _u(0x04)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5 _u(0x05)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4 _u(0x07)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3_CONTESTED _u(0x08)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3 _u(0x09)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2 _u(0x0b)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1_CONTESTED _u(0x0c)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1 _u(0x0d)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0 _u(0x0f)
 #define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN_CONTESTED _u(0x10)
-#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN           _u(0x11)
-#define BUSCTRL_PERFSEL2_VALUE_ROM_CONTESTED      _u(0x12)
-#define BUSCTRL_PERFSEL2_VALUE_ROM                _u(0x13)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN _u(0x11)
+#define BUSCTRL_PERFSEL2_VALUE_ROM_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL2_VALUE_ROM _u(0x13)
 // =============================================================================
 // Register    : BUSCTRL_PERFCTR3
 // Description : Bus fabric performance counter 3
@@ -294,31 +296,32 @@
 //               0x11 -> xip_main
 //               0x12 -> rom_contested
 //               0x13 -> rom
-#define BUSCTRL_PERFSEL3_OFFSET                   _u(0x00000024)
-#define BUSCTRL_PERFSEL3_BITS                     _u(0x0000001f)
-#define BUSCTRL_PERFSEL3_RESET                    _u(0x0000001f)
-#define BUSCTRL_PERFSEL3_MSB                      _u(4)
-#define BUSCTRL_PERFSEL3_LSB                      _u(0)
-#define BUSCTRL_PERFSEL3_ACCESS                   "RW"
-#define BUSCTRL_PERFSEL3_VALUE_APB_CONTESTED      _u(0x00)
-#define BUSCTRL_PERFSEL3_VALUE_APB                _u(0x01)
+#define BUSCTRL_PERFSEL3_OFFSET _u(0x00000024)
+#define BUSCTRL_PERFSEL3_BITS   _u(0x0000001f)
+#define BUSCTRL_PERFSEL3_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL3_MSB    _u(4)
+#define BUSCTRL_PERFSEL3_LSB    _u(0)
+#define BUSCTRL_PERFSEL3_ACCESS "RW"
+#define BUSCTRL_PERFSEL3_VALUE_APB_CONTESTED _u(0x00)
+#define BUSCTRL_PERFSEL3_VALUE_APB _u(0x01)
 #define BUSCTRL_PERFSEL3_VALUE_FASTPERI_CONTESTED _u(0x02)
-#define BUSCTRL_PERFSEL3_VALUE_FASTPERI           _u(0x03)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM5_CONTESTED    _u(0x04)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM5              _u(0x05)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM4_CONTESTED    _u(0x06)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM4              _u(0x07)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM3_CONTESTED    _u(0x08)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM3              _u(0x09)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM2_CONTESTED    _u(0x0a)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM2              _u(0x0b)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM1_CONTESTED    _u(0x0c)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM1              _u(0x0d)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM0_CONTESTED    _u(0x0e)
-#define BUSCTRL_PERFSEL3_VALUE_SRAM0              _u(0x0f)
+#define BUSCTRL_PERFSEL3_VALUE_FASTPERI _u(0x03)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5_CONTESTED _u(0x04)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5 _u(0x05)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4 _u(0x07)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3_CONTESTED _u(0x08)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3 _u(0x09)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2 _u(0x0b)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1_CONTESTED _u(0x0c)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1 _u(0x0d)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0 _u(0x0f)
 #define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN_CONTESTED _u(0x10)
-#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN           _u(0x11)
-#define BUSCTRL_PERFSEL3_VALUE_ROM_CONTESTED      _u(0x12)
-#define BUSCTRL_PERFSEL3_VALUE_ROM                _u(0x13)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN _u(0x11)
+#define BUSCTRL_PERFSEL3_VALUE_ROM_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL3_VALUE_ROM _u(0x13)
 // =============================================================================
-#endif // HARDWARE_REGS_BUSCTRL_DEFINED
+#endif // _HARDWARE_REGS_BUSCTRL_H
+
diff --git a/lib/rp2040/hardware/regs/clocks.h b/lib/pico-sdk/rp2040/hardware/regs/clocks.h
similarity index 90%
rename from lib/rp2040/hardware/regs/clocks.h
rename to lib/pico-sdk/rp2040/hardware/regs/clocks.h
index c0d2eab..7c604b9 100644
--- a/lib/rp2040/hardware/regs/clocks.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/clocks.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : CLOCKS
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_CLOCKS_DEFINED
-#define HARDWARE_REGS_CLOCKS_DEFINED
+#ifndef _HARDWARE_REGS_CLOCKS_H
+#define _HARDWARE_REGS_CLOCKS_H
 // =============================================================================
 // Register    : CLOCKS_CLK_GPOUT0_CTRL
 // Description : Clock control, can be changed on-the-fly (except for auxsrc)
@@ -75,22 +76,22 @@
 //               0x8 -> clk_adc
 //               0x9 -> clk_rtc
 //               0xa -> clk_ref
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_BITS                 _u(0x000001e0)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_MSB                  _u(8)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x1)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x2)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
 #define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_ROSC_CLKSRC    _u(0x4)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x5)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_SYS        _u(0x6)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_USB        _u(0x7)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_ADC        _u(0x8)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_RTC        _u(0x9)
-#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_REF        _u(0xa)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x4)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x6)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_USB _u(0x7)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_ADC _u(0x8)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_RTC _u(0x9)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_REF _u(0xa)
 // =============================================================================
 // Register    : CLOCKS_CLK_GPOUT0_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -190,22 +191,22 @@
 //               0x8 -> clk_adc
 //               0x9 -> clk_rtc
 //               0xa -> clk_ref
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_BITS                 _u(0x000001e0)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_MSB                  _u(8)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x1)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x2)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
 #define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_ROSC_CLKSRC    _u(0x4)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x5)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_SYS        _u(0x6)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_USB        _u(0x7)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_ADC        _u(0x8)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_RTC        _u(0x9)
-#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_REF        _u(0xa)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x4)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x6)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_USB _u(0x7)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_ADC _u(0x8)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_RTC _u(0x9)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_REF _u(0xa)
 // =============================================================================
 // Register    : CLOCKS_CLK_GPOUT1_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -305,22 +306,22 @@
 //               0x8 -> clk_adc
 //               0x9 -> clk_rtc
 //               0xa -> clk_ref
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_BITS                 _u(0x000001e0)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_MSB                  _u(8)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x1)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x2)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
 #define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
 #define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x4)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x5)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_SYS        _u(0x6)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_USB        _u(0x7)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_ADC        _u(0x8)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_RTC        _u(0x9)
-#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_REF        _u(0xa)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x6)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_USB _u(0x7)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_ADC _u(0x8)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_RTC _u(0x9)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_REF _u(0xa)
 // =============================================================================
 // Register    : CLOCKS_CLK_GPOUT2_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -420,22 +421,22 @@
 //               0x8 -> clk_adc
 //               0x9 -> clk_rtc
 //               0xa -> clk_ref
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_BITS                 _u(0x000001e0)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_MSB                  _u(8)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x1)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x2)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
 #define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
 #define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x4)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x5)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_SYS        _u(0x6)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_USB        _u(0x7)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_ADC        _u(0x8)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_RTC        _u(0x9)
-#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_REF        _u(0xa)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x6)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_USB _u(0x7)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_ADC _u(0x8)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_RTC _u(0x9)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_REF _u(0xa)
 // =============================================================================
 // Register    : CLOCKS_CLK_GPOUT3_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -483,29 +484,29 @@
 //               0x0 -> clksrc_pll_usb
 //               0x1 -> clksrc_gpin0
 //               0x2 -> clksrc_gpin1
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_BITS                 _u(0x00000060)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_MSB                  _u(6)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_BITS   _u(0x00000060)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_MSB    _u(6)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x1)
-#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x2)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_CLK_REF_CTRL_SRC
-// Description : Selects the clock source glitchlessly, can be changed
-//               on-the-fly
+// Description : Selects the clock source glitchlessly, can be changed on-the-
+//               fly
 //               0x0 -> rosc_clksrc_ph
 //               0x1 -> clksrc_clk_ref_aux
 //               0x2 -> xosc_clksrc
-#define CLOCKS_CLK_REF_CTRL_SRC_RESET                    "-"
-#define CLOCKS_CLK_REF_CTRL_SRC_BITS                     _u(0x00000003)
-#define CLOCKS_CLK_REF_CTRL_SRC_MSB                      _u(1)
-#define CLOCKS_CLK_REF_CTRL_SRC_LSB                      _u(0)
-#define CLOCKS_CLK_REF_CTRL_SRC_ACCESS                   "RW"
-#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_ROSC_CLKSRC_PH     _u(0x0)
+#define CLOCKS_CLK_REF_CTRL_SRC_RESET  "-"
+#define CLOCKS_CLK_REF_CTRL_SRC_BITS   _u(0x00000003)
+#define CLOCKS_CLK_REF_CTRL_SRC_MSB    _u(1)
+#define CLOCKS_CLK_REF_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_CLK_REF_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_ROSC_CLKSRC_PH _u(0x0)
 #define CLOCKS_CLK_REF_CTRL_SRC_VALUE_CLKSRC_CLK_REF_AUX _u(0x1)
-#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_XOSC_CLKSRC        _u(0x2)
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_XOSC_CLKSRC _u(0x2)
 // =============================================================================
 // Register    : CLOCKS_CLK_REF_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -553,29 +554,29 @@
 //               0x3 -> xosc_clksrc
 //               0x4 -> clksrc_gpin0
 //               0x5 -> clksrc_gpin1
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_BITS                 _u(0x000000e0)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_MSB                  _u(7)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
 #define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x1)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_ROSC_CLKSRC    _u(0x2)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x3)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x4)
-#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x5)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x2)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_CLK_SYS_CTRL_SRC
-// Description : Selects the clock source glitchlessly, can be changed
-//               on-the-fly
+// Description : Selects the clock source glitchlessly, can be changed on-the-
+//               fly
 //               0x0 -> clk_ref
 //               0x1 -> clksrc_clk_sys_aux
-#define CLOCKS_CLK_SYS_CTRL_SRC_RESET                    _u(0x0)
-#define CLOCKS_CLK_SYS_CTRL_SRC_BITS                     _u(0x00000001)
-#define CLOCKS_CLK_SYS_CTRL_SRC_MSB                      _u(0)
-#define CLOCKS_CLK_SYS_CTRL_SRC_LSB                      _u(0)
-#define CLOCKS_CLK_SYS_CTRL_SRC_ACCESS                   "RW"
-#define CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLK_REF            _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_BITS   _u(0x00000001)
+#define CLOCKS_CLK_SYS_CTRL_SRC_MSB    _u(0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLK_REF _u(0x0)
 #define CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLKSRC_CLK_SYS_AUX _u(0x1)
 // =============================================================================
 // Register    : CLOCKS_CLK_SYS_DIV
@@ -649,18 +650,18 @@
 //               0x4 -> xosc_clksrc
 //               0x5 -> clksrc_gpin0
 //               0x6 -> clksrc_gpin1
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_BITS                 _u(0x000000e0)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_MSB                  _u(7)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_ACCESS               "RW"
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLK_SYS        _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x0)
 #define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
 #define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x2)
 #define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x3)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x4)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x5)
-#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x6)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x4)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x5)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x6)
 // =============================================================================
 // Register    : CLOCKS_CLK_PERI_SELECTED
 // Description : Indicates which SRC is currently selected by the glitchless mux
@@ -725,17 +726,17 @@
 //               0x3 -> xosc_clksrc
 //               0x4 -> clksrc_gpin0
 //               0x5 -> clksrc_gpin1
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_BITS                 _u(0x000000e0)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_MSB                  _u(7)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
 #define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
 #define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x2)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x3)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x4)
-#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x5)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
 // =============================================================================
 // Register    : CLOCKS_CLK_USB_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -814,17 +815,17 @@
 //               0x3 -> xosc_clksrc
 //               0x4 -> clksrc_gpin0
 //               0x5 -> clksrc_gpin1
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_BITS                 _u(0x000000e0)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_MSB                  _u(7)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
 #define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
 #define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x2)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x3)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x4)
-#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x5)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
 // =============================================================================
 // Register    : CLOCKS_CLK_ADC_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -903,17 +904,17 @@
 //               0x3 -> xosc_clksrc
 //               0x4 -> clksrc_gpin0
 //               0x5 -> clksrc_gpin1
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_RESET                _u(0x0)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_BITS                 _u(0x000000e0)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_MSB                  _u(7)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_LSB                  _u(5)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_ACCESS               "RW"
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_ACCESS "RW"
 #define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
 #define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
 #define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x2)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_XOSC_CLKSRC    _u(0x3)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0   _u(0x4)
-#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1   _u(0x5)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_RTC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
 // =============================================================================
 // Register    : CLOCKS_CLK_RTC_DIV
 // Description : Clock divisor, can be changed on-the-fly
@@ -951,7 +952,6 @@
 #define CLOCKS_CLK_RTC_SELECTED_ACCESS "RO"
 // =============================================================================
 // Register    : CLOCKS_CLK_SYS_RESUS_CTRL
-// Description : None
 #define CLOCKS_CLK_SYS_RESUS_CTRL_OFFSET _u(0x00000078)
 #define CLOCKS_CLK_SYS_RESUS_CTRL_BITS   _u(0x000111ff)
 #define CLOCKS_CLK_SYS_RESUS_CTRL_RESET  _u(0x000000ff)
@@ -991,7 +991,6 @@
 #define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_ACCESS "RW"
 // =============================================================================
 // Register    : CLOCKS_CLK_SYS_RESUS_STATUS
-// Description : None
 #define CLOCKS_CLK_SYS_RESUS_STATUS_OFFSET _u(0x0000007c)
 #define CLOCKS_CLK_SYS_RESUS_STATUS_BITS   _u(0x00000001)
 #define CLOCKS_CLK_SYS_RESUS_STATUS_RESET  _u(0x00000000)
@@ -1073,26 +1072,26 @@
 //               0x0b -> clk_usb
 //               0x0c -> clk_adc
 //               0x0d -> clk_rtc
-#define CLOCKS_FC0_SRC_OFFSET                       _u(0x00000094)
-#define CLOCKS_FC0_SRC_BITS                         _u(0x000000ff)
-#define CLOCKS_FC0_SRC_RESET                        _u(0x00000000)
-#define CLOCKS_FC0_SRC_MSB                          _u(7)
-#define CLOCKS_FC0_SRC_LSB                          _u(0)
-#define CLOCKS_FC0_SRC_ACCESS                       "RW"
-#define CLOCKS_FC0_SRC_VALUE_NULL                   _u(0x00)
+#define CLOCKS_FC0_SRC_OFFSET _u(0x00000094)
+#define CLOCKS_FC0_SRC_BITS   _u(0x000000ff)
+#define CLOCKS_FC0_SRC_RESET  _u(0x00000000)
+#define CLOCKS_FC0_SRC_MSB    _u(7)
+#define CLOCKS_FC0_SRC_LSB    _u(0)
+#define CLOCKS_FC0_SRC_ACCESS "RW"
+#define CLOCKS_FC0_SRC_VALUE_NULL _u(0x00)
 #define CLOCKS_FC0_SRC_VALUE_PLL_SYS_CLKSRC_PRIMARY _u(0x01)
 #define CLOCKS_FC0_SRC_VALUE_PLL_USB_CLKSRC_PRIMARY _u(0x02)
-#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC            _u(0x03)
-#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC_PH         _u(0x04)
-#define CLOCKS_FC0_SRC_VALUE_XOSC_CLKSRC            _u(0x05)
-#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN0           _u(0x06)
-#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN1           _u(0x07)
-#define CLOCKS_FC0_SRC_VALUE_CLK_REF                _u(0x08)
-#define CLOCKS_FC0_SRC_VALUE_CLK_SYS                _u(0x09)
-#define CLOCKS_FC0_SRC_VALUE_CLK_PERI               _u(0x0a)
-#define CLOCKS_FC0_SRC_VALUE_CLK_USB                _u(0x0b)
-#define CLOCKS_FC0_SRC_VALUE_CLK_ADC                _u(0x0c)
-#define CLOCKS_FC0_SRC_VALUE_CLK_RTC                _u(0x0d)
+#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC _u(0x03)
+#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC_PH _u(0x04)
+#define CLOCKS_FC0_SRC_VALUE_XOSC_CLKSRC _u(0x05)
+#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN0 _u(0x06)
+#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN1 _u(0x07)
+#define CLOCKS_FC0_SRC_VALUE_CLK_REF _u(0x08)
+#define CLOCKS_FC0_SRC_VALUE_CLK_SYS _u(0x09)
+#define CLOCKS_FC0_SRC_VALUE_CLK_PERI _u(0x0a)
+#define CLOCKS_FC0_SRC_VALUE_CLK_USB _u(0x0b)
+#define CLOCKS_FC0_SRC_VALUE_CLK_ADC _u(0x0c)
+#define CLOCKS_FC0_SRC_VALUE_CLK_RTC _u(0x0d)
 // =============================================================================
 // Register    : CLOCKS_FC0_STATUS
 // Description : Frequency counter status
@@ -1171,7 +1170,6 @@
 #define CLOCKS_FC0_RESULT_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_FC0_RESULT_KHZ
-// Description : None
 #define CLOCKS_FC0_RESULT_KHZ_RESET  _u(0x0000000)
 #define CLOCKS_FC0_RESULT_KHZ_BITS   _u(0x3fffffe0)
 #define CLOCKS_FC0_RESULT_KHZ_MSB    _u(29)
@@ -1179,7 +1177,6 @@
 #define CLOCKS_FC0_RESULT_KHZ_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_FC0_RESULT_FRAC
-// Description : None
 #define CLOCKS_FC0_RESULT_FRAC_RESET  _u(0x00)
 #define CLOCKS_FC0_RESULT_FRAC_BITS   _u(0x0000001f)
 #define CLOCKS_FC0_RESULT_FRAC_MSB    _u(4)
@@ -1193,7 +1190,6 @@
 #define CLOCKS_WAKE_EN0_RESET  _u(0xffffffff)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SRAM3
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM3_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM3_BITS   _u(0x80000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM3_MSB    _u(31)
@@ -1201,7 +1197,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SRAM2
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM2_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM2_BITS   _u(0x40000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM2_MSB    _u(30)
@@ -1209,7 +1204,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SRAM1
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM1_BITS   _u(0x20000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM1_MSB    _u(29)
@@ -1217,7 +1211,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SRAM0
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM0_BITS   _u(0x10000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM0_MSB    _u(28)
@@ -1225,7 +1218,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SRAM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SPI1
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI1_BITS   _u(0x08000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI1_MSB    _u(27)
@@ -1233,7 +1225,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_PERI_SPI1
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI1_BITS   _u(0x04000000)
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI1_MSB    _u(26)
@@ -1241,7 +1232,6 @@
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SPI0
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI0_BITS   _u(0x02000000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI0_MSB    _u(25)
@@ -1249,7 +1239,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_PERI_SPI0
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI0_BITS   _u(0x01000000)
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI0_MSB    _u(24)
@@ -1257,7 +1246,6 @@
 #define CLOCKS_WAKE_EN0_CLK_PERI_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_SIO
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_SIO_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SIO_BITS   _u(0x00800000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_SIO_MSB    _u(23)
@@ -1265,7 +1253,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_SIO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_RTC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_RTC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_RTC_BITS   _u(0x00400000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_RTC_MSB    _u(22)
@@ -1273,7 +1260,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_RTC_RTC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_RTC_RTC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_RTC_RTC_BITS   _u(0x00200000)
 #define CLOCKS_WAKE_EN0_CLK_RTC_RTC_MSB    _u(21)
@@ -1281,7 +1267,6 @@
 #define CLOCKS_WAKE_EN0_CLK_RTC_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_ROSC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_BITS   _u(0x00100000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_MSB    _u(20)
@@ -1289,7 +1274,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_ROM
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROM_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROM_BITS   _u(0x00080000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROM_MSB    _u(19)
@@ -1297,7 +1281,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_RESETS
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_BITS   _u(0x00040000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_MSB    _u(18)
@@ -1305,7 +1288,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PWM
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PWM_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PWM_BITS   _u(0x00020000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PWM_MSB    _u(17)
@@ -1313,7 +1295,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PWM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PSM
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PSM_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PSM_BITS   _u(0x00010000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PSM_MSB    _u(16)
@@ -1321,7 +1302,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PSM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_BITS   _u(0x00008000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_MSB    _u(15)
@@ -1329,7 +1309,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_BITS   _u(0x00004000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_MSB    _u(14)
@@ -1337,7 +1316,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PIO1
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_BITS   _u(0x00002000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_MSB    _u(13)
@@ -1345,7 +1323,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PIO0
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_BITS   _u(0x00001000)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_MSB    _u(12)
@@ -1353,7 +1330,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_PADS
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_PADS_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PADS_BITS   _u(0x00000800)
 #define CLOCKS_WAKE_EN0_CLK_SYS_PADS_MSB    _u(11)
@@ -1361,7 +1337,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_PADS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_VREG_AND_CHIP_RESET
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_VREG_AND_CHIP_RESET_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_VREG_AND_CHIP_RESET_BITS   _u(0x00000400)
 #define CLOCKS_WAKE_EN0_CLK_SYS_VREG_AND_CHIP_RESET_MSB    _u(10)
@@ -1369,7 +1344,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_VREG_AND_CHIP_RESET_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_JTAG
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_BITS   _u(0x00000200)
 #define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_MSB    _u(9)
@@ -1377,7 +1351,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_IO
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_IO_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_IO_BITS   _u(0x00000100)
 #define CLOCKS_WAKE_EN0_CLK_SYS_IO_MSB    _u(8)
@@ -1385,7 +1358,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_IO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_I2C1
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_BITS   _u(0x00000080)
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_MSB    _u(7)
@@ -1393,7 +1365,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_I2C0
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_BITS   _u(0x00000040)
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_MSB    _u(6)
@@ -1401,7 +1372,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_DMA
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_DMA_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_DMA_BITS   _u(0x00000020)
 #define CLOCKS_WAKE_EN0_CLK_SYS_DMA_MSB    _u(5)
@@ -1409,7 +1379,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_DMA_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000010)
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_MSB    _u(4)
@@ -1417,7 +1386,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_BITS   _u(0x00000008)
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_MSB    _u(3)
@@ -1425,7 +1393,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_ADC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_ADC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ADC_BITS   _u(0x00000004)
 #define CLOCKS_WAKE_EN0_CLK_SYS_ADC_MSB    _u(2)
@@ -1433,7 +1400,6 @@
 #define CLOCKS_WAKE_EN0_CLK_SYS_ADC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_ADC_ADC
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_ADC_ADC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_ADC_ADC_BITS   _u(0x00000002)
 #define CLOCKS_WAKE_EN0_CLK_ADC_ADC_MSB    _u(1)
@@ -1441,7 +1407,6 @@
 #define CLOCKS_WAKE_EN0_CLK_ADC_ADC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS
-// Description : None
 #define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
 #define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_MSB    _u(0)
@@ -1455,7 +1420,6 @@
 #define CLOCKS_WAKE_EN1_RESET  _u(0x00007fff)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_XOSC
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_BITS   _u(0x00004000)
 #define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_MSB    _u(14)
@@ -1463,7 +1427,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_XIP
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_XIP_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_XIP_BITS   _u(0x00002000)
 #define CLOCKS_WAKE_EN1_CLK_SYS_XIP_MSB    _u(13)
@@ -1471,7 +1434,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_XIP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_BITS   _u(0x00001000)
 #define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_MSB    _u(12)
@@ -1479,7 +1441,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_USB_USBCTRL
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_USB_USBCTRL_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_USB_USBCTRL_BITS   _u(0x00000800)
 #define CLOCKS_WAKE_EN1_CLK_USB_USBCTRL_MSB    _u(11)
@@ -1487,7 +1448,6 @@
 #define CLOCKS_WAKE_EN1_CLK_USB_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_BITS   _u(0x00000400)
 #define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_MSB    _u(10)
@@ -1495,7 +1455,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_UART1
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART1_BITS   _u(0x00000200)
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART1_MSB    _u(9)
@@ -1503,7 +1462,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_PERI_UART1
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART1_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART1_BITS   _u(0x00000100)
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART1_MSB    _u(8)
@@ -1511,7 +1469,6 @@
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_UART0
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART0_BITS   _u(0x00000080)
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART0_MSB    _u(7)
@@ -1519,7 +1476,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_PERI_UART0
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART0_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART0_BITS   _u(0x00000040)
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART0_MSB    _u(6)
@@ -1527,7 +1483,6 @@
 #define CLOCKS_WAKE_EN1_CLK_PERI_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_TIMER
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_TIMER_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_TIMER_BITS   _u(0x00000020)
 #define CLOCKS_WAKE_EN1_CLK_SYS_TIMER_MSB    _u(5)
@@ -1535,7 +1490,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_TIMER_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_TBMAN
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_BITS   _u(0x00000010)
 #define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_MSB    _u(4)
@@ -1543,7 +1497,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_BITS   _u(0x00000008)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_MSB    _u(3)
@@ -1551,7 +1504,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_BITS   _u(0x00000004)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_MSB    _u(2)
@@ -1559,7 +1511,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM5
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_BITS   _u(0x00000002)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_MSB    _u(1)
@@ -1567,7 +1518,6 @@
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM4
-// Description : None
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_RESET  _u(0x1)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_BITS   _u(0x00000001)
 #define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_MSB    _u(0)
@@ -1581,7 +1531,6 @@
 #define CLOCKS_SLEEP_EN0_RESET  _u(0xffffffff)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SRAM3
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM3_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM3_BITS   _u(0x80000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM3_MSB    _u(31)
@@ -1589,7 +1538,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SRAM2
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM2_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM2_BITS   _u(0x40000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM2_MSB    _u(30)
@@ -1597,7 +1545,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SRAM1
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM1_BITS   _u(0x20000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM1_MSB    _u(29)
@@ -1605,7 +1552,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SRAM0
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM0_BITS   _u(0x10000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM0_MSB    _u(28)
@@ -1613,7 +1559,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SRAM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SPI1
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI1_BITS   _u(0x08000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI1_MSB    _u(27)
@@ -1621,7 +1566,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_PERI_SPI1
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI1_BITS   _u(0x04000000)
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI1_MSB    _u(26)
@@ -1629,7 +1573,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SPI0
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI0_BITS   _u(0x02000000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI0_MSB    _u(25)
@@ -1637,7 +1580,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_PERI_SPI0
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI0_BITS   _u(0x01000000)
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI0_MSB    _u(24)
@@ -1645,7 +1587,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_PERI_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SIO
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_BITS   _u(0x00800000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_MSB    _u(23)
@@ -1653,7 +1594,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_RTC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RTC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RTC_BITS   _u(0x00400000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RTC_MSB    _u(22)
@@ -1661,7 +1601,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_RTC_RTC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_RTC_RTC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_RTC_RTC_BITS   _u(0x00200000)
 #define CLOCKS_SLEEP_EN0_CLK_RTC_RTC_MSB    _u(21)
@@ -1669,7 +1608,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_RTC_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ROSC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_BITS   _u(0x00100000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_MSB    _u(20)
@@ -1677,7 +1615,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ROM
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_BITS   _u(0x00080000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_MSB    _u(19)
@@ -1685,7 +1622,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_RESETS
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_BITS   _u(0x00040000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_MSB    _u(18)
@@ -1693,7 +1629,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PWM
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_BITS   _u(0x00020000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_MSB    _u(17)
@@ -1701,7 +1636,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PSM
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_BITS   _u(0x00010000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_MSB    _u(16)
@@ -1709,7 +1643,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_BITS   _u(0x00008000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_MSB    _u(15)
@@ -1717,7 +1650,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_BITS   _u(0x00004000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_MSB    _u(14)
@@ -1725,7 +1657,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PIO1
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_BITS   _u(0x00002000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_MSB    _u(13)
@@ -1733,7 +1664,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PIO0
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_BITS   _u(0x00001000)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_MSB    _u(12)
@@ -1741,7 +1671,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PADS
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_BITS   _u(0x00000800)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_MSB    _u(11)
@@ -1749,7 +1678,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_VREG_AND_CHIP_RESET
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_VREG_AND_CHIP_RESET_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_VREG_AND_CHIP_RESET_BITS   _u(0x00000400)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_VREG_AND_CHIP_RESET_MSB    _u(10)
@@ -1757,7 +1685,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_VREG_AND_CHIP_RESET_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_JTAG
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_BITS   _u(0x00000200)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_MSB    _u(9)
@@ -1765,7 +1692,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_IO
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_IO_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_IO_BITS   _u(0x00000100)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_IO_MSB    _u(8)
@@ -1773,7 +1699,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_IO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_I2C1
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_BITS   _u(0x00000080)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_MSB    _u(7)
@@ -1781,7 +1706,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_I2C0
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_BITS   _u(0x00000040)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_MSB    _u(6)
@@ -1789,7 +1713,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_DMA
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_BITS   _u(0x00000020)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_MSB    _u(5)
@@ -1797,7 +1720,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000010)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_MSB    _u(4)
@@ -1805,7 +1727,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_BITS   _u(0x00000008)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_MSB    _u(3)
@@ -1813,7 +1734,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ADC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_BITS   _u(0x00000004)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_MSB    _u(2)
@@ -1821,7 +1741,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_ADC_ADC
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_ADC_ADC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_ADC_ADC_BITS   _u(0x00000002)
 #define CLOCKS_SLEEP_EN0_CLK_ADC_ADC_MSB    _u(1)
@@ -1829,7 +1748,6 @@
 #define CLOCKS_SLEEP_EN0_CLK_ADC_ADC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS
-// Description : None
 #define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
 #define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_MSB    _u(0)
@@ -1843,7 +1761,6 @@
 #define CLOCKS_SLEEP_EN1_RESET  _u(0x00007fff)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_XOSC
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_BITS   _u(0x00004000)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_MSB    _u(14)
@@ -1851,7 +1768,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_XIP
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_BITS   _u(0x00002000)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_MSB    _u(13)
@@ -1859,7 +1775,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_BITS   _u(0x00001000)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_MSB    _u(12)
@@ -1867,7 +1782,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_USB_USBCTRL
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_USB_USBCTRL_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_USB_USBCTRL_BITS   _u(0x00000800)
 #define CLOCKS_SLEEP_EN1_CLK_USB_USBCTRL_MSB    _u(11)
@@ -1875,7 +1789,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_USB_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_BITS   _u(0x00000400)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_MSB    _u(10)
@@ -1883,7 +1796,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_UART1
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_BITS   _u(0x00000200)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_MSB    _u(9)
@@ -1891,7 +1803,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_PERI_UART1
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_BITS   _u(0x00000100)
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_MSB    _u(8)
@@ -1899,7 +1810,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_UART0
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_BITS   _u(0x00000080)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_MSB    _u(7)
@@ -1907,7 +1817,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_PERI_UART0
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_BITS   _u(0x00000040)
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_MSB    _u(6)
@@ -1915,7 +1824,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TIMER
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER_BITS   _u(0x00000020)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER_MSB    _u(5)
@@ -1923,7 +1831,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_BITS   _u(0x00000010)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_MSB    _u(4)
@@ -1931,7 +1838,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_BITS   _u(0x00000008)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_MSB    _u(3)
@@ -1939,7 +1845,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_BITS   _u(0x00000004)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_MSB    _u(2)
@@ -1947,7 +1852,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_BITS   _u(0x00000002)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_MSB    _u(1)
@@ -1955,7 +1859,6 @@
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4
-// Description : None
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_RESET  _u(0x1)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_BITS   _u(0x00000001)
 #define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_MSB    _u(0)
@@ -1969,7 +1872,6 @@
 #define CLOCKS_ENABLED0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SRAM3
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM3_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM3_BITS   _u(0x80000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM3_MSB    _u(31)
@@ -1977,7 +1879,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SRAM2
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM2_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM2_BITS   _u(0x40000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM2_MSB    _u(30)
@@ -1985,7 +1886,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SRAM1
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM1_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM1_BITS   _u(0x20000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM1_MSB    _u(29)
@@ -1993,7 +1893,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SRAM0
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM0_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM0_BITS   _u(0x10000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM0_MSB    _u(28)
@@ -2001,7 +1900,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SRAM0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SPI1
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SPI1_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SPI1_BITS   _u(0x08000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SPI1_MSB    _u(27)
@@ -2009,7 +1907,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SPI1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_PERI_SPI1
-// Description : None
 #define CLOCKS_ENABLED0_CLK_PERI_SPI1_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_PERI_SPI1_BITS   _u(0x04000000)
 #define CLOCKS_ENABLED0_CLK_PERI_SPI1_MSB    _u(26)
@@ -2017,7 +1914,6 @@
 #define CLOCKS_ENABLED0_CLK_PERI_SPI1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SPI0
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SPI0_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SPI0_BITS   _u(0x02000000)
 #define CLOCKS_ENABLED0_CLK_SYS_SPI0_MSB    _u(25)
@@ -2025,7 +1921,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SPI0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_PERI_SPI0
-// Description : None
 #define CLOCKS_ENABLED0_CLK_PERI_SPI0_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_PERI_SPI0_BITS   _u(0x01000000)
 #define CLOCKS_ENABLED0_CLK_PERI_SPI0_MSB    _u(24)
@@ -2033,7 +1928,6 @@
 #define CLOCKS_ENABLED0_CLK_PERI_SPI0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_SIO
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_SIO_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_SIO_BITS   _u(0x00800000)
 #define CLOCKS_ENABLED0_CLK_SYS_SIO_MSB    _u(23)
@@ -2041,7 +1935,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_SIO_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_RTC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_RTC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_RTC_BITS   _u(0x00400000)
 #define CLOCKS_ENABLED0_CLK_SYS_RTC_MSB    _u(22)
@@ -2049,7 +1942,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_RTC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_RTC_RTC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_RTC_RTC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_RTC_RTC_BITS   _u(0x00200000)
 #define CLOCKS_ENABLED0_CLK_RTC_RTC_MSB    _u(21)
@@ -2057,7 +1949,6 @@
 #define CLOCKS_ENABLED0_CLK_RTC_RTC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_ROSC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_ROSC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_ROSC_BITS   _u(0x00100000)
 #define CLOCKS_ENABLED0_CLK_SYS_ROSC_MSB    _u(20)
@@ -2065,7 +1956,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_ROSC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_ROM
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_ROM_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_ROM_BITS   _u(0x00080000)
 #define CLOCKS_ENABLED0_CLK_SYS_ROM_MSB    _u(19)
@@ -2073,7 +1963,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_ROM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_RESETS
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_RESETS_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_RESETS_BITS   _u(0x00040000)
 #define CLOCKS_ENABLED0_CLK_SYS_RESETS_MSB    _u(18)
@@ -2081,7 +1970,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_RESETS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PWM
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PWM_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PWM_BITS   _u(0x00020000)
 #define CLOCKS_ENABLED0_CLK_SYS_PWM_MSB    _u(17)
@@ -2089,7 +1977,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PWM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PSM
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PSM_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PSM_BITS   _u(0x00010000)
 #define CLOCKS_ENABLED0_CLK_SYS_PSM_MSB    _u(16)
@@ -2097,7 +1984,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PSM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PLL_USB
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_BITS   _u(0x00008000)
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_MSB    _u(15)
@@ -2105,7 +1991,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PLL_SYS
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_BITS   _u(0x00004000)
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_MSB    _u(14)
@@ -2113,7 +1998,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PIO1
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PIO1_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PIO1_BITS   _u(0x00002000)
 #define CLOCKS_ENABLED0_CLK_SYS_PIO1_MSB    _u(13)
@@ -2121,7 +2005,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PIO1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PIO0
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PIO0_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PIO0_BITS   _u(0x00001000)
 #define CLOCKS_ENABLED0_CLK_SYS_PIO0_MSB    _u(12)
@@ -2129,7 +2012,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PIO0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_PADS
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_PADS_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_PADS_BITS   _u(0x00000800)
 #define CLOCKS_ENABLED0_CLK_SYS_PADS_MSB    _u(11)
@@ -2137,7 +2019,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_PADS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_VREG_AND_CHIP_RESET
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_VREG_AND_CHIP_RESET_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_VREG_AND_CHIP_RESET_BITS   _u(0x00000400)
 #define CLOCKS_ENABLED0_CLK_SYS_VREG_AND_CHIP_RESET_MSB    _u(10)
@@ -2145,7 +2026,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_VREG_AND_CHIP_RESET_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_JTAG
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_JTAG_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_JTAG_BITS   _u(0x00000200)
 #define CLOCKS_ENABLED0_CLK_SYS_JTAG_MSB    _u(9)
@@ -2153,7 +2033,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_JTAG_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_IO
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_IO_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_IO_BITS   _u(0x00000100)
 #define CLOCKS_ENABLED0_CLK_SYS_IO_MSB    _u(8)
@@ -2161,7 +2040,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_IO_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_I2C1
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_I2C1_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_I2C1_BITS   _u(0x00000080)
 #define CLOCKS_ENABLED0_CLK_SYS_I2C1_MSB    _u(7)
@@ -2169,7 +2047,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_I2C1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_I2C0
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_I2C0_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_I2C0_BITS   _u(0x00000040)
 #define CLOCKS_ENABLED0_CLK_SYS_I2C0_MSB    _u(6)
@@ -2177,7 +2054,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_I2C0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_DMA
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_DMA_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_DMA_BITS   _u(0x00000020)
 #define CLOCKS_ENABLED0_CLK_SYS_DMA_MSB    _u(5)
@@ -2185,7 +2061,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_DMA_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000010)
 #define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_MSB    _u(4)
@@ -2193,7 +2068,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_BUSCTRL
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_BITS   _u(0x00000008)
 #define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_MSB    _u(3)
@@ -2201,7 +2075,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_ADC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_ADC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_ADC_BITS   _u(0x00000004)
 #define CLOCKS_ENABLED0_CLK_SYS_ADC_MSB    _u(2)
@@ -2209,7 +2082,6 @@
 #define CLOCKS_ENABLED0_CLK_SYS_ADC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_ADC_ADC
-// Description : None
 #define CLOCKS_ENABLED0_CLK_ADC_ADC_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_ADC_ADC_BITS   _u(0x00000002)
 #define CLOCKS_ENABLED0_CLK_ADC_ADC_MSB    _u(1)
@@ -2217,7 +2089,6 @@
 #define CLOCKS_ENABLED0_CLK_ADC_ADC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED0_CLK_SYS_CLOCKS
-// Description : None
 #define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_RESET  _u(0x0)
 #define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
 #define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_MSB    _u(0)
@@ -2231,7 +2102,6 @@
 #define CLOCKS_ENABLED1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_XOSC
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_XOSC_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_XOSC_BITS   _u(0x00004000)
 #define CLOCKS_ENABLED1_CLK_SYS_XOSC_MSB    _u(14)
@@ -2239,7 +2109,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_XOSC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_XIP
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_XIP_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_XIP_BITS   _u(0x00002000)
 #define CLOCKS_ENABLED1_CLK_SYS_XIP_MSB    _u(13)
@@ -2247,7 +2116,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_XIP_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_WATCHDOG
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_BITS   _u(0x00001000)
 #define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_MSB    _u(12)
@@ -2255,7 +2123,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_USB_USBCTRL
-// Description : None
 #define CLOCKS_ENABLED1_CLK_USB_USBCTRL_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_USB_USBCTRL_BITS   _u(0x00000800)
 #define CLOCKS_ENABLED1_CLK_USB_USBCTRL_MSB    _u(11)
@@ -2263,7 +2130,6 @@
 #define CLOCKS_ENABLED1_CLK_USB_USBCTRL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_USBCTRL
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_BITS   _u(0x00000400)
 #define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_MSB    _u(10)
@@ -2271,7 +2137,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_UART1
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_UART1_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_UART1_BITS   _u(0x00000200)
 #define CLOCKS_ENABLED1_CLK_SYS_UART1_MSB    _u(9)
@@ -2279,7 +2144,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_UART1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_PERI_UART1
-// Description : None
 #define CLOCKS_ENABLED1_CLK_PERI_UART1_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_PERI_UART1_BITS   _u(0x00000100)
 #define CLOCKS_ENABLED1_CLK_PERI_UART1_MSB    _u(8)
@@ -2287,7 +2151,6 @@
 #define CLOCKS_ENABLED1_CLK_PERI_UART1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_UART0
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_UART0_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_UART0_BITS   _u(0x00000080)
 #define CLOCKS_ENABLED1_CLK_SYS_UART0_MSB    _u(7)
@@ -2295,7 +2158,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_UART0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_PERI_UART0
-// Description : None
 #define CLOCKS_ENABLED1_CLK_PERI_UART0_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_PERI_UART0_BITS   _u(0x00000040)
 #define CLOCKS_ENABLED1_CLK_PERI_UART0_MSB    _u(6)
@@ -2303,7 +2165,6 @@
 #define CLOCKS_ENABLED1_CLK_PERI_UART0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_TIMER
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_TIMER_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_TIMER_BITS   _u(0x00000020)
 #define CLOCKS_ENABLED1_CLK_SYS_TIMER_MSB    _u(5)
@@ -2311,7 +2172,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_TIMER_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_TBMAN
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_TBMAN_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_TBMAN_BITS   _u(0x00000010)
 #define CLOCKS_ENABLED1_CLK_SYS_TBMAN_MSB    _u(4)
@@ -2319,7 +2179,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_TBMAN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_SYSINFO
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_BITS   _u(0x00000008)
 #define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_MSB    _u(3)
@@ -2327,7 +2186,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_SYSCFG
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_BITS   _u(0x00000004)
 #define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_MSB    _u(2)
@@ -2335,7 +2193,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM5
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM5_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM5_BITS   _u(0x00000002)
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM5_MSB    _u(1)
@@ -2343,7 +2200,6 @@
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM5_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM4
-// Description : None
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM4_RESET  _u(0x0)
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM4_BITS   _u(0x00000001)
 #define CLOCKS_ENABLED1_CLK_SYS_SRAM4_MSB    _u(0)
@@ -2357,7 +2213,6 @@
 #define CLOCKS_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_INTR_CLK_SYS_RESUS
-// Description : None
 #define CLOCKS_INTR_CLK_SYS_RESUS_RESET  _u(0x0)
 #define CLOCKS_INTR_CLK_SYS_RESUS_BITS   _u(0x00000001)
 #define CLOCKS_INTR_CLK_SYS_RESUS_MSB    _u(0)
@@ -2371,7 +2226,6 @@
 #define CLOCKS_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_INTE_CLK_SYS_RESUS
-// Description : None
 #define CLOCKS_INTE_CLK_SYS_RESUS_RESET  _u(0x0)
 #define CLOCKS_INTE_CLK_SYS_RESUS_BITS   _u(0x00000001)
 #define CLOCKS_INTE_CLK_SYS_RESUS_MSB    _u(0)
@@ -2385,7 +2239,6 @@
 #define CLOCKS_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_INTF_CLK_SYS_RESUS
-// Description : None
 #define CLOCKS_INTF_CLK_SYS_RESUS_RESET  _u(0x0)
 #define CLOCKS_INTF_CLK_SYS_RESUS_BITS   _u(0x00000001)
 #define CLOCKS_INTF_CLK_SYS_RESUS_MSB    _u(0)
@@ -2399,11 +2252,11 @@
 #define CLOCKS_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : CLOCKS_INTS_CLK_SYS_RESUS
-// Description : None
 #define CLOCKS_INTS_CLK_SYS_RESUS_RESET  _u(0x0)
 #define CLOCKS_INTS_CLK_SYS_RESUS_BITS   _u(0x00000001)
 #define CLOCKS_INTS_CLK_SYS_RESUS_MSB    _u(0)
 #define CLOCKS_INTS_CLK_SYS_RESUS_LSB    _u(0)
 #define CLOCKS_INTS_CLK_SYS_RESUS_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_CLOCKS_DEFINED
+#endif // _HARDWARE_REGS_CLOCKS_H
+
diff --git a/lib/rp2040/hardware/regs/dma.h b/lib/pico-sdk/rp2040/hardware/regs/dma.h
similarity index 90%
rename from lib/rp2040/hardware/regs/dma.h
rename to lib/pico-sdk/rp2040/hardware/regs/dma.h
index 49938ba..62a37ec 100644
--- a/lib/rp2040/hardware/regs/dma.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/dma.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : DMA with separate read and write masters
 // =============================================================================
-#ifndef HARDWARE_REGS_DMA_DEFINED
-#define HARDWARE_REGS_DMA_DEFINED
+#ifndef _HARDWARE_REGS_DMA_H
+#define _HARDWARE_REGS_DMA_H
 // =============================================================================
 // Register    : DMA_CH0_READ_ADDR
 // Description : DMA Channel 0 Read Address pointer
@@ -84,7 +86,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH0_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH0_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -96,8 +98,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH0_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH0_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH0_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -124,8 +126,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH0_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH0_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH0_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -168,22 +170,21 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH0_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (0).
 #define DMA_CH0_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH0_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH0_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
@@ -210,11 +211,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH0_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH0_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH0_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH0_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH0_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH0_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH0_CTRL_TRIG_INCR_WRITE
@@ -248,14 +249,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH0_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -294,7 +295,7 @@
 #define DMA_CH0_AL1_CTRL_RESET  "-"
 #define DMA_CH0_AL1_CTRL_MSB    _u(31)
 #define DMA_CH0_AL1_CTRL_LSB    _u(0)
-#define DMA_CH0_AL1_CTRL_ACCESS "RO"
+#define DMA_CH0_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL1_READ_ADDR
 // Description : Alias for channel 0 READ_ADDR register
@@ -303,7 +304,7 @@
 #define DMA_CH0_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH0_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH0_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH0_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH0_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL1_WRITE_ADDR
 // Description : Alias for channel 0 WRITE_ADDR register
@@ -312,7 +313,7 @@
 #define DMA_CH0_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH0_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH0_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH0_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH0_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 0 TRANS_COUNT register
@@ -323,7 +324,7 @@
 #define DMA_CH0_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH0_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH0_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH0_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL2_CTRL
 // Description : Alias for channel 0 CTRL register
@@ -332,7 +333,7 @@
 #define DMA_CH0_AL2_CTRL_RESET  "-"
 #define DMA_CH0_AL2_CTRL_MSB    _u(31)
 #define DMA_CH0_AL2_CTRL_LSB    _u(0)
-#define DMA_CH0_AL2_CTRL_ACCESS "RO"
+#define DMA_CH0_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL2_TRANS_COUNT
 // Description : Alias for channel 0 TRANS_COUNT register
@@ -341,7 +342,7 @@
 #define DMA_CH0_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH0_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH0_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH0_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH0_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL2_READ_ADDR
 // Description : Alias for channel 0 READ_ADDR register
@@ -350,7 +351,7 @@
 #define DMA_CH0_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH0_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH0_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH0_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH0_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 0 WRITE_ADDR register
@@ -361,7 +362,7 @@
 #define DMA_CH0_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH0_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH0_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH0_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL3_CTRL
 // Description : Alias for channel 0 CTRL register
@@ -370,7 +371,7 @@
 #define DMA_CH0_AL3_CTRL_RESET  "-"
 #define DMA_CH0_AL3_CTRL_MSB    _u(31)
 #define DMA_CH0_AL3_CTRL_LSB    _u(0)
-#define DMA_CH0_AL3_CTRL_ACCESS "RO"
+#define DMA_CH0_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL3_WRITE_ADDR
 // Description : Alias for channel 0 WRITE_ADDR register
@@ -379,7 +380,7 @@
 #define DMA_CH0_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH0_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH0_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH0_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH0_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL3_TRANS_COUNT
 // Description : Alias for channel 0 TRANS_COUNT register
@@ -388,7 +389,7 @@
 #define DMA_CH0_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH0_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH0_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH0_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH0_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH0_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 0 READ_ADDR register
@@ -399,7 +400,7 @@
 #define DMA_CH0_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH0_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH0_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH0_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH0_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_READ_ADDR
 // Description : DMA Channel 1 Read Address pointer
@@ -457,7 +458,7 @@
 // Description : DMA Channel 1 Control and Status
 #define DMA_CH1_CTRL_TRIG_OFFSET _u(0x0000004c)
 #define DMA_CH1_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH1_CTRL_TRIG_RESET  _u(0x00000800)
+#define DMA_CH1_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH1_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -473,7 +474,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH1_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH1_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -485,8 +486,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH1_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH1_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH1_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -513,8 +514,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH1_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH1_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH1_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -557,23 +558,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH1_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (1).
-#define DMA_CH1_CTRL_TRIG_CHAIN_TO_RESET  _u(0x1)
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH1_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH1_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH1_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -599,11 +599,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH1_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH1_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH1_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH1_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH1_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH1_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH1_CTRL_TRIG_INCR_WRITE
@@ -637,14 +637,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH1_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -683,7 +683,7 @@
 #define DMA_CH1_AL1_CTRL_RESET  "-"
 #define DMA_CH1_AL1_CTRL_MSB    _u(31)
 #define DMA_CH1_AL1_CTRL_LSB    _u(0)
-#define DMA_CH1_AL1_CTRL_ACCESS "RO"
+#define DMA_CH1_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL1_READ_ADDR
 // Description : Alias for channel 1 READ_ADDR register
@@ -692,7 +692,7 @@
 #define DMA_CH1_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH1_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH1_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH1_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH1_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL1_WRITE_ADDR
 // Description : Alias for channel 1 WRITE_ADDR register
@@ -701,7 +701,7 @@
 #define DMA_CH1_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH1_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH1_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH1_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH1_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 1 TRANS_COUNT register
@@ -712,7 +712,7 @@
 #define DMA_CH1_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH1_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH1_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH1_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL2_CTRL
 // Description : Alias for channel 1 CTRL register
@@ -721,7 +721,7 @@
 #define DMA_CH1_AL2_CTRL_RESET  "-"
 #define DMA_CH1_AL2_CTRL_MSB    _u(31)
 #define DMA_CH1_AL2_CTRL_LSB    _u(0)
-#define DMA_CH1_AL2_CTRL_ACCESS "RO"
+#define DMA_CH1_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL2_TRANS_COUNT
 // Description : Alias for channel 1 TRANS_COUNT register
@@ -730,7 +730,7 @@
 #define DMA_CH1_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH1_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH1_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH1_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH1_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL2_READ_ADDR
 // Description : Alias for channel 1 READ_ADDR register
@@ -739,7 +739,7 @@
 #define DMA_CH1_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH1_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH1_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH1_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH1_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 1 WRITE_ADDR register
@@ -750,7 +750,7 @@
 #define DMA_CH1_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH1_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH1_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH1_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL3_CTRL
 // Description : Alias for channel 1 CTRL register
@@ -759,7 +759,7 @@
 #define DMA_CH1_AL3_CTRL_RESET  "-"
 #define DMA_CH1_AL3_CTRL_MSB    _u(31)
 #define DMA_CH1_AL3_CTRL_LSB    _u(0)
-#define DMA_CH1_AL3_CTRL_ACCESS "RO"
+#define DMA_CH1_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL3_WRITE_ADDR
 // Description : Alias for channel 1 WRITE_ADDR register
@@ -768,7 +768,7 @@
 #define DMA_CH1_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH1_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH1_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH1_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH1_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL3_TRANS_COUNT
 // Description : Alias for channel 1 TRANS_COUNT register
@@ -777,7 +777,7 @@
 #define DMA_CH1_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH1_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH1_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH1_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH1_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH1_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 1 READ_ADDR register
@@ -788,7 +788,7 @@
 #define DMA_CH1_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH1_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH1_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH1_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH1_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_READ_ADDR
 // Description : DMA Channel 2 Read Address pointer
@@ -846,7 +846,7 @@
 // Description : DMA Channel 2 Control and Status
 #define DMA_CH2_CTRL_TRIG_OFFSET _u(0x0000008c)
 #define DMA_CH2_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH2_CTRL_TRIG_RESET  _u(0x00001000)
+#define DMA_CH2_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH2_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -862,7 +862,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH2_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH2_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -874,8 +874,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH2_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH2_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH2_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -902,8 +902,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH2_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH2_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH2_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -946,23 +946,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH2_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (2).
-#define DMA_CH2_CTRL_TRIG_CHAIN_TO_RESET  _u(0x2)
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH2_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH2_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH2_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -988,11 +987,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH2_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH2_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH2_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH2_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH2_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH2_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH2_CTRL_TRIG_INCR_WRITE
@@ -1026,14 +1025,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH2_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -1072,7 +1071,7 @@
 #define DMA_CH2_AL1_CTRL_RESET  "-"
 #define DMA_CH2_AL1_CTRL_MSB    _u(31)
 #define DMA_CH2_AL1_CTRL_LSB    _u(0)
-#define DMA_CH2_AL1_CTRL_ACCESS "RO"
+#define DMA_CH2_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL1_READ_ADDR
 // Description : Alias for channel 2 READ_ADDR register
@@ -1081,7 +1080,7 @@
 #define DMA_CH2_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH2_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH2_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH2_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH2_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL1_WRITE_ADDR
 // Description : Alias for channel 2 WRITE_ADDR register
@@ -1090,7 +1089,7 @@
 #define DMA_CH2_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH2_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH2_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH2_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH2_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 2 TRANS_COUNT register
@@ -1101,7 +1100,7 @@
 #define DMA_CH2_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH2_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH2_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH2_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL2_CTRL
 // Description : Alias for channel 2 CTRL register
@@ -1110,7 +1109,7 @@
 #define DMA_CH2_AL2_CTRL_RESET  "-"
 #define DMA_CH2_AL2_CTRL_MSB    _u(31)
 #define DMA_CH2_AL2_CTRL_LSB    _u(0)
-#define DMA_CH2_AL2_CTRL_ACCESS "RO"
+#define DMA_CH2_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL2_TRANS_COUNT
 // Description : Alias for channel 2 TRANS_COUNT register
@@ -1119,7 +1118,7 @@
 #define DMA_CH2_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH2_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH2_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH2_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH2_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL2_READ_ADDR
 // Description : Alias for channel 2 READ_ADDR register
@@ -1128,7 +1127,7 @@
 #define DMA_CH2_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH2_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH2_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH2_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH2_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 2 WRITE_ADDR register
@@ -1139,7 +1138,7 @@
 #define DMA_CH2_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH2_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH2_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH2_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL3_CTRL
 // Description : Alias for channel 2 CTRL register
@@ -1148,7 +1147,7 @@
 #define DMA_CH2_AL3_CTRL_RESET  "-"
 #define DMA_CH2_AL3_CTRL_MSB    _u(31)
 #define DMA_CH2_AL3_CTRL_LSB    _u(0)
-#define DMA_CH2_AL3_CTRL_ACCESS "RO"
+#define DMA_CH2_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL3_WRITE_ADDR
 // Description : Alias for channel 2 WRITE_ADDR register
@@ -1157,7 +1156,7 @@
 #define DMA_CH2_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH2_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH2_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH2_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH2_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL3_TRANS_COUNT
 // Description : Alias for channel 2 TRANS_COUNT register
@@ -1166,7 +1165,7 @@
 #define DMA_CH2_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH2_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH2_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH2_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH2_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH2_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 2 READ_ADDR register
@@ -1177,7 +1176,7 @@
 #define DMA_CH2_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH2_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH2_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH2_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH2_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_READ_ADDR
 // Description : DMA Channel 3 Read Address pointer
@@ -1235,7 +1234,7 @@
 // Description : DMA Channel 3 Control and Status
 #define DMA_CH3_CTRL_TRIG_OFFSET _u(0x000000cc)
 #define DMA_CH3_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH3_CTRL_TRIG_RESET  _u(0x00001800)
+#define DMA_CH3_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH3_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -1251,7 +1250,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH3_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH3_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -1263,8 +1262,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH3_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH3_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH3_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -1291,8 +1290,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH3_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH3_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH3_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -1335,23 +1334,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH3_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (3).
-#define DMA_CH3_CTRL_TRIG_CHAIN_TO_RESET  _u(0x3)
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH3_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH3_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH3_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -1377,11 +1375,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH3_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH3_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH3_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH3_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH3_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH3_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH3_CTRL_TRIG_INCR_WRITE
@@ -1415,14 +1413,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH3_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -1461,7 +1459,7 @@
 #define DMA_CH3_AL1_CTRL_RESET  "-"
 #define DMA_CH3_AL1_CTRL_MSB    _u(31)
 #define DMA_CH3_AL1_CTRL_LSB    _u(0)
-#define DMA_CH3_AL1_CTRL_ACCESS "RO"
+#define DMA_CH3_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL1_READ_ADDR
 // Description : Alias for channel 3 READ_ADDR register
@@ -1470,7 +1468,7 @@
 #define DMA_CH3_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH3_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH3_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH3_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH3_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL1_WRITE_ADDR
 // Description : Alias for channel 3 WRITE_ADDR register
@@ -1479,7 +1477,7 @@
 #define DMA_CH3_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH3_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH3_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH3_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH3_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 3 TRANS_COUNT register
@@ -1490,7 +1488,7 @@
 #define DMA_CH3_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH3_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH3_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH3_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL2_CTRL
 // Description : Alias for channel 3 CTRL register
@@ -1499,7 +1497,7 @@
 #define DMA_CH3_AL2_CTRL_RESET  "-"
 #define DMA_CH3_AL2_CTRL_MSB    _u(31)
 #define DMA_CH3_AL2_CTRL_LSB    _u(0)
-#define DMA_CH3_AL2_CTRL_ACCESS "RO"
+#define DMA_CH3_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL2_TRANS_COUNT
 // Description : Alias for channel 3 TRANS_COUNT register
@@ -1508,7 +1506,7 @@
 #define DMA_CH3_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH3_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH3_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH3_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH3_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL2_READ_ADDR
 // Description : Alias for channel 3 READ_ADDR register
@@ -1517,7 +1515,7 @@
 #define DMA_CH3_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH3_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH3_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH3_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH3_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 3 WRITE_ADDR register
@@ -1528,7 +1526,7 @@
 #define DMA_CH3_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH3_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH3_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH3_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL3_CTRL
 // Description : Alias for channel 3 CTRL register
@@ -1537,7 +1535,7 @@
 #define DMA_CH3_AL3_CTRL_RESET  "-"
 #define DMA_CH3_AL3_CTRL_MSB    _u(31)
 #define DMA_CH3_AL3_CTRL_LSB    _u(0)
-#define DMA_CH3_AL3_CTRL_ACCESS "RO"
+#define DMA_CH3_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL3_WRITE_ADDR
 // Description : Alias for channel 3 WRITE_ADDR register
@@ -1546,7 +1544,7 @@
 #define DMA_CH3_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH3_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH3_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH3_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH3_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL3_TRANS_COUNT
 // Description : Alias for channel 3 TRANS_COUNT register
@@ -1555,7 +1553,7 @@
 #define DMA_CH3_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH3_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH3_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH3_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH3_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH3_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 3 READ_ADDR register
@@ -1566,7 +1564,7 @@
 #define DMA_CH3_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH3_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH3_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH3_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH3_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_READ_ADDR
 // Description : DMA Channel 4 Read Address pointer
@@ -1624,7 +1622,7 @@
 // Description : DMA Channel 4 Control and Status
 #define DMA_CH4_CTRL_TRIG_OFFSET _u(0x0000010c)
 #define DMA_CH4_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH4_CTRL_TRIG_RESET  _u(0x00002000)
+#define DMA_CH4_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH4_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -1640,7 +1638,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH4_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH4_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -1652,8 +1650,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH4_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH4_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH4_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -1680,8 +1678,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH4_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH4_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH4_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -1724,23 +1722,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH4_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (4).
-#define DMA_CH4_CTRL_TRIG_CHAIN_TO_RESET  _u(0x4)
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH4_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH4_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH4_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -1766,11 +1763,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH4_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH4_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH4_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH4_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH4_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH4_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH4_CTRL_TRIG_INCR_WRITE
@@ -1804,14 +1801,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH4_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -1850,7 +1847,7 @@
 #define DMA_CH4_AL1_CTRL_RESET  "-"
 #define DMA_CH4_AL1_CTRL_MSB    _u(31)
 #define DMA_CH4_AL1_CTRL_LSB    _u(0)
-#define DMA_CH4_AL1_CTRL_ACCESS "RO"
+#define DMA_CH4_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL1_READ_ADDR
 // Description : Alias for channel 4 READ_ADDR register
@@ -1859,7 +1856,7 @@
 #define DMA_CH4_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH4_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH4_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH4_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH4_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL1_WRITE_ADDR
 // Description : Alias for channel 4 WRITE_ADDR register
@@ -1868,7 +1865,7 @@
 #define DMA_CH4_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH4_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH4_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH4_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH4_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 4 TRANS_COUNT register
@@ -1879,7 +1876,7 @@
 #define DMA_CH4_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH4_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH4_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH4_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL2_CTRL
 // Description : Alias for channel 4 CTRL register
@@ -1888,7 +1885,7 @@
 #define DMA_CH4_AL2_CTRL_RESET  "-"
 #define DMA_CH4_AL2_CTRL_MSB    _u(31)
 #define DMA_CH4_AL2_CTRL_LSB    _u(0)
-#define DMA_CH4_AL2_CTRL_ACCESS "RO"
+#define DMA_CH4_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL2_TRANS_COUNT
 // Description : Alias for channel 4 TRANS_COUNT register
@@ -1897,7 +1894,7 @@
 #define DMA_CH4_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH4_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH4_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH4_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH4_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL2_READ_ADDR
 // Description : Alias for channel 4 READ_ADDR register
@@ -1906,7 +1903,7 @@
 #define DMA_CH4_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH4_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH4_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH4_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH4_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 4 WRITE_ADDR register
@@ -1917,7 +1914,7 @@
 #define DMA_CH4_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH4_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH4_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH4_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL3_CTRL
 // Description : Alias for channel 4 CTRL register
@@ -1926,7 +1923,7 @@
 #define DMA_CH4_AL3_CTRL_RESET  "-"
 #define DMA_CH4_AL3_CTRL_MSB    _u(31)
 #define DMA_CH4_AL3_CTRL_LSB    _u(0)
-#define DMA_CH4_AL3_CTRL_ACCESS "RO"
+#define DMA_CH4_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL3_WRITE_ADDR
 // Description : Alias for channel 4 WRITE_ADDR register
@@ -1935,7 +1932,7 @@
 #define DMA_CH4_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH4_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH4_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH4_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH4_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL3_TRANS_COUNT
 // Description : Alias for channel 4 TRANS_COUNT register
@@ -1944,7 +1941,7 @@
 #define DMA_CH4_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH4_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH4_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH4_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH4_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH4_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 4 READ_ADDR register
@@ -1955,7 +1952,7 @@
 #define DMA_CH4_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH4_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH4_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH4_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH4_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_READ_ADDR
 // Description : DMA Channel 5 Read Address pointer
@@ -2013,7 +2010,7 @@
 // Description : DMA Channel 5 Control and Status
 #define DMA_CH5_CTRL_TRIG_OFFSET _u(0x0000014c)
 #define DMA_CH5_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH5_CTRL_TRIG_RESET  _u(0x00002800)
+#define DMA_CH5_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH5_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -2029,7 +2026,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH5_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH5_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -2041,8 +2038,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH5_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH5_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH5_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -2069,8 +2066,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH5_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH5_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH5_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -2113,23 +2110,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH5_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (5).
-#define DMA_CH5_CTRL_TRIG_CHAIN_TO_RESET  _u(0x5)
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH5_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH5_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH5_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -2155,11 +2151,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH5_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH5_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH5_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH5_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH5_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH5_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH5_CTRL_TRIG_INCR_WRITE
@@ -2193,14 +2189,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH5_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -2239,7 +2235,7 @@
 #define DMA_CH5_AL1_CTRL_RESET  "-"
 #define DMA_CH5_AL1_CTRL_MSB    _u(31)
 #define DMA_CH5_AL1_CTRL_LSB    _u(0)
-#define DMA_CH5_AL1_CTRL_ACCESS "RO"
+#define DMA_CH5_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL1_READ_ADDR
 // Description : Alias for channel 5 READ_ADDR register
@@ -2248,7 +2244,7 @@
 #define DMA_CH5_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH5_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH5_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH5_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH5_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL1_WRITE_ADDR
 // Description : Alias for channel 5 WRITE_ADDR register
@@ -2257,7 +2253,7 @@
 #define DMA_CH5_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH5_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH5_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH5_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH5_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 5 TRANS_COUNT register
@@ -2268,7 +2264,7 @@
 #define DMA_CH5_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH5_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH5_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH5_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL2_CTRL
 // Description : Alias for channel 5 CTRL register
@@ -2277,7 +2273,7 @@
 #define DMA_CH5_AL2_CTRL_RESET  "-"
 #define DMA_CH5_AL2_CTRL_MSB    _u(31)
 #define DMA_CH5_AL2_CTRL_LSB    _u(0)
-#define DMA_CH5_AL2_CTRL_ACCESS "RO"
+#define DMA_CH5_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL2_TRANS_COUNT
 // Description : Alias for channel 5 TRANS_COUNT register
@@ -2286,7 +2282,7 @@
 #define DMA_CH5_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH5_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH5_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH5_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH5_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL2_READ_ADDR
 // Description : Alias for channel 5 READ_ADDR register
@@ -2295,7 +2291,7 @@
 #define DMA_CH5_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH5_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH5_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH5_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH5_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 5 WRITE_ADDR register
@@ -2306,7 +2302,7 @@
 #define DMA_CH5_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH5_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH5_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH5_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL3_CTRL
 // Description : Alias for channel 5 CTRL register
@@ -2315,7 +2311,7 @@
 #define DMA_CH5_AL3_CTRL_RESET  "-"
 #define DMA_CH5_AL3_CTRL_MSB    _u(31)
 #define DMA_CH5_AL3_CTRL_LSB    _u(0)
-#define DMA_CH5_AL3_CTRL_ACCESS "RO"
+#define DMA_CH5_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL3_WRITE_ADDR
 // Description : Alias for channel 5 WRITE_ADDR register
@@ -2324,7 +2320,7 @@
 #define DMA_CH5_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH5_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH5_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH5_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH5_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL3_TRANS_COUNT
 // Description : Alias for channel 5 TRANS_COUNT register
@@ -2333,7 +2329,7 @@
 #define DMA_CH5_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH5_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH5_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH5_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH5_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH5_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 5 READ_ADDR register
@@ -2344,7 +2340,7 @@
 #define DMA_CH5_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH5_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH5_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH5_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH5_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_READ_ADDR
 // Description : DMA Channel 6 Read Address pointer
@@ -2402,7 +2398,7 @@
 // Description : DMA Channel 6 Control and Status
 #define DMA_CH6_CTRL_TRIG_OFFSET _u(0x0000018c)
 #define DMA_CH6_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH6_CTRL_TRIG_RESET  _u(0x00003000)
+#define DMA_CH6_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH6_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -2418,7 +2414,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH6_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH6_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -2430,8 +2426,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH6_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH6_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH6_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -2458,8 +2454,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH6_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH6_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH6_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -2502,23 +2498,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH6_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (6).
-#define DMA_CH6_CTRL_TRIG_CHAIN_TO_RESET  _u(0x6)
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH6_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH6_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH6_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -2544,11 +2539,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH6_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH6_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH6_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH6_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH6_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH6_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH6_CTRL_TRIG_INCR_WRITE
@@ -2582,14 +2577,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH6_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -2628,7 +2623,7 @@
 #define DMA_CH6_AL1_CTRL_RESET  "-"
 #define DMA_CH6_AL1_CTRL_MSB    _u(31)
 #define DMA_CH6_AL1_CTRL_LSB    _u(0)
-#define DMA_CH6_AL1_CTRL_ACCESS "RO"
+#define DMA_CH6_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL1_READ_ADDR
 // Description : Alias for channel 6 READ_ADDR register
@@ -2637,7 +2632,7 @@
 #define DMA_CH6_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH6_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH6_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH6_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH6_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL1_WRITE_ADDR
 // Description : Alias for channel 6 WRITE_ADDR register
@@ -2646,7 +2641,7 @@
 #define DMA_CH6_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH6_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH6_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH6_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH6_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 6 TRANS_COUNT register
@@ -2657,7 +2652,7 @@
 #define DMA_CH6_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH6_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH6_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH6_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL2_CTRL
 // Description : Alias for channel 6 CTRL register
@@ -2666,7 +2661,7 @@
 #define DMA_CH6_AL2_CTRL_RESET  "-"
 #define DMA_CH6_AL2_CTRL_MSB    _u(31)
 #define DMA_CH6_AL2_CTRL_LSB    _u(0)
-#define DMA_CH6_AL2_CTRL_ACCESS "RO"
+#define DMA_CH6_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL2_TRANS_COUNT
 // Description : Alias for channel 6 TRANS_COUNT register
@@ -2675,7 +2670,7 @@
 #define DMA_CH6_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH6_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH6_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH6_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH6_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL2_READ_ADDR
 // Description : Alias for channel 6 READ_ADDR register
@@ -2684,7 +2679,7 @@
 #define DMA_CH6_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH6_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH6_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH6_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH6_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 6 WRITE_ADDR register
@@ -2695,7 +2690,7 @@
 #define DMA_CH6_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH6_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH6_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH6_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL3_CTRL
 // Description : Alias for channel 6 CTRL register
@@ -2704,7 +2699,7 @@
 #define DMA_CH6_AL3_CTRL_RESET  "-"
 #define DMA_CH6_AL3_CTRL_MSB    _u(31)
 #define DMA_CH6_AL3_CTRL_LSB    _u(0)
-#define DMA_CH6_AL3_CTRL_ACCESS "RO"
+#define DMA_CH6_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL3_WRITE_ADDR
 // Description : Alias for channel 6 WRITE_ADDR register
@@ -2713,7 +2708,7 @@
 #define DMA_CH6_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH6_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH6_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH6_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH6_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL3_TRANS_COUNT
 // Description : Alias for channel 6 TRANS_COUNT register
@@ -2722,7 +2717,7 @@
 #define DMA_CH6_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH6_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH6_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH6_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH6_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH6_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 6 READ_ADDR register
@@ -2733,7 +2728,7 @@
 #define DMA_CH6_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH6_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH6_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH6_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH6_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_READ_ADDR
 // Description : DMA Channel 7 Read Address pointer
@@ -2791,7 +2786,7 @@
 // Description : DMA Channel 7 Control and Status
 #define DMA_CH7_CTRL_TRIG_OFFSET _u(0x000001cc)
 #define DMA_CH7_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH7_CTRL_TRIG_RESET  _u(0x00003800)
+#define DMA_CH7_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH7_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -2807,7 +2802,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH7_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH7_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -2819,8 +2814,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH7_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH7_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH7_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -2847,8 +2842,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH7_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH7_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH7_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -2891,23 +2886,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH7_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (7).
-#define DMA_CH7_CTRL_TRIG_CHAIN_TO_RESET  _u(0x7)
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH7_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH7_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH7_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -2933,11 +2927,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH7_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH7_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH7_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH7_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH7_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH7_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH7_CTRL_TRIG_INCR_WRITE
@@ -2971,14 +2965,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH7_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -3017,7 +3011,7 @@
 #define DMA_CH7_AL1_CTRL_RESET  "-"
 #define DMA_CH7_AL1_CTRL_MSB    _u(31)
 #define DMA_CH7_AL1_CTRL_LSB    _u(0)
-#define DMA_CH7_AL1_CTRL_ACCESS "RO"
+#define DMA_CH7_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL1_READ_ADDR
 // Description : Alias for channel 7 READ_ADDR register
@@ -3026,7 +3020,7 @@
 #define DMA_CH7_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH7_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH7_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH7_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH7_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL1_WRITE_ADDR
 // Description : Alias for channel 7 WRITE_ADDR register
@@ -3035,7 +3029,7 @@
 #define DMA_CH7_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH7_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH7_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH7_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH7_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 7 TRANS_COUNT register
@@ -3046,7 +3040,7 @@
 #define DMA_CH7_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH7_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH7_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH7_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL2_CTRL
 // Description : Alias for channel 7 CTRL register
@@ -3055,7 +3049,7 @@
 #define DMA_CH7_AL2_CTRL_RESET  "-"
 #define DMA_CH7_AL2_CTRL_MSB    _u(31)
 #define DMA_CH7_AL2_CTRL_LSB    _u(0)
-#define DMA_CH7_AL2_CTRL_ACCESS "RO"
+#define DMA_CH7_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL2_TRANS_COUNT
 // Description : Alias for channel 7 TRANS_COUNT register
@@ -3064,7 +3058,7 @@
 #define DMA_CH7_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH7_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH7_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH7_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH7_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL2_READ_ADDR
 // Description : Alias for channel 7 READ_ADDR register
@@ -3073,7 +3067,7 @@
 #define DMA_CH7_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH7_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH7_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH7_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH7_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 7 WRITE_ADDR register
@@ -3084,7 +3078,7 @@
 #define DMA_CH7_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH7_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH7_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH7_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL3_CTRL
 // Description : Alias for channel 7 CTRL register
@@ -3093,7 +3087,7 @@
 #define DMA_CH7_AL3_CTRL_RESET  "-"
 #define DMA_CH7_AL3_CTRL_MSB    _u(31)
 #define DMA_CH7_AL3_CTRL_LSB    _u(0)
-#define DMA_CH7_AL3_CTRL_ACCESS "RO"
+#define DMA_CH7_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL3_WRITE_ADDR
 // Description : Alias for channel 7 WRITE_ADDR register
@@ -3102,7 +3096,7 @@
 #define DMA_CH7_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH7_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH7_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH7_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH7_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL3_TRANS_COUNT
 // Description : Alias for channel 7 TRANS_COUNT register
@@ -3111,7 +3105,7 @@
 #define DMA_CH7_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH7_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH7_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH7_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH7_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH7_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 7 READ_ADDR register
@@ -3122,7 +3116,7 @@
 #define DMA_CH7_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH7_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH7_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH7_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH7_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_READ_ADDR
 // Description : DMA Channel 8 Read Address pointer
@@ -3180,7 +3174,7 @@
 // Description : DMA Channel 8 Control and Status
 #define DMA_CH8_CTRL_TRIG_OFFSET _u(0x0000020c)
 #define DMA_CH8_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH8_CTRL_TRIG_RESET  _u(0x00004000)
+#define DMA_CH8_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH8_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -3196,7 +3190,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH8_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH8_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -3208,8 +3202,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH8_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH8_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH8_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -3236,8 +3230,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH8_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH8_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH8_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -3280,23 +3274,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH8_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (8).
-#define DMA_CH8_CTRL_TRIG_CHAIN_TO_RESET  _u(0x8)
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH8_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH8_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH8_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -3322,11 +3315,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH8_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH8_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH8_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH8_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH8_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH8_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH8_CTRL_TRIG_INCR_WRITE
@@ -3360,14 +3353,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH8_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -3406,7 +3399,7 @@
 #define DMA_CH8_AL1_CTRL_RESET  "-"
 #define DMA_CH8_AL1_CTRL_MSB    _u(31)
 #define DMA_CH8_AL1_CTRL_LSB    _u(0)
-#define DMA_CH8_AL1_CTRL_ACCESS "RO"
+#define DMA_CH8_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL1_READ_ADDR
 // Description : Alias for channel 8 READ_ADDR register
@@ -3415,7 +3408,7 @@
 #define DMA_CH8_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH8_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH8_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH8_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH8_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL1_WRITE_ADDR
 // Description : Alias for channel 8 WRITE_ADDR register
@@ -3424,7 +3417,7 @@
 #define DMA_CH8_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH8_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH8_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH8_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH8_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 8 TRANS_COUNT register
@@ -3435,7 +3428,7 @@
 #define DMA_CH8_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH8_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH8_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH8_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL2_CTRL
 // Description : Alias for channel 8 CTRL register
@@ -3444,7 +3437,7 @@
 #define DMA_CH8_AL2_CTRL_RESET  "-"
 #define DMA_CH8_AL2_CTRL_MSB    _u(31)
 #define DMA_CH8_AL2_CTRL_LSB    _u(0)
-#define DMA_CH8_AL2_CTRL_ACCESS "RO"
+#define DMA_CH8_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL2_TRANS_COUNT
 // Description : Alias for channel 8 TRANS_COUNT register
@@ -3453,7 +3446,7 @@
 #define DMA_CH8_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH8_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH8_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH8_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH8_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL2_READ_ADDR
 // Description : Alias for channel 8 READ_ADDR register
@@ -3462,7 +3455,7 @@
 #define DMA_CH8_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH8_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH8_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH8_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH8_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 8 WRITE_ADDR register
@@ -3473,7 +3466,7 @@
 #define DMA_CH8_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH8_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH8_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH8_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL3_CTRL
 // Description : Alias for channel 8 CTRL register
@@ -3482,7 +3475,7 @@
 #define DMA_CH8_AL3_CTRL_RESET  "-"
 #define DMA_CH8_AL3_CTRL_MSB    _u(31)
 #define DMA_CH8_AL3_CTRL_LSB    _u(0)
-#define DMA_CH8_AL3_CTRL_ACCESS "RO"
+#define DMA_CH8_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL3_WRITE_ADDR
 // Description : Alias for channel 8 WRITE_ADDR register
@@ -3491,7 +3484,7 @@
 #define DMA_CH8_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH8_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH8_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH8_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH8_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL3_TRANS_COUNT
 // Description : Alias for channel 8 TRANS_COUNT register
@@ -3500,7 +3493,7 @@
 #define DMA_CH8_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH8_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH8_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH8_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH8_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH8_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 8 READ_ADDR register
@@ -3511,7 +3504,7 @@
 #define DMA_CH8_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH8_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH8_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH8_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH8_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_READ_ADDR
 // Description : DMA Channel 9 Read Address pointer
@@ -3569,7 +3562,7 @@
 // Description : DMA Channel 9 Control and Status
 #define DMA_CH9_CTRL_TRIG_OFFSET _u(0x0000024c)
 #define DMA_CH9_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH9_CTRL_TRIG_RESET  _u(0x00004800)
+#define DMA_CH9_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH9_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -3585,7 +3578,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH9_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH9_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -3597,8 +3590,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH9_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH9_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH9_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -3625,8 +3618,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH9_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH9_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH9_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -3669,23 +3662,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH9_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (9).
-#define DMA_CH9_CTRL_TRIG_CHAIN_TO_RESET  _u(0x9)
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH9_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH9_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH9_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -3711,11 +3703,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH9_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH9_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH9_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH9_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH9_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH9_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH9_CTRL_TRIG_INCR_WRITE
@@ -3749,14 +3741,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH9_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -3795,7 +3787,7 @@
 #define DMA_CH9_AL1_CTRL_RESET  "-"
 #define DMA_CH9_AL1_CTRL_MSB    _u(31)
 #define DMA_CH9_AL1_CTRL_LSB    _u(0)
-#define DMA_CH9_AL1_CTRL_ACCESS "RO"
+#define DMA_CH9_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL1_READ_ADDR
 // Description : Alias for channel 9 READ_ADDR register
@@ -3804,7 +3796,7 @@
 #define DMA_CH9_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH9_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH9_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH9_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH9_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL1_WRITE_ADDR
 // Description : Alias for channel 9 WRITE_ADDR register
@@ -3813,7 +3805,7 @@
 #define DMA_CH9_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH9_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH9_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH9_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH9_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 9 TRANS_COUNT register
@@ -3824,7 +3816,7 @@
 #define DMA_CH9_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH9_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH9_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH9_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL2_CTRL
 // Description : Alias for channel 9 CTRL register
@@ -3833,7 +3825,7 @@
 #define DMA_CH9_AL2_CTRL_RESET  "-"
 #define DMA_CH9_AL2_CTRL_MSB    _u(31)
 #define DMA_CH9_AL2_CTRL_LSB    _u(0)
-#define DMA_CH9_AL2_CTRL_ACCESS "RO"
+#define DMA_CH9_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL2_TRANS_COUNT
 // Description : Alias for channel 9 TRANS_COUNT register
@@ -3842,7 +3834,7 @@
 #define DMA_CH9_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH9_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH9_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH9_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH9_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL2_READ_ADDR
 // Description : Alias for channel 9 READ_ADDR register
@@ -3851,7 +3843,7 @@
 #define DMA_CH9_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH9_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH9_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH9_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH9_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 9 WRITE_ADDR register
@@ -3862,7 +3854,7 @@
 #define DMA_CH9_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH9_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH9_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH9_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL3_CTRL
 // Description : Alias for channel 9 CTRL register
@@ -3871,7 +3863,7 @@
 #define DMA_CH9_AL3_CTRL_RESET  "-"
 #define DMA_CH9_AL3_CTRL_MSB    _u(31)
 #define DMA_CH9_AL3_CTRL_LSB    _u(0)
-#define DMA_CH9_AL3_CTRL_ACCESS "RO"
+#define DMA_CH9_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL3_WRITE_ADDR
 // Description : Alias for channel 9 WRITE_ADDR register
@@ -3880,7 +3872,7 @@
 #define DMA_CH9_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH9_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH9_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH9_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH9_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL3_TRANS_COUNT
 // Description : Alias for channel 9 TRANS_COUNT register
@@ -3889,7 +3881,7 @@
 #define DMA_CH9_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH9_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH9_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH9_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH9_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH9_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 9 READ_ADDR register
@@ -3900,7 +3892,7 @@
 #define DMA_CH9_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH9_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH9_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH9_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH9_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_READ_ADDR
 // Description : DMA Channel 10 Read Address pointer
@@ -3958,7 +3950,7 @@
 // Description : DMA Channel 10 Control and Status
 #define DMA_CH10_CTRL_TRIG_OFFSET _u(0x0000028c)
 #define DMA_CH10_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH10_CTRL_TRIG_RESET  _u(0x00005000)
+#define DMA_CH10_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH10_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -3974,7 +3966,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH10_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH10_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -3986,8 +3978,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH10_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH10_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH10_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -4014,8 +4006,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH10_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH10_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH10_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -4058,23 +4050,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH10_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (10).
-#define DMA_CH10_CTRL_TRIG_CHAIN_TO_RESET  _u(0xa)
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH10_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH10_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH10_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -4100,11 +4091,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH10_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH10_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH10_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH10_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH10_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH10_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH10_CTRL_TRIG_INCR_WRITE
@@ -4138,14 +4129,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH10_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -4184,7 +4175,7 @@
 #define DMA_CH10_AL1_CTRL_RESET  "-"
 #define DMA_CH10_AL1_CTRL_MSB    _u(31)
 #define DMA_CH10_AL1_CTRL_LSB    _u(0)
-#define DMA_CH10_AL1_CTRL_ACCESS "RO"
+#define DMA_CH10_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL1_READ_ADDR
 // Description : Alias for channel 10 READ_ADDR register
@@ -4193,7 +4184,7 @@
 #define DMA_CH10_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH10_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH10_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH10_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH10_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL1_WRITE_ADDR
 // Description : Alias for channel 10 WRITE_ADDR register
@@ -4202,7 +4193,7 @@
 #define DMA_CH10_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH10_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH10_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH10_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH10_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 10 TRANS_COUNT register
@@ -4213,7 +4204,7 @@
 #define DMA_CH10_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH10_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH10_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH10_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL2_CTRL
 // Description : Alias for channel 10 CTRL register
@@ -4222,7 +4213,7 @@
 #define DMA_CH10_AL2_CTRL_RESET  "-"
 #define DMA_CH10_AL2_CTRL_MSB    _u(31)
 #define DMA_CH10_AL2_CTRL_LSB    _u(0)
-#define DMA_CH10_AL2_CTRL_ACCESS "RO"
+#define DMA_CH10_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL2_TRANS_COUNT
 // Description : Alias for channel 10 TRANS_COUNT register
@@ -4231,7 +4222,7 @@
 #define DMA_CH10_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH10_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH10_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH10_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH10_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL2_READ_ADDR
 // Description : Alias for channel 10 READ_ADDR register
@@ -4240,7 +4231,7 @@
 #define DMA_CH10_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH10_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH10_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH10_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH10_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 10 WRITE_ADDR register
@@ -4251,7 +4242,7 @@
 #define DMA_CH10_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH10_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH10_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH10_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL3_CTRL
 // Description : Alias for channel 10 CTRL register
@@ -4260,7 +4251,7 @@
 #define DMA_CH10_AL3_CTRL_RESET  "-"
 #define DMA_CH10_AL3_CTRL_MSB    _u(31)
 #define DMA_CH10_AL3_CTRL_LSB    _u(0)
-#define DMA_CH10_AL3_CTRL_ACCESS "RO"
+#define DMA_CH10_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL3_WRITE_ADDR
 // Description : Alias for channel 10 WRITE_ADDR register
@@ -4269,7 +4260,7 @@
 #define DMA_CH10_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH10_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH10_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH10_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH10_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL3_TRANS_COUNT
 // Description : Alias for channel 10 TRANS_COUNT register
@@ -4278,7 +4269,7 @@
 #define DMA_CH10_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH10_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH10_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH10_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH10_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH10_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 10 READ_ADDR register
@@ -4289,7 +4280,7 @@
 #define DMA_CH10_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH10_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH10_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH10_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH10_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_READ_ADDR
 // Description : DMA Channel 11 Read Address pointer
@@ -4347,7 +4338,7 @@
 // Description : DMA Channel 11 Control and Status
 #define DMA_CH11_CTRL_TRIG_OFFSET _u(0x000002cc)
 #define DMA_CH11_CTRL_TRIG_BITS   _u(0xe1ffffff)
-#define DMA_CH11_CTRL_TRIG_RESET  _u(0x00005800)
+#define DMA_CH11_CTRL_TRIG_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH11_CTRL_TRIG_AHB_ERROR
 // Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
@@ -4363,7 +4354,7 @@
 // Description : If 1, the channel received a read bus error. Write one to
 //               clear.
 //               READ_ADDR shows the approximate address where the bus error was
-//               encountered (will not to be earlier, or more than 3 transfers
+//               encountered (will not be earlier, or more than 3 transfers
 //               later)
 #define DMA_CH11_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
 #define DMA_CH11_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
@@ -4375,8 +4366,8 @@
 // Description : If 1, the channel received a write bus error. Write one to
 //               clear.
 //               WRITE_ADDR shows the approximate address where the bus error
-//               was encountered (will not to be earlier, or more than 5
-//               transfers later)
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
 #define DMA_CH11_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
 #define DMA_CH11_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
 #define DMA_CH11_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
@@ -4403,8 +4394,8 @@
 //               checksum. This only applies if the sniff hardware is enabled,
 //               and has this channel selected.
 //
-//               This allows checksum to be enabled or disabled on a
-//               per-control- block basis.
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
 #define DMA_CH11_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
 #define DMA_CH11_CTRL_TRIG_SNIFF_EN_BITS   _u(0x00800000)
 #define DMA_CH11_CTRL_TRIG_SNIFF_EN_MSB    _u(23)
@@ -4447,23 +4438,22 @@
 //               0x3d -> Select Timer 2 as TREQ (Optional)
 //               0x3e -> Select Timer 3 as TREQ (Optional)
 //               0x3f -> Permanent request, for unpaced transfers.
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_RESET           _u(0x00)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_BITS            _u(0x001f8000)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_MSB             _u(20)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_LSB             _u(15)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_ACCESS          "RW"
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0    _u(0x3b)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1    _u(0x3c)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2    _u(0x3d)
-#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3    _u(0x3e)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_BITS   _u(0x001f8000)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_MSB    _u(20)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_LSB    _u(15)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
 #define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH11_CTRL_TRIG_CHAIN_TO
 // Description : When this channel completes, it will trigger the channel
 //               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
 //               channel)_.
-//               Reset value is equal to channel number (11).
-#define DMA_CH11_CTRL_TRIG_CHAIN_TO_RESET  _u(0xb)
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
 #define DMA_CH11_CTRL_TRIG_CHAIN_TO_BITS   _u(0x00007800)
 #define DMA_CH11_CTRL_TRIG_CHAIN_TO_MSB    _u(14)
 #define DMA_CH11_CTRL_TRIG_CHAIN_TO_LSB    _u(11)
@@ -4489,11 +4479,11 @@
 //               apply to either read or write addresses, based on value of
 //               RING_SEL.
 //               0x0 -> RING_NONE
-#define DMA_CH11_CTRL_TRIG_RING_SIZE_RESET           _u(0x0)
-#define DMA_CH11_CTRL_TRIG_RING_SIZE_BITS            _u(0x000003c0)
-#define DMA_CH11_CTRL_TRIG_RING_SIZE_MSB             _u(9)
-#define DMA_CH11_CTRL_TRIG_RING_SIZE_LSB             _u(6)
-#define DMA_CH11_CTRL_TRIG_RING_SIZE_ACCESS          "RW"
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_BITS   _u(0x000003c0)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_MSB    _u(9)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_LSB    _u(6)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_ACCESS "RW"
 #define DMA_CH11_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH11_CTRL_TRIG_INCR_WRITE
@@ -4527,14 +4517,14 @@
 //               0x0 -> SIZE_BYTE
 //               0x1 -> SIZE_HALFWORD
 //               0x2 -> SIZE_WORD
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_RESET               _u(0x0)
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_BITS                _u(0x0000000c)
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_MSB                 _u(3)
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_LSB                 _u(2)
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_ACCESS              "RW"
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE     _u(0x0)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
 #define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
-#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD     _u(0x2)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
 // -----------------------------------------------------------------------------
 // Field       : DMA_CH11_CTRL_TRIG_HIGH_PRIORITY
 // Description : HIGH_PRIORITY gives a channel preferential treatment in issue
@@ -4573,7 +4563,7 @@
 #define DMA_CH11_AL1_CTRL_RESET  "-"
 #define DMA_CH11_AL1_CTRL_MSB    _u(31)
 #define DMA_CH11_AL1_CTRL_LSB    _u(0)
-#define DMA_CH11_AL1_CTRL_ACCESS "RO"
+#define DMA_CH11_AL1_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL1_READ_ADDR
 // Description : Alias for channel 11 READ_ADDR register
@@ -4582,7 +4572,7 @@
 #define DMA_CH11_AL1_READ_ADDR_RESET  "-"
 #define DMA_CH11_AL1_READ_ADDR_MSB    _u(31)
 #define DMA_CH11_AL1_READ_ADDR_LSB    _u(0)
-#define DMA_CH11_AL1_READ_ADDR_ACCESS "RO"
+#define DMA_CH11_AL1_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL1_WRITE_ADDR
 // Description : Alias for channel 11 WRITE_ADDR register
@@ -4591,7 +4581,7 @@
 #define DMA_CH11_AL1_WRITE_ADDR_RESET  "-"
 #define DMA_CH11_AL1_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH11_AL1_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH11_AL1_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH11_AL1_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL1_TRANS_COUNT_TRIG
 // Description : Alias for channel 11 TRANS_COUNT register
@@ -4602,7 +4592,7 @@
 #define DMA_CH11_AL1_TRANS_COUNT_TRIG_RESET  "-"
 #define DMA_CH11_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
 #define DMA_CH11_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
-#define DMA_CH11_AL1_TRANS_COUNT_TRIG_ACCESS "RO"
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL2_CTRL
 // Description : Alias for channel 11 CTRL register
@@ -4611,7 +4601,7 @@
 #define DMA_CH11_AL2_CTRL_RESET  "-"
 #define DMA_CH11_AL2_CTRL_MSB    _u(31)
 #define DMA_CH11_AL2_CTRL_LSB    _u(0)
-#define DMA_CH11_AL2_CTRL_ACCESS "RO"
+#define DMA_CH11_AL2_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL2_TRANS_COUNT
 // Description : Alias for channel 11 TRANS_COUNT register
@@ -4620,7 +4610,7 @@
 #define DMA_CH11_AL2_TRANS_COUNT_RESET  "-"
 #define DMA_CH11_AL2_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH11_AL2_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH11_AL2_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH11_AL2_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL2_READ_ADDR
 // Description : Alias for channel 11 READ_ADDR register
@@ -4629,7 +4619,7 @@
 #define DMA_CH11_AL2_READ_ADDR_RESET  "-"
 #define DMA_CH11_AL2_READ_ADDR_MSB    _u(31)
 #define DMA_CH11_AL2_READ_ADDR_LSB    _u(0)
-#define DMA_CH11_AL2_READ_ADDR_ACCESS "RO"
+#define DMA_CH11_AL2_READ_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL2_WRITE_ADDR_TRIG
 // Description : Alias for channel 11 WRITE_ADDR register
@@ -4640,7 +4630,7 @@
 #define DMA_CH11_AL2_WRITE_ADDR_TRIG_RESET  "-"
 #define DMA_CH11_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH11_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH11_AL2_WRITE_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL3_CTRL
 // Description : Alias for channel 11 CTRL register
@@ -4649,7 +4639,7 @@
 #define DMA_CH11_AL3_CTRL_RESET  "-"
 #define DMA_CH11_AL3_CTRL_MSB    _u(31)
 #define DMA_CH11_AL3_CTRL_LSB    _u(0)
-#define DMA_CH11_AL3_CTRL_ACCESS "RO"
+#define DMA_CH11_AL3_CTRL_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL3_WRITE_ADDR
 // Description : Alias for channel 11 WRITE_ADDR register
@@ -4658,7 +4648,7 @@
 #define DMA_CH11_AL3_WRITE_ADDR_RESET  "-"
 #define DMA_CH11_AL3_WRITE_ADDR_MSB    _u(31)
 #define DMA_CH11_AL3_WRITE_ADDR_LSB    _u(0)
-#define DMA_CH11_AL3_WRITE_ADDR_ACCESS "RO"
+#define DMA_CH11_AL3_WRITE_ADDR_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL3_TRANS_COUNT
 // Description : Alias for channel 11 TRANS_COUNT register
@@ -4667,7 +4657,7 @@
 #define DMA_CH11_AL3_TRANS_COUNT_RESET  "-"
 #define DMA_CH11_AL3_TRANS_COUNT_MSB    _u(31)
 #define DMA_CH11_AL3_TRANS_COUNT_LSB    _u(0)
-#define DMA_CH11_AL3_TRANS_COUNT_ACCESS "RO"
+#define DMA_CH11_AL3_TRANS_COUNT_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_CH11_AL3_READ_ADDR_TRIG
 // Description : Alias for channel 11 READ_ADDR register
@@ -4678,7 +4668,7 @@
 #define DMA_CH11_AL3_READ_ADDR_TRIG_RESET  "-"
 #define DMA_CH11_AL3_READ_ADDR_TRIG_MSB    _u(31)
 #define DMA_CH11_AL3_READ_ADDR_TRIG_LSB    _u(0)
-#define DMA_CH11_AL3_READ_ADDR_TRIG_ACCESS "RO"
+#define DMA_CH11_AL3_READ_ADDR_TRIG_ACCESS "RW"
 // =============================================================================
 // Register    : DMA_INTR
 // Description : Interrupt Status (raw)
@@ -4702,7 +4692,7 @@
 #define DMA_INTR_RESET  _u(0x00000000)
 #define DMA_INTR_MSB    _u(15)
 #define DMA_INTR_LSB    _u(0)
-#define DMA_INTR_ACCESS "RO"
+#define DMA_INTR_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_INTE0
 // Description : Interrupt Enables for IRQ 0
@@ -4937,26 +4927,23 @@
 #define DMA_SNIFF_CTRL_BSWAP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : DMA_SNIFF_CTRL_CALC
-// Description : 0x0 -> Calculate a CRC-32 (IEEE802.3 polynomial)
-//               0x1 -> Calculate a CRC-32 (IEEE802.3 polynomial) with bit
-//               reversed data
+//               0x0 -> Calculate a CRC-32 (IEEE802.3 polynomial)
+//               0x1 -> Calculate a CRC-32 (IEEE802.3 polynomial) with bit reversed data
 //               0x2 -> Calculate a CRC-16-CCITT
 //               0x3 -> Calculate a CRC-16-CCITT with bit reversed data
-//               0xe -> XOR reduction over all data. == 1 if the total 1
-//               population count is odd.
-//               0xf -> Calculate a simple 32-bit checksum (addition with a 32
-//               bit accumulator)
-#define DMA_SNIFF_CTRL_CALC_RESET        _u(0x0)
-#define DMA_SNIFF_CTRL_CALC_BITS         _u(0x000001e0)
-#define DMA_SNIFF_CTRL_CALC_MSB          _u(8)
-#define DMA_SNIFF_CTRL_CALC_LSB          _u(5)
-#define DMA_SNIFF_CTRL_CALC_ACCESS       "RW"
-#define DMA_SNIFF_CTRL_CALC_VALUE_CRC32  _u(0x0)
+//               0xe -> XOR reduction over all data. == 1 if the total 1 population count is odd.
+//               0xf -> Calculate a simple 32-bit checksum (addition with a 32 bit accumulator)
+#define DMA_SNIFF_CTRL_CALC_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_CALC_BITS   _u(0x000001e0)
+#define DMA_SNIFF_CTRL_CALC_MSB    _u(8)
+#define DMA_SNIFF_CTRL_CALC_LSB    _u(5)
+#define DMA_SNIFF_CTRL_CALC_ACCESS "RW"
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC32 _u(0x0)
 #define DMA_SNIFF_CTRL_CALC_VALUE_CRC32R _u(0x1)
-#define DMA_SNIFF_CTRL_CALC_VALUE_CRC16  _u(0x2)
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC16 _u(0x2)
 #define DMA_SNIFF_CTRL_CALC_VALUE_CRC16R _u(0x3)
-#define DMA_SNIFF_CTRL_CALC_VALUE_EVEN   _u(0xe)
-#define DMA_SNIFF_CTRL_CALC_VALUE_SUM    _u(0xf)
+#define DMA_SNIFF_CTRL_CALC_VALUE_EVEN _u(0xe)
+#define DMA_SNIFF_CTRL_CALC_VALUE_SUM _u(0xf)
 // -----------------------------------------------------------------------------
 // Field       : DMA_SNIFF_CTRL_DMACH
 // Description : DMA channel for Sniffer to observe
@@ -5056,7 +5043,7 @@
 #define DMA_CH0_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH0_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH0_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH0_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH0_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH0_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5078,7 +5065,7 @@
 #define DMA_CH1_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH1_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH1_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH1_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH1_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH1_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5100,7 +5087,7 @@
 #define DMA_CH2_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH2_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH2_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH2_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH2_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH2_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5122,7 +5109,7 @@
 #define DMA_CH3_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH3_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH3_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH3_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH3_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH3_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5144,7 +5131,7 @@
 #define DMA_CH4_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH4_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH4_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH4_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH4_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH4_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5166,7 +5153,7 @@
 #define DMA_CH5_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH5_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH5_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH5_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH5_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH5_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5188,7 +5175,7 @@
 #define DMA_CH6_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH6_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH6_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH6_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH6_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH6_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5210,7 +5197,7 @@
 #define DMA_CH7_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH7_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH7_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH7_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH7_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH7_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5232,7 +5219,7 @@
 #define DMA_CH8_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH8_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH8_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH8_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH8_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH8_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5254,7 +5241,7 @@
 #define DMA_CH9_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH9_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH9_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH9_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH9_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH9_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5276,7 +5263,7 @@
 #define DMA_CH10_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH10_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH10_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH10_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH10_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH10_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5298,7 +5285,7 @@
 #define DMA_CH11_DBG_CTDREQ_RESET  _u(0x00000000)
 #define DMA_CH11_DBG_CTDREQ_MSB    _u(5)
 #define DMA_CH11_DBG_CTDREQ_LSB    _u(0)
-#define DMA_CH11_DBG_CTDREQ_ACCESS "RO"
+#define DMA_CH11_DBG_CTDREQ_ACCESS "WC"
 // =============================================================================
 // Register    : DMA_CH11_DBG_TCR
 // Description : Read to get channel TRANS_COUNT reload value, i.e. the length
@@ -5310,4 +5297,5 @@
 #define DMA_CH11_DBG_TCR_LSB    _u(0)
 #define DMA_CH11_DBG_TCR_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_DMA_DEFINED
+#endif // _HARDWARE_REGS_DMA_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/regs/dreq.h b/lib/pico-sdk/rp2040/hardware/regs/dreq.h
new file mode 100644
index 0000000..d3359f8
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/regs/dreq.h
@@ -0,0 +1,117 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _DREQ_H
+#define _DREQ_H
+
+/**
+ * \file rp2040/dreq.h
+ */
+
+#ifdef __ASSEMBLER__
+#define DREQ_PIO0_TX0 0
+#define DREQ_PIO0_TX1 1
+#define DREQ_PIO0_TX2 2
+#define DREQ_PIO0_TX3 3
+#define DREQ_PIO0_RX0 4
+#define DREQ_PIO0_RX1 5
+#define DREQ_PIO0_RX2 6
+#define DREQ_PIO0_RX3 7
+#define DREQ_PIO1_TX0 8
+#define DREQ_PIO1_TX1 9
+#define DREQ_PIO1_TX2 10
+#define DREQ_PIO1_TX3 11
+#define DREQ_PIO1_RX0 12
+#define DREQ_PIO1_RX1 13
+#define DREQ_PIO1_RX2 14
+#define DREQ_PIO1_RX3 15
+#define DREQ_SPI0_TX 16
+#define DREQ_SPI0_RX 17
+#define DREQ_SPI1_TX 18
+#define DREQ_SPI1_RX 19
+#define DREQ_UART0_TX 20
+#define DREQ_UART0_RX 21
+#define DREQ_UART1_TX 22
+#define DREQ_UART1_RX 23
+#define DREQ_PWM_WRAP0 24
+#define DREQ_PWM_WRAP1 25
+#define DREQ_PWM_WRAP2 26
+#define DREQ_PWM_WRAP3 27
+#define DREQ_PWM_WRAP4 28
+#define DREQ_PWM_WRAP5 29
+#define DREQ_PWM_WRAP6 30
+#define DREQ_PWM_WRAP7 31
+#define DREQ_I2C0_TX 32
+#define DREQ_I2C0_RX 33
+#define DREQ_I2C1_TX 34
+#define DREQ_I2C1_RX 35
+#define DREQ_ADC 36
+#define DREQ_XIP_STREAM 37
+#define DREQ_XIP_SSITX 38
+#define DREQ_XIP_SSIRX 39
+#define DREQ_DMA_TIMER0 59
+#define DREQ_DMA_TIMER1 60
+#define DREQ_DMA_TIMER2 61
+#define DREQ_DMA_TIMER3 62
+#define DREQ_FORCE 63
+#else
+/**
+ * \brief DREQ numbers for DMA pacing on RP2040 (used as typedef \ref dreq_num_t)
+ * \ingroup hardware_dma
+ */
+typedef enum dreq_num_rp2040 {
+    DREQ_PIO0_TX0 = 0, ///< Select PIO0's TX FIFO 0 as DREQ
+    DREQ_PIO0_TX1 = 1, ///< Select PIO0's TX FIFO 1 as DREQ
+    DREQ_PIO0_TX2 = 2, ///< Select PIO0's TX FIFO 2 as DREQ
+    DREQ_PIO0_TX3 = 3, ///< Select PIO0's TX FIFO 3 as DREQ
+    DREQ_PIO0_RX0 = 4, ///< Select PIO0's RX FIFO 0 as DREQ
+    DREQ_PIO0_RX1 = 5, ///< Select PIO0's RX FIFO 1 as DREQ
+    DREQ_PIO0_RX2 = 6, ///< Select PIO0's RX FIFO 2 as DREQ
+    DREQ_PIO0_RX3 = 7, ///< Select PIO0's RX FIFO 3 as DREQ
+    DREQ_PIO1_TX0 = 8, ///< Select PIO1's TX FIFO 0 as DREQ
+    DREQ_PIO1_TX1 = 9, ///< Select PIO1's TX FIFO 1 as DREQ
+    DREQ_PIO1_TX2 = 10, ///< Select PIO1's TX FIFO 2 as DREQ
+    DREQ_PIO1_TX3 = 11, ///< Select PIO1's TX FIFO 3 as DREQ
+    DREQ_PIO1_RX0 = 12, ///< Select PIO1's RX FIFO 0 as DREQ
+    DREQ_PIO1_RX1 = 13, ///< Select PIO1's RX FIFO 1 as DREQ
+    DREQ_PIO1_RX2 = 14, ///< Select PIO1's RX FIFO 2 as DREQ
+    DREQ_PIO1_RX3 = 15, ///< Select PIO1's RX FIFO 3 as DREQ
+    DREQ_SPI0_TX = 16, ///< Select SPI0's TX FIFO as DREQ
+    DREQ_SPI0_RX = 17, ///< Select SPI0's RX FIFO as DREQ
+    DREQ_SPI1_TX = 18, ///< Select SPI1's TX FIFO as DREQ
+    DREQ_SPI1_RX = 19, ///< Select SPI1's RX FIFO as DREQ
+    DREQ_UART0_TX = 20, ///< Select UART0's TX FIFO as DREQ
+    DREQ_UART0_RX = 21, ///< Select UART0's RX FIFO as DREQ
+    DREQ_UART1_TX = 22, ///< Select UART1's TX FIFO as DREQ
+    DREQ_UART1_RX = 23, ///< Select UART1's RX FIFO as DREQ
+    DREQ_PWM_WRAP0 = 24, ///< Select PWM Counter 0's Wrap Value as DREQ
+    DREQ_PWM_WRAP1 = 25, ///< Select PWM Counter 1's Wrap Value as DREQ
+    DREQ_PWM_WRAP2 = 26, ///< Select PWM Counter 2's Wrap Value as DREQ
+    DREQ_PWM_WRAP3 = 27, ///< Select PWM Counter 3's Wrap Value as DREQ
+    DREQ_PWM_WRAP4 = 28, ///< Select PWM Counter 4's Wrap Value as DREQ
+    DREQ_PWM_WRAP5 = 29, ///< Select PWM Counter 5's Wrap Value as DREQ
+    DREQ_PWM_WRAP6 = 30, ///< Select PWM Counter 6's Wrap Value as DREQ
+    DREQ_PWM_WRAP7 = 31, ///< Select PWM Counter 7's Wrap Value as DREQ
+    DREQ_I2C0_TX = 32, ///< Select I2C0's TX FIFO as DREQ
+    DREQ_I2C0_RX = 33, ///< Select I2C0's RX FIFO as DREQ
+    DREQ_I2C1_TX = 34, ///< Select I2C1's TX FIFO as DREQ
+    DREQ_I2C1_RX = 35, ///< Select I2C1's RX FIFO as DREQ
+    DREQ_ADC = 36, ///< Select the ADC as DREQ
+    DREQ_XIP_STREAM = 37, ///< Select the XIP Streaming FIFO as DREQ
+    DREQ_XIP_SSITX = 38, ///< Select the XIP SSI TX FIFO as DREQ
+    DREQ_XIP_SSIRX = 39, ///< Select the XIP SSI RX FIFO as DREQ
+    DREQ_DMA_TIMER0 = 59, ///< Select DMA_TIMER0 as DREQ
+    DREQ_DMA_TIMER1 = 60, ///< Select DMA_TIMER0 as DREQ
+    DREQ_DMA_TIMER2 = 61, ///< Select DMA_TIMER1 as DREQ
+    DREQ_DMA_TIMER3 = 62, ///< Select DMA_TIMER3 as DREQ
+    DREQ_FORCE = 63, ///< Select FORCE as DREQ
+    DREQ_COUNT
+} dreq_num_t;
+#endif
+
+#endif // _DREQ_H
+
diff --git a/lib/rp2040/hardware/regs/i2c.h b/lib/pico-sdk/rp2040/hardware/regs/i2c.h
similarity index 77%
rename from lib/rp2040/hardware/regs/i2c.h
rename to lib/pico-sdk/rp2040/hardware/regs/i2c.h
index 9384bed..f44ceb4 100644
--- a/lib/rp2040/hardware/regs/i2c.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/i2c.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -8,9 +10,83 @@
 // Version        : 1
 // Bus type       : apb
 // Description    : DW_apb_i2c address block
+//
+//                  List of configuration constants for the Synopsys I2C
+//                  hardware (you may see references to these in I2C register
+//                  header; these are *fixed* values, set at hardware design
+//                  time):
+//
+//                  IC_ULTRA_FAST_MODE ................ 0x0
+//                  IC_UFM_TBUF_CNT_DEFAULT ........... 0x8
+//                  IC_UFM_SCL_LOW_COUNT .............. 0x0008
+//                  IC_UFM_SCL_HIGH_COUNT ............. 0x0006
+//                  IC_TX_TL .......................... 0x0
+//                  IC_TX_CMD_BLOCK ................... 0x1
+//                  IC_HAS_DMA ........................ 0x1
+//                  IC_HAS_ASYNC_FIFO ................. 0x0
+//                  IC_SMBUS_ARP ...................... 0x0
+//                  IC_FIRST_DATA_BYTE_STATUS ......... 0x1
+//                  IC_INTR_IO ........................ 0x1
+//                  IC_MASTER_MODE .................... 0x1
+//                  IC_DEFAULT_ACK_GENERAL_CALL ....... 0x1
+//                  IC_INTR_POL ....................... 0x1
+//                  IC_OPTIONAL_SAR ................... 0x0
+//                  IC_DEFAULT_TAR_SLAVE_ADDR ......... 0x055
+//                  IC_DEFAULT_SLAVE_ADDR ............. 0x055
+//                  IC_DEFAULT_HS_SPKLEN .............. 0x1
+//                  IC_FS_SCL_HIGH_COUNT .............. 0x0006
+//                  IC_HS_SCL_LOW_COUNT ............... 0x0008
+//                  IC_DEVICE_ID_VALUE ................ 0x0
+//                  IC_10BITADDR_MASTER ............... 0x0
+//                  IC_CLK_FREQ_OPTIMIZATION .......... 0x0
+//                  IC_DEFAULT_FS_SPKLEN .............. 0x7
+//                  IC_ADD_ENCODED_PARAMS ............. 0x0
+//                  IC_DEFAULT_SDA_HOLD ............... 0x000001
+//                  IC_DEFAULT_SDA_SETUP .............. 0x64
+//                  IC_AVOID_RX_FIFO_FLUSH_ON_TX_ABRT . 0x0
+//                  IC_CLOCK_PERIOD ................... 100
+//                  IC_EMPTYFIFO_HOLD_MASTER_EN ....... 1
+//                  IC_RESTART_EN ..................... 0x1
+//                  IC_TX_CMD_BLOCK_DEFAULT ........... 0x0
+//                  IC_BUS_CLEAR_FEATURE .............. 0x0
+//                  IC_CAP_LOADING .................... 100
+//                  IC_FS_SCL_LOW_COUNT ............... 0x000d
+//                  APB_DATA_WIDTH .................... 32
+//                  IC_SDA_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
+//                  IC_SLV_DATA_NACK_ONLY ............. 0x1
+//                  IC_10BITADDR_SLAVE ................ 0x0
+//                  IC_CLK_TYPE ....................... 0x0
+//                  IC_SMBUS_UDID_MSB ................. 0x0
+//                  IC_SMBUS_SUSPEND_ALERT ............ 0x0
+//                  IC_HS_SCL_HIGH_COUNT .............. 0x0006
+//                  IC_SLV_RESTART_DET_EN ............. 0x1
+//                  IC_SMBUS .......................... 0x0
+//                  IC_OPTIONAL_SAR_DEFAULT ........... 0x0
+//                  IC_PERSISTANT_SLV_ADDR_DEFAULT .... 0x0
+//                  IC_USE_COUNTS ..................... 0x0
+//                  IC_RX_BUFFER_DEPTH ................ 16
+//                  IC_SCL_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
+//                  IC_RX_FULL_HLD_BUS_EN ............. 0x1
+//                  IC_SLAVE_DISABLE .................. 0x1
+//                  IC_RX_TL .......................... 0x0
+//                  IC_DEVICE_ID ...................... 0x0
+//                  IC_HC_COUNT_VALUES ................ 0x0
+//                  I2C_DYNAMIC_TAR_UPDATE ............ 0
+//                  IC_SMBUS_CLK_LOW_MEXT_DEFAULT ..... 0xffffffff
+//                  IC_SMBUS_CLK_LOW_SEXT_DEFAULT ..... 0xffffffff
+//                  IC_HS_MASTER_CODE ................. 0x1
+//                  IC_SMBUS_RST_IDLE_CNT_DEFAULT ..... 0xffff
+//                  IC_SMBUS_UDID_LSB_DEFAULT ......... 0xffffffff
+//                  IC_SS_SCL_HIGH_COUNT .............. 0x0028
+//                  IC_SS_SCL_LOW_COUNT ............... 0x002f
+//                  IC_MAX_SPEED_MODE ................. 0x2
+//                  IC_STAT_FOR_CLK_STRETCH ........... 0x0
+//                  IC_STOP_DET_IF_MASTER_ACTIVE ...... 0x0
+//                  IC_DEFAULT_UFM_SPKLEN ............. 0x1
+//                  IC_TX_BUFFER_DEPTH ................ 16
 // =============================================================================
-#ifndef HARDWARE_REGS_I2C_DEFINED
-#define HARDWARE_REGS_I2C_DEFINED
+#ifndef _HARDWARE_REGS_I2C_H
+#define _HARDWARE_REGS_I2C_H
 // =============================================================================
 // Register    : I2C_IC_CON
 // Description : I2C Control Register. This register can be written only when
@@ -42,13 +118,13 @@
 //               Reset value: 0x0.
 //               0x0 -> Overflow when RX_FIFO is full
 //               0x1 -> Hold bus when RX_FIFO is full
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_RESET          _u(0x0)
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_BITS           _u(0x00000200)
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_MSB            _u(9)
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_LSB            _u(9)
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_ACCESS         "RW"
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_RESET  _u(0x0)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_BITS   _u(0x00000200)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_MSB    _u(9)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_LSB    _u(9)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_ACCESS "RW"
 #define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_VALUE_DISABLED _u(0x0)
-#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_TX_EMPTY_CTRL
 // Description : This bit controls the generation of the TX_EMPTY interrupt, as
@@ -57,13 +133,13 @@
 //               Reset value: 0x0.
 //               0x0 -> Default behaviour of TX_EMPTY interrupt
 //               0x1 -> Controlled generation of TX_EMPTY interrupt
-#define I2C_IC_CON_TX_EMPTY_CTRL_RESET          _u(0x0)
-#define I2C_IC_CON_TX_EMPTY_CTRL_BITS           _u(0x00000100)
-#define I2C_IC_CON_TX_EMPTY_CTRL_MSB            _u(8)
-#define I2C_IC_CON_TX_EMPTY_CTRL_LSB            _u(8)
-#define I2C_IC_CON_TX_EMPTY_CTRL_ACCESS         "RW"
+#define I2C_IC_CON_TX_EMPTY_CTRL_RESET  _u(0x0)
+#define I2C_IC_CON_TX_EMPTY_CTRL_BITS   _u(0x00000100)
+#define I2C_IC_CON_TX_EMPTY_CTRL_MSB    _u(8)
+#define I2C_IC_CON_TX_EMPTY_CTRL_LSB    _u(8)
+#define I2C_IC_CON_TX_EMPTY_CTRL_ACCESS "RW"
 #define I2C_IC_CON_TX_EMPTY_CTRL_VALUE_DISABLED _u(0x0)
-#define I2C_IC_CON_TX_EMPTY_CTRL_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_CON_TX_EMPTY_CTRL_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_STOP_DET_IFADDRESSED
 // Description : In slave mode: - 1'b1:  issues the STOP_DET interrupt only when
@@ -77,13 +153,13 @@
 //               transmitted address matches the slave address (SAR).
 //               0x0 -> slave issues STOP_DET intr always
 //               0x1 -> slave issues STOP_DET intr only if addressed
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_RESET          _u(0x0)
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_BITS           _u(0x00000080)
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_MSB            _u(7)
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_LSB            _u(7)
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_ACCESS         "RW"
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_RESET  _u(0x0)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_BITS   _u(0x00000080)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_MSB    _u(7)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_LSB    _u(7)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_ACCESS "RW"
 #define I2C_IC_CON_STOP_DET_IFADDRESSED_VALUE_DISABLED _u(0x0)
-#define I2C_IC_CON_STOP_DET_IFADDRESSED_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_IC_SLAVE_DISABLE
 // Description : This bit controls whether I2C has its slave disabled, which
@@ -98,12 +174,12 @@
 //               0, then bit 0 should also be written with a 0.
 //               0x0 -> Slave mode is enabled
 //               0x1 -> Slave mode is disabled
-#define I2C_IC_CON_IC_SLAVE_DISABLE_RESET                _u(0x1)
-#define I2C_IC_CON_IC_SLAVE_DISABLE_BITS                 _u(0x00000040)
-#define I2C_IC_CON_IC_SLAVE_DISABLE_MSB                  _u(6)
-#define I2C_IC_CON_IC_SLAVE_DISABLE_LSB                  _u(6)
-#define I2C_IC_CON_IC_SLAVE_DISABLE_ACCESS               "RW"
-#define I2C_IC_CON_IC_SLAVE_DISABLE_VALUE_SLAVE_ENABLED  _u(0x0)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_RESET  _u(0x1)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_BITS   _u(0x00000040)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_MSB    _u(6)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_LSB    _u(6)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_ACCESS "RW"
+#define I2C_IC_CON_IC_SLAVE_DISABLE_VALUE_SLAVE_ENABLED _u(0x0)
 #define I2C_IC_CON_IC_SLAVE_DISABLE_VALUE_SLAVE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_IC_RESTART_EN
@@ -112,25 +188,25 @@
 //               conditions; however, RESTART conditions are used in several
 //               DW_apb_i2c operations. When RESTART is disabled, the master is
 //               prohibited from performing the following functions: - Sending a
-//               START BYTE - Performing any high-speed mode operation -
-//               High-speed mode operation - Performing direction changes in
-//               combined format mode - Performing a read operation with a
-//               10-bit address By replacing RESTART condition followed by a
-//               STOP and a subsequent START condition, split operations are
-//               broken down into multiple DW_apb_i2c transfers. If the above
-//               operations are performed, it will result in setting bit 6
-//               (TX_ABRT) of the IC_RAW_INTR_STAT register.
+//               START BYTE - Performing any high-speed mode operation - High-
+//               speed mode operation - Performing direction changes in combined
+//               format mode - Performing a read operation with a 10-bit address
+//               By replacing RESTART condition followed by a STOP and a
+//               subsequent START condition, split operations are broken down
+//               into multiple DW_apb_i2c transfers. If the above operations are
+//               performed, it will result in setting bit 6 (TX_ABRT) of the
+//               IC_RAW_INTR_STAT register.
 //
 //               Reset value: ENABLED
 //               0x0 -> Master restart disabled
 //               0x1 -> Master restart enabled
-#define I2C_IC_CON_IC_RESTART_EN_RESET          _u(0x1)
-#define I2C_IC_CON_IC_RESTART_EN_BITS           _u(0x00000020)
-#define I2C_IC_CON_IC_RESTART_EN_MSB            _u(5)
-#define I2C_IC_CON_IC_RESTART_EN_LSB            _u(5)
-#define I2C_IC_CON_IC_RESTART_EN_ACCESS         "RW"
+#define I2C_IC_CON_IC_RESTART_EN_RESET  _u(0x1)
+#define I2C_IC_CON_IC_RESTART_EN_BITS   _u(0x00000020)
+#define I2C_IC_CON_IC_RESTART_EN_MSB    _u(5)
+#define I2C_IC_CON_IC_RESTART_EN_LSB    _u(5)
+#define I2C_IC_CON_IC_RESTART_EN_ACCESS "RW"
 #define I2C_IC_CON_IC_RESTART_EN_VALUE_DISABLED _u(0x0)
-#define I2C_IC_CON_IC_RESTART_EN_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_CON_IC_RESTART_EN_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_IC_10BITADDR_MASTER
 // Description : Controls whether the DW_apb_i2c starts its transfers in 7- or
@@ -138,12 +214,12 @@
 //               addressing - 1: 10-bit addressing
 //               0x0 -> Master 7Bit addressing mode
 //               0x1 -> Master 10Bit addressing mode
-#define I2C_IC_CON_IC_10BITADDR_MASTER_RESET             _u(0x0)
-#define I2C_IC_CON_IC_10BITADDR_MASTER_BITS              _u(0x00000010)
-#define I2C_IC_CON_IC_10BITADDR_MASTER_MSB               _u(4)
-#define I2C_IC_CON_IC_10BITADDR_MASTER_LSB               _u(4)
-#define I2C_IC_CON_IC_10BITADDR_MASTER_ACCESS            "RW"
-#define I2C_IC_CON_IC_10BITADDR_MASTER_VALUE_ADDR_7BITS  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_RESET  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_BITS   _u(0x00000010)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_MSB    _u(4)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_LSB    _u(4)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_ACCESS "RW"
+#define I2C_IC_CON_IC_10BITADDR_MASTER_VALUE_ADDR_7BITS _u(0x0)
 #define I2C_IC_CON_IC_10BITADDR_MASTER_VALUE_ADDR_10BITS _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_IC_10BITADDR_SLAVE
@@ -156,12 +232,12 @@
 //               that match the full 10 bits of the IC_SAR register.
 //               0x0 -> Slave 7Bit addressing
 //               0x1 -> Slave 10Bit addressing
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_RESET             _u(0x0)
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_BITS              _u(0x00000008)
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_MSB               _u(3)
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_LSB               _u(3)
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_ACCESS            "RW"
-#define I2C_IC_CON_IC_10BITADDR_SLAVE_VALUE_ADDR_7BITS  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_RESET  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_BITS   _u(0x00000008)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_MSB    _u(3)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_LSB    _u(3)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_ACCESS "RW"
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_VALUE_ADDR_7BITS _u(0x0)
 #define I2C_IC_CON_IC_10BITADDR_SLAVE_VALUE_ADDR_10BITS _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_SPEED
@@ -186,14 +262,14 @@
 //               0x1 -> Standard Speed mode of operation
 //               0x2 -> Fast or Fast Plus mode of operation
 //               0x3 -> High Speed mode of operation
-#define I2C_IC_CON_SPEED_RESET          _u(0x2)
-#define I2C_IC_CON_SPEED_BITS           _u(0x00000006)
-#define I2C_IC_CON_SPEED_MSB            _u(2)
-#define I2C_IC_CON_SPEED_LSB            _u(1)
-#define I2C_IC_CON_SPEED_ACCESS         "RW"
+#define I2C_IC_CON_SPEED_RESET  _u(0x2)
+#define I2C_IC_CON_SPEED_BITS   _u(0x00000006)
+#define I2C_IC_CON_SPEED_MSB    _u(2)
+#define I2C_IC_CON_SPEED_LSB    _u(1)
+#define I2C_IC_CON_SPEED_ACCESS "RW"
 #define I2C_IC_CON_SPEED_VALUE_STANDARD _u(0x1)
-#define I2C_IC_CON_SPEED_VALUE_FAST     _u(0x2)
-#define I2C_IC_CON_SPEED_VALUE_HIGH     _u(0x3)
+#define I2C_IC_CON_SPEED_VALUE_FAST _u(0x2)
+#define I2C_IC_CON_SPEED_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_CON_MASTER_MODE
 // Description : This bit controls whether the DW_apb_i2c master is enabled.
@@ -202,13 +278,13 @@
 //               '1' then bit 6 should also be written with a '1'.
 //               0x0 -> Master mode is disabled
 //               0x1 -> Master mode is enabled
-#define I2C_IC_CON_MASTER_MODE_RESET          _u(0x1)
-#define I2C_IC_CON_MASTER_MODE_BITS           _u(0x00000001)
-#define I2C_IC_CON_MASTER_MODE_MSB            _u(0)
-#define I2C_IC_CON_MASTER_MODE_LSB            _u(0)
-#define I2C_IC_CON_MASTER_MODE_ACCESS         "RW"
+#define I2C_IC_CON_MASTER_MODE_RESET  _u(0x1)
+#define I2C_IC_CON_MASTER_MODE_BITS   _u(0x00000001)
+#define I2C_IC_CON_MASTER_MODE_MSB    _u(0)
+#define I2C_IC_CON_MASTER_MODE_LSB    _u(0)
+#define I2C_IC_CON_MASTER_MODE_ACCESS "RW"
 #define I2C_IC_CON_MASTER_MODE_VALUE_DISABLED _u(0x0)
-#define I2C_IC_CON_MASTER_MODE_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_CON_MASTER_MODE_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_TAR
 // Description : I2C Target Address Register
@@ -233,17 +309,15 @@
 //               GC_OR_START and use IC_TAR normally - 1: perform special I2C
 //               command as specified in Device_ID or GC_OR_START bit Reset
 //               value: 0x0
-//               0x0 -> Disables programming of GENERAL_CALL or START_BYTE
-//               transmission
-//               0x1 -> Enables programming of GENERAL_CALL or START_BYTE
-//               transmission
-#define I2C_IC_TAR_SPECIAL_RESET          _u(0x0)
-#define I2C_IC_TAR_SPECIAL_BITS           _u(0x00000800)
-#define I2C_IC_TAR_SPECIAL_MSB            _u(11)
-#define I2C_IC_TAR_SPECIAL_LSB            _u(11)
-#define I2C_IC_TAR_SPECIAL_ACCESS         "RW"
+//               0x0 -> Disables programming of GENERAL_CALL or START_BYTE transmission
+//               0x1 -> Enables programming of GENERAL_CALL or START_BYTE transmission
+#define I2C_IC_TAR_SPECIAL_RESET  _u(0x0)
+#define I2C_IC_TAR_SPECIAL_BITS   _u(0x00000800)
+#define I2C_IC_TAR_SPECIAL_MSB    _u(11)
+#define I2C_IC_TAR_SPECIAL_LSB    _u(11)
+#define I2C_IC_TAR_SPECIAL_ACCESS "RW"
 #define I2C_IC_TAR_SPECIAL_VALUE_DISABLED _u(0x0)
-#define I2C_IC_TAR_SPECIAL_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_TAR_SPECIAL_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TAR_GC_OR_START
 // Description : If bit 11 (SPECIAL) is set to 1 and bit 13(Device-ID) is set to
@@ -256,13 +330,13 @@
 //               value (bit 11) is cleared. - 1: START BYTE Reset value: 0x0
 //               0x0 -> GENERAL_CALL byte transmission
 //               0x1 -> START byte transmission
-#define I2C_IC_TAR_GC_OR_START_RESET              _u(0x0)
-#define I2C_IC_TAR_GC_OR_START_BITS               _u(0x00000400)
-#define I2C_IC_TAR_GC_OR_START_MSB                _u(10)
-#define I2C_IC_TAR_GC_OR_START_LSB                _u(10)
-#define I2C_IC_TAR_GC_OR_START_ACCESS             "RW"
+#define I2C_IC_TAR_GC_OR_START_RESET  _u(0x0)
+#define I2C_IC_TAR_GC_OR_START_BITS   _u(0x00000400)
+#define I2C_IC_TAR_GC_OR_START_MSB    _u(10)
+#define I2C_IC_TAR_GC_OR_START_LSB    _u(10)
+#define I2C_IC_TAR_GC_OR_START_ACCESS "RW"
 #define I2C_IC_TAR_GC_OR_START_VALUE_GENERAL_CALL _u(0x0)
-#define I2C_IC_TAR_GC_OR_START_VALUE_START_BYTE   _u(0x1)
+#define I2C_IC_TAR_GC_OR_START_VALUE_START_BYTE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TAR_IC_TAR
 // Description : This is the target address for any master transaction. When
@@ -347,13 +421,13 @@
 //               FIRST_DATA_BYTE status.
 //               0x0 -> Sequential data byte received
 //               0x1 -> Non sequential data byte received
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_RESET          _u(0x0)
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_BITS           _u(0x00000800)
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_MSB            _u(11)
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_LSB            _u(11)
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_ACCESS         "RO"
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_BITS   _u(0x00000800)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_MSB    _u(11)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_LSB    _u(11)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_ACCESS "RO"
 #define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_DATA_CMD_RESTART
 // Description : This bit controls whether a RESTART is issued before the byte
@@ -373,13 +447,13 @@
 //               Reset value: 0x0
 //               0x0 -> Don't Issue RESTART before this command
 //               0x1 -> Issue RESTART before this command
-#define I2C_IC_DATA_CMD_RESTART_RESET         _u(0x0)
-#define I2C_IC_DATA_CMD_RESTART_BITS          _u(0x00000400)
-#define I2C_IC_DATA_CMD_RESTART_MSB           _u(10)
-#define I2C_IC_DATA_CMD_RESTART_LSB           _u(10)
-#define I2C_IC_DATA_CMD_RESTART_ACCESS        "SC"
+#define I2C_IC_DATA_CMD_RESTART_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_RESTART_BITS   _u(0x00000400)
+#define I2C_IC_DATA_CMD_RESTART_MSB    _u(10)
+#define I2C_IC_DATA_CMD_RESTART_LSB    _u(10)
+#define I2C_IC_DATA_CMD_RESTART_ACCESS "SC"
 #define I2C_IC_DATA_CMD_RESTART_VALUE_DISABLE _u(0x0)
-#define I2C_IC_DATA_CMD_RESTART_VALUE_ENABLE  _u(0x1)
+#define I2C_IC_DATA_CMD_RESTART_VALUE_ENABLE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_DATA_CMD_STOP
 // Description : This bit controls whether a STOP is issued after the byte is
@@ -397,13 +471,13 @@
 //               is available in the Tx FIFO. Reset value: 0x0
 //               0x0 -> Don't Issue STOP after this command
 //               0x1 -> Issue STOP after this command
-#define I2C_IC_DATA_CMD_STOP_RESET         _u(0x0)
-#define I2C_IC_DATA_CMD_STOP_BITS          _u(0x00000200)
-#define I2C_IC_DATA_CMD_STOP_MSB           _u(9)
-#define I2C_IC_DATA_CMD_STOP_LSB           _u(9)
-#define I2C_IC_DATA_CMD_STOP_ACCESS        "SC"
+#define I2C_IC_DATA_CMD_STOP_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_STOP_BITS   _u(0x00000200)
+#define I2C_IC_DATA_CMD_STOP_MSB    _u(9)
+#define I2C_IC_DATA_CMD_STOP_LSB    _u(9)
+#define I2C_IC_DATA_CMD_STOP_ACCESS "SC"
 #define I2C_IC_DATA_CMD_STOP_VALUE_DISABLE _u(0x0)
-#define I2C_IC_DATA_CMD_STOP_VALUE_ENABLE  _u(0x1)
+#define I2C_IC_DATA_CMD_STOP_VALUE_ENABLE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_DATA_CMD_CMD
 // Description : This bit controls whether a read or a write is performed. This
@@ -428,13 +502,13 @@
 //               Reset value: 0x0
 //               0x0 -> Master Write Command
 //               0x1 -> Master Read Command
-#define I2C_IC_DATA_CMD_CMD_RESET       _u(0x0)
-#define I2C_IC_DATA_CMD_CMD_BITS        _u(0x00000100)
-#define I2C_IC_DATA_CMD_CMD_MSB         _u(8)
-#define I2C_IC_DATA_CMD_CMD_LSB         _u(8)
-#define I2C_IC_DATA_CMD_CMD_ACCESS      "SC"
+#define I2C_IC_DATA_CMD_CMD_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_CMD_BITS   _u(0x00000100)
+#define I2C_IC_DATA_CMD_CMD_MSB    _u(8)
+#define I2C_IC_DATA_CMD_CMD_LSB    _u(8)
+#define I2C_IC_DATA_CMD_CMD_ACCESS "SC"
 #define I2C_IC_DATA_CMD_CMD_VALUE_WRITE _u(0x0)
-#define I2C_IC_DATA_CMD_CMD_VALUE_READ  _u(0x1)
+#define I2C_IC_DATA_CMD_CMD_VALUE_READ _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_DATA_CMD_DAT
 // Description : This register contains the data to be transmitted or received
@@ -552,9 +626,9 @@
 // Field       : I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT
 // Description : This register must be set before any I2C bus transaction can
 //               take place to ensure proper I/O timing. This register sets the
-//               SCL clock low period count for fast speed. It is used in
-//               high-speed mode to send the Master Code and START BYTE or
-//               General CALL. For more information, refer to 'IC_CLK Frequency
+//               SCL clock low period count for fast speed. It is used in high-
+//               speed mode to send the Master Code and START BYTE or General
+//               CALL. For more information, refer to 'IC_CLK Frequency
 //               Configuration'.
 //
 //               This register goes away and becomes read-only returning 0s if
@@ -595,13 +669,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_RESTART_DET interrupt is inactive
 //               0x1 -> R_RESTART_DET interrupt is active
-#define I2C_IC_INTR_STAT_R_RESTART_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RESTART_DET_BITS           _u(0x00001000)
-#define I2C_IC_INTR_STAT_R_RESTART_DET_MSB            _u(12)
-#define I2C_IC_INTR_STAT_R_RESTART_DET_LSB            _u(12)
-#define I2C_IC_INTR_STAT_R_RESTART_DET_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_MSB    _u(12)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_LSB    _u(12)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RESTART_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RESTART_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_GEN_CALL
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_GEN_CALL
@@ -610,13 +684,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_GEN_CALL interrupt is inactive
 //               0x1 -> R_GEN_CALL interrupt is active
-#define I2C_IC_INTR_STAT_R_GEN_CALL_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_GEN_CALL_BITS           _u(0x00000800)
-#define I2C_IC_INTR_STAT_R_GEN_CALL_MSB            _u(11)
-#define I2C_IC_INTR_STAT_R_GEN_CALL_LSB            _u(11)
-#define I2C_IC_INTR_STAT_R_GEN_CALL_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_GEN_CALL_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_MSB    _u(11)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_LSB    _u(11)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_GEN_CALL_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_GEN_CALL_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_START_DET
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_START_DET
@@ -625,13 +699,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_START_DET interrupt is inactive
 //               0x1 -> R_START_DET interrupt is active
-#define I2C_IC_INTR_STAT_R_START_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_START_DET_BITS           _u(0x00000400)
-#define I2C_IC_INTR_STAT_R_START_DET_MSB            _u(10)
-#define I2C_IC_INTR_STAT_R_START_DET_LSB            _u(10)
-#define I2C_IC_INTR_STAT_R_START_DET_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_START_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_INTR_STAT_R_START_DET_MSB    _u(10)
+#define I2C_IC_INTR_STAT_R_START_DET_LSB    _u(10)
+#define I2C_IC_INTR_STAT_R_START_DET_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_START_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_START_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_START_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_STOP_DET
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_STOP_DET
@@ -640,13 +714,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_STOP_DET interrupt is inactive
 //               0x1 -> R_STOP_DET interrupt is active
-#define I2C_IC_INTR_STAT_R_STOP_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_STOP_DET_BITS           _u(0x00000200)
-#define I2C_IC_INTR_STAT_R_STOP_DET_MSB            _u(9)
-#define I2C_IC_INTR_STAT_R_STOP_DET_LSB            _u(9)
-#define I2C_IC_INTR_STAT_R_STOP_DET_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_INTR_STAT_R_STOP_DET_MSB    _u(9)
+#define I2C_IC_INTR_STAT_R_STOP_DET_LSB    _u(9)
+#define I2C_IC_INTR_STAT_R_STOP_DET_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_STOP_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_STOP_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_STOP_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_ACTIVITY
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_ACTIVITY
@@ -655,13 +729,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_ACTIVITY interrupt is inactive
 //               0x1 -> R_ACTIVITY interrupt is active
-#define I2C_IC_INTR_STAT_R_ACTIVITY_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_ACTIVITY_BITS           _u(0x00000100)
-#define I2C_IC_INTR_STAT_R_ACTIVITY_MSB            _u(8)
-#define I2C_IC_INTR_STAT_R_ACTIVITY_LSB            _u(8)
-#define I2C_IC_INTR_STAT_R_ACTIVITY_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_MSB    _u(8)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_LSB    _u(8)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_ACTIVITY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_ACTIVITY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_RX_DONE
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_DONE
@@ -670,13 +744,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_RX_DONE interrupt is inactive
 //               0x1 -> R_RX_DONE interrupt is active
-#define I2C_IC_INTR_STAT_R_RX_DONE_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_DONE_BITS           _u(0x00000080)
-#define I2C_IC_INTR_STAT_R_RX_DONE_MSB            _u(7)
-#define I2C_IC_INTR_STAT_R_RX_DONE_LSB            _u(7)
-#define I2C_IC_INTR_STAT_R_RX_DONE_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RX_DONE_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_INTR_STAT_R_RX_DONE_MSB    _u(7)
+#define I2C_IC_INTR_STAT_R_RX_DONE_LSB    _u(7)
+#define I2C_IC_INTR_STAT_R_RX_DONE_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RX_DONE_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_DONE_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RX_DONE_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_TX_ABRT
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_ABRT
@@ -685,13 +759,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_TX_ABRT interrupt is inactive
 //               0x1 -> R_TX_ABRT interrupt is active
-#define I2C_IC_INTR_STAT_R_TX_ABRT_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_ABRT_BITS           _u(0x00000040)
-#define I2C_IC_INTR_STAT_R_TX_ABRT_MSB            _u(6)
-#define I2C_IC_INTR_STAT_R_TX_ABRT_LSB            _u(6)
-#define I2C_IC_INTR_STAT_R_TX_ABRT_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_TX_ABRT_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_MSB    _u(6)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_LSB    _u(6)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_TX_ABRT_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_ABRT_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_RD_REQ
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_RD_REQ
@@ -700,13 +774,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_RD_REQ interrupt is inactive
 //               0x1 -> R_RD_REQ interrupt is active
-#define I2C_IC_INTR_STAT_R_RD_REQ_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RD_REQ_BITS           _u(0x00000020)
-#define I2C_IC_INTR_STAT_R_RD_REQ_MSB            _u(5)
-#define I2C_IC_INTR_STAT_R_RD_REQ_LSB            _u(5)
-#define I2C_IC_INTR_STAT_R_RD_REQ_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RD_REQ_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_INTR_STAT_R_RD_REQ_MSB    _u(5)
+#define I2C_IC_INTR_STAT_R_RD_REQ_LSB    _u(5)
+#define I2C_IC_INTR_STAT_R_RD_REQ_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RD_REQ_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RD_REQ_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RD_REQ_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_TX_EMPTY
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_EMPTY
@@ -715,13 +789,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_TX_EMPTY interrupt is inactive
 //               0x1 -> R_TX_EMPTY interrupt is active
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_BITS           _u(0x00000010)
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_MSB            _u(4)
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_LSB            _u(4)
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_TX_EMPTY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_EMPTY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_TX_OVER
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_OVER
@@ -730,13 +804,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_TX_OVER interrupt is inactive
 //               0x1 -> R_TX_OVER interrupt is active
-#define I2C_IC_INTR_STAT_R_TX_OVER_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_OVER_BITS           _u(0x00000008)
-#define I2C_IC_INTR_STAT_R_TX_OVER_MSB            _u(3)
-#define I2C_IC_INTR_STAT_R_TX_OVER_LSB            _u(3)
-#define I2C_IC_INTR_STAT_R_TX_OVER_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_TX_OVER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_INTR_STAT_R_TX_OVER_MSB    _u(3)
+#define I2C_IC_INTR_STAT_R_TX_OVER_LSB    _u(3)
+#define I2C_IC_INTR_STAT_R_TX_OVER_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_TX_OVER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_TX_OVER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_TX_OVER_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_RX_FULL
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_FULL
@@ -745,13 +819,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_RX_FULL interrupt is inactive
 //               0x1 -> R_RX_FULL interrupt is active
-#define I2C_IC_INTR_STAT_R_RX_FULL_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_FULL_BITS           _u(0x00000004)
-#define I2C_IC_INTR_STAT_R_RX_FULL_MSB            _u(2)
-#define I2C_IC_INTR_STAT_R_RX_FULL_LSB            _u(2)
-#define I2C_IC_INTR_STAT_R_RX_FULL_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RX_FULL_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_INTR_STAT_R_RX_FULL_MSB    _u(2)
+#define I2C_IC_INTR_STAT_R_RX_FULL_LSB    _u(2)
+#define I2C_IC_INTR_STAT_R_RX_FULL_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RX_FULL_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_FULL_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RX_FULL_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_RX_OVER
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_OVER
@@ -760,13 +834,13 @@
 //               Reset value: 0x0
 //               0x0 -> R_RX_OVER interrupt is inactive
 //               0x1 -> R_RX_OVER interrupt is active
-#define I2C_IC_INTR_STAT_R_RX_OVER_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_OVER_BITS           _u(0x00000002)
-#define I2C_IC_INTR_STAT_R_RX_OVER_MSB            _u(1)
-#define I2C_IC_INTR_STAT_R_RX_OVER_LSB            _u(1)
-#define I2C_IC_INTR_STAT_R_RX_OVER_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RX_OVER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_INTR_STAT_R_RX_OVER_MSB    _u(1)
+#define I2C_IC_INTR_STAT_R_RX_OVER_LSB    _u(1)
+#define I2C_IC_INTR_STAT_R_RX_OVER_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RX_OVER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_OVER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RX_OVER_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_STAT_R_RX_UNDER
 // Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_UNDER
@@ -775,13 +849,13 @@
 //               Reset value: 0x0
 //               0x0 -> RX_UNDER interrupt is inactive
 //               0x1 -> RX_UNDER interrupt is active
-#define I2C_IC_INTR_STAT_R_RX_UNDER_RESET          _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_UNDER_BITS           _u(0x00000001)
-#define I2C_IC_INTR_STAT_R_RX_UNDER_MSB            _u(0)
-#define I2C_IC_INTR_STAT_R_RX_UNDER_LSB            _u(0)
-#define I2C_IC_INTR_STAT_R_RX_UNDER_ACCESS         "RO"
+#define I2C_IC_INTR_STAT_R_RX_UNDER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_MSB    _u(0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_LSB    _u(0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_ACCESS "RO"
 #define I2C_IC_INTR_STAT_R_RX_UNDER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_INTR_STAT_R_RX_UNDER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_VALUE_ACTIVE _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_INTR_MASK
 // Description : I2C Interrupt Mask Register.
@@ -800,12 +874,12 @@
 //               Reset value: 0x0
 //               0x0 -> RESTART_DET interrupt is masked
 //               0x1 -> RESTART_DET interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RESTART_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_MASK_M_RESTART_DET_BITS           _u(0x00001000)
-#define I2C_IC_INTR_MASK_M_RESTART_DET_MSB            _u(12)
-#define I2C_IC_INTR_MASK_M_RESTART_DET_LSB            _u(12)
-#define I2C_IC_INTR_MASK_M_RESTART_DET_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RESTART_DET_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_MSB    _u(12)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_LSB    _u(12)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RESTART_DET_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RESTART_DET_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_GEN_CALL
@@ -815,12 +889,12 @@
 //               Reset value: 0x1
 //               0x0 -> GEN_CALL interrupt is masked
 //               0x1 -> GEN_CALL interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_GEN_CALL_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_GEN_CALL_BITS           _u(0x00000800)
-#define I2C_IC_INTR_MASK_M_GEN_CALL_MSB            _u(11)
-#define I2C_IC_INTR_MASK_M_GEN_CALL_LSB            _u(11)
-#define I2C_IC_INTR_MASK_M_GEN_CALL_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_GEN_CALL_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_MSB    _u(11)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_LSB    _u(11)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_GEN_CALL_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_GEN_CALL_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_START_DET
@@ -830,12 +904,12 @@
 //               Reset value: 0x0
 //               0x0 -> START_DET interrupt is masked
 //               0x1 -> START_DET interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_START_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_MASK_M_START_DET_BITS           _u(0x00000400)
-#define I2C_IC_INTR_MASK_M_START_DET_MSB            _u(10)
-#define I2C_IC_INTR_MASK_M_START_DET_LSB            _u(10)
-#define I2C_IC_INTR_MASK_M_START_DET_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_START_DET_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_START_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_INTR_MASK_M_START_DET_MSB    _u(10)
+#define I2C_IC_INTR_MASK_M_START_DET_LSB    _u(10)
+#define I2C_IC_INTR_MASK_M_START_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_START_DET_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_START_DET_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_STOP_DET
@@ -845,12 +919,12 @@
 //               Reset value: 0x0
 //               0x0 -> STOP_DET interrupt is masked
 //               0x1 -> STOP_DET interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_STOP_DET_RESET          _u(0x0)
-#define I2C_IC_INTR_MASK_M_STOP_DET_BITS           _u(0x00000200)
-#define I2C_IC_INTR_MASK_M_STOP_DET_MSB            _u(9)
-#define I2C_IC_INTR_MASK_M_STOP_DET_LSB            _u(9)
-#define I2C_IC_INTR_MASK_M_STOP_DET_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_STOP_DET_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_INTR_MASK_M_STOP_DET_MSB    _u(9)
+#define I2C_IC_INTR_MASK_M_STOP_DET_LSB    _u(9)
+#define I2C_IC_INTR_MASK_M_STOP_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_STOP_DET_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_STOP_DET_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_ACTIVITY
@@ -860,12 +934,12 @@
 //               Reset value: 0x0
 //               0x0 -> ACTIVITY interrupt is masked
 //               0x1 -> ACTIVITY interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_ACTIVITY_RESET          _u(0x0)
-#define I2C_IC_INTR_MASK_M_ACTIVITY_BITS           _u(0x00000100)
-#define I2C_IC_INTR_MASK_M_ACTIVITY_MSB            _u(8)
-#define I2C_IC_INTR_MASK_M_ACTIVITY_LSB            _u(8)
-#define I2C_IC_INTR_MASK_M_ACTIVITY_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_ACTIVITY_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_MSB    _u(8)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_LSB    _u(8)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_ACTIVITY_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_ACTIVITY_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_RX_DONE
@@ -875,12 +949,12 @@
 //               Reset value: 0x1
 //               0x0 -> RX_DONE interrupt is masked
 //               0x1 -> RX_DONE interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RX_DONE_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_RX_DONE_BITS           _u(0x00000080)
-#define I2C_IC_INTR_MASK_M_RX_DONE_MSB            _u(7)
-#define I2C_IC_INTR_MASK_M_RX_DONE_LSB            _u(7)
-#define I2C_IC_INTR_MASK_M_RX_DONE_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RX_DONE_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_DONE_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_INTR_MASK_M_RX_DONE_MSB    _u(7)
+#define I2C_IC_INTR_MASK_M_RX_DONE_LSB    _u(7)
+#define I2C_IC_INTR_MASK_M_RX_DONE_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_DONE_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RX_DONE_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_TX_ABRT
@@ -890,12 +964,12 @@
 //               Reset value: 0x1
 //               0x0 -> TX_ABORT interrupt is masked
 //               0x1 -> TX_ABORT interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_TX_ABRT_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_TX_ABRT_BITS           _u(0x00000040)
-#define I2C_IC_INTR_MASK_M_TX_ABRT_MSB            _u(6)
-#define I2C_IC_INTR_MASK_M_TX_ABRT_LSB            _u(6)
-#define I2C_IC_INTR_MASK_M_TX_ABRT_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_TX_ABRT_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_MSB    _u(6)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_LSB    _u(6)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_ABRT_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_TX_ABRT_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_RD_REQ
@@ -904,12 +978,12 @@
 //               Reset value: 0x1
 //               0x0 -> RD_REQ interrupt is masked
 //               0x1 -> RD_REQ interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RD_REQ_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_RD_REQ_BITS           _u(0x00000020)
-#define I2C_IC_INTR_MASK_M_RD_REQ_MSB            _u(5)
-#define I2C_IC_INTR_MASK_M_RD_REQ_LSB            _u(5)
-#define I2C_IC_INTR_MASK_M_RD_REQ_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RD_REQ_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RD_REQ_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_INTR_MASK_M_RD_REQ_MSB    _u(5)
+#define I2C_IC_INTR_MASK_M_RD_REQ_LSB    _u(5)
+#define I2C_IC_INTR_MASK_M_RD_REQ_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RD_REQ_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RD_REQ_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_TX_EMPTY
@@ -919,12 +993,12 @@
 //               Reset value: 0x1
 //               0x0 -> TX_EMPTY interrupt is masked
 //               0x1 -> TX_EMPTY interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_BITS           _u(0x00000010)
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_MSB            _u(4)
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_LSB            _u(4)
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_TX_EMPTY_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_TX_EMPTY_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_TX_OVER
@@ -934,12 +1008,12 @@
 //               Reset value: 0x1
 //               0x0 -> TX_OVER interrupt is masked
 //               0x1 -> TX_OVER interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_TX_OVER_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_TX_OVER_BITS           _u(0x00000008)
-#define I2C_IC_INTR_MASK_M_TX_OVER_MSB            _u(3)
-#define I2C_IC_INTR_MASK_M_TX_OVER_LSB            _u(3)
-#define I2C_IC_INTR_MASK_M_TX_OVER_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_TX_OVER_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_OVER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_INTR_MASK_M_TX_OVER_MSB    _u(3)
+#define I2C_IC_INTR_MASK_M_TX_OVER_LSB    _u(3)
+#define I2C_IC_INTR_MASK_M_TX_OVER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_OVER_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_TX_OVER_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_RX_FULL
@@ -949,12 +1023,12 @@
 //               Reset value: 0x1
 //               0x0 -> RX_FULL interrupt is masked
 //               0x1 -> RX_FULL interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RX_FULL_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_RX_FULL_BITS           _u(0x00000004)
-#define I2C_IC_INTR_MASK_M_RX_FULL_MSB            _u(2)
-#define I2C_IC_INTR_MASK_M_RX_FULL_LSB            _u(2)
-#define I2C_IC_INTR_MASK_M_RX_FULL_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RX_FULL_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_FULL_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_INTR_MASK_M_RX_FULL_MSB    _u(2)
+#define I2C_IC_INTR_MASK_M_RX_FULL_LSB    _u(2)
+#define I2C_IC_INTR_MASK_M_RX_FULL_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_FULL_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RX_FULL_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_RX_OVER
@@ -964,12 +1038,12 @@
 //               Reset value: 0x1
 //               0x0 -> RX_OVER interrupt is masked
 //               0x1 -> RX_OVER interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RX_OVER_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_RX_OVER_BITS           _u(0x00000002)
-#define I2C_IC_INTR_MASK_M_RX_OVER_MSB            _u(1)
-#define I2C_IC_INTR_MASK_M_RX_OVER_LSB            _u(1)
-#define I2C_IC_INTR_MASK_M_RX_OVER_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RX_OVER_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_OVER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_INTR_MASK_M_RX_OVER_MSB    _u(1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_LSB    _u(1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_OVER_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RX_OVER_VALUE_DISABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_INTR_MASK_M_RX_UNDER
@@ -979,12 +1053,12 @@
 //               Reset value: 0x1
 //               0x0 -> RX_UNDER interrupt is masked
 //               0x1 -> RX_UNDER interrupt is unmasked
-#define I2C_IC_INTR_MASK_M_RX_UNDER_RESET          _u(0x1)
-#define I2C_IC_INTR_MASK_M_RX_UNDER_BITS           _u(0x00000001)
-#define I2C_IC_INTR_MASK_M_RX_UNDER_MSB            _u(0)
-#define I2C_IC_INTR_MASK_M_RX_UNDER_LSB            _u(0)
-#define I2C_IC_INTR_MASK_M_RX_UNDER_ACCESS         "RW"
-#define I2C_IC_INTR_MASK_M_RX_UNDER_VALUE_ENABLED  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_MSB    _u(0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_LSB    _u(0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_UNDER_VALUE_ENABLED _u(0x0)
 #define I2C_IC_INTR_MASK_M_RX_UNDER_VALUE_DISABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_RAW_INTR_STAT
@@ -1011,13 +1085,13 @@
 //               Reset value: 0x0
 //               0x0 -> RESTART_DET interrupt is inactive
 //               0x1 -> RESTART_DET interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_BITS           _u(0x00001000)
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_MSB            _u(12)
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_LSB            _u(12)
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_MSB    _u(12)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_LSB    _u(12)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RESTART_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RESTART_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_GEN_CALL
 // Description : Set only when a General Call address is received and it is
@@ -1029,13 +1103,13 @@
 //               Reset value: 0x0
 //               0x0 -> GEN_CALL interrupt is inactive
 //               0x1 -> GEN_CALL interrupt is active
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_BITS           _u(0x00000800)
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_MSB            _u(11)
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_LSB            _u(11)
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_MSB    _u(11)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_LSB    _u(11)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_GEN_CALL_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_GEN_CALL_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_START_DET
 // Description : Indicates whether a START or RESTART condition has occurred on
@@ -1045,13 +1119,13 @@
 //               Reset value: 0x0
 //               0x0 -> START_DET interrupt is inactive
 //               0x1 -> START_DET interrupt is active
-#define I2C_IC_RAW_INTR_STAT_START_DET_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_START_DET_BITS           _u(0x00000400)
-#define I2C_IC_RAW_INTR_STAT_START_DET_MSB            _u(10)
-#define I2C_IC_RAW_INTR_STAT_START_DET_LSB            _u(10)
-#define I2C_IC_RAW_INTR_STAT_START_DET_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_START_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_RAW_INTR_STAT_START_DET_MSB    _u(10)
+#define I2C_IC_RAW_INTR_STAT_START_DET_LSB    _u(10)
+#define I2C_IC_RAW_INTR_STAT_START_DET_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_START_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_START_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_START_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_STOP_DET
 // Description : Indicates whether a STOP condition has occurred on the I2C
@@ -1074,13 +1148,13 @@
 //               Reset value: 0x0
 //               0x0 -> STOP_DET interrupt is inactive
 //               0x1 -> STOP_DET interrupt is active
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_BITS           _u(0x00000200)
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_MSB            _u(9)
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_LSB            _u(9)
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_MSB    _u(9)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_LSB    _u(9)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_STOP_DET_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_STOP_DET_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_ACTIVITY
 // Description : This bit captures DW_apb_i2c activity and stays set until it is
@@ -1094,13 +1168,13 @@
 //               Reset value: 0x0
 //               0x0 -> RAW_INTR_ACTIVITY interrupt is inactive
 //               0x1 -> RAW_INTR_ACTIVITY interrupt is active
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_BITS           _u(0x00000100)
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_MSB            _u(8)
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_LSB            _u(8)
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_MSB    _u(8)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_LSB    _u(8)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_ACTIVITY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_ACTIVITY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_RX_DONE
 // Description : When the DW_apb_i2c is acting as a slave-transmitter, this bit
@@ -1111,13 +1185,13 @@
 //               Reset value: 0x0
 //               0x0 -> RX_DONE interrupt is inactive
 //               0x1 -> RX_DONE interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_BITS           _u(0x00000080)
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_MSB            _u(7)
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_LSB            _u(7)
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_MSB    _u(7)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_LSB    _u(7)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RX_DONE_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_DONE_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_TX_ABRT
 // Description : This bit indicates if DW_apb_i2c, as an I2C transmitter, is
@@ -1137,13 +1211,13 @@
 //               Reset value: 0x0
 //               0x0 -> TX_ABRT interrupt is inactive
 //               0x1 -> TX_ABRT interrupt is active
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_BITS           _u(0x00000040)
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_MSB            _u(6)
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_LSB            _u(6)
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_MSB    _u(6)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_LSB    _u(6)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_TX_ABRT_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_ABRT_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_RD_REQ
 // Description : This bit is set to 1 when DW_apb_i2c is acting as a slave and
@@ -1159,13 +1233,13 @@
 //               Reset value: 0x0
 //               0x0 -> RD_REQ interrupt is inactive
 //               0x1 -> RD_REQ interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_BITS           _u(0x00000020)
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_MSB            _u(5)
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_LSB            _u(5)
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_MSB    _u(5)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_LSB    _u(5)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RD_REQ_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RD_REQ_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_TX_EMPTY
 // Description : The behavior of the TX_EMPTY interrupt status differs based on
@@ -1187,13 +1261,13 @@
 //               Reset value: 0x0.
 //               0x0 -> TX_EMPTY interrupt is inactive
 //               0x1 -> TX_EMPTY interrupt is active
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_BITS           _u(0x00000010)
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_MSB            _u(4)
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_LSB            _u(4)
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_TX_EMPTY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_TX_OVER
 // Description : Set during transmit if the transmit buffer is filled to
@@ -1206,13 +1280,13 @@
 //               Reset value: 0x0
 //               0x0 -> TX_OVER interrupt is inactive
 //               0x1 -> TX_OVER interrupt is active
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_BITS           _u(0x00000008)
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_MSB            _u(3)
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_LSB            _u(3)
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_MSB    _u(3)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_LSB    _u(3)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_TX_OVER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_TX_OVER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_RX_FULL
 // Description : Set when the receive buffer reaches or goes above the RX_TL
@@ -1226,13 +1300,13 @@
 //               Reset value: 0x0
 //               0x0 -> RX_FULL interrupt is inactive
 //               0x1 -> RX_FULL interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_BITS           _u(0x00000004)
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_MSB            _u(2)
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_LSB            _u(2)
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_MSB    _u(2)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_LSB    _u(2)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RX_FULL_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_FULL_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_RX_OVER
 // Description : Set if the receive buffer is completely filled to
@@ -1250,13 +1324,13 @@
 //               Reset value: 0x0
 //               0x0 -> RX_OVER interrupt is inactive
 //               0x1 -> RX_OVER interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_BITS           _u(0x00000002)
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_MSB            _u(1)
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_LSB            _u(1)
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_MSB    _u(1)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_LSB    _u(1)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RX_OVER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_OVER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_RAW_INTR_STAT_RX_UNDER
 // Description : Set if the processor attempts to read the receive buffer when
@@ -1268,13 +1342,13 @@
 //               Reset value: 0x0
 //               0x0 -> RX_UNDER interrupt is inactive
 //               0x1 -> RX_UNDER interrupt is active
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_RESET          _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_BITS           _u(0x00000001)
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_MSB            _u(0)
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_LSB            _u(0)
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_ACCESS         "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_MSB    _u(0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_LSB    _u(0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_ACCESS "RO"
 #define I2C_IC_RAW_INTR_STAT_RX_UNDER_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_RAW_INTR_STAT_RX_UNDER_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_VALUE_ACTIVE _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_RX_TL
 // Description : I2C Receive FIFO Threshold Register
@@ -1539,13 +1613,13 @@
 //               value:  IC_TX_CMD_BLOCK_DEFAULT
 //               0x0 -> Tx Command execution not blocked
 //               0x1 -> Tx Command execution blocked
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_RESET             _u(0x0)
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_BITS              _u(0x00000004)
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_MSB               _u(2)
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_LSB               _u(2)
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_ACCESS            "RW"
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_RESET  _u(0x0)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_BITS   _u(0x00000004)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_MSB    _u(2)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_LSB    _u(2)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_ACCESS "RW"
 #define I2C_IC_ENABLE_TX_CMD_BLOCK_VALUE_NOT_BLOCKED _u(0x0)
-#define I2C_IC_ENABLE_TX_CMD_BLOCK_VALUE_BLOCKED     _u(0x1)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_VALUE_BLOCKED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_ENABLE_ABORT
 // Description : When set, the controller initiates the transfer abort. - 0:
@@ -1565,11 +1639,11 @@
 //               Reset value: 0x0
 //               0x0 -> ABORT operation not in progress
 //               0x1 -> ABORT operation in progress
-#define I2C_IC_ENABLE_ABORT_RESET         _u(0x0)
-#define I2C_IC_ENABLE_ABORT_BITS          _u(0x00000002)
-#define I2C_IC_ENABLE_ABORT_MSB           _u(1)
-#define I2C_IC_ENABLE_ABORT_LSB           _u(1)
-#define I2C_IC_ENABLE_ABORT_ACCESS        "RW"
+#define I2C_IC_ENABLE_ABORT_RESET  _u(0x0)
+#define I2C_IC_ENABLE_ABORT_BITS   _u(0x00000002)
+#define I2C_IC_ENABLE_ABORT_MSB    _u(1)
+#define I2C_IC_ENABLE_ABORT_LSB    _u(1)
+#define I2C_IC_ENABLE_ABORT_ACCESS "RW"
 #define I2C_IC_ENABLE_ABORT_VALUE_DISABLE _u(0x0)
 #define I2C_IC_ENABLE_ABORT_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
@@ -1599,13 +1673,13 @@
 //               Reset value: 0x0
 //               0x0 -> I2C is disabled
 //               0x1 -> I2C is enabled
-#define I2C_IC_ENABLE_ENABLE_RESET          _u(0x0)
-#define I2C_IC_ENABLE_ENABLE_BITS           _u(0x00000001)
-#define I2C_IC_ENABLE_ENABLE_MSB            _u(0)
-#define I2C_IC_ENABLE_ENABLE_LSB            _u(0)
-#define I2C_IC_ENABLE_ENABLE_ACCESS         "RW"
+#define I2C_IC_ENABLE_ENABLE_RESET  _u(0x0)
+#define I2C_IC_ENABLE_ENABLE_BITS   _u(0x00000001)
+#define I2C_IC_ENABLE_ENABLE_MSB    _u(0)
+#define I2C_IC_ENABLE_ENABLE_LSB    _u(0)
+#define I2C_IC_ENABLE_ENABLE_ACCESS "RW"
 #define I2C_IC_ENABLE_ENABLE_VALUE_DISABLED _u(0x0)
-#define I2C_IC_ENABLE_ENABLE_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_ENABLE_ENABLE_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_STATUS
 // Description : I2C Status Register
@@ -1631,12 +1705,12 @@
 //               DW_apb_i2c is Active Reset value: 0x0
 //               0x0 -> Slave is idle
 //               0x1 -> Slave not idle
-#define I2C_IC_STATUS_SLV_ACTIVITY_RESET        _u(0x0)
-#define I2C_IC_STATUS_SLV_ACTIVITY_BITS         _u(0x00000040)
-#define I2C_IC_STATUS_SLV_ACTIVITY_MSB          _u(6)
-#define I2C_IC_STATUS_SLV_ACTIVITY_LSB          _u(6)
-#define I2C_IC_STATUS_SLV_ACTIVITY_ACCESS       "RO"
-#define I2C_IC_STATUS_SLV_ACTIVITY_VALUE_IDLE   _u(0x0)
+#define I2C_IC_STATUS_SLV_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_SLV_ACTIVITY_BITS   _u(0x00000040)
+#define I2C_IC_STATUS_SLV_ACTIVITY_MSB    _u(6)
+#define I2C_IC_STATUS_SLV_ACTIVITY_LSB    _u(6)
+#define I2C_IC_STATUS_SLV_ACTIVITY_ACCESS "RO"
+#define I2C_IC_STATUS_SLV_ACTIVITY_VALUE_IDLE _u(0x0)
 #define I2C_IC_STATUS_SLV_ACTIVITY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_MST_ACTIVITY
@@ -1650,12 +1724,12 @@
 //               Reset value: 0x0
 //               0x0 -> Master is idle
 //               0x1 -> Master not idle
-#define I2C_IC_STATUS_MST_ACTIVITY_RESET        _u(0x0)
-#define I2C_IC_STATUS_MST_ACTIVITY_BITS         _u(0x00000020)
-#define I2C_IC_STATUS_MST_ACTIVITY_MSB          _u(5)
-#define I2C_IC_STATUS_MST_ACTIVITY_LSB          _u(5)
-#define I2C_IC_STATUS_MST_ACTIVITY_ACCESS       "RO"
-#define I2C_IC_STATUS_MST_ACTIVITY_VALUE_IDLE   _u(0x0)
+#define I2C_IC_STATUS_MST_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_MST_ACTIVITY_BITS   _u(0x00000020)
+#define I2C_IC_STATUS_MST_ACTIVITY_MSB    _u(5)
+#define I2C_IC_STATUS_MST_ACTIVITY_LSB    _u(5)
+#define I2C_IC_STATUS_MST_ACTIVITY_ACCESS "RO"
+#define I2C_IC_STATUS_MST_ACTIVITY_VALUE_IDLE _u(0x0)
 #define I2C_IC_STATUS_MST_ACTIVITY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_RFF
@@ -1666,13 +1740,13 @@
 //               0x0
 //               0x0 -> Rx FIFO not full
 //               0x1 -> Rx FIFO is full
-#define I2C_IC_STATUS_RFF_RESET          _u(0x0)
-#define I2C_IC_STATUS_RFF_BITS           _u(0x00000010)
-#define I2C_IC_STATUS_RFF_MSB            _u(4)
-#define I2C_IC_STATUS_RFF_LSB            _u(4)
-#define I2C_IC_STATUS_RFF_ACCESS         "RO"
+#define I2C_IC_STATUS_RFF_RESET  _u(0x0)
+#define I2C_IC_STATUS_RFF_BITS   _u(0x00000010)
+#define I2C_IC_STATUS_RFF_MSB    _u(4)
+#define I2C_IC_STATUS_RFF_LSB    _u(4)
+#define I2C_IC_STATUS_RFF_ACCESS "RO"
 #define I2C_IC_STATUS_RFF_VALUE_NOT_FULL _u(0x0)
-#define I2C_IC_STATUS_RFF_VALUE_FULL     _u(0x1)
+#define I2C_IC_STATUS_RFF_VALUE_FULL _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_RFNE
 // Description : Receive FIFO Not Empty. This bit is set when the receive FIFO
@@ -1681,12 +1755,12 @@
 //               not empty Reset value: 0x0
 //               0x0 -> Rx FIFO is empty
 //               0x1 -> Rx FIFO not empty
-#define I2C_IC_STATUS_RFNE_RESET           _u(0x0)
-#define I2C_IC_STATUS_RFNE_BITS            _u(0x00000008)
-#define I2C_IC_STATUS_RFNE_MSB             _u(3)
-#define I2C_IC_STATUS_RFNE_LSB             _u(3)
-#define I2C_IC_STATUS_RFNE_ACCESS          "RO"
-#define I2C_IC_STATUS_RFNE_VALUE_EMPTY     _u(0x0)
+#define I2C_IC_STATUS_RFNE_RESET  _u(0x0)
+#define I2C_IC_STATUS_RFNE_BITS   _u(0x00000008)
+#define I2C_IC_STATUS_RFNE_MSB    _u(3)
+#define I2C_IC_STATUS_RFNE_LSB    _u(3)
+#define I2C_IC_STATUS_RFNE_ACCESS "RO"
+#define I2C_IC_STATUS_RFNE_VALUE_EMPTY _u(0x0)
 #define I2C_IC_STATUS_RFNE_VALUE_NOT_EMPTY _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_TFE
@@ -1697,13 +1771,13 @@
 //               Transmit FIFO is empty Reset value: 0x1
 //               0x0 -> Tx FIFO not empty
 //               0x1 -> Tx FIFO is empty
-#define I2C_IC_STATUS_TFE_RESET           _u(0x1)
-#define I2C_IC_STATUS_TFE_BITS            _u(0x00000004)
-#define I2C_IC_STATUS_TFE_MSB             _u(2)
-#define I2C_IC_STATUS_TFE_LSB             _u(2)
-#define I2C_IC_STATUS_TFE_ACCESS          "RO"
+#define I2C_IC_STATUS_TFE_RESET  _u(0x1)
+#define I2C_IC_STATUS_TFE_BITS   _u(0x00000004)
+#define I2C_IC_STATUS_TFE_MSB    _u(2)
+#define I2C_IC_STATUS_TFE_LSB    _u(2)
+#define I2C_IC_STATUS_TFE_ACCESS "RO"
 #define I2C_IC_STATUS_TFE_VALUE_NON_EMPTY _u(0x0)
-#define I2C_IC_STATUS_TFE_VALUE_EMPTY     _u(0x1)
+#define I2C_IC_STATUS_TFE_VALUE_EMPTY _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_TFNF
 // Description : Transmit FIFO Not Full. Set when the transmit FIFO contains one
@@ -1712,25 +1786,25 @@
 //               value: 0x1
 //               0x0 -> Tx FIFO is full
 //               0x1 -> Tx FIFO not full
-#define I2C_IC_STATUS_TFNF_RESET          _u(0x1)
-#define I2C_IC_STATUS_TFNF_BITS           _u(0x00000002)
-#define I2C_IC_STATUS_TFNF_MSB            _u(1)
-#define I2C_IC_STATUS_TFNF_LSB            _u(1)
-#define I2C_IC_STATUS_TFNF_ACCESS         "RO"
-#define I2C_IC_STATUS_TFNF_VALUE_FULL     _u(0x0)
+#define I2C_IC_STATUS_TFNF_RESET  _u(0x1)
+#define I2C_IC_STATUS_TFNF_BITS   _u(0x00000002)
+#define I2C_IC_STATUS_TFNF_MSB    _u(1)
+#define I2C_IC_STATUS_TFNF_LSB    _u(1)
+#define I2C_IC_STATUS_TFNF_ACCESS "RO"
+#define I2C_IC_STATUS_TFNF_VALUE_FULL _u(0x0)
 #define I2C_IC_STATUS_TFNF_VALUE_NOT_FULL _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_STATUS_ACTIVITY
 // Description : I2C Activity Status. Reset value: 0x0
 //               0x0 -> I2C is idle
 //               0x1 -> I2C is active
-#define I2C_IC_STATUS_ACTIVITY_RESET          _u(0x0)
-#define I2C_IC_STATUS_ACTIVITY_BITS           _u(0x00000001)
-#define I2C_IC_STATUS_ACTIVITY_MSB            _u(0)
-#define I2C_IC_STATUS_ACTIVITY_LSB            _u(0)
-#define I2C_IC_STATUS_ACTIVITY_ACCESS         "RO"
+#define I2C_IC_STATUS_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_ACTIVITY_BITS   _u(0x00000001)
+#define I2C_IC_STATUS_ACTIVITY_MSB    _u(0)
+#define I2C_IC_STATUS_ACTIVITY_LSB    _u(0)
+#define I2C_IC_STATUS_ACTIVITY_ACCESS "RO"
 #define I2C_IC_STATUS_ACTIVITY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_STATUS_ACTIVITY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_STATUS_ACTIVITY_VALUE_ACTIVE _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_TXFLR
 // Description : I2C Transmit FIFO Level Register This register contains the
@@ -1870,12 +1944,12 @@
 //               Role of DW_apb_i2c:  Master-Transmitter
 //               0x0 -> Transfer abort detected by master- scenario not present
 //               0x1 -> Transfer abort detected by master
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_RESET                          _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_BITS                           _u(0x00010000)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_MSB                            _u(16)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_LSB                            _u(16)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_ACCESS                         "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_VALUE_ABRT_USER_ABRT_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_BITS   _u(0x00010000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_MSB    _u(16)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_LSB    _u(16)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_VALUE_ABRT_USER_ABRT_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_VALUE_ABRT_USER_ABRT_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX
@@ -1886,15 +1960,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Slave-Transmitter
-//               0x0 -> Slave trying to transmit to remote master in read mode-
-//               scenario not present
+//               0x0 -> Slave trying to transmit to remote master in read mode- scenario not present
 //               0x1 -> Slave trying to transmit to remote master in read mode
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_RESET                           _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_BITS                            _u(0x00008000)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_MSB                             _u(15)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_LSB                             _u(15)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_ACCESS                          "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_VALUE_ABRT_SLVRD_INTX_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_BITS   _u(0x00008000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_MSB    _u(15)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_LSB    _u(15)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_VALUE_ABRT_SLVRD_INTX_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_VALUE_ABRT_SLVRD_INTX_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST
@@ -1910,15 +1983,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Slave-Transmitter
-//               0x0 -> Slave lost arbitration to remote master- scenario not
-//               present
+//               0x0 -> Slave lost arbitration to remote master- scenario not present
 //               0x1 -> Slave lost arbitration to remote master
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_RESET                            _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_BITS                             _u(0x00004000)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_MSB                              _u(14)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_LSB                              _u(14)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_ACCESS                           "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_VALUE_ABRT_SLV_ARBLOST_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_BITS   _u(0x00004000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_MSB    _u(14)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_LSB    _u(14)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_VALUE_ABRT_SLV_ARBLOST_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_VALUE_ABRT_SLV_ARBLOST_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO
@@ -1929,16 +2001,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Slave-Transmitter
-//               0x0 -> Slave flushes existing data in TX-FIFO upon getting read
-//               command- scenario not present
-//               0x1 -> Slave flushes existing data in TX-FIFO upon getting read
-//               command
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_RESET                                _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_BITS                                 _u(0x00002000)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_MSB                                  _u(13)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_LSB                                  _u(13)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_ACCESS                               "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_VALUE_ABRT_SLVFLUSH_TXFIFO_VOID      _u(0x0)
+//               0x0 -> Slave flushes existing data in TX-FIFO upon getting read command- scenario not present
+//               0x1 -> Slave flushes existing data in TX-FIFO upon getting read command
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_BITS   _u(0x00002000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_MSB    _u(13)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_LSB    _u(13)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_VALUE_ABRT_SLVFLUSH_TXFIFO_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_VALUE_ABRT_SLVFLUSH_TXFIFO_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ARB_LOST
@@ -1949,15 +2019,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master-Transmitter or Slave-Transmitter
-//               0x0 -> Master or Slave-Transmitter lost arbitration- scenario
-//               not present
+//               0x0 -> Master or Slave-Transmitter lost arbitration- scenario not present
 //               0x1 -> Master or Slave-Transmitter lost arbitration
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_RESET                     _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_BITS                      _u(0x00001000)
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_MSB                       _u(12)
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_LSB                       _u(12)
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_ACCESS                    "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_VALUE_ABRT_LOST_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_BITS   _u(0x00001000)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_MSB    _u(12)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_LSB    _u(12)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_VALUE_ABRT_LOST_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_VALUE_ABRT_LOST_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS
@@ -1967,15 +2036,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
-//               0x0 -> User initiating master operation when MASTER disabled-
-//               scenario not present
+//               0x0 -> User initiating master operation when MASTER disabled- scenario not present
 //               0x1 -> User initiating master operation when MASTER disabled
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_RESET                           _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_BITS                            _u(0x00000800)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_MSB                             _u(11)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_LSB                             _u(11)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_ACCESS                          "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_VALUE_ABRT_MASTER_DIS_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_BITS   _u(0x00000800)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_MSB    _u(11)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_LSB    _u(11)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_VALUE_ABRT_MASTER_DIS_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_VALUE_ABRT_MASTER_DIS_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT
@@ -1986,16 +2054,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master-Receiver
-//               0x0 -> Master not trying to read in 10Bit addressing mode when
-//               RESTART disabled
-//               0x1 -> Master trying to read in 10Bit addressing mode when
-//               RESTART disabled
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_RESET                       _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_BITS                        _u(0x00000400)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_MSB                         _u(10)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_LSB                         _u(10)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_ACCESS                      "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_VALUE_ABRT_10B_RD_VOID      _u(0x0)
+//               0x0 -> Master not trying to read in 10Bit addressing mode when RESTART disabled
+//               0x1 -> Master trying to read in 10Bit addressing mode when RESTART disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_BITS   _u(0x00000400)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_MSB    _u(10)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_LSB    _u(10)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_VALUE_ABRT_10B_RD_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_VALUE_ABRT_10B_RD_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT
@@ -2014,15 +2080,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master
-//               0x0 -> User trying to send START byte when RESTART disabled-
-//               scenario not present
+//               0x0 -> User trying to send START byte when RESTART disabled- scenario not present
 //               0x1 -> User trying to send START byte when RESTART disabled
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_RESET                              _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_BITS                               _u(0x00000200)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_MSB                                _u(9)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_LSB                                _u(9)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_ACCESS                             "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_VALUE_ABRT_SBYTE_NORSTRT_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_BITS   _u(0x00000200)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_MSB    _u(9)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_LSB    _u(9)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_VALUE_ABRT_SBYTE_NORSTRT_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_VALUE_ABRT_SBYTE_NORSTRT_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT
@@ -2033,16 +2098,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
-//               0x0 -> User trying to switch Master to HS mode when RESTART
-//               disabled- scenario not present
-//               0x1 -> User trying to switch Master to HS mode when RESTART
-//               disabled
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_RESET                           _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_BITS                            _u(0x00000100)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_MSB                             _u(8)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_LSB                             _u(8)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_ACCESS                          "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_VALUE_ABRT_HS_NORSTRT_VOID      _u(0x0)
+//               0x0 -> User trying to switch Master to HS mode when RESTART disabled- scenario not present
+//               0x1 -> User trying to switch Master to HS mode when RESTART disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_BITS   _u(0x00000100)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_MSB    _u(8)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_LSB    _u(8)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_VALUE_ABRT_HS_NORSTRT_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_VALUE_ABRT_HS_NORSTRT_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET
@@ -2054,12 +2117,12 @@
 //               Role of DW_apb_i2c:  Master
 //               0x0 -> ACK detected for START byte- scenario not present
 //               0x1 -> ACK detected for START byte
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_RESET                             _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_BITS                              _u(0x00000080)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_MSB                               _u(7)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_LSB                               _u(7)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_ACCESS                            "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_VALUE_ABRT_SBYTE_ACKDET_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_BITS   _u(0x00000080)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_MSB    _u(7)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_LSB    _u(7)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_VALUE_ABRT_SBYTE_ACKDET_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_VALUE_ABRT_SBYTE_ACKDET_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET
@@ -2071,12 +2134,12 @@
 //               Role of DW_apb_i2c:  Master
 //               0x0 -> HS Master code ACKed in HS Mode- scenario not present
 //               0x1 -> HS Master code ACKed in HS Mode
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_RESET                       _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_BITS                        _u(0x00000040)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_MSB                         _u(6)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_LSB                         _u(6)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_ACCESS                      "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_VALUE_ABRT_HS_ACK_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_BITS   _u(0x00000040)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_MSB    _u(6)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_LSB    _u(6)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_VALUE_ABRT_HS_ACK_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_VALUE_ABRT_HS_ACK_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ
@@ -2090,12 +2153,12 @@
 //               Role of DW_apb_i2c:  Master-Transmitter
 //               0x0 -> GCALL is followed by read from bus-scenario not present
 //               0x1 -> GCALL is followed by read from bus
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_RESET                           _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_BITS                            _u(0x00000020)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_MSB                             _u(5)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_LSB                             _u(5)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_ACCESS                          "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_VALUE_ABRT_GCALL_READ_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_BITS   _u(0x00000020)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_MSB    _u(5)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_LSB    _u(5)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_VALUE_ABRT_GCALL_READ_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_VALUE_ABRT_GCALL_READ_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK
@@ -2108,12 +2171,12 @@
 //               Role of DW_apb_i2c:  Master-Transmitter
 //               0x0 -> GCALL not ACKed by any slave-scenario not present
 //               0x1 -> GCALL not ACKed by any slave
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_RESET                            _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_BITS                             _u(0x00000010)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_MSB                              _u(4)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_LSB                              _u(4)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_ACCESS                           "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_VALUE_ABRT_GCALL_NOACK_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_BITS   _u(0x00000010)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_MSB    _u(4)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_LSB    _u(4)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_VALUE_ABRT_GCALL_NOACK_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_VALUE_ABRT_GCALL_NOACK_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK
@@ -2125,15 +2188,14 @@
 //               Reset value: 0x0
 //
 //               Role of DW_apb_i2c:  Master-Transmitter
-//               0x0 -> Transmitted data non-ACKed by addressed slave-scenario
-//               not present
+//               0x0 -> Transmitted data non-ACKed by addressed slave-scenario not present
 //               0x1 -> Transmitted data not ACKed by addressed slave
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_RESET                             _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_BITS                              _u(0x00000008)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_MSB                               _u(3)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_LSB                               _u(3)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_ACCESS                            "RO"
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_VALUE_ABRT_TXDATA_NOACK_VOID      _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_BITS   _u(0x00000008)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_MSB    _u(3)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_LSB    _u(3)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_VALUE_ABRT_TXDATA_NOACK_VOID _u(0x0)
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_VALUE_ABRT_TXDATA_NOACK_GENERATED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK
@@ -2146,13 +2208,13 @@
 //               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
 //               0x0 -> This abort is not generated
 //               0x1 -> Byte 2 of 10Bit Address not ACKed by any slave
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_RESET          _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_BITS           _u(0x00000004)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_MSB            _u(2)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_LSB            _u(2)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_ACCESS         "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_BITS   _u(0x00000004)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_MSB    _u(2)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_LSB    _u(2)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_ACCESS "RO"
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK
 // Description : This field indicates that the Master is in 10-bit address mode
@@ -2164,13 +2226,13 @@
 //               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
 //               0x0 -> This abort is not generated
 //               0x1 -> Byte 1 of 10Bit Address not ACKed by any slave
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_RESET          _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_BITS           _u(0x00000002)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_MSB            _u(1)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_LSB            _u(1)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_ACCESS         "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_BITS   _u(0x00000002)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_MSB    _u(1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_LSB    _u(1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_ACCESS "RO"
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK
 // Description : This field indicates that the Master is in 7-bit addressing
@@ -2180,15 +2242,14 @@
 //
 //               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
 //               0x0 -> This abort is not generated
-//               0x1 -> This abort is generated because of NOACK for 7-bit
-//               address
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_RESET          _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_BITS           _u(0x00000001)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_MSB            _u(0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_LSB            _u(0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_ACCESS         "RO"
+//               0x1 -> This abort is generated because of NOACK for 7-bit address
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_BITS   _u(0x00000001)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_MSB    _u(0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_LSB    _u(0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_ACCESS "RO"
 #define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_VALUE_ACTIVE _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_SLV_DATA_NACK_ONLY
 // Description : Generate Slave Data NACK Register
@@ -2222,13 +2283,13 @@
 //               value: 0x0
 //               0x0 -> Slave receiver generates NACK normally
 //               0x1 -> Slave receiver generates NACK upon data reception only
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_RESET          _u(0x0)
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_BITS           _u(0x00000001)
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_MSB            _u(0)
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_LSB            _u(0)
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_ACCESS         "RW"
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_RESET  _u(0x0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_BITS   _u(0x00000001)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_MSB    _u(0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_LSB    _u(0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_ACCESS "RW"
 #define I2C_IC_SLV_DATA_NACK_ONLY_NACK_VALUE_DISABLED _u(0x0)
-#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_DMA_CR
 // Description : DMA Control Register
@@ -2245,26 +2306,26 @@
 //               FIFO DMA channel. Reset value: 0x0
 //               0x0 -> transmit FIFO DMA channel disabled
 //               0x1 -> Transmit FIFO DMA channel enabled
-#define I2C_IC_DMA_CR_TDMAE_RESET          _u(0x0)
-#define I2C_IC_DMA_CR_TDMAE_BITS           _u(0x00000002)
-#define I2C_IC_DMA_CR_TDMAE_MSB            _u(1)
-#define I2C_IC_DMA_CR_TDMAE_LSB            _u(1)
-#define I2C_IC_DMA_CR_TDMAE_ACCESS         "RW"
+#define I2C_IC_DMA_CR_TDMAE_RESET  _u(0x0)
+#define I2C_IC_DMA_CR_TDMAE_BITS   _u(0x00000002)
+#define I2C_IC_DMA_CR_TDMAE_MSB    _u(1)
+#define I2C_IC_DMA_CR_TDMAE_LSB    _u(1)
+#define I2C_IC_DMA_CR_TDMAE_ACCESS "RW"
 #define I2C_IC_DMA_CR_TDMAE_VALUE_DISABLED _u(0x0)
-#define I2C_IC_DMA_CR_TDMAE_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_DMA_CR_TDMAE_VALUE_ENABLED _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_DMA_CR_RDMAE
 // Description : Receive DMA Enable. This bit enables/disables the receive FIFO
 //               DMA channel. Reset value: 0x0
 //               0x0 -> Receive FIFO DMA channel disabled
 //               0x1 -> Receive FIFO DMA channel enabled
-#define I2C_IC_DMA_CR_RDMAE_RESET          _u(0x0)
-#define I2C_IC_DMA_CR_RDMAE_BITS           _u(0x00000001)
-#define I2C_IC_DMA_CR_RDMAE_MSB            _u(0)
-#define I2C_IC_DMA_CR_RDMAE_LSB            _u(0)
-#define I2C_IC_DMA_CR_RDMAE_ACCESS         "RW"
+#define I2C_IC_DMA_CR_RDMAE_RESET  _u(0x0)
+#define I2C_IC_DMA_CR_RDMAE_BITS   _u(0x00000001)
+#define I2C_IC_DMA_CR_RDMAE_MSB    _u(0)
+#define I2C_IC_DMA_CR_RDMAE_LSB    _u(0)
+#define I2C_IC_DMA_CR_RDMAE_ACCESS "RW"
 #define I2C_IC_DMA_CR_RDMAE_VALUE_DISABLED _u(0x0)
-#define I2C_IC_DMA_CR_RDMAE_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_DMA_CR_RDMAE_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_DMA_TDLR
 // Description : DMA Transmit Data Level Register
@@ -2360,13 +2421,13 @@
 //               ic_data_oe).
 //               0x0 -> Generate NACK for a General Call
 //               0x1 -> Generate ACK for a General Call
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_RESET          _u(0x1)
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_BITS           _u(0x00000001)
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_MSB            _u(0)
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_LSB            _u(0)
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_ACCESS         "RW"
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_RESET  _u(0x1)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_BITS   _u(0x00000001)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_MSB    _u(0)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_LSB    _u(0)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_ACCESS "RW"
 #define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_VALUE_DISABLED _u(0x0)
-#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_ENABLE_STATUS
 // Description : I2C Enable Status Register
@@ -2389,14 +2450,14 @@
 #define I2C_IC_ENABLE_STATUS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST
-// Description : Slave Received Data Lost. This bit indicates if a
-//               Slave-Receiver operation has been aborted with at least one
-//               data byte received from an I2C transfer due to the setting bit
-//               0 of IC_ENABLE from 1 to 0. When read as 1, DW_apb_i2c is
-//               deemed to have been actively engaged in an aborted I2C transfer
-//               (with matching address) and the data phase of the I2C transfer
-//               has been entered, even though a data byte has been responded
-//               with a NACK.
+// Description : Slave Received Data Lost. This bit indicates if a Slave-
+//               Receiver operation has been aborted with at least one data byte
+//               received from an I2C transfer due to the setting bit 0 of
+//               IC_ENABLE from 1 to 0. When read as 1, DW_apb_i2c is deemed to
+//               have been actively engaged in an aborted I2C transfer (with
+//               matching address) and the data phase of the I2C transfer has
+//               been entered, even though a data byte has been responded with a
+//               NACK.
 //
 //               Note:  If the remote I2C master terminates the transfer with a
 //               STOP condition before the DW_apb_i2c has a chance to NACK a
@@ -2404,8 +2465,8 @@
 //               also set to 1.
 //
 //               When read as 0, DW_apb_i2c is deemed to have been disabled
-//               without being actively involved in the data phase of a
-//               Slave-Receiver transfer.
+//               without being actively involved in the data phase of a Slave-
+//               Receiver transfer.
 //
 //               Note:  The CPU can safely read this bit when IC_EN (bit 0) is
 //               read as 0.
@@ -2413,13 +2474,13 @@
 //               Reset value: 0x0
 //               0x0 -> Slave RX Data is not lost
 //               0x1 -> Slave RX Data is lost
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_RESET          _u(0x0)
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_BITS           _u(0x00000004)
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_MSB            _u(2)
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_LSB            _u(2)
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_ACCESS         "RO"
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_BITS   _u(0x00000004)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_MSB    _u(2)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_LSB    _u(2)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_ACCESS "RO"
 #define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY
 // Description : Slave Disabled While Busy (Transmit, Receive). This bit
@@ -2428,8 +2489,8 @@
 //               1 to 0. This bit is set when the CPU writes a 0 to the
 //               IC_ENABLE register while:
 //
-//               (a) DW_apb_i2c is receiving the address byte of the
-//               Slave-Transmitter operation from a remote master;
+//               (a) DW_apb_i2c is receiving the address byte of the Slave-
+//               Transmitter operation from a remote master;
 //
 //               OR,
 //
@@ -2456,13 +2517,13 @@
 //               Reset value: 0x0
 //               0x0 -> Slave is disabled when it is idle
 //               0x1 -> Slave is disabled when it is active
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_RESET          _u(0x0)
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_BITS           _u(0x00000002)
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_MSB            _u(1)
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_LSB            _u(1)
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_ACCESS         "RO"
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_BITS   _u(0x00000002)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_MSB    _u(1)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_LSB    _u(1)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_ACCESS "RO"
 #define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_VALUE_INACTIVE _u(0x0)
-#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_VALUE_ACTIVE   _u(0x1)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_VALUE_ACTIVE _u(0x1)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_ENABLE_STATUS_IC_EN
 // Description : ic_en Status. This bit always reflects the value driven on the
@@ -2475,13 +2536,13 @@
 //               Reset value: 0x0
 //               0x0 -> I2C disabled
 //               0x1 -> I2C enabled
-#define I2C_IC_ENABLE_STATUS_IC_EN_RESET          _u(0x0)
-#define I2C_IC_ENABLE_STATUS_IC_EN_BITS           _u(0x00000001)
-#define I2C_IC_ENABLE_STATUS_IC_EN_MSB            _u(0)
-#define I2C_IC_ENABLE_STATUS_IC_EN_LSB            _u(0)
-#define I2C_IC_ENABLE_STATUS_IC_EN_ACCESS         "RO"
+#define I2C_IC_ENABLE_STATUS_IC_EN_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_BITS   _u(0x00000001)
+#define I2C_IC_ENABLE_STATUS_IC_EN_MSB    _u(0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_LSB    _u(0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_ACCESS "RO"
 #define I2C_IC_ENABLE_STATUS_IC_EN_VALUE_DISABLED _u(0x0)
-#define I2C_IC_ENABLE_STATUS_IC_EN_VALUE_ENABLED  _u(0x1)
+#define I2C_IC_ENABLE_STATUS_IC_EN_VALUE_ENABLED _u(0x1)
 // =============================================================================
 // Register    : I2C_IC_FS_SPKLEN
 // Description : I2C SS, FS or FM+ spike suppression limit
@@ -2613,7 +2674,6 @@
 #define I2C_IC_COMP_VERSION_RESET  _u(0x3230312a)
 // -----------------------------------------------------------------------------
 // Field       : I2C_IC_COMP_VERSION_IC_COMP_VERSION
-// Description : None
 #define I2C_IC_COMP_VERSION_IC_COMP_VERSION_RESET  _u(0x3230312a)
 #define I2C_IC_COMP_VERSION_IC_COMP_VERSION_BITS   _u(0xffffffff)
 #define I2C_IC_COMP_VERSION_IC_COMP_VERSION_MSB    _u(31)
@@ -2636,4 +2696,5 @@
 #define I2C_IC_COMP_TYPE_IC_COMP_TYPE_LSB    _u(0)
 #define I2C_IC_COMP_TYPE_IC_COMP_TYPE_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_I2C_DEFINED
+#endif // _HARDWARE_REGS_I2C_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/regs/intctrl.h b/lib/pico-sdk/rp2040/hardware/regs/intctrl.h
new file mode 100644
index 0000000..3190b41
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/regs/intctrl.h
@@ -0,0 +1,106 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _INTCTRL_H
+#define _INTCTRL_H
+
+/**
+ * \file rp2040/intctrl.h
+ */
+
+#ifdef __ASSEMBLER__
+#define TIMER_IRQ_0 0
+#define TIMER_IRQ_1 1
+#define TIMER_IRQ_2 2
+#define TIMER_IRQ_3 3
+#define PWM_IRQ_WRAP 4
+#define USBCTRL_IRQ 5
+#define XIP_IRQ 6
+#define PIO0_IRQ_0 7
+#define PIO0_IRQ_1 8
+#define PIO1_IRQ_0 9
+#define PIO1_IRQ_1 10
+#define DMA_IRQ_0 11
+#define DMA_IRQ_1 12
+#define IO_IRQ_BANK0 13
+#define IO_IRQ_QSPI 14
+#define SIO_IRQ_PROC0 15
+#define SIO_IRQ_PROC1 16
+#define CLOCKS_IRQ 17
+#define SPI0_IRQ 18
+#define SPI1_IRQ 19
+#define UART0_IRQ 20
+#define UART1_IRQ 21
+#define ADC_IRQ_FIFO 22
+#define I2C0_IRQ 23
+#define I2C1_IRQ 24
+#define RTC_IRQ 25
+#else
+/**
+ * \brief Interrupt numbers on RP2040 (used as typedef \ref irq_num_t)
+ * \ingroup hardware_irq
+ */
+typedef enum irq_num_rp2040 {
+    TIMER_IRQ_0 = 0, ///< Select TIMER's IRQ 0 output
+    TIMER_IRQ_1 = 1, ///< Select TIMER's IRQ 1 output
+    TIMER_IRQ_2 = 2, ///< Select TIMER's IRQ 2 output
+    TIMER_IRQ_3 = 3, ///< Select TIMER's IRQ 3 output
+    PWM_IRQ_WRAP = 4, ///< Select PWM's IRQ_WRAP output
+    USBCTRL_IRQ = 5, ///< Select USBCTRL's IRQ output
+    XIP_IRQ = 6, ///< Select XIP's IRQ output
+    PIO0_IRQ_0 = 7, ///< Select PIO0's IRQ 0 output
+    PIO0_IRQ_1 = 8, ///< Select PIO0's IRQ 1 output
+    PIO1_IRQ_0 = 9, ///< Select PIO1's IRQ 0 output
+    PIO1_IRQ_1 = 10, ///< Select PIO1's IRQ 1 output
+    DMA_IRQ_0 = 11, ///< Select DMA's IRQ 0 output
+    DMA_IRQ_1 = 12, ///< Select DMA's IRQ 1 output
+    IO_IRQ_BANK0 = 13, ///< Select IO_BANK0's IRQ output
+    IO_IRQ_QSPI = 14, ///< Select IO_QSPI's IRQ output
+    SIO_IRQ_PROC0 = 15, ///< Select SIO_PROC0's IRQ output
+    SIO_IRQ_PROC1 = 16, ///< Select SIO_PROC1's IRQ output
+    CLOCKS_IRQ = 17, ///< Select CLOCKS's IRQ output
+    SPI0_IRQ = 18, ///< Select SPI0's IRQ output
+    SPI1_IRQ = 19, ///< Select SPI1's IRQ output
+    UART0_IRQ = 20, ///< Select UART0's IRQ output
+    UART1_IRQ = 21, ///< Select UART1's IRQ output
+    ADC_IRQ_FIFO = 22, ///< Select ADC's IRQ_FIFO output
+    I2C0_IRQ = 23, ///< Select I2C0's IRQ output
+    I2C1_IRQ = 24, ///< Select I2C1's IRQ output
+    RTC_IRQ = 25, ///< Select RTC's IRQ output
+    IRQ_COUNT
+} irq_num_t;
+#endif
+
+#define isr_timer_0 isr_irq0
+#define isr_timer_1 isr_irq1
+#define isr_timer_2 isr_irq2
+#define isr_timer_3 isr_irq3
+#define isr_pwm_wrap isr_irq4
+#define isr_usbctrl isr_irq5
+#define isr_xip isr_irq6
+#define isr_pio0_0 isr_irq7
+#define isr_pio0_1 isr_irq8
+#define isr_pio1_0 isr_irq9
+#define isr_pio1_1 isr_irq10
+#define isr_dma_0 isr_irq11
+#define isr_dma_1 isr_irq12
+#define isr_io_bank0 isr_irq13
+#define isr_io_qspi isr_irq14
+#define isr_sio_proc0 isr_irq15
+#define isr_sio_proc1 isr_irq16
+#define isr_clocks isr_irq17
+#define isr_spi0 isr_irq18
+#define isr_spi1 isr_irq19
+#define isr_uart0 isr_irq20
+#define isr_uart1 isr_irq21
+#define isr_adc_fifo isr_irq22
+#define isr_i2c0 isr_irq23
+#define isr_i2c1 isr_irq24
+#define isr_rtc isr_irq25
+
+#endif // _INTCTRL_H
+
diff --git a/lib/rp2040/hardware/regs/io_bank0.h b/lib/pico-sdk/rp2040/hardware/regs/io_bank0.h
similarity index 86%
rename from lib/rp2040/hardware/regs/io_bank0.h
rename to lib/pico-sdk/rp2040/hardware/regs/io_bank0.h
index 26f139e..c0ebaf9 100644
--- a/lib/rp2040/hardware/regs/io_bank0.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/io_bank0.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : IO_BANK0
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_IO_BANK0_DEFINED
-#define HARDWARE_REGS_IO_BANK0_DEFINED
+#ifndef _HARDWARE_REGS_IO_BANK0_H
+#define _HARDWARE_REGS_IO_BANK0_H
 // =============================================================================
 // Register    : IO_BANK0_GPIO0_STATUS
 // Description : GPIO status
@@ -91,67 +92,64 @@
 #define IO_BANK0_GPIO0_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO0_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO0_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO0_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO0_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO0_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO0_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO0_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO0_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO0_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO0_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO0_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO0_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO0_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO0_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO0_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -166,21 +164,21 @@
 //               0x07 -> pio1_0
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_JTAG_TCK                   _u(0x00)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SPI0_RX                    _u(0x01)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_UART0_TX                   _u(0x02)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_I2C0_SDA                   _u(0x03)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PWM_A_0                    _u(0x04)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SIO_0                      _u(0x05)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO0_0                     _u(0x06)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO1_0                     _u(0x07)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_JTAG_TCK _u(0x00)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PWM_A_0 _u(0x04)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SIO_0 _u(0x05)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO0_0 _u(0x06)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO1_0 _u(0x07)
 #define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO1_STATUS
 // Description : GPIO status
@@ -261,67 +259,64 @@
 #define IO_BANK0_GPIO1_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO1_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO1_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO1_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO1_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO1_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO1_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO1_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO1_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO1_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO1_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO1_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO1_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO1_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO1_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO1_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -336,21 +331,21 @@
 //               0x07 -> pio1_1
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_JTAG_TMS               _u(0x00)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SPI0_SS_N              _u(0x01)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_UART0_RX               _u(0x02)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_I2C0_SCL               _u(0x03)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PWM_B_0                _u(0x04)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SIO_1                  _u(0x05)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO0_1                 _u(0x06)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO1_1                 _u(0x07)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_JTAG_TMS _u(0x00)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PWM_B_0 _u(0x04)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SIO_1 _u(0x05)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO0_1 _u(0x06)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO1_1 _u(0x07)
 #define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO2_STATUS
 // Description : GPIO status
@@ -431,67 +426,64 @@
 #define IO_BANK0_GPIO2_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO2_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO2_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO2_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO2_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO2_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO2_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO2_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO2_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO2_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO2_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO2_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO2_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO2_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO2_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO2_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -506,21 +498,21 @@
 //               0x07 -> pio1_2
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_JTAG_TDI           _u(0x00)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SPI0_SCLK          _u(0x01)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_UART0_CTS          _u(0x02)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_I2C1_SDA           _u(0x03)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PWM_A_1            _u(0x04)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SIO_2              _u(0x05)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO0_2             _u(0x06)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO1_2             _u(0x07)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_JTAG_TDI _u(0x00)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PWM_A_1 _u(0x04)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SIO_2 _u(0x05)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO0_2 _u(0x06)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO1_2 _u(0x07)
 #define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO3_STATUS
 // Description : GPIO status
@@ -601,67 +593,64 @@
 #define IO_BANK0_GPIO3_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO3_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO3_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO3_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO3_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO3_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO3_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO3_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO3_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO3_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO3_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO3_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO3_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO3_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO3_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO3_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -676,21 +665,21 @@
 //               0x07 -> pio1_3
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_JTAG_TDO                   _u(0x00)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SPI0_TX                    _u(0x01)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_UART0_RTS                  _u(0x02)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_I2C1_SCL                   _u(0x03)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PWM_B_1                    _u(0x04)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SIO_3                      _u(0x05)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO0_3                     _u(0x06)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO1_3                     _u(0x07)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_JTAG_TDO _u(0x00)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PWM_B_1 _u(0x04)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SIO_3 _u(0x05)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO0_3 _u(0x06)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO1_3 _u(0x07)
 #define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO4_STATUS
 // Description : GPIO status
@@ -771,67 +760,64 @@
 #define IO_BANK0_GPIO4_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO4_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO4_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO4_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO4_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO4_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO4_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO4_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO4_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO4_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO4_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO4_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO4_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO4_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO4_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO4_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -845,20 +831,20 @@
 //               0x07 -> pio1_4
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SPI0_RX                _u(0x01)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_UART1_TX               _u(0x02)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_I2C0_SDA               _u(0x03)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PWM_A_2                _u(0x04)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SIO_4                  _u(0x05)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO0_4                 _u(0x06)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO1_4                 _u(0x07)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PWM_A_2 _u(0x04)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SIO_4 _u(0x05)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO0_4 _u(0x06)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO1_4 _u(0x07)
 #define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO5_STATUS
 // Description : GPIO status
@@ -939,67 +925,64 @@
 #define IO_BANK0_GPIO5_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO5_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO5_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO5_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO5_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO5_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO5_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO5_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO5_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO5_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO5_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO5_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO5_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO5_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO5_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO5_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1013,20 +996,20 @@
 //               0x07 -> pio1_5
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SPI0_SS_N          _u(0x01)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_UART1_RX           _u(0x02)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_I2C0_SCL           _u(0x03)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PWM_B_2            _u(0x04)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SIO_5              _u(0x05)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO0_5             _u(0x06)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO1_5             _u(0x07)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PWM_B_2 _u(0x04)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SIO_5 _u(0x05)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO0_5 _u(0x06)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO1_5 _u(0x07)
 #define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO6_STATUS
 // Description : GPIO status
@@ -1107,67 +1090,64 @@
 #define IO_BANK0_GPIO6_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO6_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO6_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO6_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO6_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO6_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO6_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO6_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO6_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO6_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO6_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO6_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO6_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO6_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO6_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO6_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1182,21 +1162,21 @@
 //               0x08 -> usb_muxing_extphy_softcon
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SPI0_SCLK                  _u(0x01)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_UART1_CTS                  _u(0x02)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_I2C1_SDA                   _u(0x03)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PWM_A_3                    _u(0x04)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SIO_6                      _u(0x05)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO0_6                     _u(0x06)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO1_6                     _u(0x07)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_SOFTCON  _u(0x08)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PWM_A_3 _u(0x04)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SIO_6 _u(0x05)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO0_6 _u(0x06)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO1_6 _u(0x07)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_SOFTCON _u(0x08)
 #define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO7_STATUS
 // Description : GPIO status
@@ -1277,67 +1257,64 @@
 #define IO_BANK0_GPIO7_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO7_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO7_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO7_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO7_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO7_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO7_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO7_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO7_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO7_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO7_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO7_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO7_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO7_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO7_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO7_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1352,21 +1329,21 @@
 //               0x08 -> usb_muxing_extphy_oe_n
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SPI0_TX                _u(0x01)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_UART1_RTS              _u(0x02)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_I2C1_SCL               _u(0x03)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PWM_B_3                _u(0x04)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SIO_7                  _u(0x05)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO0_7                 _u(0x06)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO1_7                 _u(0x07)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PWM_B_3 _u(0x04)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SIO_7 _u(0x05)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO0_7 _u(0x06)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO1_7 _u(0x07)
 #define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_OE_N _u(0x08)
 #define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO8_STATUS
 // Description : GPIO status
@@ -1447,67 +1424,64 @@
 #define IO_BANK0_GPIO8_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO8_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO8_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO8_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO8_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO8_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO8_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO8_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO8_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO8_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO8_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO8_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO8_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO8_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO8_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO8_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1522,21 +1496,21 @@
 //               0x08 -> usb_muxing_extphy_rcv
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_RESET                       _u(0x1f)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_BITS                        _u(0x0000001f)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_MSB                         _u(4)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_LSB                         _u(0)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_ACCESS                      "RW"
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SPI1_RX               _u(0x01)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_UART1_TX              _u(0x02)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_I2C0_SDA              _u(0x03)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PWM_A_4               _u(0x04)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SIO_8                 _u(0x05)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO0_8                _u(0x06)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO1_8                _u(0x07)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PWM_A_4 _u(0x04)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SIO_8 _u(0x05)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO0_8 _u(0x06)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO1_8 _u(0x07)
 #define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_RCV _u(0x08)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN    _u(0x09)
-#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_NULL                  _u(0x1f)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO9_STATUS
 // Description : GPIO status
@@ -1617,67 +1591,64 @@
 #define IO_BANK0_GPIO9_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO9_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO9_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO9_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO9_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO9_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO9_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO9_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO9_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO9_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO9_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO9_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO9_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO9_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO9_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO9_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1692,21 +1663,21 @@
 //               0x08 -> usb_muxing_extphy_vp
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SPI1_SS_N                  _u(0x01)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_UART1_RX                   _u(0x02)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_I2C0_SCL                   _u(0x03)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PWM_B_4                    _u(0x04)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SIO_9                      _u(0x05)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO0_9                     _u(0x06)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO1_9                     _u(0x07)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VP       _u(0x08)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PWM_B_4 _u(0x04)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SIO_9 _u(0x05)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO0_9 _u(0x06)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO1_9 _u(0x07)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VP _u(0x08)
 #define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO10_STATUS
 // Description : GPIO status
@@ -1787,67 +1758,64 @@
 #define IO_BANK0_GPIO10_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO10_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO10_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO10_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO10_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO10_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO10_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO10_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO10_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO10_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO10_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO10_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO10_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO10_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO10_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO10_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -1862,21 +1830,21 @@
 //               0x08 -> usb_muxing_extphy_vm
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SPI1_SCLK              _u(0x01)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_UART1_CTS              _u(0x02)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_I2C1_SDA               _u(0x03)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PWM_A_5                _u(0x04)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SIO_10                 _u(0x05)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO0_10                _u(0x06)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO1_10                _u(0x07)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VM   _u(0x08)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PWM_A_5 _u(0x04)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SIO_10 _u(0x05)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO0_10 _u(0x06)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO1_10 _u(0x07)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VM _u(0x08)
 #define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO11_STATUS
 // Description : GPIO status
@@ -1957,67 +1925,64 @@
 #define IO_BANK0_GPIO11_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO11_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO11_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO11_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO11_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO11_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO11_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO11_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO11_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO11_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO11_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO11_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO11_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO11_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO11_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO11_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2032,21 +1997,21 @@
 //               0x08 -> usb_muxing_extphy_suspnd
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_RESET                          _u(0x1f)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_BITS                           _u(0x0000001f)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_MSB                            _u(4)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_LSB                            _u(0)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_ACCESS                         "RW"
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SPI1_TX                  _u(0x01)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_UART1_RTS                _u(0x02)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_I2C1_SCL                 _u(0x03)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PWM_B_5                  _u(0x04)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SIO_11                   _u(0x05)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO0_11                  _u(0x06)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO1_11                  _u(0x07)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PWM_B_5 _u(0x04)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SIO_11 _u(0x05)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO0_11 _u(0x06)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO1_11 _u(0x07)
 #define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_SUSPND _u(0x08)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN       _u(0x09)
-#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_NULL                     _u(0x1f)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO12_STATUS
 // Description : GPIO status
@@ -2127,67 +2092,64 @@
 #define IO_BANK0_GPIO12_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO12_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO12_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO12_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO12_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO12_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO12_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO12_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO12_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO12_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO12_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO12_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO12_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO12_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO12_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO12_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2202,21 +2164,21 @@
 //               0x08 -> usb_muxing_extphy_speed
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SPI1_RX                    _u(0x01)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_UART0_TX                   _u(0x02)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_I2C0_SDA                   _u(0x03)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PWM_A_6                    _u(0x04)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SIO_12                     _u(0x05)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO0_12                    _u(0x06)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO1_12                    _u(0x07)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_SPEED    _u(0x08)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PWM_A_6 _u(0x04)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SIO_12 _u(0x05)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO0_12 _u(0x06)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO1_12 _u(0x07)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_SPEED _u(0x08)
 #define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO13_STATUS
 // Description : GPIO status
@@ -2297,67 +2259,64 @@
 #define IO_BANK0_GPIO13_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO13_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO13_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO13_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO13_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO13_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO13_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO13_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO13_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO13_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO13_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO13_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO13_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO13_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO13_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO13_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2372,21 +2331,21 @@
 //               0x08 -> usb_muxing_extphy_vpo
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SPI1_SS_N              _u(0x01)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_UART0_RX               _u(0x02)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_I2C0_SCL               _u(0x03)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PWM_B_6                _u(0x04)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SIO_13                 _u(0x05)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO0_13                _u(0x06)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO1_13                _u(0x07)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VPO  _u(0x08)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PWM_B_6 _u(0x04)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SIO_13 _u(0x05)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO0_13 _u(0x06)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO1_13 _u(0x07)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VPO _u(0x08)
 #define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO14_STATUS
 // Description : GPIO status
@@ -2467,67 +2426,64 @@
 #define IO_BANK0_GPIO14_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO14_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO14_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO14_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO14_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO14_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO14_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO14_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO14_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO14_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO14_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO14_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO14_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO14_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO14_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO14_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2542,21 +2498,21 @@
 //               0x08 -> usb_muxing_extphy_vmo
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_RESET                       _u(0x1f)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_BITS                        _u(0x0000001f)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_MSB                         _u(4)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_LSB                         _u(0)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_ACCESS                      "RW"
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SPI1_SCLK             _u(0x01)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_UART0_CTS             _u(0x02)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_I2C1_SDA              _u(0x03)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PWM_A_7               _u(0x04)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SIO_14                _u(0x05)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO0_14               _u(0x06)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO1_14               _u(0x07)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PWM_A_7 _u(0x04)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SIO_14 _u(0x05)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO0_14 _u(0x06)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO1_14 _u(0x07)
 #define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_USB_MUXING_EXTPHY_VMO _u(0x08)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN    _u(0x09)
-#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_NULL                  _u(0x1f)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO15_STATUS
 // Description : GPIO status
@@ -2637,67 +2593,64 @@
 #define IO_BANK0_GPIO15_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO15_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO15_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO15_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO15_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO15_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO15_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO15_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO15_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO15_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO15_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO15_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO15_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO15_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO15_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO15_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2712,21 +2665,21 @@
 //               0x08 -> usb_muxing_digital_dp
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SPI1_TX                    _u(0x01)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_UART0_RTS                  _u(0x02)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_I2C1_SCL                   _u(0x03)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PWM_B_7                    _u(0x04)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SIO_15                     _u(0x05)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO0_15                    _u(0x06)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO1_15                    _u(0x07)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_USB_MUXING_DIGITAL_DP      _u(0x08)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PWM_B_7 _u(0x04)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SIO_15 _u(0x05)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO0_15 _u(0x06)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO1_15 _u(0x07)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_USB_MUXING_DIGITAL_DP _u(0x08)
 #define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO16_STATUS
 // Description : GPIO status
@@ -2807,67 +2760,64 @@
 #define IO_BANK0_GPIO16_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO16_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO16_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO16_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO16_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO16_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO16_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO16_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO16_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO16_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO16_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO16_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO16_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO16_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO16_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO16_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -2882,21 +2832,21 @@
 //               0x08 -> usb_muxing_digital_dm
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SPI0_RX                _u(0x01)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_UART0_TX               _u(0x02)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_I2C0_SDA               _u(0x03)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PWM_A_0                _u(0x04)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SIO_16                 _u(0x05)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO0_16                _u(0x06)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO1_16                _u(0x07)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_USB_MUXING_DIGITAL_DM  _u(0x08)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PWM_A_0 _u(0x04)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SIO_16 _u(0x05)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO0_16 _u(0x06)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO1_16 _u(0x07)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_USB_MUXING_DIGITAL_DM _u(0x08)
 #define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO17_STATUS
 // Description : GPIO status
@@ -2977,67 +2927,64 @@
 #define IO_BANK0_GPIO17_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO17_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO17_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO17_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO17_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO17_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO17_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO17_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO17_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO17_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO17_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO17_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO17_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO17_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO17_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO17_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3051,20 +2998,20 @@
 //               0x07 -> pio1_17
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SPI0_SS_N          _u(0x01)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_UART0_RX           _u(0x02)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_I2C0_SCL           _u(0x03)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PWM_B_0            _u(0x04)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SIO_17             _u(0x05)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO0_17            _u(0x06)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO1_17            _u(0x07)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PWM_B_0 _u(0x04)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SIO_17 _u(0x05)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO0_17 _u(0x06)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO1_17 _u(0x07)
 #define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO18_STATUS
 // Description : GPIO status
@@ -3145,67 +3092,64 @@
 #define IO_BANK0_GPIO18_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO18_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO18_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO18_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO18_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO18_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO18_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO18_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO18_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO18_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO18_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO18_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO18_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO18_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO18_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO18_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3219,20 +3163,20 @@
 //               0x07 -> pio1_18
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SPI0_SCLK                  _u(0x01)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_UART0_CTS                  _u(0x02)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_I2C1_SDA                   _u(0x03)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PWM_A_1                    _u(0x04)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SIO_18                     _u(0x05)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO0_18                    _u(0x06)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO1_18                    _u(0x07)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PWM_A_1 _u(0x04)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SIO_18 _u(0x05)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO0_18 _u(0x06)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO1_18 _u(0x07)
 #define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO19_STATUS
 // Description : GPIO status
@@ -3313,67 +3257,64 @@
 #define IO_BANK0_GPIO19_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO19_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO19_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO19_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO19_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO19_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO19_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO19_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO19_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO19_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO19_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO19_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO19_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO19_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO19_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO19_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3387,20 +3328,20 @@
 //               0x07 -> pio1_19
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SPI0_TX                _u(0x01)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_UART0_RTS              _u(0x02)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_I2C1_SCL               _u(0x03)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PWM_B_1                _u(0x04)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SIO_19                 _u(0x05)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO0_19                _u(0x06)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO1_19                _u(0x07)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PWM_B_1 _u(0x04)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SIO_19 _u(0x05)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO0_19 _u(0x06)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO1_19 _u(0x07)
 #define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO20_STATUS
 // Description : GPIO status
@@ -3481,67 +3422,64 @@
 #define IO_BANK0_GPIO20_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO20_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO20_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO20_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO20_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO20_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO20_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO20_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO20_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO20_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO20_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO20_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO20_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO20_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO20_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO20_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3556,21 +3494,21 @@
 //               0x08 -> clocks_gpin_0
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SPI0_RX            _u(0x01)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_UART1_TX           _u(0x02)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_I2C0_SDA           _u(0x03)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PWM_A_2            _u(0x04)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SIO_20             _u(0x05)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO0_20            _u(0x06)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO1_20            _u(0x07)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_0      _u(0x08)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PWM_A_2 _u(0x04)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SIO_20 _u(0x05)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO0_20 _u(0x06)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO1_20 _u(0x07)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_0 _u(0x08)
 #define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO21_STATUS
 // Description : GPIO status
@@ -3651,67 +3589,64 @@
 #define IO_BANK0_GPIO21_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO21_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO21_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO21_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO21_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO21_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO21_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO21_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO21_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO21_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO21_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO21_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO21_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO21_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO21_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO21_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3726,21 +3661,21 @@
 //               0x08 -> clocks_gpout_0
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SPI0_SS_N                  _u(0x01)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_UART1_RX                   _u(0x02)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_I2C0_SCL                   _u(0x03)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PWM_B_2                    _u(0x04)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SIO_21                     _u(0x05)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO0_21                    _u(0x06)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO1_21                    _u(0x07)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_0             _u(0x08)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PWM_B_2 _u(0x04)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SIO_21 _u(0x05)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO0_21 _u(0x06)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO1_21 _u(0x07)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_0 _u(0x08)
 #define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO22_STATUS
 // Description : GPIO status
@@ -3821,67 +3756,64 @@
 #define IO_BANK0_GPIO22_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO22_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO22_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO22_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO22_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO22_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO22_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO22_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO22_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO22_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO22_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO22_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO22_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO22_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO22_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO22_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -3896,21 +3828,21 @@
 //               0x08 -> clocks_gpin_1
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SPI0_SCLK              _u(0x01)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_UART1_CTS              _u(0x02)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_I2C1_SDA               _u(0x03)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PWM_A_3                _u(0x04)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SIO_22                 _u(0x05)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO0_22                _u(0x06)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO1_22                _u(0x07)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_1          _u(0x08)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PWM_A_3 _u(0x04)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SIO_22 _u(0x05)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO0_22 _u(0x06)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO1_22 _u(0x07)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_1 _u(0x08)
 #define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO23_STATUS
 // Description : GPIO status
@@ -3991,67 +3923,64 @@
 #define IO_BANK0_GPIO23_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO23_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO23_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO23_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO23_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO23_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO23_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO23_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO23_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO23_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO23_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO23_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO23_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO23_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO23_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO23_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4066,21 +3995,21 @@
 //               0x08 -> clocks_gpout_1
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SPI0_TX            _u(0x01)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_UART1_RTS          _u(0x02)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_I2C1_SCL           _u(0x03)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PWM_B_3            _u(0x04)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SIO_23             _u(0x05)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO0_23            _u(0x06)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO1_23            _u(0x07)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_1     _u(0x08)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PWM_B_3 _u(0x04)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SIO_23 _u(0x05)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO0_23 _u(0x06)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO1_23 _u(0x07)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_1 _u(0x08)
 #define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO24_STATUS
 // Description : GPIO status
@@ -4161,67 +4090,64 @@
 #define IO_BANK0_GPIO24_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO24_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO24_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO24_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO24_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO24_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO24_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO24_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO24_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO24_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO24_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO24_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO24_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO24_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO24_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO24_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4236,21 +4162,21 @@
 //               0x08 -> clocks_gpout_2
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SPI1_RX                    _u(0x01)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_UART1_TX                   _u(0x02)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_I2C0_SDA                   _u(0x03)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PWM_A_4                    _u(0x04)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SIO_24                     _u(0x05)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO0_24                    _u(0x06)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO1_24                    _u(0x07)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_2             _u(0x08)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PWM_A_4 _u(0x04)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SIO_24 _u(0x05)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO0_24 _u(0x06)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO1_24 _u(0x07)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_2 _u(0x08)
 #define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO25_STATUS
 // Description : GPIO status
@@ -4331,67 +4257,64 @@
 #define IO_BANK0_GPIO25_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO25_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO25_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO25_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO25_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO25_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO25_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO25_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO25_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO25_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO25_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO25_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO25_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO25_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO25_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO25_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4406,21 +4329,21 @@
 //               0x08 -> clocks_gpout_3
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SPI1_SS_N              _u(0x01)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_UART1_RX               _u(0x02)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_I2C0_SCL               _u(0x03)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PWM_B_4                _u(0x04)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SIO_25                 _u(0x05)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO0_25                _u(0x06)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO1_25                _u(0x07)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_3         _u(0x08)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PWM_B_4 _u(0x04)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SIO_25 _u(0x05)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO0_25 _u(0x06)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO1_25 _u(0x07)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_3 _u(0x08)
 #define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO26_STATUS
 // Description : GPIO status
@@ -4501,67 +4424,64 @@
 #define IO_BANK0_GPIO26_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO26_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO26_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO26_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO26_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO26_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO26_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO26_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO26_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO26_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO26_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO26_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO26_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO26_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO26_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO26_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4575,20 +4495,20 @@
 //               0x07 -> pio1_26
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SPI1_SCLK          _u(0x01)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_UART1_CTS          _u(0x02)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_I2C1_SDA           _u(0x03)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PWM_A_5            _u(0x04)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SIO_26             _u(0x05)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO0_26            _u(0x06)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO1_26            _u(0x07)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PWM_A_5 _u(0x04)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SIO_26 _u(0x05)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO0_26 _u(0x06)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO1_26 _u(0x07)
 #define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO27_STATUS
 // Description : GPIO status
@@ -4669,67 +4589,64 @@
 #define IO_BANK0_GPIO27_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO27_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO27_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO27_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO27_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO27_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO27_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO27_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO27_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO27_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO27_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO27_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO27_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO27_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO27_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO27_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4743,20 +4660,20 @@
 //               0x07 -> pio1_27
 //               0x09 -> usb_muxing_overcurr_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_RESET                            _u(0x1f)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_BITS                             _u(0x0000001f)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_MSB                              _u(4)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_LSB                              _u(0)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_ACCESS                           "RW"
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SPI1_TX                    _u(0x01)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_UART1_RTS                  _u(0x02)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_I2C1_SCL                   _u(0x03)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PWM_B_5                    _u(0x04)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SIO_27                     _u(0x05)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO0_27                    _u(0x06)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO1_27                    _u(0x07)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PWM_B_5 _u(0x04)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SIO_27 _u(0x05)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO0_27 _u(0x06)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO1_27 _u(0x07)
 #define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x09)
-#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_NULL                       _u(0x1f)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO28_STATUS
 // Description : GPIO status
@@ -4837,67 +4754,64 @@
 #define IO_BANK0_GPIO28_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO28_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO28_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO28_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO28_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO28_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO28_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO28_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO28_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO28_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO28_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO28_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO28_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO28_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO28_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO28_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -4911,20 +4825,20 @@
 //               0x07 -> pio1_28
 //               0x09 -> usb_muxing_vbus_detect
 //               0x1f -> null
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_RESET                        _u(0x1f)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_BITS                         _u(0x0000001f)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_MSB                          _u(4)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_LSB                          _u(0)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_ACCESS                       "RW"
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SPI1_RX                _u(0x01)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_UART0_TX               _u(0x02)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_I2C0_SDA               _u(0x03)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PWM_A_6                _u(0x04)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SIO_28                 _u(0x05)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO0_28                _u(0x06)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO1_28                _u(0x07)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PWM_A_6 _u(0x04)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SIO_28 _u(0x05)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO0_28 _u(0x06)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO1_28 _u(0x07)
 #define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x09)
-#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_NULL                   _u(0x1f)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_GPIO29_STATUS
 // Description : GPIO status
@@ -5005,67 +4919,64 @@
 #define IO_BANK0_GPIO29_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO29_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_MSB          _u(29)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_LSB          _u(28)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_ACCESS "RW"
 #define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO29_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_BANK0_GPIO29_CTRL_INOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO29_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_BANK0_GPIO29_CTRL_INOVER_MSB          _u(17)
-#define IO_BANK0_GPIO29_CTRL_INOVER_LSB          _u(16)
-#define IO_BANK0_GPIO29_CTRL_INOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO29_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO29_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO29_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO29_CTRL_INOVER_ACCESS "RW"
 #define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO29_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_BANK0_GPIO29_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_MSB           _u(13)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_LSB           _u(12)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_ACCESS        "RW"
-#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_MSB    _u(13)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_LSB    _u(12)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO29_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_MSB          _u(9)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_LSB          _u(8)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_MSB    _u(9)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_LSB    _u(8)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_ACCESS "RW"
 #define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_GPIO29_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -5079,20 +4990,20 @@
 //               0x07 -> pio1_29
 //               0x09 -> usb_muxing_vbus_en
 //               0x1f -> null
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_RESET                    _u(0x1f)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_BITS                     _u(0x0000001f)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_MSB                      _u(4)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_LSB                      _u(0)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_ACCESS                   "RW"
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SPI1_SS_N          _u(0x01)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_UART0_RX           _u(0x02)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_I2C0_SCL           _u(0x03)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PWM_B_6            _u(0x04)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SIO_29             _u(0x05)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO0_29            _u(0x06)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO1_29            _u(0x07)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PWM_B_6 _u(0x04)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SIO_29 _u(0x05)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO0_29 _u(0x06)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO1_29 _u(0x07)
 #define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x09)
-#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_NULL               _u(0x1f)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_BANK0_INTR0
 // Description : Raw Interrupts
@@ -5101,7 +5012,6 @@
 #define IO_BANK0_INTR0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -5109,7 +5019,6 @@
 #define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_INTR0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -5117,7 +5026,6 @@
 #define IO_BANK0_INTR0_GPIO7_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -5125,7 +5033,6 @@
 #define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -5133,7 +5040,6 @@
 #define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -5141,7 +5047,6 @@
 #define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_INTR0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -5149,7 +5054,6 @@
 #define IO_BANK0_INTR0_GPIO6_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -5157,7 +5061,6 @@
 #define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -5165,7 +5068,6 @@
 #define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -5173,7 +5075,6 @@
 #define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_INTR0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -5181,7 +5082,6 @@
 #define IO_BANK0_INTR0_GPIO5_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -5189,7 +5089,6 @@
 #define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -5197,7 +5096,6 @@
 #define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -5205,7 +5103,6 @@
 #define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_INTR0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -5213,7 +5110,6 @@
 #define IO_BANK0_INTR0_GPIO4_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -5221,7 +5117,6 @@
 #define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -5229,7 +5124,6 @@
 #define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -5237,7 +5131,6 @@
 #define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_INTR0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -5245,7 +5138,6 @@
 #define IO_BANK0_INTR0_GPIO3_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -5253,7 +5145,6 @@
 #define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -5261,7 +5152,6 @@
 #define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -5269,7 +5159,6 @@
 #define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_INTR0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -5277,7 +5166,6 @@
 #define IO_BANK0_INTR0_GPIO2_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -5285,7 +5173,6 @@
 #define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -5293,7 +5180,6 @@
 #define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -5301,7 +5187,6 @@
 #define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_INTR0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -5309,7 +5194,6 @@
 #define IO_BANK0_INTR0_GPIO1_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -5317,7 +5201,6 @@
 #define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -5325,7 +5208,6 @@
 #define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -5333,7 +5215,6 @@
 #define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_INTR0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -5341,7 +5222,6 @@
 #define IO_BANK0_INTR0_GPIO0_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -5349,7 +5229,6 @@
 #define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -5363,7 +5242,6 @@
 #define IO_BANK0_INTR1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -5371,7 +5249,6 @@
 #define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_INTR1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -5379,7 +5256,6 @@
 #define IO_BANK0_INTR1_GPIO15_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -5387,7 +5263,6 @@
 #define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -5395,7 +5270,6 @@
 #define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -5403,7 +5277,6 @@
 #define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_INTR1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -5411,7 +5284,6 @@
 #define IO_BANK0_INTR1_GPIO14_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -5419,7 +5291,6 @@
 #define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -5427,7 +5298,6 @@
 #define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -5435,7 +5305,6 @@
 #define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_INTR1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -5443,7 +5312,6 @@
 #define IO_BANK0_INTR1_GPIO13_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -5451,7 +5319,6 @@
 #define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -5459,7 +5326,6 @@
 #define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -5467,7 +5333,6 @@
 #define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_INTR1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -5475,7 +5340,6 @@
 #define IO_BANK0_INTR1_GPIO12_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -5483,7 +5347,6 @@
 #define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -5491,7 +5354,6 @@
 #define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -5499,7 +5361,6 @@
 #define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_INTR1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -5507,7 +5368,6 @@
 #define IO_BANK0_INTR1_GPIO11_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -5515,7 +5375,6 @@
 #define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -5523,7 +5382,6 @@
 #define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -5531,7 +5389,6 @@
 #define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_INTR1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -5539,7 +5396,6 @@
 #define IO_BANK0_INTR1_GPIO10_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -5547,7 +5403,6 @@
 #define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -5555,7 +5410,6 @@
 #define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -5563,7 +5417,6 @@
 #define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_INTR1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -5571,7 +5424,6 @@
 #define IO_BANK0_INTR1_GPIO9_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -5579,7 +5431,6 @@
 #define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -5587,7 +5438,6 @@
 #define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -5595,7 +5445,6 @@
 #define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_INTR1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -5603,7 +5452,6 @@
 #define IO_BANK0_INTR1_GPIO8_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -5611,7 +5459,6 @@
 #define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -5625,7 +5472,6 @@
 #define IO_BANK0_INTR2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -5633,7 +5479,6 @@
 #define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_INTR2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -5641,7 +5486,6 @@
 #define IO_BANK0_INTR2_GPIO23_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -5649,7 +5493,6 @@
 #define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -5657,7 +5500,6 @@
 #define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -5665,7 +5507,6 @@
 #define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_INTR2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -5673,7 +5514,6 @@
 #define IO_BANK0_INTR2_GPIO22_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -5681,7 +5521,6 @@
 #define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -5689,7 +5528,6 @@
 #define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -5697,7 +5535,6 @@
 #define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_INTR2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -5705,7 +5542,6 @@
 #define IO_BANK0_INTR2_GPIO21_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -5713,7 +5549,6 @@
 #define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -5721,7 +5556,6 @@
 #define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -5729,7 +5563,6 @@
 #define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_INTR2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -5737,7 +5570,6 @@
 #define IO_BANK0_INTR2_GPIO20_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -5745,7 +5577,6 @@
 #define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -5753,7 +5584,6 @@
 #define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -5761,7 +5591,6 @@
 #define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_INTR2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -5769,7 +5598,6 @@
 #define IO_BANK0_INTR2_GPIO19_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -5777,7 +5605,6 @@
 #define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -5785,7 +5612,6 @@
 #define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -5793,7 +5619,6 @@
 #define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_INTR2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -5801,7 +5626,6 @@
 #define IO_BANK0_INTR2_GPIO18_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -5809,7 +5633,6 @@
 #define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -5817,7 +5640,6 @@
 #define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -5825,7 +5647,6 @@
 #define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_INTR2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -5833,7 +5654,6 @@
 #define IO_BANK0_INTR2_GPIO17_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -5841,7 +5661,6 @@
 #define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -5849,7 +5668,6 @@
 #define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -5857,7 +5675,6 @@
 #define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_INTR2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -5865,7 +5682,6 @@
 #define IO_BANK0_INTR2_GPIO16_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -5873,7 +5689,6 @@
 #define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -5887,7 +5702,6 @@
 #define IO_BANK0_INTR3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -5895,7 +5709,6 @@
 #define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_INTR3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -5903,7 +5716,6 @@
 #define IO_BANK0_INTR3_GPIO29_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -5911,7 +5723,6 @@
 #define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -5919,7 +5730,6 @@
 #define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -5927,7 +5737,6 @@
 #define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_INTR3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -5935,7 +5744,6 @@
 #define IO_BANK0_INTR3_GPIO28_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -5943,7 +5751,6 @@
 #define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -5951,7 +5758,6 @@
 #define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -5959,7 +5765,6 @@
 #define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_INTR3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -5967,7 +5772,6 @@
 #define IO_BANK0_INTR3_GPIO27_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -5975,7 +5779,6 @@
 #define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -5983,7 +5786,6 @@
 #define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -5991,7 +5793,6 @@
 #define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_INTR3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -5999,7 +5800,6 @@
 #define IO_BANK0_INTR3_GPIO26_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -6007,7 +5807,6 @@
 #define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -6015,7 +5814,6 @@
 #define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -6023,7 +5821,6 @@
 #define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_INTR3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -6031,7 +5828,6 @@
 #define IO_BANK0_INTR3_GPIO25_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -6039,7 +5835,6 @@
 #define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -6047,7 +5842,6 @@
 #define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -6055,7 +5849,6 @@
 #define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_INTR3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -6063,7 +5856,6 @@
 #define IO_BANK0_INTR3_GPIO24_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -6071,7 +5863,6 @@
 #define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_INTR3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -6085,7 +5876,6 @@
 #define IO_BANK0_PROC0_INTE0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -6093,7 +5883,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -6101,7 +5890,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -6109,7 +5897,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -6117,7 +5904,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -6125,7 +5911,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -6133,7 +5918,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -6141,7 +5925,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -6149,7 +5932,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -6157,7 +5939,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -6165,7 +5946,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -6173,7 +5953,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -6181,7 +5960,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -6189,7 +5967,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -6197,7 +5974,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -6205,7 +5981,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -6213,7 +5988,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -6221,7 +5995,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -6229,7 +6002,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -6237,7 +6009,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -6245,7 +6016,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -6253,7 +6023,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -6261,7 +6030,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -6269,7 +6037,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -6277,7 +6044,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -6285,7 +6051,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -6293,7 +6058,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -6301,7 +6065,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -6309,7 +6072,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -6317,7 +6079,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -6325,7 +6086,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -6333,7 +6093,6 @@
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -6347,7 +6106,6 @@
 #define IO_BANK0_PROC0_INTE1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -6355,7 +6113,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -6363,7 +6120,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -6371,7 +6127,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -6379,7 +6134,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -6387,7 +6141,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -6395,7 +6148,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -6403,7 +6155,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -6411,7 +6162,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -6419,7 +6169,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -6427,7 +6176,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -6435,7 +6183,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -6443,7 +6190,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -6451,7 +6197,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -6459,7 +6204,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -6467,7 +6211,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -6475,7 +6218,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -6483,7 +6225,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -6491,7 +6232,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -6499,7 +6239,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -6507,7 +6246,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -6515,7 +6253,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -6523,7 +6260,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -6531,7 +6267,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -6539,7 +6274,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -6547,7 +6281,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -6555,7 +6288,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -6563,7 +6295,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -6571,7 +6302,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -6579,7 +6309,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -6587,7 +6316,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -6595,7 +6323,6 @@
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -6609,7 +6336,6 @@
 #define IO_BANK0_PROC0_INTE2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -6617,7 +6343,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -6625,7 +6350,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -6633,7 +6357,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -6641,7 +6364,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -6649,7 +6371,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -6657,7 +6378,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -6665,7 +6385,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -6673,7 +6392,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -6681,7 +6399,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -6689,7 +6406,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -6697,7 +6413,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -6705,7 +6420,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -6713,7 +6427,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -6721,7 +6434,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -6729,7 +6441,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -6737,7 +6448,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -6745,7 +6455,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -6753,7 +6462,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -6761,7 +6469,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -6769,7 +6476,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -6777,7 +6483,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -6785,7 +6490,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -6793,7 +6497,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -6801,7 +6504,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -6809,7 +6511,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -6817,7 +6518,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -6825,7 +6525,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -6833,7 +6532,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -6841,7 +6539,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -6849,7 +6546,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -6857,7 +6553,6 @@
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -6871,7 +6566,6 @@
 #define IO_BANK0_PROC0_INTE3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -6879,7 +6573,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -6887,7 +6580,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -6895,7 +6587,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -6903,7 +6594,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -6911,7 +6601,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -6919,7 +6608,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -6927,7 +6615,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -6935,7 +6622,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -6943,7 +6629,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -6951,7 +6636,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -6959,7 +6643,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -6967,7 +6650,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -6975,7 +6657,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -6983,7 +6664,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -6991,7 +6671,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -6999,7 +6678,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -7007,7 +6685,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -7015,7 +6692,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -7023,7 +6699,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -7031,7 +6706,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -7039,7 +6713,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -7047,7 +6720,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -7055,7 +6727,6 @@
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -7069,7 +6740,6 @@
 #define IO_BANK0_PROC0_INTF0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -7077,7 +6747,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -7085,7 +6754,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -7093,7 +6761,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -7101,7 +6768,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -7109,7 +6775,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -7117,7 +6782,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -7125,7 +6789,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -7133,7 +6796,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -7141,7 +6803,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -7149,7 +6810,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -7157,7 +6817,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -7165,7 +6824,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -7173,7 +6831,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -7181,7 +6838,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -7189,7 +6845,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -7197,7 +6852,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -7205,7 +6859,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -7213,7 +6866,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -7221,7 +6873,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -7229,7 +6880,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -7237,7 +6887,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -7245,7 +6894,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -7253,7 +6901,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -7261,7 +6908,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -7269,7 +6915,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -7277,7 +6922,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -7285,7 +6929,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -7293,7 +6936,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -7301,7 +6943,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -7309,7 +6950,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -7317,7 +6957,6 @@
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -7331,7 +6970,6 @@
 #define IO_BANK0_PROC0_INTF1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -7339,7 +6977,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -7347,7 +6984,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -7355,7 +6991,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -7363,7 +6998,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -7371,7 +7005,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -7379,7 +7012,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -7387,7 +7019,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -7395,7 +7026,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -7403,7 +7033,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -7411,7 +7040,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -7419,7 +7047,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -7427,7 +7054,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -7435,7 +7061,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -7443,7 +7068,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -7451,7 +7075,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -7459,7 +7082,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -7467,7 +7089,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -7475,7 +7096,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -7483,7 +7103,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -7491,7 +7110,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -7499,7 +7117,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -7507,7 +7124,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -7515,7 +7131,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -7523,7 +7138,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -7531,7 +7145,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -7539,7 +7152,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -7547,7 +7159,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -7555,7 +7166,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -7563,7 +7173,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -7571,7 +7180,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -7579,7 +7187,6 @@
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -7593,7 +7200,6 @@
 #define IO_BANK0_PROC0_INTF2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -7601,7 +7207,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -7609,7 +7214,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -7617,7 +7221,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -7625,7 +7228,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -7633,7 +7235,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -7641,7 +7242,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -7649,7 +7249,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -7657,7 +7256,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -7665,7 +7263,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -7673,7 +7270,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -7681,7 +7277,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -7689,7 +7284,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -7697,7 +7291,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -7705,7 +7298,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -7713,7 +7305,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -7721,7 +7312,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -7729,7 +7319,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -7737,7 +7326,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -7745,7 +7333,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -7753,7 +7340,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -7761,7 +7347,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -7769,7 +7354,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -7777,7 +7361,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -7785,7 +7368,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -7793,7 +7375,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -7801,7 +7382,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -7809,7 +7389,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -7817,7 +7396,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -7825,7 +7403,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -7833,7 +7410,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -7841,7 +7417,6 @@
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -7855,7 +7430,6 @@
 #define IO_BANK0_PROC0_INTF3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -7863,7 +7437,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -7871,7 +7444,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -7879,7 +7451,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -7887,7 +7458,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -7895,7 +7465,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -7903,7 +7472,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -7911,7 +7479,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -7919,7 +7486,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -7927,7 +7493,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -7935,7 +7500,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -7943,7 +7507,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -7951,7 +7514,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -7959,7 +7521,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -7967,7 +7528,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -7975,7 +7535,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -7983,7 +7542,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -7991,7 +7549,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -7999,7 +7556,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -8007,7 +7563,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -8015,7 +7570,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -8023,7 +7577,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -8031,7 +7584,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -8039,7 +7591,6 @@
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -8053,7 +7604,6 @@
 #define IO_BANK0_PROC0_INTS0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -8061,7 +7611,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -8069,7 +7618,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -8077,7 +7625,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -8085,7 +7632,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -8093,7 +7639,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -8101,7 +7646,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -8109,7 +7653,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -8117,7 +7660,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -8125,7 +7667,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -8133,7 +7674,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -8141,7 +7681,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -8149,7 +7688,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -8157,7 +7695,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -8165,7 +7702,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -8173,7 +7709,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -8181,7 +7716,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -8189,7 +7723,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -8197,7 +7730,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -8205,7 +7737,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -8213,7 +7744,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -8221,7 +7751,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -8229,7 +7758,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -8237,7 +7765,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -8245,7 +7772,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -8253,7 +7779,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -8261,7 +7786,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -8269,7 +7793,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -8277,7 +7800,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -8285,7 +7807,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -8293,7 +7814,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -8301,7 +7821,6 @@
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -8315,7 +7834,6 @@
 #define IO_BANK0_PROC0_INTS1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -8323,7 +7841,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -8331,7 +7848,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -8339,7 +7855,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -8347,7 +7862,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -8355,7 +7869,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -8363,7 +7876,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -8371,7 +7883,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -8379,7 +7890,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -8387,7 +7897,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -8395,7 +7904,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -8403,7 +7911,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -8411,7 +7918,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -8419,7 +7925,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -8427,7 +7932,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -8435,7 +7939,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -8443,7 +7946,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -8451,7 +7953,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -8459,7 +7960,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -8467,7 +7967,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -8475,7 +7974,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -8483,7 +7981,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -8491,7 +7988,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -8499,7 +7995,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -8507,7 +8002,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -8515,7 +8009,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -8523,7 +8016,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -8531,7 +8023,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -8539,7 +8030,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -8547,7 +8037,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -8555,7 +8044,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -8563,7 +8051,6 @@
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -8577,7 +8064,6 @@
 #define IO_BANK0_PROC0_INTS2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -8585,7 +8071,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -8593,7 +8078,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -8601,7 +8085,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -8609,7 +8092,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -8617,7 +8099,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -8625,7 +8106,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -8633,7 +8113,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -8641,7 +8120,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -8649,7 +8127,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -8657,7 +8134,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -8665,7 +8141,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -8673,7 +8148,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -8681,7 +8155,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -8689,7 +8162,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -8697,7 +8169,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -8705,7 +8176,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -8713,7 +8183,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -8721,7 +8190,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -8729,7 +8197,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -8737,7 +8204,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -8745,7 +8211,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -8753,7 +8218,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -8761,7 +8225,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -8769,7 +8232,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -8777,7 +8239,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -8785,7 +8246,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -8793,7 +8253,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -8801,7 +8260,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -8809,7 +8267,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -8817,7 +8274,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -8825,7 +8281,6 @@
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -8839,7 +8294,6 @@
 #define IO_BANK0_PROC0_INTS3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -8847,7 +8301,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -8855,7 +8308,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -8863,7 +8315,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -8871,7 +8322,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -8879,7 +8329,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -8887,7 +8336,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -8895,7 +8343,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -8903,7 +8350,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -8911,7 +8357,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -8919,7 +8364,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -8927,7 +8371,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -8935,7 +8378,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -8943,7 +8385,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -8951,7 +8392,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -8959,7 +8399,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -8967,7 +8406,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -8975,7 +8413,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -8983,7 +8420,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -8991,7 +8427,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -8999,7 +8434,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -9007,7 +8441,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -9015,7 +8448,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -9023,7 +8455,6 @@
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -9037,7 +8468,6 @@
 #define IO_BANK0_PROC1_INTE0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -9045,7 +8475,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -9053,7 +8482,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -9061,7 +8489,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -9069,7 +8496,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -9077,7 +8503,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -9085,7 +8510,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -9093,7 +8517,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -9101,7 +8524,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -9109,7 +8531,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -9117,7 +8538,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -9125,7 +8545,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -9133,7 +8552,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -9141,7 +8559,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -9149,7 +8566,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -9157,7 +8573,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -9165,7 +8580,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -9173,7 +8587,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -9181,7 +8594,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -9189,7 +8601,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -9197,7 +8608,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -9205,7 +8615,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -9213,7 +8622,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -9221,7 +8629,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -9229,7 +8636,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -9237,7 +8643,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -9245,7 +8650,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -9253,7 +8657,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -9261,7 +8664,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -9269,7 +8671,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -9277,7 +8678,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -9285,7 +8685,6 @@
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -9299,7 +8698,6 @@
 #define IO_BANK0_PROC1_INTE1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -9307,7 +8705,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -9315,7 +8712,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -9323,7 +8719,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -9331,7 +8726,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -9339,7 +8733,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -9347,7 +8740,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -9355,7 +8747,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -9363,7 +8754,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -9371,7 +8761,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -9379,7 +8768,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -9387,7 +8775,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -9395,7 +8782,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -9403,7 +8789,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -9411,7 +8796,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -9419,7 +8803,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -9427,7 +8810,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -9435,7 +8817,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -9443,7 +8824,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -9451,7 +8831,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -9459,7 +8838,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -9467,7 +8845,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -9475,7 +8852,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -9483,7 +8859,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -9491,7 +8866,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -9499,7 +8873,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -9507,7 +8880,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -9515,7 +8887,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -9523,7 +8894,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -9531,7 +8901,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -9539,7 +8908,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -9547,7 +8915,6 @@
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -9561,7 +8928,6 @@
 #define IO_BANK0_PROC1_INTE2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -9569,7 +8935,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -9577,7 +8942,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -9585,7 +8949,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -9593,7 +8956,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -9601,7 +8963,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -9609,7 +8970,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -9617,7 +8977,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -9625,7 +8984,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -9633,7 +8991,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -9641,7 +8998,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -9649,7 +9005,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -9657,7 +9012,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -9665,7 +9019,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -9673,7 +9026,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -9681,7 +9033,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -9689,7 +9040,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -9697,7 +9047,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -9705,7 +9054,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -9713,7 +9061,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -9721,7 +9068,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -9729,7 +9075,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -9737,7 +9082,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -9745,7 +9089,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -9753,7 +9096,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -9761,7 +9103,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -9769,7 +9110,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -9777,7 +9117,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -9785,7 +9124,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -9793,7 +9131,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -9801,7 +9138,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -9809,7 +9145,6 @@
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -9823,7 +9158,6 @@
 #define IO_BANK0_PROC1_INTE3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -9831,7 +9165,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -9839,7 +9172,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -9847,7 +9179,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -9855,7 +9186,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -9863,7 +9193,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -9871,7 +9200,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -9879,7 +9207,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -9887,7 +9214,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -9895,7 +9221,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -9903,7 +9228,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -9911,7 +9235,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -9919,7 +9242,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -9927,7 +9249,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -9935,7 +9256,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -9943,7 +9263,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -9951,7 +9270,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -9959,7 +9277,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -9967,7 +9284,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -9975,7 +9291,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -9983,7 +9298,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -9991,7 +9305,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -9999,7 +9312,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -10007,7 +9319,6 @@
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -10021,7 +9332,6 @@
 #define IO_BANK0_PROC1_INTF0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -10029,7 +9339,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -10037,7 +9346,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -10045,7 +9353,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -10053,7 +9360,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -10061,7 +9367,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -10069,7 +9374,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -10077,7 +9381,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -10085,7 +9388,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -10093,7 +9395,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -10101,7 +9402,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -10109,7 +9409,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -10117,7 +9416,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -10125,7 +9423,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -10133,7 +9430,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -10141,7 +9437,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -10149,7 +9444,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -10157,7 +9451,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -10165,7 +9458,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -10173,7 +9465,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -10181,7 +9472,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -10189,7 +9479,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -10197,7 +9486,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -10205,7 +9493,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -10213,7 +9500,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -10221,7 +9507,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -10229,7 +9514,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -10237,7 +9521,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -10245,7 +9528,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -10253,7 +9535,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -10261,7 +9542,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -10269,7 +9549,6 @@
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -10283,7 +9562,6 @@
 #define IO_BANK0_PROC1_INTF1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -10291,7 +9569,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -10299,7 +9576,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -10307,7 +9583,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -10315,7 +9590,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -10323,7 +9597,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -10331,7 +9604,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -10339,7 +9611,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -10347,7 +9618,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -10355,7 +9625,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -10363,7 +9632,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -10371,7 +9639,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -10379,7 +9646,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -10387,7 +9653,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -10395,7 +9660,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -10403,7 +9667,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -10411,7 +9674,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -10419,7 +9681,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -10427,7 +9688,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -10435,7 +9695,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -10443,7 +9702,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -10451,7 +9709,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -10459,7 +9716,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -10467,7 +9723,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -10475,7 +9730,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -10483,7 +9737,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -10491,7 +9744,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -10499,7 +9751,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -10507,7 +9758,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -10515,7 +9765,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -10523,7 +9772,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -10531,7 +9779,6 @@
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -10545,7 +9792,6 @@
 #define IO_BANK0_PROC1_INTF2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -10553,7 +9799,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -10561,7 +9806,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -10569,7 +9813,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -10577,7 +9820,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -10585,7 +9827,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -10593,7 +9834,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -10601,7 +9841,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -10609,7 +9848,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -10617,7 +9855,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -10625,7 +9862,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -10633,7 +9869,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -10641,7 +9876,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -10649,7 +9883,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -10657,7 +9890,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -10665,7 +9897,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -10673,7 +9904,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -10681,7 +9911,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -10689,7 +9918,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -10697,7 +9925,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -10705,7 +9932,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -10713,7 +9939,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -10721,7 +9946,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -10729,7 +9953,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -10737,7 +9960,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -10745,7 +9967,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -10753,7 +9974,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -10761,7 +9981,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -10769,7 +9988,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -10777,7 +9995,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -10785,7 +10002,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -10793,7 +10009,6 @@
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -10807,7 +10022,6 @@
 #define IO_BANK0_PROC1_INTF3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -10815,7 +10029,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -10823,7 +10036,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -10831,7 +10043,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -10839,7 +10050,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -10847,7 +10057,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -10855,7 +10064,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -10863,7 +10071,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -10871,7 +10078,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -10879,7 +10085,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -10887,7 +10092,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -10895,7 +10099,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -10903,7 +10106,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -10911,7 +10113,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -10919,7 +10120,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -10927,7 +10127,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -10935,7 +10134,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -10943,7 +10141,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -10951,7 +10148,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -10959,7 +10155,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -10967,7 +10162,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -10975,7 +10169,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -10983,7 +10176,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -10991,7 +10183,6 @@
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -11005,7 +10196,6 @@
 #define IO_BANK0_PROC1_INTS0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -11013,7 +10203,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -11021,7 +10210,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -11029,7 +10217,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -11037,7 +10224,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -11045,7 +10231,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -11053,7 +10238,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -11061,7 +10245,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -11069,7 +10252,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -11077,7 +10259,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -11085,7 +10266,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -11093,7 +10273,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -11101,7 +10280,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -11109,7 +10287,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -11117,7 +10294,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -11125,7 +10301,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -11133,7 +10308,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -11141,7 +10315,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -11149,7 +10322,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -11157,7 +10329,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -11165,7 +10336,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -11173,7 +10343,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -11181,7 +10350,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -11189,7 +10357,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -11197,7 +10364,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -11205,7 +10371,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -11213,7 +10378,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -11221,7 +10385,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -11229,7 +10392,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -11237,7 +10399,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -11245,7 +10406,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -11253,7 +10413,6 @@
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -11267,7 +10426,6 @@
 #define IO_BANK0_PROC1_INTS1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -11275,7 +10433,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -11283,7 +10440,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -11291,7 +10447,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -11299,7 +10454,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -11307,7 +10461,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -11315,7 +10468,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -11323,7 +10475,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -11331,7 +10482,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -11339,7 +10489,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -11347,7 +10496,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -11355,7 +10503,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -11363,7 +10510,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -11371,7 +10517,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -11379,7 +10524,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -11387,7 +10531,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -11395,7 +10538,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -11403,7 +10545,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -11411,7 +10552,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -11419,7 +10559,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -11427,7 +10566,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -11435,7 +10573,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -11443,7 +10580,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -11451,7 +10587,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -11459,7 +10594,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -11467,7 +10601,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -11475,7 +10608,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -11483,7 +10615,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -11491,7 +10622,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -11499,7 +10629,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -11507,7 +10636,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -11515,7 +10643,6 @@
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -11529,7 +10656,6 @@
 #define IO_BANK0_PROC1_INTS2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -11537,7 +10663,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -11545,7 +10670,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -11553,7 +10677,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -11561,7 +10684,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -11569,7 +10691,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -11577,7 +10698,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -11585,7 +10705,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -11593,7 +10712,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -11601,7 +10719,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -11609,7 +10726,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -11617,7 +10733,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -11625,7 +10740,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -11633,7 +10747,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -11641,7 +10754,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -11649,7 +10761,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -11657,7 +10768,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -11665,7 +10775,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -11673,7 +10782,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -11681,7 +10789,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -11689,7 +10796,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -11697,7 +10803,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -11705,7 +10810,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -11713,7 +10817,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -11721,7 +10824,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -11729,7 +10831,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -11737,7 +10838,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -11745,7 +10845,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -11753,7 +10852,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -11761,7 +10859,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -11769,7 +10866,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -11777,7 +10873,6 @@
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -11791,7 +10886,6 @@
 #define IO_BANK0_PROC1_INTS3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -11799,7 +10893,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -11807,7 +10900,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -11815,7 +10907,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -11823,7 +10914,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -11831,7 +10921,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -11839,7 +10928,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -11847,7 +10935,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -11855,7 +10942,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -11863,7 +10949,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -11871,7 +10956,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -11879,7 +10963,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -11887,7 +10970,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -11895,7 +10977,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -11903,7 +10984,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -11911,7 +10991,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -11919,7 +10998,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -11927,7 +11005,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -11935,7 +11012,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -11943,7 +11019,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -11951,7 +11026,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -11959,7 +11033,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -11967,7 +11040,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -11975,7 +11047,6 @@
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -11989,7 +11060,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -11997,7 +11067,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -12005,7 +11074,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -12013,7 +11081,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -12021,7 +11088,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -12029,7 +11095,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -12037,7 +11102,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -12045,7 +11109,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -12053,7 +11116,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -12061,7 +11123,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -12069,7 +11130,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -12077,7 +11137,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -12085,7 +11144,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -12093,7 +11151,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -12101,7 +11158,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -12109,7 +11165,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -12117,7 +11172,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -12125,7 +11179,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -12133,7 +11186,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -12141,7 +11193,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -12149,7 +11200,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -12157,7 +11207,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -12165,7 +11214,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -12173,7 +11221,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -12181,7 +11228,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -12189,7 +11235,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -12197,7 +11242,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -12205,7 +11249,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -12213,7 +11256,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -12221,7 +11263,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -12229,7 +11270,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -12237,7 +11277,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -12251,7 +11290,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -12259,7 +11297,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -12267,7 +11304,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -12275,7 +11311,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -12283,7 +11318,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -12291,7 +11325,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -12299,7 +11332,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -12307,7 +11339,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -12315,7 +11346,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -12323,7 +11353,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -12331,7 +11360,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -12339,7 +11367,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -12347,7 +11374,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -12355,7 +11381,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -12363,7 +11388,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -12371,7 +11395,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -12379,7 +11402,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -12387,7 +11409,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -12395,7 +11416,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -12403,7 +11423,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -12411,7 +11430,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -12419,7 +11437,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -12427,7 +11444,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -12435,7 +11451,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -12443,7 +11458,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -12451,7 +11465,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -12459,7 +11472,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -12467,7 +11479,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -12475,7 +11486,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -12483,7 +11493,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -12491,7 +11500,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -12499,7 +11507,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -12513,7 +11520,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -12521,7 +11527,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -12529,7 +11534,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -12537,7 +11541,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -12545,7 +11548,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -12553,7 +11555,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -12561,7 +11562,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -12569,7 +11569,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -12577,7 +11576,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -12585,7 +11583,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -12593,7 +11590,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -12601,7 +11597,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -12609,7 +11604,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -12617,7 +11611,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -12625,7 +11618,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -12633,7 +11625,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -12641,7 +11632,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -12649,7 +11639,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -12657,7 +11646,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -12665,7 +11653,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -12673,7 +11660,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -12681,7 +11667,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -12689,7 +11674,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -12697,7 +11681,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -12705,7 +11688,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -12713,7 +11695,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -12721,7 +11702,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -12729,7 +11709,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -12737,7 +11716,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -12745,7 +11723,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -12753,7 +11730,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -12761,7 +11737,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -12775,7 +11750,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -12783,7 +11757,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -12791,7 +11764,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -12799,7 +11771,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -12807,7 +11778,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -12815,7 +11785,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -12823,7 +11792,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -12831,7 +11799,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -12839,7 +11806,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -12847,7 +11813,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -12855,7 +11820,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -12863,7 +11827,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -12871,7 +11834,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -12879,7 +11841,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -12887,7 +11848,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -12895,7 +11855,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -12903,7 +11862,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -12911,7 +11869,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -12919,7 +11876,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -12927,7 +11883,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -12935,7 +11890,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -12943,7 +11897,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -12951,7 +11904,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -12959,7 +11911,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -12973,7 +11924,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -12981,7 +11931,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -12989,7 +11938,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -12997,7 +11945,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -13005,7 +11952,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -13013,7 +11959,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -13021,7 +11966,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -13029,7 +11973,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -13037,7 +11980,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -13045,7 +11987,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -13053,7 +11994,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -13061,7 +12001,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -13069,7 +12008,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -13077,7 +12015,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -13085,7 +12022,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -13093,7 +12029,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -13101,7 +12036,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -13109,7 +12043,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -13117,7 +12050,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -13125,7 +12057,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -13133,7 +12064,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -13141,7 +12071,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -13149,7 +12078,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -13157,7 +12085,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -13165,7 +12092,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -13173,7 +12099,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -13181,7 +12106,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -13189,7 +12113,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -13197,7 +12120,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -13205,7 +12127,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -13213,7 +12134,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -13221,7 +12141,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -13235,7 +12154,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -13243,7 +12161,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -13251,7 +12168,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -13259,7 +12175,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -13267,7 +12182,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -13275,7 +12189,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -13283,7 +12196,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -13291,7 +12203,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -13299,7 +12210,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -13307,7 +12217,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -13315,7 +12224,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -13323,7 +12231,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -13331,7 +12238,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -13339,7 +12245,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -13347,7 +12252,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -13355,7 +12259,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -13363,7 +12266,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -13371,7 +12273,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -13379,7 +12280,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -13387,7 +12287,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -13395,7 +12294,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -13403,7 +12301,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -13411,7 +12308,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -13419,7 +12315,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -13427,7 +12322,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -13435,7 +12329,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -13443,7 +12336,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -13451,7 +12343,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -13459,7 +12350,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -13467,7 +12357,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -13475,7 +12364,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -13483,7 +12371,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -13497,7 +12384,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -13505,7 +12391,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -13513,7 +12398,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -13521,7 +12405,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -13529,7 +12412,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -13537,7 +12419,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -13545,7 +12426,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -13553,7 +12433,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -13561,7 +12440,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -13569,7 +12447,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -13577,7 +12454,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -13585,7 +12461,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -13593,7 +12468,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -13601,7 +12475,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -13609,7 +12482,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -13617,7 +12489,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -13625,7 +12496,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -13633,7 +12503,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -13641,7 +12510,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -13649,7 +12517,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -13657,7 +12524,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -13665,7 +12531,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -13673,7 +12538,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -13681,7 +12545,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -13689,7 +12552,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -13697,7 +12559,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -13705,7 +12566,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -13713,7 +12573,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -13721,7 +12580,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -13729,7 +12587,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -13737,7 +12594,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -13745,7 +12601,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -13759,7 +12614,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -13767,7 +12621,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -13775,7 +12628,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -13783,7 +12635,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -13791,7 +12642,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -13799,7 +12649,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -13807,7 +12656,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -13815,7 +12663,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -13823,7 +12670,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -13831,7 +12677,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -13839,7 +12684,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -13847,7 +12691,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -13855,7 +12698,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -13863,7 +12705,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -13871,7 +12712,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -13879,7 +12719,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -13887,7 +12726,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -13895,7 +12733,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -13903,7 +12740,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -13911,7 +12747,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -13919,7 +12754,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -13927,7 +12761,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -13935,7 +12768,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -13943,7 +12775,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
@@ -13957,7 +12788,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
@@ -13965,7 +12795,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
@@ -13973,7 +12802,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
@@ -13981,7 +12809,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
@@ -13989,7 +12816,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
@@ -13997,7 +12823,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
@@ -14005,7 +12830,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
@@ -14013,7 +12837,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
@@ -14021,7 +12844,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
@@ -14029,7 +12851,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
@@ -14037,7 +12858,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
@@ -14045,7 +12865,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
@@ -14053,7 +12872,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
@@ -14061,7 +12879,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
@@ -14069,7 +12886,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
@@ -14077,7 +12893,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
@@ -14085,7 +12900,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
@@ -14093,7 +12907,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
@@ -14101,7 +12914,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
@@ -14109,7 +12921,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
@@ -14117,7 +12928,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
@@ -14125,7 +12935,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
@@ -14133,7 +12942,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
@@ -14141,7 +12949,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
@@ -14149,7 +12956,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
@@ -14157,7 +12963,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
@@ -14165,7 +12970,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
@@ -14173,7 +12977,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
@@ -14181,7 +12984,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
@@ -14189,7 +12991,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
@@ -14197,7 +12998,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
@@ -14205,7 +13005,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
@@ -14219,7 +13018,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
@@ -14227,7 +13025,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
@@ -14235,7 +13032,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
@@ -14243,7 +13039,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
@@ -14251,7 +13046,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
@@ -14259,7 +13053,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
@@ -14267,7 +13060,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
@@ -14275,7 +13067,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
@@ -14283,7 +13074,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
@@ -14291,7 +13081,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
@@ -14299,7 +13088,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
@@ -14307,7 +13095,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
@@ -14315,7 +13102,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
@@ -14323,7 +13109,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
@@ -14331,7 +13116,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
@@ -14339,7 +13123,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
@@ -14347,7 +13130,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
@@ -14355,7 +13137,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
@@ -14363,7 +13144,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
@@ -14371,7 +13151,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
@@ -14379,7 +13158,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
@@ -14387,7 +13165,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
@@ -14395,7 +13172,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
@@ -14403,7 +13179,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
@@ -14411,7 +13186,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
@@ -14419,7 +13193,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
@@ -14427,7 +13200,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
@@ -14435,7 +13207,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
@@ -14443,7 +13214,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
@@ -14451,7 +13221,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
@@ -14459,7 +13228,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
@@ -14467,7 +13235,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
@@ -14481,7 +13248,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
@@ -14489,7 +13255,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
@@ -14497,7 +13262,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
@@ -14505,7 +13269,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
@@ -14513,7 +13276,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
@@ -14521,7 +13283,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
@@ -14529,7 +13290,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
@@ -14537,7 +13297,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
@@ -14545,7 +13304,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
@@ -14553,7 +13311,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
@@ -14561,7 +13318,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
@@ -14569,7 +13325,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
@@ -14577,7 +13332,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
@@ -14585,7 +13339,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
@@ -14593,7 +13346,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
@@ -14601,7 +13353,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
@@ -14609,7 +13360,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
@@ -14617,7 +13367,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
@@ -14625,7 +13374,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
@@ -14633,7 +13381,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
@@ -14641,7 +13388,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
@@ -14649,7 +13395,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
@@ -14657,7 +13402,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
@@ -14665,7 +13409,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
@@ -14673,7 +13416,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
@@ -14681,7 +13423,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
@@ -14689,7 +13430,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
@@ -14697,7 +13437,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
@@ -14705,7 +13444,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
@@ -14713,7 +13451,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
@@ -14721,7 +13458,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
@@ -14729,7 +13465,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
@@ -14743,7 +13478,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
@@ -14751,7 +13485,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
@@ -14759,7 +13492,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
@@ -14767,7 +13499,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
@@ -14775,7 +13506,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
@@ -14783,7 +13513,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
@@ -14791,7 +13520,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
@@ -14799,7 +13527,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
@@ -14807,7 +13534,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
@@ -14815,7 +13541,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
@@ -14823,7 +13548,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
@@ -14831,7 +13555,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
@@ -14839,7 +13562,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
@@ -14847,7 +13569,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
@@ -14855,7 +13576,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
@@ -14863,7 +13583,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
@@ -14871,7 +13590,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
@@ -14879,7 +13597,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
@@ -14887,7 +13604,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
@@ -14895,7 +13611,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
@@ -14903,7 +13618,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
@@ -14911,7 +13625,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
@@ -14919,7 +13632,6 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
@@ -14927,11 +13639,11 @@
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW
-// Description : None
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_LSB    _u(0)
 #define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_IO_BANK0_DEFINED
+#endif // _HARDWARE_REGS_IO_BANK0_H
+
diff --git a/lib/rp2040/hardware/regs/io_qspi.h b/lib/pico-sdk/rp2040/hardware/regs/io_qspi.h
similarity index 88%
rename from lib/rp2040/hardware/regs/io_qspi.h
rename to lib/pico-sdk/rp2040/hardware/regs/io_qspi.h
index 7c381b7..5ed0ddb 100644
--- a/lib/rp2040/hardware/regs/io_qspi.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/io_qspi.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : IO_QSPI
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_IO_QSPI_DEFINED
-#define HARDWARE_REGS_IO_QSPI_DEFINED
+#ifndef _HARDWARE_REGS_IO_QSPI_H
+#define _HARDWARE_REGS_IO_QSPI_H
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SCLK_STATUS
 // Description : GPIO status
@@ -91,67 +92,64 @@
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -159,14 +157,14 @@
 //               0x00 -> xip_sclk
 //               0x05 -> sio_30
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_RESET          _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_BITS           _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_MSB            _u(4)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_LSB            _u(0)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_ACCESS         "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_XIP_SCLK _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_SIO_30   _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_NULL     _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_SIO_30 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SS_STATUS
 // Description : GPIO status
@@ -247,67 +245,64 @@
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -315,14 +310,14 @@
 //               0x00 -> xip_ss_n
 //               0x05 -> sio_31
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_RESET          _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_BITS           _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_MSB            _u(4)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_LSB            _u(0)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_ACCESS         "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_XIP_SS_N _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_SIO_31   _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_NULL     _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_SIO_31 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SD0_STATUS
 // Description : GPIO status
@@ -403,67 +398,64 @@
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -471,14 +463,14 @@
 //               0x00 -> xip_sd0
 //               0x05 -> sio_32
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_RESET         _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_BITS          _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_MSB           _u(4)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_LSB           _u(0)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_ACCESS        "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_XIP_SD0 _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_SIO_32  _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_NULL    _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_SIO_32 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SD1_STATUS
 // Description : GPIO status
@@ -559,67 +551,64 @@
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -627,14 +616,14 @@
 //               0x00 -> xip_sd1
 //               0x05 -> sio_33
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_RESET         _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_BITS          _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_MSB           _u(4)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_LSB           _u(0)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_ACCESS        "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_XIP_SD1 _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_SIO_33  _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_NULL    _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_SIO_33 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SD2_STATUS
 // Description : GPIO status
@@ -715,67 +704,64 @@
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -783,14 +769,14 @@
 //               0x00 -> xip_sd2
 //               0x05 -> sio_34
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_RESET         _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_BITS          _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_MSB           _u(4)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_LSB           _u(0)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_ACCESS        "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_XIP_SD2 _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_SIO_34  _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_NULL    _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_SIO_34 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_GPIO_QSPI_SD3_STATUS
 // Description : GPIO status
@@ -871,67 +857,64 @@
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_RESET  _u(0x0000001f)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER
-// Description : 0x0 -> don't invert the interrupt
+//               0x0 -> don't invert the interrupt
 //               0x1 -> invert the interrupt
 //               0x2 -> drive interrupt low
 //               0x3 -> drive interrupt high
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_BITS         _u(0x30000000)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_MSB          _u(29)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_LSB          _u(28)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER
-// Description : 0x0 -> don't invert the peri input
+//               0x0 -> don't invert the peri input
 //               0x1 -> invert the peri input
 //               0x2 -> drive peri input low
 //               0x3 -> drive peri input high
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_BITS         _u(0x00030000)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_MSB          _u(17)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_LSB          _u(16)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER
-// Description : 0x0 -> drive output enable from peripheral signal selected by
-//               funcsel
-//               0x1 -> drive output enable from inverse of peripheral signal
-//               selected by funcsel
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
 //               0x2 -> disable output
 //               0x3 -> enable output
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_RESET         _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_BITS          _u(0x00003000)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_MSB           _u(13)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_LSB           _u(12)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_ACCESS        "RW"
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_NORMAL  _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_INVERT  _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_INVERT _u(0x1)
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_ENABLE  _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER
-// Description : 0x0 -> drive output from peripheral signal selected by funcsel
-//               0x1 -> drive output from inverse of peripheral signal selected
-//               by funcsel
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
 //               0x2 -> drive output low
 //               0x3 -> drive output high
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_RESET        _u(0x0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_BITS         _u(0x00000300)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_MSB          _u(9)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_LSB          _u(8)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_ACCESS       "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_BITS   _u(0x00000300)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_LSB    _u(8)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_LOW    _u(0x2)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_HIGH   _u(0x3)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL
 // Description : 0-31 -> selects pin function according to the gpio table
@@ -939,14 +922,14 @@
 //               0x00 -> xip_sd3
 //               0x05 -> sio_35
 //               0x1f -> null
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_RESET         _u(0x1f)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_BITS          _u(0x0000001f)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_MSB           _u(4)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_LSB           _u(0)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_ACCESS        "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_ACCESS "RW"
 #define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_XIP_SD3 _u(0x00)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_SIO_35  _u(0x05)
-#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_NULL    _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_SIO_35 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
 // =============================================================================
 // Register    : IO_QSPI_INTR
 // Description : Raw Interrupts
@@ -955,7 +938,6 @@
 #define IO_QSPI_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -963,7 +945,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -971,7 +952,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -979,7 +959,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -987,7 +966,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -995,7 +973,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1003,7 +980,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -1011,7 +987,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -1019,7 +994,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -1027,7 +1001,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -1035,7 +1008,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -1043,7 +1015,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -1051,7 +1022,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -1059,7 +1029,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -1067,7 +1036,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -1075,7 +1043,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -1083,7 +1050,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -1091,7 +1057,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -1099,7 +1064,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -1107,7 +1071,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -1115,7 +1078,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -1123,7 +1085,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -1131,7 +1092,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -1139,7 +1099,6 @@
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -1153,7 +1112,6 @@
 #define IO_QSPI_PROC0_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -1161,7 +1119,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -1169,7 +1126,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -1177,7 +1133,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -1185,7 +1140,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -1193,7 +1147,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1201,7 +1154,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -1209,7 +1161,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -1217,7 +1168,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -1225,7 +1175,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -1233,7 +1182,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -1241,7 +1189,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -1249,7 +1196,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -1257,7 +1203,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -1265,7 +1210,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -1273,7 +1217,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -1281,7 +1224,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -1289,7 +1231,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -1297,7 +1238,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -1305,7 +1245,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -1313,7 +1252,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -1321,7 +1259,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -1329,7 +1266,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -1337,7 +1273,6 @@
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -1351,7 +1286,6 @@
 #define IO_QSPI_PROC0_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -1359,7 +1293,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -1367,7 +1300,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -1375,7 +1307,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -1383,7 +1314,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -1391,7 +1321,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1399,7 +1328,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -1407,7 +1335,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -1415,7 +1342,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -1423,7 +1349,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -1431,7 +1356,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -1439,7 +1363,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -1447,7 +1370,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -1455,7 +1377,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -1463,7 +1384,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -1471,7 +1391,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -1479,7 +1398,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -1487,7 +1405,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -1495,7 +1412,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -1503,7 +1419,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -1511,7 +1426,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -1519,7 +1433,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -1527,7 +1440,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -1535,7 +1447,6 @@
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -1549,7 +1460,6 @@
 #define IO_QSPI_PROC0_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -1557,7 +1467,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -1565,7 +1474,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -1573,7 +1481,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -1581,7 +1488,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -1589,7 +1495,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1597,7 +1502,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -1605,7 +1509,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -1613,7 +1516,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -1621,7 +1523,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -1629,7 +1530,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -1637,7 +1537,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -1645,7 +1544,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -1653,7 +1551,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -1661,7 +1558,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -1669,7 +1565,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -1677,7 +1572,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -1685,7 +1579,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -1693,7 +1586,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -1701,7 +1593,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -1709,7 +1600,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -1717,7 +1607,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -1725,7 +1614,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -1733,7 +1621,6 @@
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -1747,7 +1634,6 @@
 #define IO_QSPI_PROC1_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -1755,7 +1641,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -1763,7 +1648,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -1771,7 +1655,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -1779,7 +1662,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -1787,7 +1669,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1795,7 +1676,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -1803,7 +1683,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -1811,7 +1690,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -1819,7 +1697,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -1827,7 +1704,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -1835,7 +1711,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -1843,7 +1718,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -1851,7 +1725,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -1859,7 +1732,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -1867,7 +1739,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -1875,7 +1746,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -1883,7 +1753,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -1891,7 +1760,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -1899,7 +1767,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -1907,7 +1774,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -1915,7 +1781,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -1923,7 +1788,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -1931,7 +1795,6 @@
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -1945,7 +1808,6 @@
 #define IO_QSPI_PROC1_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -1953,7 +1815,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -1961,7 +1822,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -1969,7 +1829,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -1977,7 +1836,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -1985,7 +1843,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -1993,7 +1850,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -2001,7 +1857,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -2009,7 +1864,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -2017,7 +1871,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -2025,7 +1878,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -2033,7 +1885,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -2041,7 +1892,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -2049,7 +1899,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -2057,7 +1906,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -2065,7 +1913,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -2073,7 +1920,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -2081,7 +1927,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -2089,7 +1934,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -2097,7 +1941,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -2105,7 +1948,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -2113,7 +1955,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -2121,7 +1962,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -2129,7 +1969,6 @@
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -2143,7 +1982,6 @@
 #define IO_QSPI_PROC1_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -2151,7 +1989,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -2159,7 +1996,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -2167,7 +2003,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -2175,7 +2010,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -2183,7 +2017,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -2191,7 +2024,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -2199,7 +2031,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -2207,7 +2038,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -2215,7 +2045,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -2223,7 +2052,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -2231,7 +2059,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -2239,7 +2066,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -2247,7 +2073,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -2255,7 +2080,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -2263,7 +2087,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -2271,7 +2094,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -2279,7 +2101,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -2287,7 +2108,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -2295,7 +2115,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -2303,7 +2122,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -2311,7 +2129,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -2319,7 +2136,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -2327,7 +2143,6 @@
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -2341,7 +2156,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -2349,7 +2163,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -2357,7 +2170,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -2365,7 +2177,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -2373,7 +2184,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -2381,7 +2191,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -2389,7 +2198,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -2397,7 +2205,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -2405,7 +2212,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -2413,7 +2219,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -2421,7 +2226,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -2429,7 +2233,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -2437,7 +2240,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -2445,7 +2247,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -2453,7 +2254,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -2461,7 +2261,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -2469,7 +2268,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -2477,7 +2275,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -2485,7 +2282,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -2493,7 +2289,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -2501,7 +2296,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -2509,7 +2303,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -2517,7 +2310,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -2525,7 +2317,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -2539,7 +2330,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -2547,7 +2337,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -2555,7 +2344,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -2563,7 +2351,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -2571,7 +2358,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -2579,7 +2365,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -2587,7 +2372,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -2595,7 +2379,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -2603,7 +2386,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -2611,7 +2393,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -2619,7 +2400,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -2627,7 +2407,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -2635,7 +2414,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -2643,7 +2421,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -2651,7 +2428,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -2659,7 +2435,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -2667,7 +2442,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -2675,7 +2449,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -2683,7 +2456,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -2691,7 +2463,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -2699,7 +2470,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -2707,7 +2477,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -2715,7 +2484,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -2723,7 +2491,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
@@ -2737,7 +2504,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x00800000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(23)
@@ -2745,7 +2511,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x00400000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(22)
@@ -2753,7 +2518,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x00200000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(21)
@@ -2761,7 +2525,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x00100000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(20)
@@ -2769,7 +2532,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x00080000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(19)
@@ -2777,7 +2539,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x00040000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(18)
@@ -2785,7 +2546,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x00020000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(17)
@@ -2793,7 +2553,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x00010000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(16)
@@ -2801,7 +2560,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00008000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(15)
@@ -2809,7 +2567,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00004000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(14)
@@ -2817,7 +2574,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00002000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(13)
@@ -2825,7 +2581,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00001000)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(12)
@@ -2833,7 +2588,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00000800)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(11)
@@ -2841,7 +2595,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00000400)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(10)
@@ -2849,7 +2602,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00000200)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(9)
@@ -2857,7 +2609,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00000100)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(8)
@@ -2865,7 +2616,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00000080)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(7)
@@ -2873,7 +2623,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00000040)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(6)
@@ -2881,7 +2630,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00000020)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(5)
@@ -2889,7 +2637,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00000010)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(4)
@@ -2897,7 +2644,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000008)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(3)
@@ -2905,7 +2651,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000004)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(2)
@@ -2913,7 +2658,6 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000002)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(1)
@@ -2921,11 +2665,11 @@
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
-// Description : None
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000001)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(0)
 #define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_IO_QSPI_DEFINED
+#endif // _HARDWARE_REGS_IO_QSPI_H
+
diff --git a/lib/rp2040/hardware/regs/m0plus.h b/lib/pico-sdk/rp2040/hardware/regs/m0plus.h
similarity index 99%
rename from lib/rp2040/hardware/regs/m0plus.h
rename to lib/pico-sdk/rp2040/hardware/regs/m0plus.h
index cef5ab0..028e5ad 100644
--- a/lib/rp2040/hardware/regs/m0plus.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/m0plus.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : M0PLUS
 // Version        : 1
 // Bus type       : ahbl
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_M0PLUS_DEFINED
-#define HARDWARE_REGS_M0PLUS_DEFINED
+#ifndef _HARDWARE_REGS_M0PLUS_H
+#define _HARDWARE_REGS_M0PLUS_H
 // =============================================================================
 // Register    : M0PLUS_SYST_CSR
 // Description : Use the SysTick Control and Status Register to enable the
@@ -610,11 +611,11 @@
 #define M0PLUS_CPUID_REVISION_ACCESS "RO"
 // =============================================================================
 // Register    : M0PLUS_ICSR
-// Description : Use the Interrupt Control State Register to set a pending
-//               Non-Maskable Interrupt (NMI), set or clear a pending PendSV,
-//               set or clear a pending SysTick, check for pending exceptions,
-//               check the vector number of the highest priority pended
-//               exception, check the vector number of the active exception.
+// Description : Use the Interrupt Control State Register to set a pending Non-
+//               Maskable Interrupt (NMI), set or clear a pending PendSV, set or
+//               clear a pending SysTick, check for pending exceptions, check
+//               the vector number of the highest priority pended exception,
+//               check the vector number of the active exception.
 #define M0PLUS_ICSR_OFFSET _u(0x0000ed04)
 #define M0PLUS_ICSR_BITS   _u(0x9edff1ff)
 #define M0PLUS_ICSR_RESET  _u(0x00000000)
@@ -1146,4 +1147,5 @@
 #define M0PLUS_MPU_RASR_ENABLE_LSB    _u(0)
 #define M0PLUS_MPU_RASR_ENABLE_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_M0PLUS_DEFINED
+#endif // _HARDWARE_REGS_M0PLUS_H
+
diff --git a/lib/rp2040/hardware/regs/pads_bank0.h b/lib/pico-sdk/rp2040/hardware/regs/pads_bank0.h
similarity index 87%
rename from lib/rp2040/hardware/regs/pads_bank0.h
rename to lib/pico-sdk/rp2040/hardware/regs/pads_bank0.h
index 06102ac..04c5e39 100644
--- a/lib/rp2040/hardware/regs/pads_bank0.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/pads_bank0.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,21 +9,20 @@
 // Register block : PADS_BANK0
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_PADS_BANK0_DEFINED
-#define HARDWARE_REGS_PADS_BANK0_DEFINED
+#ifndef _HARDWARE_REGS_PADS_BANK0_H
+#define _HARDWARE_REGS_PADS_BANK0_H
 // =============================================================================
 // Register    : PADS_BANK0_VOLTAGE_SELECT
 // Description : Voltage select. Per bank control
 //               0x0 -> Set voltage to 3.3V (DVDD >= 2V5)
 //               0x1 -> Set voltage to 1.8V (DVDD <= 1V8)
-#define PADS_BANK0_VOLTAGE_SELECT_OFFSET    _u(0x00000000)
-#define PADS_BANK0_VOLTAGE_SELECT_BITS      _u(0x00000001)
-#define PADS_BANK0_VOLTAGE_SELECT_RESET     _u(0x00000000)
-#define PADS_BANK0_VOLTAGE_SELECT_MSB       _u(0)
-#define PADS_BANK0_VOLTAGE_SELECT_LSB       _u(0)
-#define PADS_BANK0_VOLTAGE_SELECT_ACCESS    "RW"
+#define PADS_BANK0_VOLTAGE_SELECT_OFFSET _u(0x00000000)
+#define PADS_BANK0_VOLTAGE_SELECT_BITS   _u(0x00000001)
+#define PADS_BANK0_VOLTAGE_SELECT_RESET  _u(0x00000000)
+#define PADS_BANK0_VOLTAGE_SELECT_MSB    _u(0)
+#define PADS_BANK0_VOLTAGE_SELECT_LSB    _u(0)
+#define PADS_BANK0_VOLTAGE_SELECT_ACCESS "RW"
 #define PADS_BANK0_VOLTAGE_SELECT_VALUE_3V3 _u(0x0)
 #define PADS_BANK0_VOLTAGE_SELECT_VALUE_1V8 _u(0x1)
 // =============================================================================
@@ -54,14 +55,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO0_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO0_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO0_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO0_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO0_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO0_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO0_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO0_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO0_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO0_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO0_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO0_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO0_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO0_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO0_PUE
@@ -125,14 +126,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO1_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO1_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO1_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO1_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO1_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO1_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO1_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO1_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO1_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO1_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO1_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO1_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO1_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO1_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO1_PUE
@@ -196,14 +197,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO2_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO2_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO2_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO2_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO2_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO2_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO2_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO2_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO2_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO2_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO2_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO2_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO2_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO2_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO2_PUE
@@ -267,14 +268,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO3_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO3_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO3_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO3_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO3_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO3_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO3_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO3_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO3_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO3_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO3_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO3_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO3_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO3_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO3_PUE
@@ -338,14 +339,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO4_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO4_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO4_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO4_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO4_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO4_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO4_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO4_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO4_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO4_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO4_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO4_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO4_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO4_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO4_PUE
@@ -409,14 +410,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO5_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO5_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO5_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO5_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO5_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO5_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO5_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO5_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO5_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO5_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO5_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO5_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO5_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO5_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO5_PUE
@@ -480,14 +481,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO6_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO6_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO6_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO6_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO6_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO6_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO6_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO6_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO6_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO6_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO6_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO6_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO6_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO6_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO6_PUE
@@ -551,14 +552,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO7_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO7_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO7_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO7_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO7_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO7_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO7_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO7_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO7_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO7_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO7_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO7_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO7_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO7_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO7_PUE
@@ -622,14 +623,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO8_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO8_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO8_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO8_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO8_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO8_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO8_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO8_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO8_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO8_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO8_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO8_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO8_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO8_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO8_PUE
@@ -693,14 +694,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO9_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO9_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO9_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO9_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO9_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO9_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO9_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO9_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO9_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO9_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO9_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO9_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO9_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO9_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO9_PUE
@@ -764,14 +765,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO10_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO10_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO10_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO10_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO10_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO10_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO10_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO10_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO10_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO10_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO10_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO10_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO10_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO10_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO10_PUE
@@ -835,14 +836,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO11_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO11_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO11_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO11_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO11_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO11_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO11_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO11_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO11_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO11_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO11_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO11_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO11_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO11_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO11_PUE
@@ -906,14 +907,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO12_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO12_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO12_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO12_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO12_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO12_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO12_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO12_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO12_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO12_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO12_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO12_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO12_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO12_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO12_PUE
@@ -977,14 +978,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO13_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO13_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO13_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO13_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO13_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO13_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO13_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO13_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO13_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO13_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO13_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO13_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO13_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO13_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO13_PUE
@@ -1048,14 +1049,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO14_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO14_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO14_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO14_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO14_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO14_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO14_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO14_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO14_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO14_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO14_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO14_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO14_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO14_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO14_PUE
@@ -1119,14 +1120,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO15_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO15_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO15_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO15_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO15_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO15_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO15_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO15_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO15_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO15_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO15_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO15_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO15_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO15_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO15_PUE
@@ -1190,14 +1191,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO16_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO16_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO16_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO16_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO16_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO16_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO16_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO16_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO16_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO16_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO16_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO16_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO16_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO16_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO16_PUE
@@ -1261,14 +1262,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO17_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO17_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO17_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO17_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO17_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO17_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO17_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO17_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO17_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO17_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO17_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO17_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO17_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO17_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO17_PUE
@@ -1332,14 +1333,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO18_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO18_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO18_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO18_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO18_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO18_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO18_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO18_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO18_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO18_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO18_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO18_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO18_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO18_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO18_PUE
@@ -1403,14 +1404,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO19_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO19_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO19_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO19_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO19_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO19_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO19_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO19_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO19_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO19_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO19_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO19_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO19_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO19_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO19_PUE
@@ -1474,14 +1475,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO20_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO20_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO20_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO20_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO20_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO20_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO20_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO20_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO20_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO20_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO20_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO20_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO20_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO20_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO20_PUE
@@ -1545,14 +1546,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO21_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO21_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO21_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO21_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO21_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO21_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO21_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO21_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO21_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO21_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO21_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO21_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO21_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO21_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO21_PUE
@@ -1616,14 +1617,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO22_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO22_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO22_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO22_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO22_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO22_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO22_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO22_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO22_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO22_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO22_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO22_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO22_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO22_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO22_PUE
@@ -1687,14 +1688,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO23_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO23_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO23_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO23_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO23_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO23_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO23_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO23_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO23_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO23_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO23_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO23_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO23_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO23_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO23_PUE
@@ -1758,14 +1759,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO24_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO24_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO24_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO24_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO24_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO24_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO24_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO24_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO24_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO24_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO24_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO24_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO24_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO24_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO24_PUE
@@ -1829,14 +1830,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO25_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO25_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO25_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO25_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO25_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO25_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO25_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO25_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO25_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO25_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO25_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO25_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO25_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO25_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO25_PUE
@@ -1900,14 +1901,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO26_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO26_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO26_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO26_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO26_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO26_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO26_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO26_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO26_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO26_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO26_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO26_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO26_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO26_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO26_PUE
@@ -1971,14 +1972,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO27_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO27_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO27_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO27_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO27_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO27_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO27_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO27_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO27_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO27_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO27_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO27_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO27_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO27_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO27_PUE
@@ -2042,14 +2043,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO28_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO28_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO28_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO28_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO28_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO28_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO28_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO28_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO28_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO28_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO28_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO28_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO28_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO28_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO28_PUE
@@ -2113,14 +2114,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_GPIO29_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_GPIO29_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_GPIO29_DRIVE_MSB        _u(5)
-#define PADS_BANK0_GPIO29_DRIVE_LSB        _u(4)
-#define PADS_BANK0_GPIO29_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_GPIO29_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_GPIO29_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_GPIO29_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_GPIO29_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO29_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO29_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO29_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO29_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_GPIO29_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_GPIO29_PUE
@@ -2184,14 +2185,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_SWCLK_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_SWCLK_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_SWCLK_DRIVE_MSB        _u(5)
-#define PADS_BANK0_SWCLK_DRIVE_LSB        _u(4)
-#define PADS_BANK0_SWCLK_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_SWCLK_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_SWCLK_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_SWCLK_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_SWCLK_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_SWCLK_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_SWCLK_DRIVE_MSB    _u(5)
+#define PADS_BANK0_SWCLK_DRIVE_LSB    _u(4)
+#define PADS_BANK0_SWCLK_DRIVE_ACCESS "RW"
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_SWCLK_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_SWCLK_PUE
@@ -2255,14 +2256,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_BANK0_SWD_DRIVE_RESET      _u(0x1)
-#define PADS_BANK0_SWD_DRIVE_BITS       _u(0x00000030)
-#define PADS_BANK0_SWD_DRIVE_MSB        _u(5)
-#define PADS_BANK0_SWD_DRIVE_LSB        _u(4)
-#define PADS_BANK0_SWD_DRIVE_ACCESS     "RW"
-#define PADS_BANK0_SWD_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_BANK0_SWD_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_BANK0_SWD_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_BANK0_SWD_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_SWD_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_SWD_DRIVE_MSB    _u(5)
+#define PADS_BANK0_SWD_DRIVE_LSB    _u(4)
+#define PADS_BANK0_SWD_DRIVE_ACCESS "RW"
+#define PADS_BANK0_SWD_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_SWD_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_SWD_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_BANK0_SWD_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_BANK0_SWD_PUE
@@ -2297,4 +2298,5 @@
 #define PADS_BANK0_SWD_SLEWFAST_LSB    _u(0)
 #define PADS_BANK0_SWD_SLEWFAST_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_PADS_BANK0_DEFINED
+#endif // _HARDWARE_REGS_PADS_BANK0_H
+
diff --git a/lib/rp2040/hardware/regs/pads_qspi.h b/lib/pico-sdk/rp2040/hardware/regs/pads_qspi.h
similarity index 86%
rename from lib/rp2040/hardware/regs/pads_qspi.h
rename to lib/pico-sdk/rp2040/hardware/regs/pads_qspi.h
index b3a09e9..4cd27ea 100644
--- a/lib/rp2040/hardware/regs/pads_qspi.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/pads_qspi.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,21 +9,20 @@
 // Register block : PADS_QSPI
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_PADS_QSPI_DEFINED
-#define HARDWARE_REGS_PADS_QSPI_DEFINED
+#ifndef _HARDWARE_REGS_PADS_QSPI_H
+#define _HARDWARE_REGS_PADS_QSPI_H
 // =============================================================================
 // Register    : PADS_QSPI_VOLTAGE_SELECT
 // Description : Voltage select. Per bank control
 //               0x0 -> Set voltage to 3.3V (DVDD >= 2V5)
 //               0x1 -> Set voltage to 1.8V (DVDD <= 1V8)
-#define PADS_QSPI_VOLTAGE_SELECT_OFFSET    _u(0x00000000)
-#define PADS_QSPI_VOLTAGE_SELECT_BITS      _u(0x00000001)
-#define PADS_QSPI_VOLTAGE_SELECT_RESET     _u(0x00000000)
-#define PADS_QSPI_VOLTAGE_SELECT_MSB       _u(0)
-#define PADS_QSPI_VOLTAGE_SELECT_LSB       _u(0)
-#define PADS_QSPI_VOLTAGE_SELECT_ACCESS    "RW"
+#define PADS_QSPI_VOLTAGE_SELECT_OFFSET _u(0x00000000)
+#define PADS_QSPI_VOLTAGE_SELECT_BITS   _u(0x00000001)
+#define PADS_QSPI_VOLTAGE_SELECT_RESET  _u(0x00000000)
+#define PADS_QSPI_VOLTAGE_SELECT_MSB    _u(0)
+#define PADS_QSPI_VOLTAGE_SELECT_LSB    _u(0)
+#define PADS_QSPI_VOLTAGE_SELECT_ACCESS "RW"
 #define PADS_QSPI_VOLTAGE_SELECT_VALUE_3V3 _u(0x0)
 #define PADS_QSPI_VOLTAGE_SELECT_VALUE_1V8 _u(0x1)
 // =============================================================================
@@ -54,14 +55,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SCLK_PUE
@@ -125,14 +126,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SD0_PUE
@@ -196,14 +197,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SD1_PUE
@@ -267,14 +268,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SD2_PUE
@@ -338,14 +339,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SD3_PUE
@@ -409,14 +410,14 @@
 //               0x1 -> 4mA
 //               0x2 -> 8mA
 //               0x3 -> 12mA
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_RESET      _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_BITS       _u(0x00000030)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_MSB        _u(5)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_LSB        _u(4)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_ACCESS     "RW"
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_2MA  _u(0x0)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_4MA  _u(0x1)
-#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_8MA  _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_8MA _u(0x2)
 #define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_12MA _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PADS_QSPI_GPIO_QSPI_SS_PUE
@@ -451,4 +452,5 @@
 #define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_LSB    _u(0)
 #define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_PADS_QSPI_DEFINED
+#endif // _HARDWARE_REGS_PADS_QSPI_H
+
diff --git a/lib/rp2040/hardware/regs/pio.h b/lib/pico-sdk/rp2040/hardware/regs/pio.h
similarity index 97%
rename from lib/rp2040/hardware/regs/pio.h
rename to lib/pico-sdk/rp2040/hardware/regs/pio.h
index 8b4829f..d10de90 100644
--- a/lib/rp2040/hardware/regs/pio.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/pio.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : ahbl
 // Description    : Programmable IO block
 // =============================================================================
-#ifndef HARDWARE_REGS_PIO_DEFINED
-#define HARDWARE_REGS_PIO_DEFINED
+#ifndef _HARDWARE_REGS_PIO_H
+#define _HARDWARE_REGS_PIO_H
 // =============================================================================
 // Register    : PIO_CTRL
 // Description : PIO control register
@@ -52,6 +54,9 @@
 //               counter; the waiting-on-IRQ state; any stalled instruction
 //               written to SMx_INSTR or run by OUT/MOV EXEC; any pin write left
 //               asserted due to OUT_STICKY.
+//
+//               The program counter, the contents of the output shift register
+//               and the X/Y scratch registers are not affected.
 #define PIO_CTRL_SM_RESTART_RESET  _u(0x0)
 #define PIO_CTRL_SM_RESTART_BITS   _u(0x000000f0)
 #define PIO_CTRL_SM_RESTART_MSB    _u(7)
@@ -166,7 +171,6 @@
 #define PIO_FLEVEL_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_RX3
-// Description : None
 #define PIO_FLEVEL_RX3_RESET  _u(0x0)
 #define PIO_FLEVEL_RX3_BITS   _u(0xf0000000)
 #define PIO_FLEVEL_RX3_MSB    _u(31)
@@ -174,7 +178,6 @@
 #define PIO_FLEVEL_RX3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_TX3
-// Description : None
 #define PIO_FLEVEL_TX3_RESET  _u(0x0)
 #define PIO_FLEVEL_TX3_BITS   _u(0x0f000000)
 #define PIO_FLEVEL_TX3_MSB    _u(27)
@@ -182,7 +185,6 @@
 #define PIO_FLEVEL_TX3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_RX2
-// Description : None
 #define PIO_FLEVEL_RX2_RESET  _u(0x0)
 #define PIO_FLEVEL_RX2_BITS   _u(0x00f00000)
 #define PIO_FLEVEL_RX2_MSB    _u(23)
@@ -190,7 +192,6 @@
 #define PIO_FLEVEL_RX2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_TX2
-// Description : None
 #define PIO_FLEVEL_TX2_RESET  _u(0x0)
 #define PIO_FLEVEL_TX2_BITS   _u(0x000f0000)
 #define PIO_FLEVEL_TX2_MSB    _u(19)
@@ -198,7 +199,6 @@
 #define PIO_FLEVEL_TX2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_RX1
-// Description : None
 #define PIO_FLEVEL_RX1_RESET  _u(0x0)
 #define PIO_FLEVEL_RX1_BITS   _u(0x0000f000)
 #define PIO_FLEVEL_RX1_MSB    _u(15)
@@ -206,7 +206,6 @@
 #define PIO_FLEVEL_RX1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_TX1
-// Description : None
 #define PIO_FLEVEL_TX1_RESET  _u(0x0)
 #define PIO_FLEVEL_TX1_BITS   _u(0x00000f00)
 #define PIO_FLEVEL_TX1_MSB    _u(11)
@@ -214,7 +213,6 @@
 #define PIO_FLEVEL_TX1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_RX0
-// Description : None
 #define PIO_FLEVEL_RX0_RESET  _u(0x0)
 #define PIO_FLEVEL_RX0_BITS   _u(0x000000f0)
 #define PIO_FLEVEL_RX0_MSB    _u(7)
@@ -222,7 +220,6 @@
 #define PIO_FLEVEL_RX0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_FLEVEL_TX0
-// Description : None
 #define PIO_FLEVEL_TX0_RESET  _u(0x0)
 #define PIO_FLEVEL_TX0_BITS   _u(0x0000000f)
 #define PIO_FLEVEL_TX0_MSB    _u(3)
@@ -378,7 +375,8 @@
 // =============================================================================
 // Register    : PIO_DBG_PADOUT
 // Description : Read to sample the pad output values PIO is currently driving
-//               to the GPIOs.
+//               to the GPIOs. On RP2040 there are 30 GPIOs, so the two most
+//               significant bits are hardwired to 0.
 #define PIO_DBG_PADOUT_OFFSET _u(0x0000003c)
 #define PIO_DBG_PADOUT_BITS   _u(0xffffffff)
 #define PIO_DBG_PADOUT_RESET  _u(0x00000000)
@@ -388,7 +386,8 @@
 // =============================================================================
 // Register    : PIO_DBG_PADOE
 // Description : Read to sample the pad output enables (direction) PIO is
-//               currently driving to the GPIOs.
+//               currently driving to the GPIOs. On RP2040 there are 30 GPIOs,
+//               so the two most significant bits are hardwired to 0.
 #define PIO_DBG_PADOE_OFFSET _u(0x00000040)
 #define PIO_DBG_PADOE_BITS   _u(0xffffffff)
 #define PIO_DBG_PADOE_RESET  _u(0x00000000)
@@ -846,11 +845,11 @@
 // Description : Comparison used for the MOV x, STATUS instruction.
 //               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
 //               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
-#define PIO_SM0_EXECCTRL_STATUS_SEL_RESET         _u(0x0)
-#define PIO_SM0_EXECCTRL_STATUS_SEL_BITS          _u(0x00000010)
-#define PIO_SM0_EXECCTRL_STATUS_SEL_MSB           _u(4)
-#define PIO_SM0_EXECCTRL_STATUS_SEL_LSB           _u(4)
-#define PIO_SM0_EXECCTRL_STATUS_SEL_ACCESS        "RW"
+#define PIO_SM0_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_BITS   _u(0x00000010)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_MSB    _u(4)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_LSB    _u(4)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_ACCESS "RW"
 #define PIO_SM0_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
 #define PIO_SM0_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
 // -----------------------------------------------------------------------------
@@ -1021,10 +1020,10 @@
 // Description : The lowest-numbered pin that will be affected by a side-set
 //               operation. The MSBs of an instruction's side-set/delay field
 //               (up to 5, determined by SIDESET_COUNT) are used for side-set
-//               data, with the remaining LSBs used for delay. The
-//               least-significant bit of the side-set portion is the bit
-//               written to this pin, with more-significant bits written to
-//               higher-numbered pins.
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
 #define PIO_SM0_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
 #define PIO_SM0_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
 #define PIO_SM0_PINCTRL_SIDESET_BASE_MSB    _u(14)
@@ -1177,11 +1176,11 @@
 // Description : Comparison used for the MOV x, STATUS instruction.
 //               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
 //               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
-#define PIO_SM1_EXECCTRL_STATUS_SEL_RESET         _u(0x0)
-#define PIO_SM1_EXECCTRL_STATUS_SEL_BITS          _u(0x00000010)
-#define PIO_SM1_EXECCTRL_STATUS_SEL_MSB           _u(4)
-#define PIO_SM1_EXECCTRL_STATUS_SEL_LSB           _u(4)
-#define PIO_SM1_EXECCTRL_STATUS_SEL_ACCESS        "RW"
+#define PIO_SM1_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_BITS   _u(0x00000010)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_MSB    _u(4)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_LSB    _u(4)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_ACCESS "RW"
 #define PIO_SM1_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
 #define PIO_SM1_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
 // -----------------------------------------------------------------------------
@@ -1352,10 +1351,10 @@
 // Description : The lowest-numbered pin that will be affected by a side-set
 //               operation. The MSBs of an instruction's side-set/delay field
 //               (up to 5, determined by SIDESET_COUNT) are used for side-set
-//               data, with the remaining LSBs used for delay. The
-//               least-significant bit of the side-set portion is the bit
-//               written to this pin, with more-significant bits written to
-//               higher-numbered pins.
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
 #define PIO_SM1_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
 #define PIO_SM1_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
 #define PIO_SM1_PINCTRL_SIDESET_BASE_MSB    _u(14)
@@ -1508,11 +1507,11 @@
 // Description : Comparison used for the MOV x, STATUS instruction.
 //               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
 //               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
-#define PIO_SM2_EXECCTRL_STATUS_SEL_RESET         _u(0x0)
-#define PIO_SM2_EXECCTRL_STATUS_SEL_BITS          _u(0x00000010)
-#define PIO_SM2_EXECCTRL_STATUS_SEL_MSB           _u(4)
-#define PIO_SM2_EXECCTRL_STATUS_SEL_LSB           _u(4)
-#define PIO_SM2_EXECCTRL_STATUS_SEL_ACCESS        "RW"
+#define PIO_SM2_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_BITS   _u(0x00000010)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_MSB    _u(4)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_LSB    _u(4)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_ACCESS "RW"
 #define PIO_SM2_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
 #define PIO_SM2_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
 // -----------------------------------------------------------------------------
@@ -1683,10 +1682,10 @@
 // Description : The lowest-numbered pin that will be affected by a side-set
 //               operation. The MSBs of an instruction's side-set/delay field
 //               (up to 5, determined by SIDESET_COUNT) are used for side-set
-//               data, with the remaining LSBs used for delay. The
-//               least-significant bit of the side-set portion is the bit
-//               written to this pin, with more-significant bits written to
-//               higher-numbered pins.
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
 #define PIO_SM2_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
 #define PIO_SM2_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
 #define PIO_SM2_PINCTRL_SIDESET_BASE_MSB    _u(14)
@@ -1839,11 +1838,11 @@
 // Description : Comparison used for the MOV x, STATUS instruction.
 //               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
 //               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
-#define PIO_SM3_EXECCTRL_STATUS_SEL_RESET         _u(0x0)
-#define PIO_SM3_EXECCTRL_STATUS_SEL_BITS          _u(0x00000010)
-#define PIO_SM3_EXECCTRL_STATUS_SEL_MSB           _u(4)
-#define PIO_SM3_EXECCTRL_STATUS_SEL_LSB           _u(4)
-#define PIO_SM3_EXECCTRL_STATUS_SEL_ACCESS        "RW"
+#define PIO_SM3_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_BITS   _u(0x00000010)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_MSB    _u(4)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_LSB    _u(4)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_ACCESS "RW"
 #define PIO_SM3_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
 #define PIO_SM3_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
 // -----------------------------------------------------------------------------
@@ -2014,10 +2013,10 @@
 // Description : The lowest-numbered pin that will be affected by a side-set
 //               operation. The MSBs of an instruction's side-set/delay field
 //               (up to 5, determined by SIDESET_COUNT) are used for side-set
-//               data, with the remaining LSBs used for delay. The
-//               least-significant bit of the side-set portion is the bit
-//               written to this pin, with more-significant bits written to
-//               higher-numbered pins.
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
 #define PIO_SM3_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
 #define PIO_SM3_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
 #define PIO_SM3_PINCTRL_SIDESET_BASE_MSB    _u(14)
@@ -2052,7 +2051,6 @@
 #define PIO_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM3
-// Description : None
 #define PIO_INTR_SM3_RESET  _u(0x0)
 #define PIO_INTR_SM3_BITS   _u(0x00000800)
 #define PIO_INTR_SM3_MSB    _u(11)
@@ -2060,7 +2058,6 @@
 #define PIO_INTR_SM3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM2
-// Description : None
 #define PIO_INTR_SM2_RESET  _u(0x0)
 #define PIO_INTR_SM2_BITS   _u(0x00000400)
 #define PIO_INTR_SM2_MSB    _u(10)
@@ -2068,7 +2065,6 @@
 #define PIO_INTR_SM2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM1
-// Description : None
 #define PIO_INTR_SM1_RESET  _u(0x0)
 #define PIO_INTR_SM1_BITS   _u(0x00000200)
 #define PIO_INTR_SM1_MSB    _u(9)
@@ -2076,7 +2072,6 @@
 #define PIO_INTR_SM1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM0
-// Description : None
 #define PIO_INTR_SM0_RESET  _u(0x0)
 #define PIO_INTR_SM0_BITS   _u(0x00000100)
 #define PIO_INTR_SM0_MSB    _u(8)
@@ -2084,7 +2079,6 @@
 #define PIO_INTR_SM0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM3_TXNFULL
-// Description : None
 #define PIO_INTR_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_INTR_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_INTR_SM3_TXNFULL_MSB    _u(7)
@@ -2092,7 +2086,6 @@
 #define PIO_INTR_SM3_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM2_TXNFULL
-// Description : None
 #define PIO_INTR_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_INTR_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_INTR_SM2_TXNFULL_MSB    _u(6)
@@ -2100,7 +2093,6 @@
 #define PIO_INTR_SM2_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM1_TXNFULL
-// Description : None
 #define PIO_INTR_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_INTR_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_INTR_SM1_TXNFULL_MSB    _u(5)
@@ -2108,7 +2100,6 @@
 #define PIO_INTR_SM1_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM0_TXNFULL
-// Description : None
 #define PIO_INTR_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_INTR_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_INTR_SM0_TXNFULL_MSB    _u(4)
@@ -2116,7 +2107,6 @@
 #define PIO_INTR_SM0_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM3_RXNEMPTY
-// Description : None
 #define PIO_INTR_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_INTR_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_INTR_SM3_RXNEMPTY_MSB    _u(3)
@@ -2124,7 +2114,6 @@
 #define PIO_INTR_SM3_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM2_RXNEMPTY
-// Description : None
 #define PIO_INTR_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_INTR_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_INTR_SM2_RXNEMPTY_MSB    _u(2)
@@ -2132,7 +2121,6 @@
 #define PIO_INTR_SM2_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM1_RXNEMPTY
-// Description : None
 #define PIO_INTR_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_INTR_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_INTR_SM1_RXNEMPTY_MSB    _u(1)
@@ -2140,7 +2128,6 @@
 #define PIO_INTR_SM1_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_INTR_SM0_RXNEMPTY
-// Description : None
 #define PIO_INTR_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_INTR_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_INTR_SM0_RXNEMPTY_MSB    _u(0)
@@ -2154,7 +2141,6 @@
 #define PIO_IRQ0_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM3
-// Description : None
 #define PIO_IRQ0_INTE_SM3_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ0_INTE_SM3_MSB    _u(11)
@@ -2162,7 +2148,6 @@
 #define PIO_IRQ0_INTE_SM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM2
-// Description : None
 #define PIO_IRQ0_INTE_SM2_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ0_INTE_SM2_MSB    _u(10)
@@ -2170,7 +2155,6 @@
 #define PIO_IRQ0_INTE_SM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM1
-// Description : None
 #define PIO_IRQ0_INTE_SM1_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ0_INTE_SM1_MSB    _u(9)
@@ -2178,7 +2162,6 @@
 #define PIO_IRQ0_INTE_SM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM0
-// Description : None
 #define PIO_IRQ0_INTE_SM0_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ0_INTE_SM0_MSB    _u(8)
@@ -2186,7 +2169,6 @@
 #define PIO_IRQ0_INTE_SM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTE_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ0_INTE_SM3_TXNFULL_MSB    _u(7)
@@ -2194,7 +2176,6 @@
 #define PIO_IRQ0_INTE_SM3_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTE_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ0_INTE_SM2_TXNFULL_MSB    _u(6)
@@ -2202,7 +2183,6 @@
 #define PIO_IRQ0_INTE_SM2_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTE_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ0_INTE_SM1_TXNFULL_MSB    _u(5)
@@ -2210,7 +2190,6 @@
 #define PIO_IRQ0_INTE_SM1_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTE_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ0_INTE_SM0_TXNFULL_MSB    _u(4)
@@ -2218,7 +2197,6 @@
 #define PIO_IRQ0_INTE_SM0_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTE_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ0_INTE_SM3_RXNEMPTY_MSB    _u(3)
@@ -2226,7 +2204,6 @@
 #define PIO_IRQ0_INTE_SM3_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTE_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ0_INTE_SM2_RXNEMPTY_MSB    _u(2)
@@ -2234,7 +2211,6 @@
 #define PIO_IRQ0_INTE_SM2_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTE_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ0_INTE_SM1_RXNEMPTY_MSB    _u(1)
@@ -2242,7 +2218,6 @@
 #define PIO_IRQ0_INTE_SM1_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTE_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTE_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTE_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ0_INTE_SM0_RXNEMPTY_MSB    _u(0)
@@ -2256,7 +2231,6 @@
 #define PIO_IRQ0_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM3
-// Description : None
 #define PIO_IRQ0_INTF_SM3_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ0_INTF_SM3_MSB    _u(11)
@@ -2264,7 +2238,6 @@
 #define PIO_IRQ0_INTF_SM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM2
-// Description : None
 #define PIO_IRQ0_INTF_SM2_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ0_INTF_SM2_MSB    _u(10)
@@ -2272,7 +2245,6 @@
 #define PIO_IRQ0_INTF_SM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM1
-// Description : None
 #define PIO_IRQ0_INTF_SM1_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ0_INTF_SM1_MSB    _u(9)
@@ -2280,7 +2252,6 @@
 #define PIO_IRQ0_INTF_SM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM0
-// Description : None
 #define PIO_IRQ0_INTF_SM0_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ0_INTF_SM0_MSB    _u(8)
@@ -2288,7 +2259,6 @@
 #define PIO_IRQ0_INTF_SM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTF_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ0_INTF_SM3_TXNFULL_MSB    _u(7)
@@ -2296,7 +2266,6 @@
 #define PIO_IRQ0_INTF_SM3_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTF_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ0_INTF_SM2_TXNFULL_MSB    _u(6)
@@ -2304,7 +2273,6 @@
 #define PIO_IRQ0_INTF_SM2_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTF_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ0_INTF_SM1_TXNFULL_MSB    _u(5)
@@ -2312,7 +2280,6 @@
 #define PIO_IRQ0_INTF_SM1_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTF_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ0_INTF_SM0_TXNFULL_MSB    _u(4)
@@ -2320,7 +2287,6 @@
 #define PIO_IRQ0_INTF_SM0_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTF_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ0_INTF_SM3_RXNEMPTY_MSB    _u(3)
@@ -2328,7 +2294,6 @@
 #define PIO_IRQ0_INTF_SM3_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTF_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ0_INTF_SM2_RXNEMPTY_MSB    _u(2)
@@ -2336,7 +2301,6 @@
 #define PIO_IRQ0_INTF_SM2_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTF_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ0_INTF_SM1_RXNEMPTY_MSB    _u(1)
@@ -2344,7 +2308,6 @@
 #define PIO_IRQ0_INTF_SM1_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTF_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTF_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTF_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ0_INTF_SM0_RXNEMPTY_MSB    _u(0)
@@ -2358,7 +2321,6 @@
 #define PIO_IRQ0_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM3
-// Description : None
 #define PIO_IRQ0_INTS_SM3_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ0_INTS_SM3_MSB    _u(11)
@@ -2366,7 +2328,6 @@
 #define PIO_IRQ0_INTS_SM3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM2
-// Description : None
 #define PIO_IRQ0_INTS_SM2_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ0_INTS_SM2_MSB    _u(10)
@@ -2374,7 +2335,6 @@
 #define PIO_IRQ0_INTS_SM2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM1
-// Description : None
 #define PIO_IRQ0_INTS_SM1_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ0_INTS_SM1_MSB    _u(9)
@@ -2382,7 +2342,6 @@
 #define PIO_IRQ0_INTS_SM1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM0
-// Description : None
 #define PIO_IRQ0_INTS_SM0_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ0_INTS_SM0_MSB    _u(8)
@@ -2390,7 +2349,6 @@
 #define PIO_IRQ0_INTS_SM0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTS_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ0_INTS_SM3_TXNFULL_MSB    _u(7)
@@ -2398,7 +2356,6 @@
 #define PIO_IRQ0_INTS_SM3_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTS_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ0_INTS_SM2_TXNFULL_MSB    _u(6)
@@ -2406,7 +2363,6 @@
 #define PIO_IRQ0_INTS_SM2_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTS_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ0_INTS_SM1_TXNFULL_MSB    _u(5)
@@ -2414,7 +2370,6 @@
 #define PIO_IRQ0_INTS_SM1_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ0_INTS_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ0_INTS_SM0_TXNFULL_MSB    _u(4)
@@ -2422,7 +2377,6 @@
 #define PIO_IRQ0_INTS_SM0_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTS_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ0_INTS_SM3_RXNEMPTY_MSB    _u(3)
@@ -2430,7 +2384,6 @@
 #define PIO_IRQ0_INTS_SM3_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTS_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ0_INTS_SM2_RXNEMPTY_MSB    _u(2)
@@ -2438,7 +2391,6 @@
 #define PIO_IRQ0_INTS_SM2_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTS_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ0_INTS_SM1_RXNEMPTY_MSB    _u(1)
@@ -2446,7 +2398,6 @@
 #define PIO_IRQ0_INTS_SM1_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ0_INTS_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ0_INTS_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ0_INTS_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ0_INTS_SM0_RXNEMPTY_MSB    _u(0)
@@ -2460,7 +2411,6 @@
 #define PIO_IRQ1_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM3
-// Description : None
 #define PIO_IRQ1_INTE_SM3_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ1_INTE_SM3_MSB    _u(11)
@@ -2468,7 +2418,6 @@
 #define PIO_IRQ1_INTE_SM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM2
-// Description : None
 #define PIO_IRQ1_INTE_SM2_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ1_INTE_SM2_MSB    _u(10)
@@ -2476,7 +2425,6 @@
 #define PIO_IRQ1_INTE_SM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM1
-// Description : None
 #define PIO_IRQ1_INTE_SM1_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ1_INTE_SM1_MSB    _u(9)
@@ -2484,7 +2432,6 @@
 #define PIO_IRQ1_INTE_SM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM0
-// Description : None
 #define PIO_IRQ1_INTE_SM0_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ1_INTE_SM0_MSB    _u(8)
@@ -2492,7 +2439,6 @@
 #define PIO_IRQ1_INTE_SM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTE_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ1_INTE_SM3_TXNFULL_MSB    _u(7)
@@ -2500,7 +2446,6 @@
 #define PIO_IRQ1_INTE_SM3_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTE_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ1_INTE_SM2_TXNFULL_MSB    _u(6)
@@ -2508,7 +2453,6 @@
 #define PIO_IRQ1_INTE_SM2_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTE_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ1_INTE_SM1_TXNFULL_MSB    _u(5)
@@ -2516,7 +2460,6 @@
 #define PIO_IRQ1_INTE_SM1_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTE_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ1_INTE_SM0_TXNFULL_MSB    _u(4)
@@ -2524,7 +2467,6 @@
 #define PIO_IRQ1_INTE_SM0_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTE_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ1_INTE_SM3_RXNEMPTY_MSB    _u(3)
@@ -2532,7 +2474,6 @@
 #define PIO_IRQ1_INTE_SM3_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTE_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ1_INTE_SM2_RXNEMPTY_MSB    _u(2)
@@ -2540,7 +2481,6 @@
 #define PIO_IRQ1_INTE_SM2_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTE_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ1_INTE_SM1_RXNEMPTY_MSB    _u(1)
@@ -2548,7 +2488,6 @@
 #define PIO_IRQ1_INTE_SM1_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTE_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTE_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTE_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ1_INTE_SM0_RXNEMPTY_MSB    _u(0)
@@ -2562,7 +2501,6 @@
 #define PIO_IRQ1_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM3
-// Description : None
 #define PIO_IRQ1_INTF_SM3_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ1_INTF_SM3_MSB    _u(11)
@@ -2570,7 +2508,6 @@
 #define PIO_IRQ1_INTF_SM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM2
-// Description : None
 #define PIO_IRQ1_INTF_SM2_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ1_INTF_SM2_MSB    _u(10)
@@ -2578,7 +2515,6 @@
 #define PIO_IRQ1_INTF_SM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM1
-// Description : None
 #define PIO_IRQ1_INTF_SM1_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ1_INTF_SM1_MSB    _u(9)
@@ -2586,7 +2522,6 @@
 #define PIO_IRQ1_INTF_SM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM0
-// Description : None
 #define PIO_IRQ1_INTF_SM0_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ1_INTF_SM0_MSB    _u(8)
@@ -2594,7 +2529,6 @@
 #define PIO_IRQ1_INTF_SM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTF_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ1_INTF_SM3_TXNFULL_MSB    _u(7)
@@ -2602,7 +2536,6 @@
 #define PIO_IRQ1_INTF_SM3_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTF_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ1_INTF_SM2_TXNFULL_MSB    _u(6)
@@ -2610,7 +2543,6 @@
 #define PIO_IRQ1_INTF_SM2_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTF_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ1_INTF_SM1_TXNFULL_MSB    _u(5)
@@ -2618,7 +2550,6 @@
 #define PIO_IRQ1_INTF_SM1_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTF_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ1_INTF_SM0_TXNFULL_MSB    _u(4)
@@ -2626,7 +2557,6 @@
 #define PIO_IRQ1_INTF_SM0_TXNFULL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTF_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ1_INTF_SM3_RXNEMPTY_MSB    _u(3)
@@ -2634,7 +2564,6 @@
 #define PIO_IRQ1_INTF_SM3_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTF_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ1_INTF_SM2_RXNEMPTY_MSB    _u(2)
@@ -2642,7 +2571,6 @@
 #define PIO_IRQ1_INTF_SM2_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTF_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ1_INTF_SM1_RXNEMPTY_MSB    _u(1)
@@ -2650,7 +2578,6 @@
 #define PIO_IRQ1_INTF_SM1_RXNEMPTY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTF_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTF_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTF_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ1_INTF_SM0_RXNEMPTY_MSB    _u(0)
@@ -2664,7 +2591,6 @@
 #define PIO_IRQ1_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM3
-// Description : None
 #define PIO_IRQ1_INTS_SM3_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM3_BITS   _u(0x00000800)
 #define PIO_IRQ1_INTS_SM3_MSB    _u(11)
@@ -2672,7 +2598,6 @@
 #define PIO_IRQ1_INTS_SM3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM2
-// Description : None
 #define PIO_IRQ1_INTS_SM2_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM2_BITS   _u(0x00000400)
 #define PIO_IRQ1_INTS_SM2_MSB    _u(10)
@@ -2680,7 +2605,6 @@
 #define PIO_IRQ1_INTS_SM2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM1
-// Description : None
 #define PIO_IRQ1_INTS_SM1_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM1_BITS   _u(0x00000200)
 #define PIO_IRQ1_INTS_SM1_MSB    _u(9)
@@ -2688,7 +2612,6 @@
 #define PIO_IRQ1_INTS_SM1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM0
-// Description : None
 #define PIO_IRQ1_INTS_SM0_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM0_BITS   _u(0x00000100)
 #define PIO_IRQ1_INTS_SM0_MSB    _u(8)
@@ -2696,7 +2619,6 @@
 #define PIO_IRQ1_INTS_SM0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM3_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTS_SM3_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM3_TXNFULL_BITS   _u(0x00000080)
 #define PIO_IRQ1_INTS_SM3_TXNFULL_MSB    _u(7)
@@ -2704,7 +2626,6 @@
 #define PIO_IRQ1_INTS_SM3_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM2_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTS_SM2_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM2_TXNFULL_BITS   _u(0x00000040)
 #define PIO_IRQ1_INTS_SM2_TXNFULL_MSB    _u(6)
@@ -2712,7 +2633,6 @@
 #define PIO_IRQ1_INTS_SM2_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM1_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTS_SM1_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM1_TXNFULL_BITS   _u(0x00000020)
 #define PIO_IRQ1_INTS_SM1_TXNFULL_MSB    _u(5)
@@ -2720,7 +2640,6 @@
 #define PIO_IRQ1_INTS_SM1_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM0_TXNFULL
-// Description : None
 #define PIO_IRQ1_INTS_SM0_TXNFULL_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM0_TXNFULL_BITS   _u(0x00000010)
 #define PIO_IRQ1_INTS_SM0_TXNFULL_MSB    _u(4)
@@ -2728,7 +2647,6 @@
 #define PIO_IRQ1_INTS_SM0_TXNFULL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM3_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTS_SM3_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM3_RXNEMPTY_BITS   _u(0x00000008)
 #define PIO_IRQ1_INTS_SM3_RXNEMPTY_MSB    _u(3)
@@ -2736,7 +2654,6 @@
 #define PIO_IRQ1_INTS_SM3_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM2_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTS_SM2_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM2_RXNEMPTY_BITS   _u(0x00000004)
 #define PIO_IRQ1_INTS_SM2_RXNEMPTY_MSB    _u(2)
@@ -2744,7 +2661,6 @@
 #define PIO_IRQ1_INTS_SM2_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM1_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTS_SM1_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM1_RXNEMPTY_BITS   _u(0x00000002)
 #define PIO_IRQ1_INTS_SM1_RXNEMPTY_MSB    _u(1)
@@ -2752,11 +2668,11 @@
 #define PIO_IRQ1_INTS_SM1_RXNEMPTY_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PIO_IRQ1_INTS_SM0_RXNEMPTY
-// Description : None
 #define PIO_IRQ1_INTS_SM0_RXNEMPTY_RESET  _u(0x0)
 #define PIO_IRQ1_INTS_SM0_RXNEMPTY_BITS   _u(0x00000001)
 #define PIO_IRQ1_INTS_SM0_RXNEMPTY_MSB    _u(0)
 #define PIO_IRQ1_INTS_SM0_RXNEMPTY_LSB    _u(0)
 #define PIO_IRQ1_INTS_SM0_RXNEMPTY_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_PIO_DEFINED
+#endif // _HARDWARE_REGS_PIO_H
+
diff --git a/lib/rp2040/hardware/regs/pll.h b/lib/pico-sdk/rp2040/hardware/regs/pll.h
similarity index 95%
rename from lib/rp2040/hardware/regs/pll.h
rename to lib/pico-sdk/rp2040/hardware/regs/pll.h
index a0f5ad0..345982e 100644
--- a/lib/rp2040/hardware/regs/pll.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/pll.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,17 +9,16 @@
 // Register block : PLL
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_PLL_DEFINED
-#define HARDWARE_REGS_PLL_DEFINED
+#ifndef _HARDWARE_REGS_PLL_H
+#define _HARDWARE_REGS_PLL_H
 // =============================================================================
 // Register    : PLL_CS
 // Description : Control and Status
 //               GENERAL CONSTRAINTS:
 //               Reference clock frequency min=5MHz, max=800MHz
 //               Feedback divider min=16, max=320
-//               VCO frequency min=400MHz, max=1600MHz
+//               VCO frequency min=750MHz, max=1600MHz
 #define PLL_CS_OFFSET _u(0x00000000)
 #define PLL_CS_BITS   _u(0x8000013f)
 #define PLL_CS_RESET  _u(0x00000001)
@@ -132,4 +133,5 @@
 #define PLL_PRIM_POSTDIV2_LSB    _u(12)
 #define PLL_PRIM_POSTDIV2_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_PLL_DEFINED
+#endif // _HARDWARE_REGS_PLL_H
+
diff --git a/lib/rp2040/hardware/regs/psm.h b/lib/pico-sdk/rp2040/hardware/regs/psm.h
similarity index 93%
rename from lib/rp2040/hardware/regs/psm.h
rename to lib/pico-sdk/rp2040/hardware/regs/psm.h
index 8810ae8..3433f6d 100644
--- a/lib/rp2040/hardware/regs/psm.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/psm.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : PSM
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_PSM_DEFINED
-#define HARDWARE_REGS_PSM_DEFINED
+#ifndef _HARDWARE_REGS_PSM_H
+#define _HARDWARE_REGS_PSM_H
 // =============================================================================
 // Register    : PSM_FRCE_ON
 // Description : Force block out of reset (i.e. power it on)
@@ -19,7 +20,6 @@
 #define PSM_FRCE_ON_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_PROC1
-// Description : None
 #define PSM_FRCE_ON_PROC1_RESET  _u(0x0)
 #define PSM_FRCE_ON_PROC1_BITS   _u(0x00010000)
 #define PSM_FRCE_ON_PROC1_MSB    _u(16)
@@ -27,7 +27,6 @@
 #define PSM_FRCE_ON_PROC1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_PROC0
-// Description : None
 #define PSM_FRCE_ON_PROC0_RESET  _u(0x0)
 #define PSM_FRCE_ON_PROC0_BITS   _u(0x00008000)
 #define PSM_FRCE_ON_PROC0_MSB    _u(15)
@@ -35,7 +34,6 @@
 #define PSM_FRCE_ON_PROC0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SIO
-// Description : None
 #define PSM_FRCE_ON_SIO_RESET  _u(0x0)
 #define PSM_FRCE_ON_SIO_BITS   _u(0x00004000)
 #define PSM_FRCE_ON_SIO_MSB    _u(14)
@@ -43,7 +41,6 @@
 #define PSM_FRCE_ON_SIO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_VREG_AND_CHIP_RESET
-// Description : None
 #define PSM_FRCE_ON_VREG_AND_CHIP_RESET_RESET  _u(0x0)
 #define PSM_FRCE_ON_VREG_AND_CHIP_RESET_BITS   _u(0x00002000)
 #define PSM_FRCE_ON_VREG_AND_CHIP_RESET_MSB    _u(13)
@@ -51,7 +48,6 @@
 #define PSM_FRCE_ON_VREG_AND_CHIP_RESET_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_XIP
-// Description : None
 #define PSM_FRCE_ON_XIP_RESET  _u(0x0)
 #define PSM_FRCE_ON_XIP_BITS   _u(0x00001000)
 #define PSM_FRCE_ON_XIP_MSB    _u(12)
@@ -59,7 +55,6 @@
 #define PSM_FRCE_ON_XIP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM5
-// Description : None
 #define PSM_FRCE_ON_SRAM5_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM5_BITS   _u(0x00000800)
 #define PSM_FRCE_ON_SRAM5_MSB    _u(11)
@@ -67,7 +62,6 @@
 #define PSM_FRCE_ON_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM4
-// Description : None
 #define PSM_FRCE_ON_SRAM4_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM4_BITS   _u(0x00000400)
 #define PSM_FRCE_ON_SRAM4_MSB    _u(10)
@@ -75,7 +69,6 @@
 #define PSM_FRCE_ON_SRAM4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM3
-// Description : None
 #define PSM_FRCE_ON_SRAM3_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM3_BITS   _u(0x00000200)
 #define PSM_FRCE_ON_SRAM3_MSB    _u(9)
@@ -83,7 +76,6 @@
 #define PSM_FRCE_ON_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM2
-// Description : None
 #define PSM_FRCE_ON_SRAM2_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM2_BITS   _u(0x00000100)
 #define PSM_FRCE_ON_SRAM2_MSB    _u(8)
@@ -91,7 +83,6 @@
 #define PSM_FRCE_ON_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM1
-// Description : None
 #define PSM_FRCE_ON_SRAM1_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM1_BITS   _u(0x00000080)
 #define PSM_FRCE_ON_SRAM1_MSB    _u(7)
@@ -99,7 +90,6 @@
 #define PSM_FRCE_ON_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_SRAM0
-// Description : None
 #define PSM_FRCE_ON_SRAM0_RESET  _u(0x0)
 #define PSM_FRCE_ON_SRAM0_BITS   _u(0x00000040)
 #define PSM_FRCE_ON_SRAM0_MSB    _u(6)
@@ -107,7 +97,6 @@
 #define PSM_FRCE_ON_SRAM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_ROM
-// Description : None
 #define PSM_FRCE_ON_ROM_RESET  _u(0x0)
 #define PSM_FRCE_ON_ROM_BITS   _u(0x00000020)
 #define PSM_FRCE_ON_ROM_MSB    _u(5)
@@ -115,7 +104,6 @@
 #define PSM_FRCE_ON_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_BUSFABRIC
-// Description : None
 #define PSM_FRCE_ON_BUSFABRIC_RESET  _u(0x0)
 #define PSM_FRCE_ON_BUSFABRIC_BITS   _u(0x00000010)
 #define PSM_FRCE_ON_BUSFABRIC_MSB    _u(4)
@@ -123,7 +111,6 @@
 #define PSM_FRCE_ON_BUSFABRIC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_RESETS
-// Description : None
 #define PSM_FRCE_ON_RESETS_RESET  _u(0x0)
 #define PSM_FRCE_ON_RESETS_BITS   _u(0x00000008)
 #define PSM_FRCE_ON_RESETS_MSB    _u(3)
@@ -131,7 +118,6 @@
 #define PSM_FRCE_ON_RESETS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_CLOCKS
-// Description : None
 #define PSM_FRCE_ON_CLOCKS_RESET  _u(0x0)
 #define PSM_FRCE_ON_CLOCKS_BITS   _u(0x00000004)
 #define PSM_FRCE_ON_CLOCKS_MSB    _u(2)
@@ -139,7 +125,6 @@
 #define PSM_FRCE_ON_CLOCKS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_XOSC
-// Description : None
 #define PSM_FRCE_ON_XOSC_RESET  _u(0x0)
 #define PSM_FRCE_ON_XOSC_BITS   _u(0x00000002)
 #define PSM_FRCE_ON_XOSC_MSB    _u(1)
@@ -147,7 +132,6 @@
 #define PSM_FRCE_ON_XOSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_ON_ROSC
-// Description : None
 #define PSM_FRCE_ON_ROSC_RESET  _u(0x0)
 #define PSM_FRCE_ON_ROSC_BITS   _u(0x00000001)
 #define PSM_FRCE_ON_ROSC_MSB    _u(0)
@@ -161,7 +145,6 @@
 #define PSM_FRCE_OFF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_PROC1
-// Description : None
 #define PSM_FRCE_OFF_PROC1_RESET  _u(0x0)
 #define PSM_FRCE_OFF_PROC1_BITS   _u(0x00010000)
 #define PSM_FRCE_OFF_PROC1_MSB    _u(16)
@@ -169,7 +152,6 @@
 #define PSM_FRCE_OFF_PROC1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_PROC0
-// Description : None
 #define PSM_FRCE_OFF_PROC0_RESET  _u(0x0)
 #define PSM_FRCE_OFF_PROC0_BITS   _u(0x00008000)
 #define PSM_FRCE_OFF_PROC0_MSB    _u(15)
@@ -177,7 +159,6 @@
 #define PSM_FRCE_OFF_PROC0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SIO
-// Description : None
 #define PSM_FRCE_OFF_SIO_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SIO_BITS   _u(0x00004000)
 #define PSM_FRCE_OFF_SIO_MSB    _u(14)
@@ -185,7 +166,6 @@
 #define PSM_FRCE_OFF_SIO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_VREG_AND_CHIP_RESET
-// Description : None
 #define PSM_FRCE_OFF_VREG_AND_CHIP_RESET_RESET  _u(0x0)
 #define PSM_FRCE_OFF_VREG_AND_CHIP_RESET_BITS   _u(0x00002000)
 #define PSM_FRCE_OFF_VREG_AND_CHIP_RESET_MSB    _u(13)
@@ -193,7 +173,6 @@
 #define PSM_FRCE_OFF_VREG_AND_CHIP_RESET_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_XIP
-// Description : None
 #define PSM_FRCE_OFF_XIP_RESET  _u(0x0)
 #define PSM_FRCE_OFF_XIP_BITS   _u(0x00001000)
 #define PSM_FRCE_OFF_XIP_MSB    _u(12)
@@ -201,7 +180,6 @@
 #define PSM_FRCE_OFF_XIP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM5
-// Description : None
 #define PSM_FRCE_OFF_SRAM5_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM5_BITS   _u(0x00000800)
 #define PSM_FRCE_OFF_SRAM5_MSB    _u(11)
@@ -209,7 +187,6 @@
 #define PSM_FRCE_OFF_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM4
-// Description : None
 #define PSM_FRCE_OFF_SRAM4_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM4_BITS   _u(0x00000400)
 #define PSM_FRCE_OFF_SRAM4_MSB    _u(10)
@@ -217,7 +194,6 @@
 #define PSM_FRCE_OFF_SRAM4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM3
-// Description : None
 #define PSM_FRCE_OFF_SRAM3_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM3_BITS   _u(0x00000200)
 #define PSM_FRCE_OFF_SRAM3_MSB    _u(9)
@@ -225,7 +201,6 @@
 #define PSM_FRCE_OFF_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM2
-// Description : None
 #define PSM_FRCE_OFF_SRAM2_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM2_BITS   _u(0x00000100)
 #define PSM_FRCE_OFF_SRAM2_MSB    _u(8)
@@ -233,7 +208,6 @@
 #define PSM_FRCE_OFF_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM1
-// Description : None
 #define PSM_FRCE_OFF_SRAM1_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM1_BITS   _u(0x00000080)
 #define PSM_FRCE_OFF_SRAM1_MSB    _u(7)
@@ -241,7 +215,6 @@
 #define PSM_FRCE_OFF_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_SRAM0
-// Description : None
 #define PSM_FRCE_OFF_SRAM0_RESET  _u(0x0)
 #define PSM_FRCE_OFF_SRAM0_BITS   _u(0x00000040)
 #define PSM_FRCE_OFF_SRAM0_MSB    _u(6)
@@ -249,7 +222,6 @@
 #define PSM_FRCE_OFF_SRAM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_ROM
-// Description : None
 #define PSM_FRCE_OFF_ROM_RESET  _u(0x0)
 #define PSM_FRCE_OFF_ROM_BITS   _u(0x00000020)
 #define PSM_FRCE_OFF_ROM_MSB    _u(5)
@@ -257,7 +229,6 @@
 #define PSM_FRCE_OFF_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_BUSFABRIC
-// Description : None
 #define PSM_FRCE_OFF_BUSFABRIC_RESET  _u(0x0)
 #define PSM_FRCE_OFF_BUSFABRIC_BITS   _u(0x00000010)
 #define PSM_FRCE_OFF_BUSFABRIC_MSB    _u(4)
@@ -265,7 +236,6 @@
 #define PSM_FRCE_OFF_BUSFABRIC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_RESETS
-// Description : None
 #define PSM_FRCE_OFF_RESETS_RESET  _u(0x0)
 #define PSM_FRCE_OFF_RESETS_BITS   _u(0x00000008)
 #define PSM_FRCE_OFF_RESETS_MSB    _u(3)
@@ -273,7 +243,6 @@
 #define PSM_FRCE_OFF_RESETS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_CLOCKS
-// Description : None
 #define PSM_FRCE_OFF_CLOCKS_RESET  _u(0x0)
 #define PSM_FRCE_OFF_CLOCKS_BITS   _u(0x00000004)
 #define PSM_FRCE_OFF_CLOCKS_MSB    _u(2)
@@ -281,7 +250,6 @@
 #define PSM_FRCE_OFF_CLOCKS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_XOSC
-// Description : None
 #define PSM_FRCE_OFF_XOSC_RESET  _u(0x0)
 #define PSM_FRCE_OFF_XOSC_BITS   _u(0x00000002)
 #define PSM_FRCE_OFF_XOSC_MSB    _u(1)
@@ -289,7 +257,6 @@
 #define PSM_FRCE_OFF_XOSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_FRCE_OFF_ROSC
-// Description : None
 #define PSM_FRCE_OFF_ROSC_RESET  _u(0x0)
 #define PSM_FRCE_OFF_ROSC_BITS   _u(0x00000001)
 #define PSM_FRCE_OFF_ROSC_MSB    _u(0)
@@ -304,7 +271,6 @@
 #define PSM_WDSEL_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_PROC1
-// Description : None
 #define PSM_WDSEL_PROC1_RESET  _u(0x0)
 #define PSM_WDSEL_PROC1_BITS   _u(0x00010000)
 #define PSM_WDSEL_PROC1_MSB    _u(16)
@@ -312,7 +278,6 @@
 #define PSM_WDSEL_PROC1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_PROC0
-// Description : None
 #define PSM_WDSEL_PROC0_RESET  _u(0x0)
 #define PSM_WDSEL_PROC0_BITS   _u(0x00008000)
 #define PSM_WDSEL_PROC0_MSB    _u(15)
@@ -320,7 +285,6 @@
 #define PSM_WDSEL_PROC0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SIO
-// Description : None
 #define PSM_WDSEL_SIO_RESET  _u(0x0)
 #define PSM_WDSEL_SIO_BITS   _u(0x00004000)
 #define PSM_WDSEL_SIO_MSB    _u(14)
@@ -328,7 +292,6 @@
 #define PSM_WDSEL_SIO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_VREG_AND_CHIP_RESET
-// Description : None
 #define PSM_WDSEL_VREG_AND_CHIP_RESET_RESET  _u(0x0)
 #define PSM_WDSEL_VREG_AND_CHIP_RESET_BITS   _u(0x00002000)
 #define PSM_WDSEL_VREG_AND_CHIP_RESET_MSB    _u(13)
@@ -336,7 +299,6 @@
 #define PSM_WDSEL_VREG_AND_CHIP_RESET_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_XIP
-// Description : None
 #define PSM_WDSEL_XIP_RESET  _u(0x0)
 #define PSM_WDSEL_XIP_BITS   _u(0x00001000)
 #define PSM_WDSEL_XIP_MSB    _u(12)
@@ -344,7 +306,6 @@
 #define PSM_WDSEL_XIP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM5
-// Description : None
 #define PSM_WDSEL_SRAM5_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM5_BITS   _u(0x00000800)
 #define PSM_WDSEL_SRAM5_MSB    _u(11)
@@ -352,7 +313,6 @@
 #define PSM_WDSEL_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM4
-// Description : None
 #define PSM_WDSEL_SRAM4_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM4_BITS   _u(0x00000400)
 #define PSM_WDSEL_SRAM4_MSB    _u(10)
@@ -360,7 +320,6 @@
 #define PSM_WDSEL_SRAM4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM3
-// Description : None
 #define PSM_WDSEL_SRAM3_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM3_BITS   _u(0x00000200)
 #define PSM_WDSEL_SRAM3_MSB    _u(9)
@@ -368,7 +327,6 @@
 #define PSM_WDSEL_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM2
-// Description : None
 #define PSM_WDSEL_SRAM2_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM2_BITS   _u(0x00000100)
 #define PSM_WDSEL_SRAM2_MSB    _u(8)
@@ -376,7 +334,6 @@
 #define PSM_WDSEL_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM1
-// Description : None
 #define PSM_WDSEL_SRAM1_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM1_BITS   _u(0x00000080)
 #define PSM_WDSEL_SRAM1_MSB    _u(7)
@@ -384,7 +341,6 @@
 #define PSM_WDSEL_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_SRAM0
-// Description : None
 #define PSM_WDSEL_SRAM0_RESET  _u(0x0)
 #define PSM_WDSEL_SRAM0_BITS   _u(0x00000040)
 #define PSM_WDSEL_SRAM0_MSB    _u(6)
@@ -392,7 +348,6 @@
 #define PSM_WDSEL_SRAM0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_ROM
-// Description : None
 #define PSM_WDSEL_ROM_RESET  _u(0x0)
 #define PSM_WDSEL_ROM_BITS   _u(0x00000020)
 #define PSM_WDSEL_ROM_MSB    _u(5)
@@ -400,7 +355,6 @@
 #define PSM_WDSEL_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_BUSFABRIC
-// Description : None
 #define PSM_WDSEL_BUSFABRIC_RESET  _u(0x0)
 #define PSM_WDSEL_BUSFABRIC_BITS   _u(0x00000010)
 #define PSM_WDSEL_BUSFABRIC_MSB    _u(4)
@@ -408,7 +362,6 @@
 #define PSM_WDSEL_BUSFABRIC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_RESETS
-// Description : None
 #define PSM_WDSEL_RESETS_RESET  _u(0x0)
 #define PSM_WDSEL_RESETS_BITS   _u(0x00000008)
 #define PSM_WDSEL_RESETS_MSB    _u(3)
@@ -416,7 +369,6 @@
 #define PSM_WDSEL_RESETS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_CLOCKS
-// Description : None
 #define PSM_WDSEL_CLOCKS_RESET  _u(0x0)
 #define PSM_WDSEL_CLOCKS_BITS   _u(0x00000004)
 #define PSM_WDSEL_CLOCKS_MSB    _u(2)
@@ -424,7 +376,6 @@
 #define PSM_WDSEL_CLOCKS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_XOSC
-// Description : None
 #define PSM_WDSEL_XOSC_RESET  _u(0x0)
 #define PSM_WDSEL_XOSC_BITS   _u(0x00000002)
 #define PSM_WDSEL_XOSC_MSB    _u(1)
@@ -432,7 +383,6 @@
 #define PSM_WDSEL_XOSC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PSM_WDSEL_ROSC
-// Description : None
 #define PSM_WDSEL_ROSC_RESET  _u(0x0)
 #define PSM_WDSEL_ROSC_BITS   _u(0x00000001)
 #define PSM_WDSEL_ROSC_MSB    _u(0)
@@ -446,7 +396,6 @@
 #define PSM_DONE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_PROC1
-// Description : None
 #define PSM_DONE_PROC1_RESET  _u(0x0)
 #define PSM_DONE_PROC1_BITS   _u(0x00010000)
 #define PSM_DONE_PROC1_MSB    _u(16)
@@ -454,7 +403,6 @@
 #define PSM_DONE_PROC1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_PROC0
-// Description : None
 #define PSM_DONE_PROC0_RESET  _u(0x0)
 #define PSM_DONE_PROC0_BITS   _u(0x00008000)
 #define PSM_DONE_PROC0_MSB    _u(15)
@@ -462,7 +410,6 @@
 #define PSM_DONE_PROC0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SIO
-// Description : None
 #define PSM_DONE_SIO_RESET  _u(0x0)
 #define PSM_DONE_SIO_BITS   _u(0x00004000)
 #define PSM_DONE_SIO_MSB    _u(14)
@@ -470,7 +417,6 @@
 #define PSM_DONE_SIO_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_VREG_AND_CHIP_RESET
-// Description : None
 #define PSM_DONE_VREG_AND_CHIP_RESET_RESET  _u(0x0)
 #define PSM_DONE_VREG_AND_CHIP_RESET_BITS   _u(0x00002000)
 #define PSM_DONE_VREG_AND_CHIP_RESET_MSB    _u(13)
@@ -478,7 +424,6 @@
 #define PSM_DONE_VREG_AND_CHIP_RESET_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_XIP
-// Description : None
 #define PSM_DONE_XIP_RESET  _u(0x0)
 #define PSM_DONE_XIP_BITS   _u(0x00001000)
 #define PSM_DONE_XIP_MSB    _u(12)
@@ -486,7 +431,6 @@
 #define PSM_DONE_XIP_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM5
-// Description : None
 #define PSM_DONE_SRAM5_RESET  _u(0x0)
 #define PSM_DONE_SRAM5_BITS   _u(0x00000800)
 #define PSM_DONE_SRAM5_MSB    _u(11)
@@ -494,7 +438,6 @@
 #define PSM_DONE_SRAM5_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM4
-// Description : None
 #define PSM_DONE_SRAM4_RESET  _u(0x0)
 #define PSM_DONE_SRAM4_BITS   _u(0x00000400)
 #define PSM_DONE_SRAM4_MSB    _u(10)
@@ -502,7 +445,6 @@
 #define PSM_DONE_SRAM4_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM3
-// Description : None
 #define PSM_DONE_SRAM3_RESET  _u(0x0)
 #define PSM_DONE_SRAM3_BITS   _u(0x00000200)
 #define PSM_DONE_SRAM3_MSB    _u(9)
@@ -510,7 +452,6 @@
 #define PSM_DONE_SRAM3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM2
-// Description : None
 #define PSM_DONE_SRAM2_RESET  _u(0x0)
 #define PSM_DONE_SRAM2_BITS   _u(0x00000100)
 #define PSM_DONE_SRAM2_MSB    _u(8)
@@ -518,7 +459,6 @@
 #define PSM_DONE_SRAM2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM1
-// Description : None
 #define PSM_DONE_SRAM1_RESET  _u(0x0)
 #define PSM_DONE_SRAM1_BITS   _u(0x00000080)
 #define PSM_DONE_SRAM1_MSB    _u(7)
@@ -526,7 +466,6 @@
 #define PSM_DONE_SRAM1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_SRAM0
-// Description : None
 #define PSM_DONE_SRAM0_RESET  _u(0x0)
 #define PSM_DONE_SRAM0_BITS   _u(0x00000040)
 #define PSM_DONE_SRAM0_MSB    _u(6)
@@ -534,7 +473,6 @@
 #define PSM_DONE_SRAM0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_ROM
-// Description : None
 #define PSM_DONE_ROM_RESET  _u(0x0)
 #define PSM_DONE_ROM_BITS   _u(0x00000020)
 #define PSM_DONE_ROM_MSB    _u(5)
@@ -542,7 +480,6 @@
 #define PSM_DONE_ROM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_BUSFABRIC
-// Description : None
 #define PSM_DONE_BUSFABRIC_RESET  _u(0x0)
 #define PSM_DONE_BUSFABRIC_BITS   _u(0x00000010)
 #define PSM_DONE_BUSFABRIC_MSB    _u(4)
@@ -550,7 +487,6 @@
 #define PSM_DONE_BUSFABRIC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_RESETS
-// Description : None
 #define PSM_DONE_RESETS_RESET  _u(0x0)
 #define PSM_DONE_RESETS_BITS   _u(0x00000008)
 #define PSM_DONE_RESETS_MSB    _u(3)
@@ -558,7 +494,6 @@
 #define PSM_DONE_RESETS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_CLOCKS
-// Description : None
 #define PSM_DONE_CLOCKS_RESET  _u(0x0)
 #define PSM_DONE_CLOCKS_BITS   _u(0x00000004)
 #define PSM_DONE_CLOCKS_MSB    _u(2)
@@ -566,7 +501,6 @@
 #define PSM_DONE_CLOCKS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_XOSC
-// Description : None
 #define PSM_DONE_XOSC_RESET  _u(0x0)
 #define PSM_DONE_XOSC_BITS   _u(0x00000002)
 #define PSM_DONE_XOSC_MSB    _u(1)
@@ -574,11 +508,11 @@
 #define PSM_DONE_XOSC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PSM_DONE_ROSC
-// Description : None
 #define PSM_DONE_ROSC_RESET  _u(0x0)
 #define PSM_DONE_ROSC_BITS   _u(0x00000001)
 #define PSM_DONE_ROSC_MSB    _u(0)
 #define PSM_DONE_ROSC_LSB    _u(0)
 #define PSM_DONE_ROSC_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_PSM_DEFINED
+#endif // _HARDWARE_REGS_PSM_H
+
diff --git a/lib/rp2040/hardware/regs/pwm.h b/lib/pico-sdk/rp2040/hardware/regs/pwm.h
similarity index 91%
rename from lib/rp2040/hardware/regs/pwm.h
rename to lib/pico-sdk/rp2040/hardware/regs/pwm.h
index a853597..29a24f8 100644
--- a/lib/rp2040/hardware/regs/pwm.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/pwm.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : Simple PWM
 // =============================================================================
-#ifndef HARDWARE_REGS_PWM_DEFINED
-#define HARDWARE_REGS_PWM_DEFINED
+#ifndef _HARDWARE_REGS_PWM_H
+#define _HARDWARE_REGS_PWM_H
 // =============================================================================
 // Register    : PWM_CH0_CSR
 // Description : Control and status register
@@ -42,21 +44,19 @@
 #define PWM_CH0_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH0_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH0_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH0_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH0_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH0_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH0_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH0_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH0_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH0_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH0_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH0_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH0_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH0_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH0_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH0_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH0_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH0_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_CSR_B_INV
 // Description : Invert output B
@@ -99,7 +99,6 @@
 #define PWM_CH0_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_DIV_INT
-// Description : None
 #define PWM_CH0_DIV_INT_RESET  _u(0x01)
 #define PWM_CH0_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH0_DIV_INT_MSB    _u(11)
@@ -107,7 +106,6 @@
 #define PWM_CH0_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_DIV_FRAC
-// Description : None
 #define PWM_CH0_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH0_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH0_DIV_FRAC_MSB    _u(3)
@@ -130,7 +128,6 @@
 #define PWM_CH0_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_CC_B
-// Description : None
 #define PWM_CH0_CC_B_RESET  _u(0x0000)
 #define PWM_CH0_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH0_CC_B_MSB    _u(31)
@@ -138,7 +135,6 @@
 #define PWM_CH0_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH0_CC_A
-// Description : None
 #define PWM_CH0_CC_A_RESET  _u(0x0000)
 #define PWM_CH0_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH0_CC_A_MSB    _u(15)
@@ -184,21 +180,19 @@
 #define PWM_CH1_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH1_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH1_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH1_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH1_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH1_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH1_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH1_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH1_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH1_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH1_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH1_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH1_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH1_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH1_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH1_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH1_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH1_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_CSR_B_INV
 // Description : Invert output B
@@ -241,7 +235,6 @@
 #define PWM_CH1_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_DIV_INT
-// Description : None
 #define PWM_CH1_DIV_INT_RESET  _u(0x01)
 #define PWM_CH1_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH1_DIV_INT_MSB    _u(11)
@@ -249,7 +242,6 @@
 #define PWM_CH1_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_DIV_FRAC
-// Description : None
 #define PWM_CH1_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH1_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH1_DIV_FRAC_MSB    _u(3)
@@ -272,7 +264,6 @@
 #define PWM_CH1_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_CC_B
-// Description : None
 #define PWM_CH1_CC_B_RESET  _u(0x0000)
 #define PWM_CH1_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH1_CC_B_MSB    _u(31)
@@ -280,7 +271,6 @@
 #define PWM_CH1_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH1_CC_A
-// Description : None
 #define PWM_CH1_CC_A_RESET  _u(0x0000)
 #define PWM_CH1_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH1_CC_A_MSB    _u(15)
@@ -326,21 +316,19 @@
 #define PWM_CH2_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH2_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH2_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH2_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH2_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH2_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH2_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH2_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH2_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH2_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH2_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH2_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH2_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH2_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH2_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH2_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH2_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH2_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_CSR_B_INV
 // Description : Invert output B
@@ -383,7 +371,6 @@
 #define PWM_CH2_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_DIV_INT
-// Description : None
 #define PWM_CH2_DIV_INT_RESET  _u(0x01)
 #define PWM_CH2_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH2_DIV_INT_MSB    _u(11)
@@ -391,7 +378,6 @@
 #define PWM_CH2_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_DIV_FRAC
-// Description : None
 #define PWM_CH2_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH2_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH2_DIV_FRAC_MSB    _u(3)
@@ -414,7 +400,6 @@
 #define PWM_CH2_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_CC_B
-// Description : None
 #define PWM_CH2_CC_B_RESET  _u(0x0000)
 #define PWM_CH2_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH2_CC_B_MSB    _u(31)
@@ -422,7 +407,6 @@
 #define PWM_CH2_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH2_CC_A
-// Description : None
 #define PWM_CH2_CC_A_RESET  _u(0x0000)
 #define PWM_CH2_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH2_CC_A_MSB    _u(15)
@@ -468,21 +452,19 @@
 #define PWM_CH3_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH3_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH3_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH3_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH3_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH3_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH3_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH3_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH3_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH3_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH3_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH3_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH3_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH3_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH3_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH3_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH3_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH3_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_CSR_B_INV
 // Description : Invert output B
@@ -525,7 +507,6 @@
 #define PWM_CH3_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_DIV_INT
-// Description : None
 #define PWM_CH3_DIV_INT_RESET  _u(0x01)
 #define PWM_CH3_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH3_DIV_INT_MSB    _u(11)
@@ -533,7 +514,6 @@
 #define PWM_CH3_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_DIV_FRAC
-// Description : None
 #define PWM_CH3_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH3_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH3_DIV_FRAC_MSB    _u(3)
@@ -556,7 +536,6 @@
 #define PWM_CH3_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_CC_B
-// Description : None
 #define PWM_CH3_CC_B_RESET  _u(0x0000)
 #define PWM_CH3_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH3_CC_B_MSB    _u(31)
@@ -564,7 +543,6 @@
 #define PWM_CH3_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH3_CC_A
-// Description : None
 #define PWM_CH3_CC_A_RESET  _u(0x0000)
 #define PWM_CH3_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH3_CC_A_MSB    _u(15)
@@ -610,21 +588,19 @@
 #define PWM_CH4_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH4_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH4_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH4_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH4_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH4_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH4_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH4_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH4_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH4_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH4_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH4_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH4_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH4_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH4_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH4_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH4_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH4_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_CSR_B_INV
 // Description : Invert output B
@@ -667,7 +643,6 @@
 #define PWM_CH4_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_DIV_INT
-// Description : None
 #define PWM_CH4_DIV_INT_RESET  _u(0x01)
 #define PWM_CH4_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH4_DIV_INT_MSB    _u(11)
@@ -675,7 +650,6 @@
 #define PWM_CH4_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_DIV_FRAC
-// Description : None
 #define PWM_CH4_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH4_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH4_DIV_FRAC_MSB    _u(3)
@@ -698,7 +672,6 @@
 #define PWM_CH4_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_CC_B
-// Description : None
 #define PWM_CH4_CC_B_RESET  _u(0x0000)
 #define PWM_CH4_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH4_CC_B_MSB    _u(31)
@@ -706,7 +679,6 @@
 #define PWM_CH4_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH4_CC_A
-// Description : None
 #define PWM_CH4_CC_A_RESET  _u(0x0000)
 #define PWM_CH4_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH4_CC_A_MSB    _u(15)
@@ -752,21 +724,19 @@
 #define PWM_CH5_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH5_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH5_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH5_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH5_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH5_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH5_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH5_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH5_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH5_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH5_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH5_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH5_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH5_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH5_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH5_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH5_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH5_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_CSR_B_INV
 // Description : Invert output B
@@ -809,7 +779,6 @@
 #define PWM_CH5_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_DIV_INT
-// Description : None
 #define PWM_CH5_DIV_INT_RESET  _u(0x01)
 #define PWM_CH5_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH5_DIV_INT_MSB    _u(11)
@@ -817,7 +786,6 @@
 #define PWM_CH5_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_DIV_FRAC
-// Description : None
 #define PWM_CH5_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH5_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH5_DIV_FRAC_MSB    _u(3)
@@ -840,7 +808,6 @@
 #define PWM_CH5_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_CC_B
-// Description : None
 #define PWM_CH5_CC_B_RESET  _u(0x0000)
 #define PWM_CH5_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH5_CC_B_MSB    _u(31)
@@ -848,7 +815,6 @@
 #define PWM_CH5_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH5_CC_A
-// Description : None
 #define PWM_CH5_CC_A_RESET  _u(0x0000)
 #define PWM_CH5_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH5_CC_A_MSB    _u(15)
@@ -894,21 +860,19 @@
 #define PWM_CH6_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH6_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH6_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH6_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH6_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH6_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH6_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH6_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH6_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH6_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH6_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH6_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH6_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH6_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH6_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH6_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH6_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH6_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_CSR_B_INV
 // Description : Invert output B
@@ -951,7 +915,6 @@
 #define PWM_CH6_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_DIV_INT
-// Description : None
 #define PWM_CH6_DIV_INT_RESET  _u(0x01)
 #define PWM_CH6_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH6_DIV_INT_MSB    _u(11)
@@ -959,7 +922,6 @@
 #define PWM_CH6_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_DIV_FRAC
-// Description : None
 #define PWM_CH6_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH6_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH6_DIV_FRAC_MSB    _u(3)
@@ -982,7 +944,6 @@
 #define PWM_CH6_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_CC_B
-// Description : None
 #define PWM_CH6_CC_B_RESET  _u(0x0000)
 #define PWM_CH6_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH6_CC_B_MSB    _u(31)
@@ -990,7 +951,6 @@
 #define PWM_CH6_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH6_CC_A
-// Description : None
 #define PWM_CH6_CC_A_RESET  _u(0x0000)
 #define PWM_CH6_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH6_CC_A_MSB    _u(15)
@@ -1036,21 +996,19 @@
 #define PWM_CH7_CSR_PH_RET_ACCESS "SC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_CSR_DIVMODE
-// Description : 0x0 -> Free-running counting at rate dictated by fractional
-//               divider
+//               0x0 -> Free-running counting at rate dictated by fractional divider
 //               0x1 -> Fractional divider operation is gated by the PWM B pin.
 //               0x2 -> Counter advances with each rising edge of the PWM B pin.
-//               0x3 -> Counter advances with each falling edge of the PWM B
-//               pin.
-#define PWM_CH7_CSR_DIVMODE_RESET       _u(0x0)
-#define PWM_CH7_CSR_DIVMODE_BITS        _u(0x00000030)
-#define PWM_CH7_CSR_DIVMODE_MSB         _u(5)
-#define PWM_CH7_CSR_DIVMODE_LSB         _u(4)
-#define PWM_CH7_CSR_DIVMODE_ACCESS      "RW"
-#define PWM_CH7_CSR_DIVMODE_VALUE_DIV   _u(0x0)
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH7_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH7_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH7_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH7_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH7_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH7_CSR_DIVMODE_VALUE_DIV _u(0x0)
 #define PWM_CH7_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
-#define PWM_CH7_CSR_DIVMODE_VALUE_RISE  _u(0x2)
-#define PWM_CH7_CSR_DIVMODE_VALUE_FALL  _u(0x3)
+#define PWM_CH7_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH7_CSR_DIVMODE_VALUE_FALL _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_CSR_B_INV
 // Description : Invert output B
@@ -1093,7 +1051,6 @@
 #define PWM_CH7_DIV_RESET  _u(0x00000010)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_DIV_INT
-// Description : None
 #define PWM_CH7_DIV_INT_RESET  _u(0x01)
 #define PWM_CH7_DIV_INT_BITS   _u(0x00000ff0)
 #define PWM_CH7_DIV_INT_MSB    _u(11)
@@ -1101,7 +1058,6 @@
 #define PWM_CH7_DIV_INT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_DIV_FRAC
-// Description : None
 #define PWM_CH7_DIV_FRAC_RESET  _u(0x0)
 #define PWM_CH7_DIV_FRAC_BITS   _u(0x0000000f)
 #define PWM_CH7_DIV_FRAC_MSB    _u(3)
@@ -1124,7 +1080,6 @@
 #define PWM_CH7_CC_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_CC_B
-// Description : None
 #define PWM_CH7_CC_B_RESET  _u(0x0000)
 #define PWM_CH7_CC_B_BITS   _u(0xffff0000)
 #define PWM_CH7_CC_B_MSB    _u(31)
@@ -1132,7 +1087,6 @@
 #define PWM_CH7_CC_B_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_CH7_CC_A
-// Description : None
 #define PWM_CH7_CC_A_RESET  _u(0x0000)
 #define PWM_CH7_CC_A_BITS   _u(0x0000ffff)
 #define PWM_CH7_CC_A_MSB    _u(15)
@@ -1159,7 +1113,6 @@
 #define PWM_EN_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH7
-// Description : None
 #define PWM_EN_CH7_RESET  _u(0x0)
 #define PWM_EN_CH7_BITS   _u(0x00000080)
 #define PWM_EN_CH7_MSB    _u(7)
@@ -1167,7 +1120,6 @@
 #define PWM_EN_CH7_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH6
-// Description : None
 #define PWM_EN_CH6_RESET  _u(0x0)
 #define PWM_EN_CH6_BITS   _u(0x00000040)
 #define PWM_EN_CH6_MSB    _u(6)
@@ -1175,7 +1127,6 @@
 #define PWM_EN_CH6_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH5
-// Description : None
 #define PWM_EN_CH5_RESET  _u(0x0)
 #define PWM_EN_CH5_BITS   _u(0x00000020)
 #define PWM_EN_CH5_MSB    _u(5)
@@ -1183,7 +1134,6 @@
 #define PWM_EN_CH5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH4
-// Description : None
 #define PWM_EN_CH4_RESET  _u(0x0)
 #define PWM_EN_CH4_BITS   _u(0x00000010)
 #define PWM_EN_CH4_MSB    _u(4)
@@ -1191,7 +1141,6 @@
 #define PWM_EN_CH4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH3
-// Description : None
 #define PWM_EN_CH3_RESET  _u(0x0)
 #define PWM_EN_CH3_BITS   _u(0x00000008)
 #define PWM_EN_CH3_MSB    _u(3)
@@ -1199,7 +1148,6 @@
 #define PWM_EN_CH3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH2
-// Description : None
 #define PWM_EN_CH2_RESET  _u(0x0)
 #define PWM_EN_CH2_BITS   _u(0x00000004)
 #define PWM_EN_CH2_MSB    _u(2)
@@ -1207,7 +1155,6 @@
 #define PWM_EN_CH2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH1
-// Description : None
 #define PWM_EN_CH1_RESET  _u(0x0)
 #define PWM_EN_CH1_BITS   _u(0x00000002)
 #define PWM_EN_CH1_MSB    _u(1)
@@ -1215,7 +1162,6 @@
 #define PWM_EN_CH1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_EN_CH0
-// Description : None
 #define PWM_EN_CH0_RESET  _u(0x0)
 #define PWM_EN_CH0_BITS   _u(0x00000001)
 #define PWM_EN_CH0_MSB    _u(0)
@@ -1229,7 +1175,6 @@
 #define PWM_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH7
-// Description : None
 #define PWM_INTR_CH7_RESET  _u(0x0)
 #define PWM_INTR_CH7_BITS   _u(0x00000080)
 #define PWM_INTR_CH7_MSB    _u(7)
@@ -1237,7 +1182,6 @@
 #define PWM_INTR_CH7_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH6
-// Description : None
 #define PWM_INTR_CH6_RESET  _u(0x0)
 #define PWM_INTR_CH6_BITS   _u(0x00000040)
 #define PWM_INTR_CH6_MSB    _u(6)
@@ -1245,7 +1189,6 @@
 #define PWM_INTR_CH6_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH5
-// Description : None
 #define PWM_INTR_CH5_RESET  _u(0x0)
 #define PWM_INTR_CH5_BITS   _u(0x00000020)
 #define PWM_INTR_CH5_MSB    _u(5)
@@ -1253,7 +1196,6 @@
 #define PWM_INTR_CH5_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH4
-// Description : None
 #define PWM_INTR_CH4_RESET  _u(0x0)
 #define PWM_INTR_CH4_BITS   _u(0x00000010)
 #define PWM_INTR_CH4_MSB    _u(4)
@@ -1261,7 +1203,6 @@
 #define PWM_INTR_CH4_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH3
-// Description : None
 #define PWM_INTR_CH3_RESET  _u(0x0)
 #define PWM_INTR_CH3_BITS   _u(0x00000008)
 #define PWM_INTR_CH3_MSB    _u(3)
@@ -1269,7 +1210,6 @@
 #define PWM_INTR_CH3_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH2
-// Description : None
 #define PWM_INTR_CH2_RESET  _u(0x0)
 #define PWM_INTR_CH2_BITS   _u(0x00000004)
 #define PWM_INTR_CH2_MSB    _u(2)
@@ -1277,7 +1217,6 @@
 #define PWM_INTR_CH2_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH1
-// Description : None
 #define PWM_INTR_CH1_RESET  _u(0x0)
 #define PWM_INTR_CH1_BITS   _u(0x00000002)
 #define PWM_INTR_CH1_MSB    _u(1)
@@ -1285,7 +1224,6 @@
 #define PWM_INTR_CH1_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTR_CH0
-// Description : None
 #define PWM_INTR_CH0_RESET  _u(0x0)
 #define PWM_INTR_CH0_BITS   _u(0x00000001)
 #define PWM_INTR_CH0_MSB    _u(0)
@@ -1299,7 +1237,6 @@
 #define PWM_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH7
-// Description : None
 #define PWM_INTE_CH7_RESET  _u(0x0)
 #define PWM_INTE_CH7_BITS   _u(0x00000080)
 #define PWM_INTE_CH7_MSB    _u(7)
@@ -1307,7 +1244,6 @@
 #define PWM_INTE_CH7_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH6
-// Description : None
 #define PWM_INTE_CH6_RESET  _u(0x0)
 #define PWM_INTE_CH6_BITS   _u(0x00000040)
 #define PWM_INTE_CH6_MSB    _u(6)
@@ -1315,7 +1251,6 @@
 #define PWM_INTE_CH6_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH5
-// Description : None
 #define PWM_INTE_CH5_RESET  _u(0x0)
 #define PWM_INTE_CH5_BITS   _u(0x00000020)
 #define PWM_INTE_CH5_MSB    _u(5)
@@ -1323,7 +1258,6 @@
 #define PWM_INTE_CH5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH4
-// Description : None
 #define PWM_INTE_CH4_RESET  _u(0x0)
 #define PWM_INTE_CH4_BITS   _u(0x00000010)
 #define PWM_INTE_CH4_MSB    _u(4)
@@ -1331,7 +1265,6 @@
 #define PWM_INTE_CH4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH3
-// Description : None
 #define PWM_INTE_CH3_RESET  _u(0x0)
 #define PWM_INTE_CH3_BITS   _u(0x00000008)
 #define PWM_INTE_CH3_MSB    _u(3)
@@ -1339,7 +1272,6 @@
 #define PWM_INTE_CH3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH2
-// Description : None
 #define PWM_INTE_CH2_RESET  _u(0x0)
 #define PWM_INTE_CH2_BITS   _u(0x00000004)
 #define PWM_INTE_CH2_MSB    _u(2)
@@ -1347,7 +1279,6 @@
 #define PWM_INTE_CH2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH1
-// Description : None
 #define PWM_INTE_CH1_RESET  _u(0x0)
 #define PWM_INTE_CH1_BITS   _u(0x00000002)
 #define PWM_INTE_CH1_MSB    _u(1)
@@ -1355,7 +1286,6 @@
 #define PWM_INTE_CH1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTE_CH0
-// Description : None
 #define PWM_INTE_CH0_RESET  _u(0x0)
 #define PWM_INTE_CH0_BITS   _u(0x00000001)
 #define PWM_INTE_CH0_MSB    _u(0)
@@ -1369,7 +1299,6 @@
 #define PWM_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH7
-// Description : None
 #define PWM_INTF_CH7_RESET  _u(0x0)
 #define PWM_INTF_CH7_BITS   _u(0x00000080)
 #define PWM_INTF_CH7_MSB    _u(7)
@@ -1377,7 +1306,6 @@
 #define PWM_INTF_CH7_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH6
-// Description : None
 #define PWM_INTF_CH6_RESET  _u(0x0)
 #define PWM_INTF_CH6_BITS   _u(0x00000040)
 #define PWM_INTF_CH6_MSB    _u(6)
@@ -1385,7 +1313,6 @@
 #define PWM_INTF_CH6_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH5
-// Description : None
 #define PWM_INTF_CH5_RESET  _u(0x0)
 #define PWM_INTF_CH5_BITS   _u(0x00000020)
 #define PWM_INTF_CH5_MSB    _u(5)
@@ -1393,7 +1320,6 @@
 #define PWM_INTF_CH5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH4
-// Description : None
 #define PWM_INTF_CH4_RESET  _u(0x0)
 #define PWM_INTF_CH4_BITS   _u(0x00000010)
 #define PWM_INTF_CH4_MSB    _u(4)
@@ -1401,7 +1327,6 @@
 #define PWM_INTF_CH4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH3
-// Description : None
 #define PWM_INTF_CH3_RESET  _u(0x0)
 #define PWM_INTF_CH3_BITS   _u(0x00000008)
 #define PWM_INTF_CH3_MSB    _u(3)
@@ -1409,7 +1334,6 @@
 #define PWM_INTF_CH3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH2
-// Description : None
 #define PWM_INTF_CH2_RESET  _u(0x0)
 #define PWM_INTF_CH2_BITS   _u(0x00000004)
 #define PWM_INTF_CH2_MSB    _u(2)
@@ -1417,7 +1341,6 @@
 #define PWM_INTF_CH2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH1
-// Description : None
 #define PWM_INTF_CH1_RESET  _u(0x0)
 #define PWM_INTF_CH1_BITS   _u(0x00000002)
 #define PWM_INTF_CH1_MSB    _u(1)
@@ -1425,7 +1348,6 @@
 #define PWM_INTF_CH1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTF_CH0
-// Description : None
 #define PWM_INTF_CH0_RESET  _u(0x0)
 #define PWM_INTF_CH0_BITS   _u(0x00000001)
 #define PWM_INTF_CH0_MSB    _u(0)
@@ -1439,7 +1361,6 @@
 #define PWM_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH7
-// Description : None
 #define PWM_INTS_CH7_RESET  _u(0x0)
 #define PWM_INTS_CH7_BITS   _u(0x00000080)
 #define PWM_INTS_CH7_MSB    _u(7)
@@ -1447,7 +1368,6 @@
 #define PWM_INTS_CH7_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH6
-// Description : None
 #define PWM_INTS_CH6_RESET  _u(0x0)
 #define PWM_INTS_CH6_BITS   _u(0x00000040)
 #define PWM_INTS_CH6_MSB    _u(6)
@@ -1455,7 +1375,6 @@
 #define PWM_INTS_CH6_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH5
-// Description : None
 #define PWM_INTS_CH5_RESET  _u(0x0)
 #define PWM_INTS_CH5_BITS   _u(0x00000020)
 #define PWM_INTS_CH5_MSB    _u(5)
@@ -1463,7 +1382,6 @@
 #define PWM_INTS_CH5_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH4
-// Description : None
 #define PWM_INTS_CH4_RESET  _u(0x0)
 #define PWM_INTS_CH4_BITS   _u(0x00000010)
 #define PWM_INTS_CH4_MSB    _u(4)
@@ -1471,7 +1389,6 @@
 #define PWM_INTS_CH4_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH3
-// Description : None
 #define PWM_INTS_CH3_RESET  _u(0x0)
 #define PWM_INTS_CH3_BITS   _u(0x00000008)
 #define PWM_INTS_CH3_MSB    _u(3)
@@ -1479,7 +1396,6 @@
 #define PWM_INTS_CH3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH2
-// Description : None
 #define PWM_INTS_CH2_RESET  _u(0x0)
 #define PWM_INTS_CH2_BITS   _u(0x00000004)
 #define PWM_INTS_CH2_MSB    _u(2)
@@ -1487,7 +1403,6 @@
 #define PWM_INTS_CH2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH1
-// Description : None
 #define PWM_INTS_CH1_RESET  _u(0x0)
 #define PWM_INTS_CH1_BITS   _u(0x00000002)
 #define PWM_INTS_CH1_MSB    _u(1)
@@ -1495,11 +1410,11 @@
 #define PWM_INTS_CH1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : PWM_INTS_CH0
-// Description : None
 #define PWM_INTS_CH0_RESET  _u(0x0)
 #define PWM_INTS_CH0_BITS   _u(0x00000001)
 #define PWM_INTS_CH0_MSB    _u(0)
 #define PWM_INTS_CH0_LSB    _u(0)
 #define PWM_INTS_CH0_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_PWM_DEFINED
+#endif // _HARDWARE_REGS_PWM_H
+
diff --git a/lib/rp2040/hardware/regs/resets.h b/lib/pico-sdk/rp2040/hardware/regs/resets.h
similarity index 93%
rename from lib/rp2040/hardware/regs/resets.h
rename to lib/pico-sdk/rp2040/hardware/regs/resets.h
index 689a358..03a56e7 100644
--- a/lib/rp2040/hardware/regs/resets.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/resets.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : RESETS
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_RESETS_DEFINED
-#define HARDWARE_REGS_RESETS_DEFINED
+#ifndef _HARDWARE_REGS_RESETS_H
+#define _HARDWARE_REGS_RESETS_H
 // =============================================================================
 // Register    : RESETS_RESET
 // Description : Reset control. If a bit is set it means the peripheral is in
@@ -20,7 +21,6 @@
 #define RESETS_RESET_RESET  _u(0x01ffffff)
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_USBCTRL
-// Description : None
 #define RESETS_RESET_USBCTRL_RESET  _u(0x1)
 #define RESETS_RESET_USBCTRL_BITS   _u(0x01000000)
 #define RESETS_RESET_USBCTRL_MSB    _u(24)
@@ -28,7 +28,6 @@
 #define RESETS_RESET_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_UART1
-// Description : None
 #define RESETS_RESET_UART1_RESET  _u(0x1)
 #define RESETS_RESET_UART1_BITS   _u(0x00800000)
 #define RESETS_RESET_UART1_MSB    _u(23)
@@ -36,7 +35,6 @@
 #define RESETS_RESET_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_UART0
-// Description : None
 #define RESETS_RESET_UART0_RESET  _u(0x1)
 #define RESETS_RESET_UART0_BITS   _u(0x00400000)
 #define RESETS_RESET_UART0_MSB    _u(22)
@@ -44,7 +42,6 @@
 #define RESETS_RESET_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_TIMER
-// Description : None
 #define RESETS_RESET_TIMER_RESET  _u(0x1)
 #define RESETS_RESET_TIMER_BITS   _u(0x00200000)
 #define RESETS_RESET_TIMER_MSB    _u(21)
@@ -52,7 +49,6 @@
 #define RESETS_RESET_TIMER_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_TBMAN
-// Description : None
 #define RESETS_RESET_TBMAN_RESET  _u(0x1)
 #define RESETS_RESET_TBMAN_BITS   _u(0x00100000)
 #define RESETS_RESET_TBMAN_MSB    _u(20)
@@ -60,7 +56,6 @@
 #define RESETS_RESET_TBMAN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_SYSINFO
-// Description : None
 #define RESETS_RESET_SYSINFO_RESET  _u(0x1)
 #define RESETS_RESET_SYSINFO_BITS   _u(0x00080000)
 #define RESETS_RESET_SYSINFO_MSB    _u(19)
@@ -68,7 +63,6 @@
 #define RESETS_RESET_SYSINFO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_SYSCFG
-// Description : None
 #define RESETS_RESET_SYSCFG_RESET  _u(0x1)
 #define RESETS_RESET_SYSCFG_BITS   _u(0x00040000)
 #define RESETS_RESET_SYSCFG_MSB    _u(18)
@@ -76,7 +70,6 @@
 #define RESETS_RESET_SYSCFG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_SPI1
-// Description : None
 #define RESETS_RESET_SPI1_RESET  _u(0x1)
 #define RESETS_RESET_SPI1_BITS   _u(0x00020000)
 #define RESETS_RESET_SPI1_MSB    _u(17)
@@ -84,7 +77,6 @@
 #define RESETS_RESET_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_SPI0
-// Description : None
 #define RESETS_RESET_SPI0_RESET  _u(0x1)
 #define RESETS_RESET_SPI0_BITS   _u(0x00010000)
 #define RESETS_RESET_SPI0_MSB    _u(16)
@@ -92,7 +84,6 @@
 #define RESETS_RESET_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_RTC
-// Description : None
 #define RESETS_RESET_RTC_RESET  _u(0x1)
 #define RESETS_RESET_RTC_BITS   _u(0x00008000)
 #define RESETS_RESET_RTC_MSB    _u(15)
@@ -100,7 +91,6 @@
 #define RESETS_RESET_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PWM
-// Description : None
 #define RESETS_RESET_PWM_RESET  _u(0x1)
 #define RESETS_RESET_PWM_BITS   _u(0x00004000)
 #define RESETS_RESET_PWM_MSB    _u(14)
@@ -108,7 +98,6 @@
 #define RESETS_RESET_PWM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PLL_USB
-// Description : None
 #define RESETS_RESET_PLL_USB_RESET  _u(0x1)
 #define RESETS_RESET_PLL_USB_BITS   _u(0x00002000)
 #define RESETS_RESET_PLL_USB_MSB    _u(13)
@@ -116,7 +105,6 @@
 #define RESETS_RESET_PLL_USB_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PLL_SYS
-// Description : None
 #define RESETS_RESET_PLL_SYS_RESET  _u(0x1)
 #define RESETS_RESET_PLL_SYS_BITS   _u(0x00001000)
 #define RESETS_RESET_PLL_SYS_MSB    _u(12)
@@ -124,7 +112,6 @@
 #define RESETS_RESET_PLL_SYS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PIO1
-// Description : None
 #define RESETS_RESET_PIO1_RESET  _u(0x1)
 #define RESETS_RESET_PIO1_BITS   _u(0x00000800)
 #define RESETS_RESET_PIO1_MSB    _u(11)
@@ -132,7 +119,6 @@
 #define RESETS_RESET_PIO1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PIO0
-// Description : None
 #define RESETS_RESET_PIO0_RESET  _u(0x1)
 #define RESETS_RESET_PIO0_BITS   _u(0x00000400)
 #define RESETS_RESET_PIO0_MSB    _u(10)
@@ -140,7 +126,6 @@
 #define RESETS_RESET_PIO0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PADS_QSPI
-// Description : None
 #define RESETS_RESET_PADS_QSPI_RESET  _u(0x1)
 #define RESETS_RESET_PADS_QSPI_BITS   _u(0x00000200)
 #define RESETS_RESET_PADS_QSPI_MSB    _u(9)
@@ -148,7 +133,6 @@
 #define RESETS_RESET_PADS_QSPI_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_PADS_BANK0
-// Description : None
 #define RESETS_RESET_PADS_BANK0_RESET  _u(0x1)
 #define RESETS_RESET_PADS_BANK0_BITS   _u(0x00000100)
 #define RESETS_RESET_PADS_BANK0_MSB    _u(8)
@@ -156,7 +140,6 @@
 #define RESETS_RESET_PADS_BANK0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_JTAG
-// Description : None
 #define RESETS_RESET_JTAG_RESET  _u(0x1)
 #define RESETS_RESET_JTAG_BITS   _u(0x00000080)
 #define RESETS_RESET_JTAG_MSB    _u(7)
@@ -164,7 +147,6 @@
 #define RESETS_RESET_JTAG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_IO_QSPI
-// Description : None
 #define RESETS_RESET_IO_QSPI_RESET  _u(0x1)
 #define RESETS_RESET_IO_QSPI_BITS   _u(0x00000040)
 #define RESETS_RESET_IO_QSPI_MSB    _u(6)
@@ -172,7 +154,6 @@
 #define RESETS_RESET_IO_QSPI_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_IO_BANK0
-// Description : None
 #define RESETS_RESET_IO_BANK0_RESET  _u(0x1)
 #define RESETS_RESET_IO_BANK0_BITS   _u(0x00000020)
 #define RESETS_RESET_IO_BANK0_MSB    _u(5)
@@ -180,7 +161,6 @@
 #define RESETS_RESET_IO_BANK0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_I2C1
-// Description : None
 #define RESETS_RESET_I2C1_RESET  _u(0x1)
 #define RESETS_RESET_I2C1_BITS   _u(0x00000010)
 #define RESETS_RESET_I2C1_MSB    _u(4)
@@ -188,7 +168,6 @@
 #define RESETS_RESET_I2C1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_I2C0
-// Description : None
 #define RESETS_RESET_I2C0_RESET  _u(0x1)
 #define RESETS_RESET_I2C0_BITS   _u(0x00000008)
 #define RESETS_RESET_I2C0_MSB    _u(3)
@@ -196,7 +175,6 @@
 #define RESETS_RESET_I2C0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DMA
-// Description : None
 #define RESETS_RESET_DMA_RESET  _u(0x1)
 #define RESETS_RESET_DMA_BITS   _u(0x00000004)
 #define RESETS_RESET_DMA_MSB    _u(2)
@@ -204,7 +182,6 @@
 #define RESETS_RESET_DMA_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_BUSCTRL
-// Description : None
 #define RESETS_RESET_BUSCTRL_RESET  _u(0x1)
 #define RESETS_RESET_BUSCTRL_BITS   _u(0x00000002)
 #define RESETS_RESET_BUSCTRL_MSB    _u(1)
@@ -212,7 +189,6 @@
 #define RESETS_RESET_BUSCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_ADC
-// Description : None
 #define RESETS_RESET_ADC_RESET  _u(0x1)
 #define RESETS_RESET_ADC_BITS   _u(0x00000001)
 #define RESETS_RESET_ADC_MSB    _u(0)
@@ -227,7 +203,6 @@
 #define RESETS_WDSEL_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_USBCTRL
-// Description : None
 #define RESETS_WDSEL_USBCTRL_RESET  _u(0x0)
 #define RESETS_WDSEL_USBCTRL_BITS   _u(0x01000000)
 #define RESETS_WDSEL_USBCTRL_MSB    _u(24)
@@ -235,7 +210,6 @@
 #define RESETS_WDSEL_USBCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_UART1
-// Description : None
 #define RESETS_WDSEL_UART1_RESET  _u(0x0)
 #define RESETS_WDSEL_UART1_BITS   _u(0x00800000)
 #define RESETS_WDSEL_UART1_MSB    _u(23)
@@ -243,7 +217,6 @@
 #define RESETS_WDSEL_UART1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_UART0
-// Description : None
 #define RESETS_WDSEL_UART0_RESET  _u(0x0)
 #define RESETS_WDSEL_UART0_BITS   _u(0x00400000)
 #define RESETS_WDSEL_UART0_MSB    _u(22)
@@ -251,7 +224,6 @@
 #define RESETS_WDSEL_UART0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_TIMER
-// Description : None
 #define RESETS_WDSEL_TIMER_RESET  _u(0x0)
 #define RESETS_WDSEL_TIMER_BITS   _u(0x00200000)
 #define RESETS_WDSEL_TIMER_MSB    _u(21)
@@ -259,7 +231,6 @@
 #define RESETS_WDSEL_TIMER_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_TBMAN
-// Description : None
 #define RESETS_WDSEL_TBMAN_RESET  _u(0x0)
 #define RESETS_WDSEL_TBMAN_BITS   _u(0x00100000)
 #define RESETS_WDSEL_TBMAN_MSB    _u(20)
@@ -267,7 +238,6 @@
 #define RESETS_WDSEL_TBMAN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_SYSINFO
-// Description : None
 #define RESETS_WDSEL_SYSINFO_RESET  _u(0x0)
 #define RESETS_WDSEL_SYSINFO_BITS   _u(0x00080000)
 #define RESETS_WDSEL_SYSINFO_MSB    _u(19)
@@ -275,7 +245,6 @@
 #define RESETS_WDSEL_SYSINFO_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_SYSCFG
-// Description : None
 #define RESETS_WDSEL_SYSCFG_RESET  _u(0x0)
 #define RESETS_WDSEL_SYSCFG_BITS   _u(0x00040000)
 #define RESETS_WDSEL_SYSCFG_MSB    _u(18)
@@ -283,7 +252,6 @@
 #define RESETS_WDSEL_SYSCFG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_SPI1
-// Description : None
 #define RESETS_WDSEL_SPI1_RESET  _u(0x0)
 #define RESETS_WDSEL_SPI1_BITS   _u(0x00020000)
 #define RESETS_WDSEL_SPI1_MSB    _u(17)
@@ -291,7 +259,6 @@
 #define RESETS_WDSEL_SPI1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_SPI0
-// Description : None
 #define RESETS_WDSEL_SPI0_RESET  _u(0x0)
 #define RESETS_WDSEL_SPI0_BITS   _u(0x00010000)
 #define RESETS_WDSEL_SPI0_MSB    _u(16)
@@ -299,7 +266,6 @@
 #define RESETS_WDSEL_SPI0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_RTC
-// Description : None
 #define RESETS_WDSEL_RTC_RESET  _u(0x0)
 #define RESETS_WDSEL_RTC_BITS   _u(0x00008000)
 #define RESETS_WDSEL_RTC_MSB    _u(15)
@@ -307,7 +273,6 @@
 #define RESETS_WDSEL_RTC_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PWM
-// Description : None
 #define RESETS_WDSEL_PWM_RESET  _u(0x0)
 #define RESETS_WDSEL_PWM_BITS   _u(0x00004000)
 #define RESETS_WDSEL_PWM_MSB    _u(14)
@@ -315,7 +280,6 @@
 #define RESETS_WDSEL_PWM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PLL_USB
-// Description : None
 #define RESETS_WDSEL_PLL_USB_RESET  _u(0x0)
 #define RESETS_WDSEL_PLL_USB_BITS   _u(0x00002000)
 #define RESETS_WDSEL_PLL_USB_MSB    _u(13)
@@ -323,7 +287,6 @@
 #define RESETS_WDSEL_PLL_USB_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PLL_SYS
-// Description : None
 #define RESETS_WDSEL_PLL_SYS_RESET  _u(0x0)
 #define RESETS_WDSEL_PLL_SYS_BITS   _u(0x00001000)
 #define RESETS_WDSEL_PLL_SYS_MSB    _u(12)
@@ -331,7 +294,6 @@
 #define RESETS_WDSEL_PLL_SYS_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PIO1
-// Description : None
 #define RESETS_WDSEL_PIO1_RESET  _u(0x0)
 #define RESETS_WDSEL_PIO1_BITS   _u(0x00000800)
 #define RESETS_WDSEL_PIO1_MSB    _u(11)
@@ -339,7 +301,6 @@
 #define RESETS_WDSEL_PIO1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PIO0
-// Description : None
 #define RESETS_WDSEL_PIO0_RESET  _u(0x0)
 #define RESETS_WDSEL_PIO0_BITS   _u(0x00000400)
 #define RESETS_WDSEL_PIO0_MSB    _u(10)
@@ -347,7 +308,6 @@
 #define RESETS_WDSEL_PIO0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PADS_QSPI
-// Description : None
 #define RESETS_WDSEL_PADS_QSPI_RESET  _u(0x0)
 #define RESETS_WDSEL_PADS_QSPI_BITS   _u(0x00000200)
 #define RESETS_WDSEL_PADS_QSPI_MSB    _u(9)
@@ -355,7 +315,6 @@
 #define RESETS_WDSEL_PADS_QSPI_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_PADS_BANK0
-// Description : None
 #define RESETS_WDSEL_PADS_BANK0_RESET  _u(0x0)
 #define RESETS_WDSEL_PADS_BANK0_BITS   _u(0x00000100)
 #define RESETS_WDSEL_PADS_BANK0_MSB    _u(8)
@@ -363,7 +322,6 @@
 #define RESETS_WDSEL_PADS_BANK0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_JTAG
-// Description : None
 #define RESETS_WDSEL_JTAG_RESET  _u(0x0)
 #define RESETS_WDSEL_JTAG_BITS   _u(0x00000080)
 #define RESETS_WDSEL_JTAG_MSB    _u(7)
@@ -371,7 +329,6 @@
 #define RESETS_WDSEL_JTAG_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_IO_QSPI
-// Description : None
 #define RESETS_WDSEL_IO_QSPI_RESET  _u(0x0)
 #define RESETS_WDSEL_IO_QSPI_BITS   _u(0x00000040)
 #define RESETS_WDSEL_IO_QSPI_MSB    _u(6)
@@ -379,7 +336,6 @@
 #define RESETS_WDSEL_IO_QSPI_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_IO_BANK0
-// Description : None
 #define RESETS_WDSEL_IO_BANK0_RESET  _u(0x0)
 #define RESETS_WDSEL_IO_BANK0_BITS   _u(0x00000020)
 #define RESETS_WDSEL_IO_BANK0_MSB    _u(5)
@@ -387,7 +343,6 @@
 #define RESETS_WDSEL_IO_BANK0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_I2C1
-// Description : None
 #define RESETS_WDSEL_I2C1_RESET  _u(0x0)
 #define RESETS_WDSEL_I2C1_BITS   _u(0x00000010)
 #define RESETS_WDSEL_I2C1_MSB    _u(4)
@@ -395,7 +350,6 @@
 #define RESETS_WDSEL_I2C1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_I2C0
-// Description : None
 #define RESETS_WDSEL_I2C0_RESET  _u(0x0)
 #define RESETS_WDSEL_I2C0_BITS   _u(0x00000008)
 #define RESETS_WDSEL_I2C0_MSB    _u(3)
@@ -403,7 +357,6 @@
 #define RESETS_WDSEL_I2C0_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_DMA
-// Description : None
 #define RESETS_WDSEL_DMA_RESET  _u(0x0)
 #define RESETS_WDSEL_DMA_BITS   _u(0x00000004)
 #define RESETS_WDSEL_DMA_MSB    _u(2)
@@ -411,7 +364,6 @@
 #define RESETS_WDSEL_DMA_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_BUSCTRL
-// Description : None
 #define RESETS_WDSEL_BUSCTRL_RESET  _u(0x0)
 #define RESETS_WDSEL_BUSCTRL_BITS   _u(0x00000002)
 #define RESETS_WDSEL_BUSCTRL_MSB    _u(1)
@@ -419,7 +371,6 @@
 #define RESETS_WDSEL_BUSCTRL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_WDSEL_ADC
-// Description : None
 #define RESETS_WDSEL_ADC_RESET  _u(0x0)
 #define RESETS_WDSEL_ADC_BITS   _u(0x00000001)
 #define RESETS_WDSEL_ADC_MSB    _u(0)
@@ -435,7 +386,6 @@
 #define RESETS_RESET_DONE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_USBCTRL
-// Description : None
 #define RESETS_RESET_DONE_USBCTRL_RESET  _u(0x0)
 #define RESETS_RESET_DONE_USBCTRL_BITS   _u(0x01000000)
 #define RESETS_RESET_DONE_USBCTRL_MSB    _u(24)
@@ -443,7 +393,6 @@
 #define RESETS_RESET_DONE_USBCTRL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_UART1
-// Description : None
 #define RESETS_RESET_DONE_UART1_RESET  _u(0x0)
 #define RESETS_RESET_DONE_UART1_BITS   _u(0x00800000)
 #define RESETS_RESET_DONE_UART1_MSB    _u(23)
@@ -451,7 +400,6 @@
 #define RESETS_RESET_DONE_UART1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_UART0
-// Description : None
 #define RESETS_RESET_DONE_UART0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_UART0_BITS   _u(0x00400000)
 #define RESETS_RESET_DONE_UART0_MSB    _u(22)
@@ -459,7 +407,6 @@
 #define RESETS_RESET_DONE_UART0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_TIMER
-// Description : None
 #define RESETS_RESET_DONE_TIMER_RESET  _u(0x0)
 #define RESETS_RESET_DONE_TIMER_BITS   _u(0x00200000)
 #define RESETS_RESET_DONE_TIMER_MSB    _u(21)
@@ -467,7 +414,6 @@
 #define RESETS_RESET_DONE_TIMER_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_TBMAN
-// Description : None
 #define RESETS_RESET_DONE_TBMAN_RESET  _u(0x0)
 #define RESETS_RESET_DONE_TBMAN_BITS   _u(0x00100000)
 #define RESETS_RESET_DONE_TBMAN_MSB    _u(20)
@@ -475,7 +421,6 @@
 #define RESETS_RESET_DONE_TBMAN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_SYSINFO
-// Description : None
 #define RESETS_RESET_DONE_SYSINFO_RESET  _u(0x0)
 #define RESETS_RESET_DONE_SYSINFO_BITS   _u(0x00080000)
 #define RESETS_RESET_DONE_SYSINFO_MSB    _u(19)
@@ -483,7 +428,6 @@
 #define RESETS_RESET_DONE_SYSINFO_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_SYSCFG
-// Description : None
 #define RESETS_RESET_DONE_SYSCFG_RESET  _u(0x0)
 #define RESETS_RESET_DONE_SYSCFG_BITS   _u(0x00040000)
 #define RESETS_RESET_DONE_SYSCFG_MSB    _u(18)
@@ -491,7 +435,6 @@
 #define RESETS_RESET_DONE_SYSCFG_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_SPI1
-// Description : None
 #define RESETS_RESET_DONE_SPI1_RESET  _u(0x0)
 #define RESETS_RESET_DONE_SPI1_BITS   _u(0x00020000)
 #define RESETS_RESET_DONE_SPI1_MSB    _u(17)
@@ -499,7 +442,6 @@
 #define RESETS_RESET_DONE_SPI1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_SPI0
-// Description : None
 #define RESETS_RESET_DONE_SPI0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_SPI0_BITS   _u(0x00010000)
 #define RESETS_RESET_DONE_SPI0_MSB    _u(16)
@@ -507,7 +449,6 @@
 #define RESETS_RESET_DONE_SPI0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_RTC
-// Description : None
 #define RESETS_RESET_DONE_RTC_RESET  _u(0x0)
 #define RESETS_RESET_DONE_RTC_BITS   _u(0x00008000)
 #define RESETS_RESET_DONE_RTC_MSB    _u(15)
@@ -515,7 +456,6 @@
 #define RESETS_RESET_DONE_RTC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PWM
-// Description : None
 #define RESETS_RESET_DONE_PWM_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PWM_BITS   _u(0x00004000)
 #define RESETS_RESET_DONE_PWM_MSB    _u(14)
@@ -523,7 +463,6 @@
 #define RESETS_RESET_DONE_PWM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PLL_USB
-// Description : None
 #define RESETS_RESET_DONE_PLL_USB_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PLL_USB_BITS   _u(0x00002000)
 #define RESETS_RESET_DONE_PLL_USB_MSB    _u(13)
@@ -531,7 +470,6 @@
 #define RESETS_RESET_DONE_PLL_USB_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PLL_SYS
-// Description : None
 #define RESETS_RESET_DONE_PLL_SYS_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PLL_SYS_BITS   _u(0x00001000)
 #define RESETS_RESET_DONE_PLL_SYS_MSB    _u(12)
@@ -539,7 +477,6 @@
 #define RESETS_RESET_DONE_PLL_SYS_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PIO1
-// Description : None
 #define RESETS_RESET_DONE_PIO1_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PIO1_BITS   _u(0x00000800)
 #define RESETS_RESET_DONE_PIO1_MSB    _u(11)
@@ -547,7 +484,6 @@
 #define RESETS_RESET_DONE_PIO1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PIO0
-// Description : None
 #define RESETS_RESET_DONE_PIO0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PIO0_BITS   _u(0x00000400)
 #define RESETS_RESET_DONE_PIO0_MSB    _u(10)
@@ -555,7 +491,6 @@
 #define RESETS_RESET_DONE_PIO0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PADS_QSPI
-// Description : None
 #define RESETS_RESET_DONE_PADS_QSPI_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PADS_QSPI_BITS   _u(0x00000200)
 #define RESETS_RESET_DONE_PADS_QSPI_MSB    _u(9)
@@ -563,7 +498,6 @@
 #define RESETS_RESET_DONE_PADS_QSPI_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_PADS_BANK0
-// Description : None
 #define RESETS_RESET_DONE_PADS_BANK0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_PADS_BANK0_BITS   _u(0x00000100)
 #define RESETS_RESET_DONE_PADS_BANK0_MSB    _u(8)
@@ -571,7 +505,6 @@
 #define RESETS_RESET_DONE_PADS_BANK0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_JTAG
-// Description : None
 #define RESETS_RESET_DONE_JTAG_RESET  _u(0x0)
 #define RESETS_RESET_DONE_JTAG_BITS   _u(0x00000080)
 #define RESETS_RESET_DONE_JTAG_MSB    _u(7)
@@ -579,7 +512,6 @@
 #define RESETS_RESET_DONE_JTAG_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_IO_QSPI
-// Description : None
 #define RESETS_RESET_DONE_IO_QSPI_RESET  _u(0x0)
 #define RESETS_RESET_DONE_IO_QSPI_BITS   _u(0x00000040)
 #define RESETS_RESET_DONE_IO_QSPI_MSB    _u(6)
@@ -587,7 +519,6 @@
 #define RESETS_RESET_DONE_IO_QSPI_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_IO_BANK0
-// Description : None
 #define RESETS_RESET_DONE_IO_BANK0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_IO_BANK0_BITS   _u(0x00000020)
 #define RESETS_RESET_DONE_IO_BANK0_MSB    _u(5)
@@ -595,7 +526,6 @@
 #define RESETS_RESET_DONE_IO_BANK0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_I2C1
-// Description : None
 #define RESETS_RESET_DONE_I2C1_RESET  _u(0x0)
 #define RESETS_RESET_DONE_I2C1_BITS   _u(0x00000010)
 #define RESETS_RESET_DONE_I2C1_MSB    _u(4)
@@ -603,7 +533,6 @@
 #define RESETS_RESET_DONE_I2C1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_I2C0
-// Description : None
 #define RESETS_RESET_DONE_I2C0_RESET  _u(0x0)
 #define RESETS_RESET_DONE_I2C0_BITS   _u(0x00000008)
 #define RESETS_RESET_DONE_I2C0_MSB    _u(3)
@@ -611,7 +540,6 @@
 #define RESETS_RESET_DONE_I2C0_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_DMA
-// Description : None
 #define RESETS_RESET_DONE_DMA_RESET  _u(0x0)
 #define RESETS_RESET_DONE_DMA_BITS   _u(0x00000004)
 #define RESETS_RESET_DONE_DMA_MSB    _u(2)
@@ -619,7 +547,6 @@
 #define RESETS_RESET_DONE_DMA_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_BUSCTRL
-// Description : None
 #define RESETS_RESET_DONE_BUSCTRL_RESET  _u(0x0)
 #define RESETS_RESET_DONE_BUSCTRL_BITS   _u(0x00000002)
 #define RESETS_RESET_DONE_BUSCTRL_MSB    _u(1)
@@ -627,11 +554,11 @@
 #define RESETS_RESET_DONE_BUSCTRL_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : RESETS_RESET_DONE_ADC
-// Description : None
 #define RESETS_RESET_DONE_ADC_RESET  _u(0x0)
 #define RESETS_RESET_DONE_ADC_BITS   _u(0x00000001)
 #define RESETS_RESET_DONE_ADC_MSB    _u(0)
 #define RESETS_RESET_DONE_ADC_LSB    _u(0)
 #define RESETS_RESET_DONE_ADC_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_RESETS_DEFINED
+#endif // _HARDWARE_REGS_RESETS_H
+
diff --git a/lib/rp2040/hardware/regs/rosc.h b/lib/pico-sdk/rp2040/hardware/regs/rosc.h
similarity index 86%
rename from lib/rp2040/hardware/regs/rosc.h
rename to lib/pico-sdk/rp2040/hardware/regs/rosc.h
index 5501e7e..bd4bb9d 100644
--- a/lib/rp2040/hardware/regs/rosc.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/rosc.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : ROSC
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_ROSC_DEFINED
-#define HARDWARE_REGS_ROSC_DEFINED
+#ifndef _HARDWARE_REGS_ROSC_H
+#define _HARDWARE_REGS_ROSC_H
 // =============================================================================
 // Register    : ROSC_CTRL
 // Description : Ring Oscillator control
@@ -27,20 +28,20 @@
 //               oscillator.
 //               0xd1e -> DISABLE
 //               0xfab -> ENABLE
-#define ROSC_CTRL_ENABLE_RESET         "-"
-#define ROSC_CTRL_ENABLE_BITS          _u(0x00fff000)
-#define ROSC_CTRL_ENABLE_MSB           _u(23)
-#define ROSC_CTRL_ENABLE_LSB           _u(12)
-#define ROSC_CTRL_ENABLE_ACCESS        "RW"
+#define ROSC_CTRL_ENABLE_RESET  "-"
+#define ROSC_CTRL_ENABLE_BITS   _u(0x00fff000)
+#define ROSC_CTRL_ENABLE_MSB    _u(23)
+#define ROSC_CTRL_ENABLE_LSB    _u(12)
+#define ROSC_CTRL_ENABLE_ACCESS "RW"
 #define ROSC_CTRL_ENABLE_VALUE_DISABLE _u(0xd1e)
-#define ROSC_CTRL_ENABLE_VALUE_ENABLE  _u(0xfab)
+#define ROSC_CTRL_ENABLE_VALUE_ENABLE _u(0xfab)
 // -----------------------------------------------------------------------------
 // Field       : ROSC_CTRL_FREQ_RANGE
 // Description : Controls the number of delay stages in the ROSC ring
 //               LOW uses stages 0 to 7
-//               MEDIUM uses stages 0 to 5
-//               HIGH uses stages 0 to 3
-//               TOOHIGH uses stages 0 to 1 and should not be used because its
+//               MEDIUM uses stages 2 to 7
+//               HIGH uses stages 4 to 7
+//               TOOHIGH uses stages 6 to 7 and should not be used because its
 //               frequency exceeds design specifications
 //               The clock output will not glitch when changing the range up one
 //               step at a time
@@ -51,14 +52,14 @@
 //               0xfa5 -> MEDIUM
 //               0xfa7 -> HIGH
 //               0xfa6 -> TOOHIGH
-#define ROSC_CTRL_FREQ_RANGE_RESET         _u(0xaa0)
-#define ROSC_CTRL_FREQ_RANGE_BITS          _u(0x00000fff)
-#define ROSC_CTRL_FREQ_RANGE_MSB           _u(11)
-#define ROSC_CTRL_FREQ_RANGE_LSB           _u(0)
-#define ROSC_CTRL_FREQ_RANGE_ACCESS        "RW"
-#define ROSC_CTRL_FREQ_RANGE_VALUE_LOW     _u(0xfa4)
-#define ROSC_CTRL_FREQ_RANGE_VALUE_MEDIUM  _u(0xfa5)
-#define ROSC_CTRL_FREQ_RANGE_VALUE_HIGH    _u(0xfa7)
+#define ROSC_CTRL_FREQ_RANGE_RESET  _u(0xaa0)
+#define ROSC_CTRL_FREQ_RANGE_BITS   _u(0x00000fff)
+#define ROSC_CTRL_FREQ_RANGE_MSB    _u(11)
+#define ROSC_CTRL_FREQ_RANGE_LSB    _u(0)
+#define ROSC_CTRL_FREQ_RANGE_ACCESS "RW"
+#define ROSC_CTRL_FREQ_RANGE_VALUE_LOW _u(0xfa4)
+#define ROSC_CTRL_FREQ_RANGE_VALUE_MEDIUM _u(0xfa5)
+#define ROSC_CTRL_FREQ_RANGE_VALUE_HIGH _u(0xfa7)
 #define ROSC_CTRL_FREQ_RANGE_VALUE_TOOHIGH _u(0xfa6)
 // =============================================================================
 // Register    : ROSC_FREQA
@@ -80,11 +81,11 @@
 // Description : Set to 0x9696 to apply the settings
 //               Any other value in this field will set all drive strengths to 0
 //               0x9696 -> PASS
-#define ROSC_FREQA_PASSWD_RESET      _u(0x0000)
-#define ROSC_FREQA_PASSWD_BITS       _u(0xffff0000)
-#define ROSC_FREQA_PASSWD_MSB        _u(31)
-#define ROSC_FREQA_PASSWD_LSB        _u(16)
-#define ROSC_FREQA_PASSWD_ACCESS     "RW"
+#define ROSC_FREQA_PASSWD_RESET  _u(0x0000)
+#define ROSC_FREQA_PASSWD_BITS   _u(0xffff0000)
+#define ROSC_FREQA_PASSWD_MSB    _u(31)
+#define ROSC_FREQA_PASSWD_LSB    _u(16)
+#define ROSC_FREQA_PASSWD_ACCESS "RW"
 #define ROSC_FREQA_PASSWD_VALUE_PASS _u(0x9696)
 // -----------------------------------------------------------------------------
 // Field       : ROSC_FREQA_DS3
@@ -129,11 +130,11 @@
 // Description : Set to 0x9696 to apply the settings
 //               Any other value in this field will set all drive strengths to 0
 //               0x9696 -> PASS
-#define ROSC_FREQB_PASSWD_RESET      _u(0x0000)
-#define ROSC_FREQB_PASSWD_BITS       _u(0xffff0000)
-#define ROSC_FREQB_PASSWD_MSB        _u(31)
-#define ROSC_FREQB_PASSWD_LSB        _u(16)
-#define ROSC_FREQB_PASSWD_ACCESS     "RW"
+#define ROSC_FREQB_PASSWD_RESET  _u(0x0000)
+#define ROSC_FREQB_PASSWD_BITS   _u(0xffff0000)
+#define ROSC_FREQB_PASSWD_MSB    _u(31)
+#define ROSC_FREQB_PASSWD_LSB    _u(16)
+#define ROSC_FREQB_PASSWD_ACCESS "RW"
 #define ROSC_FREQB_PASSWD_VALUE_PASS _u(0x9696)
 // -----------------------------------------------------------------------------
 // Field       : ROSC_FREQB_DS7
@@ -174,16 +175,16 @@
 //               On power-up this field is initialised to WAKE
 //               An invalid write will also select WAKE
 //               Warning: setup the irq before selecting dormant mode
-//               0x636f6d61 -> DORMANT
+//               0x636f6d61 -> dormant
 //               0x77616b65 -> WAKE
-#define ROSC_DORMANT_OFFSET        _u(0x0000000c)
-#define ROSC_DORMANT_BITS          _u(0xffffffff)
-#define ROSC_DORMANT_RESET         "-"
-#define ROSC_DORMANT_MSB           _u(31)
-#define ROSC_DORMANT_LSB           _u(0)
-#define ROSC_DORMANT_ACCESS        "RW"
+#define ROSC_DORMANT_OFFSET _u(0x0000000c)
+#define ROSC_DORMANT_BITS   _u(0xffffffff)
+#define ROSC_DORMANT_RESET  "-"
+#define ROSC_DORMANT_MSB    _u(31)
+#define ROSC_DORMANT_LSB    _u(0)
+#define ROSC_DORMANT_ACCESS "RW"
 #define ROSC_DORMANT_VALUE_DORMANT _u(0x636f6d61)
-#define ROSC_DORMANT_VALUE_WAKE    _u(0x77616b65)
+#define ROSC_DORMANT_VALUE_WAKE _u(0x77616b65)
 // =============================================================================
 // Register    : ROSC_DIV
 // Description : Controls the output divider
@@ -193,12 +194,12 @@
 //               any other value sets div=31
 //               this register resets to div=16
 //               0xaa0 -> PASS
-#define ROSC_DIV_OFFSET     _u(0x00000010)
-#define ROSC_DIV_BITS       _u(0x00000fff)
-#define ROSC_DIV_RESET      "-"
-#define ROSC_DIV_MSB        _u(11)
-#define ROSC_DIV_LSB        _u(0)
-#define ROSC_DIV_ACCESS     "RW"
+#define ROSC_DIV_OFFSET _u(0x00000010)
+#define ROSC_DIV_BITS   _u(0x00000fff)
+#define ROSC_DIV_RESET  "-"
+#define ROSC_DIV_MSB    _u(11)
+#define ROSC_DIV_LSB    _u(0)
+#define ROSC_DIV_ACCESS "RW"
 #define ROSC_DIV_VALUE_PASS _u(0xaa0)
 // =============================================================================
 // Register    : ROSC_PHASE
@@ -309,4 +310,5 @@
 #define ROSC_COUNT_LSB    _u(0)
 #define ROSC_COUNT_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_ROSC_DEFINED
+#endif // _HARDWARE_REGS_ROSC_H
+
diff --git a/lib/rp2040/hardware/regs/rtc.h b/lib/pico-sdk/rp2040/hardware/regs/rtc.h
similarity index 98%
rename from lib/rp2040/hardware/regs/rtc.h
rename to lib/pico-sdk/rp2040/hardware/regs/rtc.h
index 7d62c9d..86d519e 100644
--- a/lib/rp2040/hardware/regs/rtc.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/rtc.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : Register block to control RTC
 // =============================================================================
-#ifndef HARDWARE_REGS_RTC_DEFINED
-#define HARDWARE_REGS_RTC_DEFINED
+#ifndef _HARDWARE_REGS_RTC_H
+#define _HARDWARE_REGS_RTC_H
 // =============================================================================
 // Register    : RTC_CLKDIV_M1
 // Description : Divider minus 1 for the 1 second counter. Safe to change the
@@ -136,7 +138,6 @@
 #define RTC_IRQ_SETUP_0_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RTC_IRQ_SETUP_0_MATCH_ACTIVE
-// Description : None
 #define RTC_IRQ_SETUP_0_MATCH_ACTIVE_RESET  "-"
 #define RTC_IRQ_SETUP_0_MATCH_ACTIVE_BITS   _u(0x20000000)
 #define RTC_IRQ_SETUP_0_MATCH_ACTIVE_MSB    _u(29)
@@ -346,7 +347,6 @@
 #define RTC_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RTC_INTR_RTC
-// Description : None
 #define RTC_INTR_RTC_RESET  _u(0x0)
 #define RTC_INTR_RTC_BITS   _u(0x00000001)
 #define RTC_INTR_RTC_MSB    _u(0)
@@ -360,7 +360,6 @@
 #define RTC_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RTC_INTE_RTC
-// Description : None
 #define RTC_INTE_RTC_RESET  _u(0x0)
 #define RTC_INTE_RTC_BITS   _u(0x00000001)
 #define RTC_INTE_RTC_MSB    _u(0)
@@ -374,7 +373,6 @@
 #define RTC_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RTC_INTF_RTC
-// Description : None
 #define RTC_INTF_RTC_RESET  _u(0x0)
 #define RTC_INTF_RTC_BITS   _u(0x00000001)
 #define RTC_INTF_RTC_MSB    _u(0)
@@ -388,11 +386,11 @@
 #define RTC_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : RTC_INTS_RTC
-// Description : None
 #define RTC_INTS_RTC_RESET  _u(0x0)
 #define RTC_INTS_RTC_BITS   _u(0x00000001)
 #define RTC_INTS_RTC_MSB    _u(0)
 #define RTC_INTS_RTC_LSB    _u(0)
 #define RTC_INTS_RTC_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_RTC_DEFINED
+#endif // _HARDWARE_REGS_RTC_H
+
diff --git a/lib/rp2040/hardware/regs/sio.h b/lib/pico-sdk/rp2040/hardware/regs/sio.h
similarity index 97%
rename from lib/rp2040/hardware/regs/sio.h
rename to lib/pico-sdk/rp2040/hardware/regs/sio.h
index 37ee2c1..2d720e9 100644
--- a/lib/rp2040/hardware/regs/sio.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/sio.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -11,8 +13,8 @@
 //                  Provides core-local and inter-core hardware for the two
 //                  processors, with single-cycle access.
 // =============================================================================
-#ifndef HARDWARE_REGS_SIO_DEFINED
-#define HARDWARE_REGS_SIO_DEFINED
+#ifndef _HARDWARE_REGS_SIO_H
+#define _HARDWARE_REGS_SIO_H
 // =============================================================================
 // Register    : SIO_CPUID
 // Description : Processor core identifier
@@ -71,7 +73,7 @@
 #define SIO_GPIO_OUT_SET_RESET  _u(0x00000000)
 #define SIO_GPIO_OUT_SET_MSB    _u(29)
 #define SIO_GPIO_OUT_SET_LSB    _u(0)
-#define SIO_GPIO_OUT_SET_ACCESS "RW"
+#define SIO_GPIO_OUT_SET_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_OUT_CLR
 // Description : GPIO output value clear
@@ -82,7 +84,7 @@
 #define SIO_GPIO_OUT_CLR_RESET  _u(0x00000000)
 #define SIO_GPIO_OUT_CLR_MSB    _u(29)
 #define SIO_GPIO_OUT_CLR_LSB    _u(0)
-#define SIO_GPIO_OUT_CLR_ACCESS "RW"
+#define SIO_GPIO_OUT_CLR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_OUT_XOR
 // Description : GPIO output value XOR
@@ -93,7 +95,7 @@
 #define SIO_GPIO_OUT_XOR_RESET  _u(0x00000000)
 #define SIO_GPIO_OUT_XOR_MSB    _u(29)
 #define SIO_GPIO_OUT_XOR_LSB    _u(0)
-#define SIO_GPIO_OUT_XOR_ACCESS "RW"
+#define SIO_GPIO_OUT_XOR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_OE
 // Description : GPIO output enable
@@ -119,7 +121,7 @@
 #define SIO_GPIO_OE_SET_RESET  _u(0x00000000)
 #define SIO_GPIO_OE_SET_MSB    _u(29)
 #define SIO_GPIO_OE_SET_LSB    _u(0)
-#define SIO_GPIO_OE_SET_ACCESS "RW"
+#define SIO_GPIO_OE_SET_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_OE_CLR
 // Description : GPIO output enable clear
@@ -130,7 +132,7 @@
 #define SIO_GPIO_OE_CLR_RESET  _u(0x00000000)
 #define SIO_GPIO_OE_CLR_MSB    _u(29)
 #define SIO_GPIO_OE_CLR_LSB    _u(0)
-#define SIO_GPIO_OE_CLR_ACCESS "RW"
+#define SIO_GPIO_OE_CLR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_OE_XOR
 // Description : GPIO output enable XOR
@@ -141,7 +143,7 @@
 #define SIO_GPIO_OE_XOR_RESET  _u(0x00000000)
 #define SIO_GPIO_OE_XOR_MSB    _u(29)
 #define SIO_GPIO_OE_XOR_LSB    _u(0)
-#define SIO_GPIO_OE_XOR_ACCESS "RW"
+#define SIO_GPIO_OE_XOR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OUT
 // Description : QSPI output value
@@ -169,7 +171,7 @@
 #define SIO_GPIO_HI_OUT_SET_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OUT_SET_MSB    _u(5)
 #define SIO_GPIO_HI_OUT_SET_LSB    _u(0)
-#define SIO_GPIO_HI_OUT_SET_ACCESS "RW"
+#define SIO_GPIO_HI_OUT_SET_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OUT_CLR
 // Description : QSPI output value clear
@@ -180,7 +182,7 @@
 #define SIO_GPIO_HI_OUT_CLR_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OUT_CLR_MSB    _u(5)
 #define SIO_GPIO_HI_OUT_CLR_LSB    _u(0)
-#define SIO_GPIO_HI_OUT_CLR_ACCESS "RW"
+#define SIO_GPIO_HI_OUT_CLR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OUT_XOR
 // Description : QSPI output value XOR
@@ -191,7 +193,7 @@
 #define SIO_GPIO_HI_OUT_XOR_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OUT_XOR_MSB    _u(5)
 #define SIO_GPIO_HI_OUT_XOR_LSB    _u(0)
-#define SIO_GPIO_HI_OUT_XOR_ACCESS "RW"
+#define SIO_GPIO_HI_OUT_XOR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OE
 // Description : QSPI output enable
@@ -218,7 +220,7 @@
 #define SIO_GPIO_HI_OE_SET_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OE_SET_MSB    _u(5)
 #define SIO_GPIO_HI_OE_SET_LSB    _u(0)
-#define SIO_GPIO_HI_OE_SET_ACCESS "RW"
+#define SIO_GPIO_HI_OE_SET_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OE_CLR
 // Description : QSPI output enable clear
@@ -229,7 +231,7 @@
 #define SIO_GPIO_HI_OE_CLR_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OE_CLR_MSB    _u(5)
 #define SIO_GPIO_HI_OE_CLR_LSB    _u(0)
-#define SIO_GPIO_HI_OE_CLR_ACCESS "RW"
+#define SIO_GPIO_HI_OE_CLR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_GPIO_HI_OE_XOR
 // Description : QSPI output enable XOR
@@ -240,7 +242,7 @@
 #define SIO_GPIO_HI_OE_XOR_RESET  _u(0x00000000)
 #define SIO_GPIO_HI_OE_XOR_MSB    _u(5)
 #define SIO_GPIO_HI_OE_XOR_LSB    _u(0)
-#define SIO_GPIO_HI_OE_XOR_ACCESS "RW"
+#define SIO_GPIO_HI_OE_XOR_ACCESS "WO"
 // =============================================================================
 // Register    : SIO_FIFO_ST
 // Description : Status register for inter-core FIFOs (mailboxes).
@@ -344,7 +346,7 @@
 //               q`.
 //               Any operand write starts a new calculation. The results appear
 //               in QUOTIENT, REMAINDER.
-//               UDIVIDEND/SDIVIDEND are aliases of the same internal register.
+//               UDIVISOR/SDIVISOR are aliases of the same internal register.
 //               The U alias starts an
 //               unsigned calculation, and the S alias starts a signed
 //               calculation.
@@ -440,8 +442,8 @@
 //               Writing an operand (xDIVIDEND, xDIVISOR) will immediately start
 //               a new calculation, no
 //               matter if one is already in progress.
-//               Writing to a result register will immediately terminate any
-//               in-progress calculation
+//               Writing to a result register will immediately terminate any in-
+//               progress calculation
 //               and set the READY and DIRTY flags.
 #define SIO_DIV_CSR_READY_RESET  _u(0x1)
 #define SIO_DIV_CSR_READY_BITS   _u(0x00000001)
@@ -1155,7 +1157,7 @@
 #define SIO_SPINLOCK0_RESET  _u(0x00000000)
 #define SIO_SPINLOCK0_MSB    _u(31)
 #define SIO_SPINLOCK0_LSB    _u(0)
-#define SIO_SPINLOCK0_ACCESS "RO"
+#define SIO_SPINLOCK0_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK1
 // Description : Reading from a spinlock address will:
@@ -1171,7 +1173,7 @@
 #define SIO_SPINLOCK1_RESET  _u(0x00000000)
 #define SIO_SPINLOCK1_MSB    _u(31)
 #define SIO_SPINLOCK1_LSB    _u(0)
-#define SIO_SPINLOCK1_ACCESS "RO"
+#define SIO_SPINLOCK1_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK2
 // Description : Reading from a spinlock address will:
@@ -1187,7 +1189,7 @@
 #define SIO_SPINLOCK2_RESET  _u(0x00000000)
 #define SIO_SPINLOCK2_MSB    _u(31)
 #define SIO_SPINLOCK2_LSB    _u(0)
-#define SIO_SPINLOCK2_ACCESS "RO"
+#define SIO_SPINLOCK2_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK3
 // Description : Reading from a spinlock address will:
@@ -1203,7 +1205,7 @@
 #define SIO_SPINLOCK3_RESET  _u(0x00000000)
 #define SIO_SPINLOCK3_MSB    _u(31)
 #define SIO_SPINLOCK3_LSB    _u(0)
-#define SIO_SPINLOCK3_ACCESS "RO"
+#define SIO_SPINLOCK3_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK4
 // Description : Reading from a spinlock address will:
@@ -1219,7 +1221,7 @@
 #define SIO_SPINLOCK4_RESET  _u(0x00000000)
 #define SIO_SPINLOCK4_MSB    _u(31)
 #define SIO_SPINLOCK4_LSB    _u(0)
-#define SIO_SPINLOCK4_ACCESS "RO"
+#define SIO_SPINLOCK4_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK5
 // Description : Reading from a spinlock address will:
@@ -1235,7 +1237,7 @@
 #define SIO_SPINLOCK5_RESET  _u(0x00000000)
 #define SIO_SPINLOCK5_MSB    _u(31)
 #define SIO_SPINLOCK5_LSB    _u(0)
-#define SIO_SPINLOCK5_ACCESS "RO"
+#define SIO_SPINLOCK5_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK6
 // Description : Reading from a spinlock address will:
@@ -1251,7 +1253,7 @@
 #define SIO_SPINLOCK6_RESET  _u(0x00000000)
 #define SIO_SPINLOCK6_MSB    _u(31)
 #define SIO_SPINLOCK6_LSB    _u(0)
-#define SIO_SPINLOCK6_ACCESS "RO"
+#define SIO_SPINLOCK6_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK7
 // Description : Reading from a spinlock address will:
@@ -1267,7 +1269,7 @@
 #define SIO_SPINLOCK7_RESET  _u(0x00000000)
 #define SIO_SPINLOCK7_MSB    _u(31)
 #define SIO_SPINLOCK7_LSB    _u(0)
-#define SIO_SPINLOCK7_ACCESS "RO"
+#define SIO_SPINLOCK7_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK8
 // Description : Reading from a spinlock address will:
@@ -1283,7 +1285,7 @@
 #define SIO_SPINLOCK8_RESET  _u(0x00000000)
 #define SIO_SPINLOCK8_MSB    _u(31)
 #define SIO_SPINLOCK8_LSB    _u(0)
-#define SIO_SPINLOCK8_ACCESS "RO"
+#define SIO_SPINLOCK8_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK9
 // Description : Reading from a spinlock address will:
@@ -1299,7 +1301,7 @@
 #define SIO_SPINLOCK9_RESET  _u(0x00000000)
 #define SIO_SPINLOCK9_MSB    _u(31)
 #define SIO_SPINLOCK9_LSB    _u(0)
-#define SIO_SPINLOCK9_ACCESS "RO"
+#define SIO_SPINLOCK9_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK10
 // Description : Reading from a spinlock address will:
@@ -1315,7 +1317,7 @@
 #define SIO_SPINLOCK10_RESET  _u(0x00000000)
 #define SIO_SPINLOCK10_MSB    _u(31)
 #define SIO_SPINLOCK10_LSB    _u(0)
-#define SIO_SPINLOCK10_ACCESS "RO"
+#define SIO_SPINLOCK10_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK11
 // Description : Reading from a spinlock address will:
@@ -1331,7 +1333,7 @@
 #define SIO_SPINLOCK11_RESET  _u(0x00000000)
 #define SIO_SPINLOCK11_MSB    _u(31)
 #define SIO_SPINLOCK11_LSB    _u(0)
-#define SIO_SPINLOCK11_ACCESS "RO"
+#define SIO_SPINLOCK11_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK12
 // Description : Reading from a spinlock address will:
@@ -1347,7 +1349,7 @@
 #define SIO_SPINLOCK12_RESET  _u(0x00000000)
 #define SIO_SPINLOCK12_MSB    _u(31)
 #define SIO_SPINLOCK12_LSB    _u(0)
-#define SIO_SPINLOCK12_ACCESS "RO"
+#define SIO_SPINLOCK12_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK13
 // Description : Reading from a spinlock address will:
@@ -1363,7 +1365,7 @@
 #define SIO_SPINLOCK13_RESET  _u(0x00000000)
 #define SIO_SPINLOCK13_MSB    _u(31)
 #define SIO_SPINLOCK13_LSB    _u(0)
-#define SIO_SPINLOCK13_ACCESS "RO"
+#define SIO_SPINLOCK13_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK14
 // Description : Reading from a spinlock address will:
@@ -1379,7 +1381,7 @@
 #define SIO_SPINLOCK14_RESET  _u(0x00000000)
 #define SIO_SPINLOCK14_MSB    _u(31)
 #define SIO_SPINLOCK14_LSB    _u(0)
-#define SIO_SPINLOCK14_ACCESS "RO"
+#define SIO_SPINLOCK14_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK15
 // Description : Reading from a spinlock address will:
@@ -1395,7 +1397,7 @@
 #define SIO_SPINLOCK15_RESET  _u(0x00000000)
 #define SIO_SPINLOCK15_MSB    _u(31)
 #define SIO_SPINLOCK15_LSB    _u(0)
-#define SIO_SPINLOCK15_ACCESS "RO"
+#define SIO_SPINLOCK15_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK16
 // Description : Reading from a spinlock address will:
@@ -1411,7 +1413,7 @@
 #define SIO_SPINLOCK16_RESET  _u(0x00000000)
 #define SIO_SPINLOCK16_MSB    _u(31)
 #define SIO_SPINLOCK16_LSB    _u(0)
-#define SIO_SPINLOCK16_ACCESS "RO"
+#define SIO_SPINLOCK16_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK17
 // Description : Reading from a spinlock address will:
@@ -1427,7 +1429,7 @@
 #define SIO_SPINLOCK17_RESET  _u(0x00000000)
 #define SIO_SPINLOCK17_MSB    _u(31)
 #define SIO_SPINLOCK17_LSB    _u(0)
-#define SIO_SPINLOCK17_ACCESS "RO"
+#define SIO_SPINLOCK17_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK18
 // Description : Reading from a spinlock address will:
@@ -1443,7 +1445,7 @@
 #define SIO_SPINLOCK18_RESET  _u(0x00000000)
 #define SIO_SPINLOCK18_MSB    _u(31)
 #define SIO_SPINLOCK18_LSB    _u(0)
-#define SIO_SPINLOCK18_ACCESS "RO"
+#define SIO_SPINLOCK18_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK19
 // Description : Reading from a spinlock address will:
@@ -1459,7 +1461,7 @@
 #define SIO_SPINLOCK19_RESET  _u(0x00000000)
 #define SIO_SPINLOCK19_MSB    _u(31)
 #define SIO_SPINLOCK19_LSB    _u(0)
-#define SIO_SPINLOCK19_ACCESS "RO"
+#define SIO_SPINLOCK19_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK20
 // Description : Reading from a spinlock address will:
@@ -1475,7 +1477,7 @@
 #define SIO_SPINLOCK20_RESET  _u(0x00000000)
 #define SIO_SPINLOCK20_MSB    _u(31)
 #define SIO_SPINLOCK20_LSB    _u(0)
-#define SIO_SPINLOCK20_ACCESS "RO"
+#define SIO_SPINLOCK20_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK21
 // Description : Reading from a spinlock address will:
@@ -1491,7 +1493,7 @@
 #define SIO_SPINLOCK21_RESET  _u(0x00000000)
 #define SIO_SPINLOCK21_MSB    _u(31)
 #define SIO_SPINLOCK21_LSB    _u(0)
-#define SIO_SPINLOCK21_ACCESS "RO"
+#define SIO_SPINLOCK21_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK22
 // Description : Reading from a spinlock address will:
@@ -1507,7 +1509,7 @@
 #define SIO_SPINLOCK22_RESET  _u(0x00000000)
 #define SIO_SPINLOCK22_MSB    _u(31)
 #define SIO_SPINLOCK22_LSB    _u(0)
-#define SIO_SPINLOCK22_ACCESS "RO"
+#define SIO_SPINLOCK22_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK23
 // Description : Reading from a spinlock address will:
@@ -1523,7 +1525,7 @@
 #define SIO_SPINLOCK23_RESET  _u(0x00000000)
 #define SIO_SPINLOCK23_MSB    _u(31)
 #define SIO_SPINLOCK23_LSB    _u(0)
-#define SIO_SPINLOCK23_ACCESS "RO"
+#define SIO_SPINLOCK23_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK24
 // Description : Reading from a spinlock address will:
@@ -1539,7 +1541,7 @@
 #define SIO_SPINLOCK24_RESET  _u(0x00000000)
 #define SIO_SPINLOCK24_MSB    _u(31)
 #define SIO_SPINLOCK24_LSB    _u(0)
-#define SIO_SPINLOCK24_ACCESS "RO"
+#define SIO_SPINLOCK24_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK25
 // Description : Reading from a spinlock address will:
@@ -1555,7 +1557,7 @@
 #define SIO_SPINLOCK25_RESET  _u(0x00000000)
 #define SIO_SPINLOCK25_MSB    _u(31)
 #define SIO_SPINLOCK25_LSB    _u(0)
-#define SIO_SPINLOCK25_ACCESS "RO"
+#define SIO_SPINLOCK25_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK26
 // Description : Reading from a spinlock address will:
@@ -1571,7 +1573,7 @@
 #define SIO_SPINLOCK26_RESET  _u(0x00000000)
 #define SIO_SPINLOCK26_MSB    _u(31)
 #define SIO_SPINLOCK26_LSB    _u(0)
-#define SIO_SPINLOCK26_ACCESS "RO"
+#define SIO_SPINLOCK26_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK27
 // Description : Reading from a spinlock address will:
@@ -1587,7 +1589,7 @@
 #define SIO_SPINLOCK27_RESET  _u(0x00000000)
 #define SIO_SPINLOCK27_MSB    _u(31)
 #define SIO_SPINLOCK27_LSB    _u(0)
-#define SIO_SPINLOCK27_ACCESS "RO"
+#define SIO_SPINLOCK27_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK28
 // Description : Reading from a spinlock address will:
@@ -1603,7 +1605,7 @@
 #define SIO_SPINLOCK28_RESET  _u(0x00000000)
 #define SIO_SPINLOCK28_MSB    _u(31)
 #define SIO_SPINLOCK28_LSB    _u(0)
-#define SIO_SPINLOCK28_ACCESS "RO"
+#define SIO_SPINLOCK28_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK29
 // Description : Reading from a spinlock address will:
@@ -1619,7 +1621,7 @@
 #define SIO_SPINLOCK29_RESET  _u(0x00000000)
 #define SIO_SPINLOCK29_MSB    _u(31)
 #define SIO_SPINLOCK29_LSB    _u(0)
-#define SIO_SPINLOCK29_ACCESS "RO"
+#define SIO_SPINLOCK29_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK30
 // Description : Reading from a spinlock address will:
@@ -1635,7 +1637,7 @@
 #define SIO_SPINLOCK30_RESET  _u(0x00000000)
 #define SIO_SPINLOCK30_MSB    _u(31)
 #define SIO_SPINLOCK30_LSB    _u(0)
-#define SIO_SPINLOCK30_ACCESS "RO"
+#define SIO_SPINLOCK30_ACCESS "RW"
 // =============================================================================
 // Register    : SIO_SPINLOCK31
 // Description : Reading from a spinlock address will:
@@ -1651,6 +1653,7 @@
 #define SIO_SPINLOCK31_RESET  _u(0x00000000)
 #define SIO_SPINLOCK31_MSB    _u(31)
 #define SIO_SPINLOCK31_LSB    _u(0)
-#define SIO_SPINLOCK31_ACCESS "RO"
+#define SIO_SPINLOCK31_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_SIO_DEFINED
+#endif // _HARDWARE_REGS_SIO_H
+
diff --git a/lib/rp2040/hardware/regs/spi.h b/lib/pico-sdk/rp2040/hardware/regs/spi.h
similarity index 99%
rename from lib/rp2040/hardware/regs/spi.h
rename to lib/pico-sdk/rp2040/hardware/regs/spi.h
index 816e150..d9d3b14 100644
--- a/lib/rp2040/hardware/regs/spi.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/spi.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : SPI
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_SPI_DEFINED
-#define HARDWARE_REGS_SPI_DEFINED
+#ifndef _HARDWARE_REGS_SPI_H
+#define _HARDWARE_REGS_SPI_H
 // =============================================================================
 // Register    : SPI_SSPCR0
 // Description : Control register 0, SSPCR0 on page 3-4
@@ -518,4 +519,5 @@
 #define SPI_SSPPCELLID3_SSPPCELLID3_LSB    _u(0)
 #define SPI_SSPPCELLID3_SSPPCELLID3_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_SPI_DEFINED
+#endif // _HARDWARE_REGS_SPI_H
+
diff --git a/lib/rp2040/hardware/regs/ssi.h b/lib/pico-sdk/rp2040/hardware/regs/ssi.h
similarity index 95%
rename from lib/rp2040/hardware/regs/ssi.h
rename to lib/pico-sdk/rp2040/hardware/regs/ssi.h
index 67fddc0..7fe6aa6 100644
--- a/lib/rp2040/hardware/regs/ssi.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/ssi.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -69,8 +71,8 @@
 //                  - Serial clock phase – capture on first edge of serial-clock
 //                  directly after reset.
 // =============================================================================
-#ifndef HARDWARE_REGS_SSI_DEFINED
-#define HARDWARE_REGS_SSI_DEFINED
+#ifndef _HARDWARE_REGS_SSI_H
+#define _HARDWARE_REGS_SSI_H
 // =============================================================================
 // Register    : SSI_CTRLR0
 // Description : Control register 0
@@ -88,16 +90,15 @@
 // -----------------------------------------------------------------------------
 // Field       : SSI_CTRLR0_SPI_FRF
 // Description : SPI frame format
-//               0x0 -> Standard 1-bit SPI frame format; 1 bit per SCK,
-//               full-duplex
+//               0x0 -> Standard 1-bit SPI frame format; 1 bit per SCK, full-duplex
 //               0x1 -> Dual-SPI frame format; two bits per SCK, half-duplex
 //               0x2 -> Quad-SPI frame format; four bits per SCK, half-duplex
-#define SSI_CTRLR0_SPI_FRF_RESET      _u(0x0)
-#define SSI_CTRLR0_SPI_FRF_BITS       _u(0x00600000)
-#define SSI_CTRLR0_SPI_FRF_MSB        _u(22)
-#define SSI_CTRLR0_SPI_FRF_LSB        _u(21)
-#define SSI_CTRLR0_SPI_FRF_ACCESS     "RW"
-#define SSI_CTRLR0_SPI_FRF_VALUE_STD  _u(0x0)
+#define SSI_CTRLR0_SPI_FRF_RESET  _u(0x0)
+#define SSI_CTRLR0_SPI_FRF_BITS   _u(0x00600000)
+#define SSI_CTRLR0_SPI_FRF_MSB    _u(22)
+#define SSI_CTRLR0_SPI_FRF_LSB    _u(21)
+#define SSI_CTRLR0_SPI_FRF_ACCESS "RW"
+#define SSI_CTRLR0_SPI_FRF_VALUE_STD _u(0x0)
 #define SSI_CTRLR0_SPI_FRF_VALUE_DUAL _u(0x1)
 #define SSI_CTRLR0_SPI_FRF_VALUE_QUAD _u(0x2)
 // -----------------------------------------------------------------------------
@@ -140,16 +141,15 @@
 //               0x0 -> Both transmit and receive
 //               0x1 -> Transmit only (not for FRF == 0, standard SPI mode)
 //               0x2 -> Receive only (not for FRF == 0, standard SPI mode)
-//               0x3 -> EEPROM read mode (TX then RX; RX starts after control
-//               data TX'd)
-#define SSI_CTRLR0_TMOD_RESET             _u(0x0)
-#define SSI_CTRLR0_TMOD_BITS              _u(0x00000300)
-#define SSI_CTRLR0_TMOD_MSB               _u(9)
-#define SSI_CTRLR0_TMOD_LSB               _u(8)
-#define SSI_CTRLR0_TMOD_ACCESS            "RW"
-#define SSI_CTRLR0_TMOD_VALUE_TX_AND_RX   _u(0x0)
-#define SSI_CTRLR0_TMOD_VALUE_TX_ONLY     _u(0x1)
-#define SSI_CTRLR0_TMOD_VALUE_RX_ONLY     _u(0x2)
+//               0x3 -> EEPROM read mode (TX then RX; RX starts after control data TX'd)
+#define SSI_CTRLR0_TMOD_RESET  _u(0x0)
+#define SSI_CTRLR0_TMOD_BITS   _u(0x00000300)
+#define SSI_CTRLR0_TMOD_MSB    _u(9)
+#define SSI_CTRLR0_TMOD_LSB    _u(8)
+#define SSI_CTRLR0_TMOD_ACCESS "RW"
+#define SSI_CTRLR0_TMOD_VALUE_TX_AND_RX _u(0x0)
+#define SSI_CTRLR0_TMOD_VALUE_TX_ONLY _u(0x1)
+#define SSI_CTRLR0_TMOD_VALUE_RX_ONLY _u(0x2)
 #define SSI_CTRLR0_TMOD_VALUE_EEPROM_READ _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : SSI_CTRLR0_SCPOL
@@ -758,15 +758,15 @@
 //               0x1 -> 4-bit instruction
 //               0x2 -> 8-bit instruction
 //               0x3 -> 16-bit instruction
-#define SSI_SPI_CTRLR0_INST_L_RESET      _u(0x0)
-#define SSI_SPI_CTRLR0_INST_L_BITS       _u(0x00000300)
-#define SSI_SPI_CTRLR0_INST_L_MSB        _u(9)
-#define SSI_SPI_CTRLR0_INST_L_LSB        _u(8)
-#define SSI_SPI_CTRLR0_INST_L_ACCESS     "RW"
+#define SSI_SPI_CTRLR0_INST_L_RESET  _u(0x0)
+#define SSI_SPI_CTRLR0_INST_L_BITS   _u(0x00000300)
+#define SSI_SPI_CTRLR0_INST_L_MSB    _u(9)
+#define SSI_SPI_CTRLR0_INST_L_LSB    _u(8)
+#define SSI_SPI_CTRLR0_INST_L_ACCESS "RW"
 #define SSI_SPI_CTRLR0_INST_L_VALUE_NONE _u(0x0)
-#define SSI_SPI_CTRLR0_INST_L_VALUE_4B   _u(0x1)
-#define SSI_SPI_CTRLR0_INST_L_VALUE_8B   _u(0x2)
-#define SSI_SPI_CTRLR0_INST_L_VALUE_16B  _u(0x3)
+#define SSI_SPI_CTRLR0_INST_L_VALUE_4B _u(0x1)
+#define SSI_SPI_CTRLR0_INST_L_VALUE_8B _u(0x2)
+#define SSI_SPI_CTRLR0_INST_L_VALUE_16B _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : SSI_SPI_CTRLR0_ADDR_L
 // Description : Address length (0b-60b in 4b increments)
@@ -779,15 +779,13 @@
 // Field       : SSI_SPI_CTRLR0_TRANS_TYPE
 // Description : Address and instruction transfer format
 //               0x0 -> Command and address both in standard SPI frame format
-//               0x1 -> Command in standard SPI format, address in format
-//               specified by FRF
-//               0x2 -> Command and address both in format specified by FRF
-//               (e.g. Dual-SPI)
-#define SSI_SPI_CTRLR0_TRANS_TYPE_RESET      _u(0x0)
-#define SSI_SPI_CTRLR0_TRANS_TYPE_BITS       _u(0x00000003)
-#define SSI_SPI_CTRLR0_TRANS_TYPE_MSB        _u(1)
-#define SSI_SPI_CTRLR0_TRANS_TYPE_LSB        _u(0)
-#define SSI_SPI_CTRLR0_TRANS_TYPE_ACCESS     "RW"
+//               0x1 -> Command in standard SPI format, address in format specified by FRF
+//               0x2 -> Command and address both in format specified by FRF (e.g. Dual-SPI)
+#define SSI_SPI_CTRLR0_TRANS_TYPE_RESET  _u(0x0)
+#define SSI_SPI_CTRLR0_TRANS_TYPE_BITS   _u(0x00000003)
+#define SSI_SPI_CTRLR0_TRANS_TYPE_MSB    _u(1)
+#define SSI_SPI_CTRLR0_TRANS_TYPE_LSB    _u(0)
+#define SSI_SPI_CTRLR0_TRANS_TYPE_ACCESS "RW"
 #define SSI_SPI_CTRLR0_TRANS_TYPE_VALUE_1C1A _u(0x0)
 #define SSI_SPI_CTRLR0_TRANS_TYPE_VALUE_1C2A _u(0x1)
 #define SSI_SPI_CTRLR0_TRANS_TYPE_VALUE_2C2A _u(0x2)
@@ -806,4 +804,5 @@
 #define SSI_TXD_DRIVE_EDGE_TDE_LSB    _u(0)
 #define SSI_TXD_DRIVE_EDGE_TDE_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_SSI_DEFINED
+#endif // _HARDWARE_REGS_SSI_H
+
diff --git a/lib/rp2040/hardware/regs/syscfg.h b/lib/pico-sdk/rp2040/hardware/regs/syscfg.h
similarity index 97%
rename from lib/rp2040/hardware/regs/syscfg.h
rename to lib/pico-sdk/rp2040/hardware/regs/syscfg.h
index 2bf09e2..96672bb 100644
--- a/lib/rp2040/hardware/regs/syscfg.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/syscfg.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : Register block for various chip control signals
 // =============================================================================
-#ifndef HARDWARE_REGS_SYSCFG_DEFINED
-#define HARDWARE_REGS_SYSCFG_DEFINED
+#ifndef _HARDWARE_REGS_SYSCFG_H
+#define _HARDWARE_REGS_SYSCFG_H
 // =============================================================================
 // Register    : SYSCFG_PROC0_NMI_MASK
 // Description : Processor core 0 NMI source mask
@@ -191,7 +193,6 @@
 #define SYSCFG_MEMPOWERDOWN_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_ROM
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_ROM_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_ROM_BITS   _u(0x00000080)
 #define SYSCFG_MEMPOWERDOWN_ROM_MSB    _u(7)
@@ -199,7 +200,6 @@
 #define SYSCFG_MEMPOWERDOWN_ROM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_USB
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_USB_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_USB_BITS   _u(0x00000040)
 #define SYSCFG_MEMPOWERDOWN_USB_MSB    _u(6)
@@ -207,7 +207,6 @@
 #define SYSCFG_MEMPOWERDOWN_USB_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM5
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM5_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM5_BITS   _u(0x00000020)
 #define SYSCFG_MEMPOWERDOWN_SRAM5_MSB    _u(5)
@@ -215,7 +214,6 @@
 #define SYSCFG_MEMPOWERDOWN_SRAM5_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM4
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM4_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM4_BITS   _u(0x00000010)
 #define SYSCFG_MEMPOWERDOWN_SRAM4_MSB    _u(4)
@@ -223,7 +221,6 @@
 #define SYSCFG_MEMPOWERDOWN_SRAM4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM3
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM3_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM3_BITS   _u(0x00000008)
 #define SYSCFG_MEMPOWERDOWN_SRAM3_MSB    _u(3)
@@ -231,7 +228,6 @@
 #define SYSCFG_MEMPOWERDOWN_SRAM3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM2
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM2_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM2_BITS   _u(0x00000004)
 #define SYSCFG_MEMPOWERDOWN_SRAM2_MSB    _u(2)
@@ -239,7 +235,6 @@
 #define SYSCFG_MEMPOWERDOWN_SRAM2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM1
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM1_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM1_BITS   _u(0x00000002)
 #define SYSCFG_MEMPOWERDOWN_SRAM1_MSB    _u(1)
@@ -247,11 +242,11 @@
 #define SYSCFG_MEMPOWERDOWN_SRAM1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : SYSCFG_MEMPOWERDOWN_SRAM0
-// Description : None
 #define SYSCFG_MEMPOWERDOWN_SRAM0_RESET  _u(0x0)
 #define SYSCFG_MEMPOWERDOWN_SRAM0_BITS   _u(0x00000001)
 #define SYSCFG_MEMPOWERDOWN_SRAM0_MSB    _u(0)
 #define SYSCFG_MEMPOWERDOWN_SRAM0_LSB    _u(0)
 #define SYSCFG_MEMPOWERDOWN_SRAM0_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_SYSCFG_DEFINED
+#endif // _HARDWARE_REGS_SYSCFG_H
+
diff --git a/lib/rp2040/hardware/regs/sysinfo.h b/lib/pico-sdk/rp2040/hardware/regs/sysinfo.h
similarity index 90%
rename from lib/rp2040/hardware/regs/sysinfo.h
rename to lib/pico-sdk/rp2040/hardware/regs/sysinfo.h
index 2a46658..e0cf2ef 100644
--- a/lib/rp2040/hardware/regs/sysinfo.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/sysinfo.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : SYSINFO
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_SYSINFO_DEFINED
-#define HARDWARE_REGS_SYSINFO_DEFINED
+#ifndef _HARDWARE_REGS_SYSINFO_H
+#define _HARDWARE_REGS_SYSINFO_H
 // =============================================================================
 // Register    : SYSINFO_CHIP_ID
 // Description : JEDEC JEP-106 compliant chip identifier.
@@ -19,7 +20,6 @@
 #define SYSINFO_CHIP_ID_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : SYSINFO_CHIP_ID_REVISION
-// Description : None
 #define SYSINFO_CHIP_ID_REVISION_RESET  "-"
 #define SYSINFO_CHIP_ID_REVISION_BITS   _u(0xf0000000)
 #define SYSINFO_CHIP_ID_REVISION_MSB    _u(31)
@@ -27,7 +27,6 @@
 #define SYSINFO_CHIP_ID_REVISION_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : SYSINFO_CHIP_ID_PART
-// Description : None
 #define SYSINFO_CHIP_ID_PART_RESET  "-"
 #define SYSINFO_CHIP_ID_PART_BITS   _u(0x0ffff000)
 #define SYSINFO_CHIP_ID_PART_MSB    _u(27)
@@ -35,7 +34,6 @@
 #define SYSINFO_CHIP_ID_PART_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : SYSINFO_CHIP_ID_MANUFACTURER
-// Description : None
 #define SYSINFO_CHIP_ID_MANUFACTURER_RESET  "-"
 #define SYSINFO_CHIP_ID_MANUFACTURER_BITS   _u(0x00000fff)
 #define SYSINFO_CHIP_ID_MANUFACTURER_MSB    _u(11)
@@ -50,7 +48,6 @@
 #define SYSINFO_PLATFORM_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : SYSINFO_PLATFORM_ASIC
-// Description : None
 #define SYSINFO_PLATFORM_ASIC_RESET  _u(0x0)
 #define SYSINFO_PLATFORM_ASIC_BITS   _u(0x00000002)
 #define SYSINFO_PLATFORM_ASIC_MSB    _u(1)
@@ -58,7 +55,6 @@
 #define SYSINFO_PLATFORM_ASIC_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : SYSINFO_PLATFORM_FPGA
-// Description : None
 #define SYSINFO_PLATFORM_FPGA_RESET  _u(0x0)
 #define SYSINFO_PLATFORM_FPGA_BITS   _u(0x00000001)
 #define SYSINFO_PLATFORM_FPGA_MSB    _u(0)
@@ -67,11 +63,12 @@
 // =============================================================================
 // Register    : SYSINFO_GITREF_RP2040
 // Description : Git hash of the chip source. Used to identify chip version.
-#define SYSINFO_GITREF_RP2040_OFFSET _u(0x00000040)
+#define SYSINFO_GITREF_RP2040_OFFSET _u(0x00000010)
 #define SYSINFO_GITREF_RP2040_BITS   _u(0xffffffff)
 #define SYSINFO_GITREF_RP2040_RESET  "-"
 #define SYSINFO_GITREF_RP2040_MSB    _u(31)
 #define SYSINFO_GITREF_RP2040_LSB    _u(0)
 #define SYSINFO_GITREF_RP2040_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_SYSINFO_DEFINED
+#endif // _HARDWARE_REGS_SYSINFO_H
+
diff --git a/lib/rp2040/hardware/regs/tbman.h b/lib/pico-sdk/rp2040/hardware/regs/tbman.h
similarity index 88%
rename from lib/rp2040/hardware/regs/tbman.h
rename to lib/pico-sdk/rp2040/hardware/regs/tbman.h
index 4f8f641..49b627c 100644
--- a/lib/rp2040/hardware/regs/tbman.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/tbman.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -10,8 +12,8 @@
 // Description    : Testbench manager. Allows the programmer to know what
 //                  platform their software is running on.
 // =============================================================================
-#ifndef HARDWARE_REGS_TBMAN_DEFINED
-#define HARDWARE_REGS_TBMAN_DEFINED
+#ifndef _HARDWARE_REGS_TBMAN_H
+#define _HARDWARE_REGS_TBMAN_H
 // =============================================================================
 // Register    : TBMAN_PLATFORM
 // Description : Indicates the type of platform in use
@@ -35,4 +37,5 @@
 #define TBMAN_PLATFORM_ASIC_LSB    _u(0)
 #define TBMAN_PLATFORM_ASIC_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_TBMAN_DEFINED
+#endif // _HARDWARE_REGS_TBMAN_H
+
diff --git a/lib/rp2040/hardware/regs/timer.h b/lib/pico-sdk/rp2040/hardware/regs/timer.h
similarity index 96%
rename from lib/rp2040/hardware/regs/timer.h
rename to lib/pico-sdk/rp2040/hardware/regs/timer.h
index c3ef0c5..7cdcbb3 100644
--- a/lib/rp2040/hardware/regs/timer.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/timer.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -25,8 +27,8 @@
 //                  To clear the interrupt write a 1 to the corresponding
 //                  alarm_irq
 // =============================================================================
-#ifndef HARDWARE_REGS_TIMER_DEFINED
-#define HARDWARE_REGS_TIMER_DEFINED
+#ifndef _HARDWARE_REGS_TIMER_H
+#define _HARDWARE_REGS_TIMER_H
 // =============================================================================
 // Register    : TIMER_TIMEHW
 // Description : Write to bits 63:32 of time
@@ -184,7 +186,6 @@
 #define TIMER_INTR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTR_ALARM_3
-// Description : None
 #define TIMER_INTR_ALARM_3_RESET  _u(0x0)
 #define TIMER_INTR_ALARM_3_BITS   _u(0x00000008)
 #define TIMER_INTR_ALARM_3_MSB    _u(3)
@@ -192,7 +193,6 @@
 #define TIMER_INTR_ALARM_3_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTR_ALARM_2
-// Description : None
 #define TIMER_INTR_ALARM_2_RESET  _u(0x0)
 #define TIMER_INTR_ALARM_2_BITS   _u(0x00000004)
 #define TIMER_INTR_ALARM_2_MSB    _u(2)
@@ -200,7 +200,6 @@
 #define TIMER_INTR_ALARM_2_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTR_ALARM_1
-// Description : None
 #define TIMER_INTR_ALARM_1_RESET  _u(0x0)
 #define TIMER_INTR_ALARM_1_BITS   _u(0x00000002)
 #define TIMER_INTR_ALARM_1_MSB    _u(1)
@@ -208,7 +207,6 @@
 #define TIMER_INTR_ALARM_1_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTR_ALARM_0
-// Description : None
 #define TIMER_INTR_ALARM_0_RESET  _u(0x0)
 #define TIMER_INTR_ALARM_0_BITS   _u(0x00000001)
 #define TIMER_INTR_ALARM_0_MSB    _u(0)
@@ -222,7 +220,6 @@
 #define TIMER_INTE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTE_ALARM_3
-// Description : None
 #define TIMER_INTE_ALARM_3_RESET  _u(0x0)
 #define TIMER_INTE_ALARM_3_BITS   _u(0x00000008)
 #define TIMER_INTE_ALARM_3_MSB    _u(3)
@@ -230,7 +227,6 @@
 #define TIMER_INTE_ALARM_3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTE_ALARM_2
-// Description : None
 #define TIMER_INTE_ALARM_2_RESET  _u(0x0)
 #define TIMER_INTE_ALARM_2_BITS   _u(0x00000004)
 #define TIMER_INTE_ALARM_2_MSB    _u(2)
@@ -238,7 +234,6 @@
 #define TIMER_INTE_ALARM_2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTE_ALARM_1
-// Description : None
 #define TIMER_INTE_ALARM_1_RESET  _u(0x0)
 #define TIMER_INTE_ALARM_1_BITS   _u(0x00000002)
 #define TIMER_INTE_ALARM_1_MSB    _u(1)
@@ -246,7 +241,6 @@
 #define TIMER_INTE_ALARM_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTE_ALARM_0
-// Description : None
 #define TIMER_INTE_ALARM_0_RESET  _u(0x0)
 #define TIMER_INTE_ALARM_0_BITS   _u(0x00000001)
 #define TIMER_INTE_ALARM_0_MSB    _u(0)
@@ -260,7 +254,6 @@
 #define TIMER_INTF_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTF_ALARM_3
-// Description : None
 #define TIMER_INTF_ALARM_3_RESET  _u(0x0)
 #define TIMER_INTF_ALARM_3_BITS   _u(0x00000008)
 #define TIMER_INTF_ALARM_3_MSB    _u(3)
@@ -268,7 +261,6 @@
 #define TIMER_INTF_ALARM_3_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTF_ALARM_2
-// Description : None
 #define TIMER_INTF_ALARM_2_RESET  _u(0x0)
 #define TIMER_INTF_ALARM_2_BITS   _u(0x00000004)
 #define TIMER_INTF_ALARM_2_MSB    _u(2)
@@ -276,7 +268,6 @@
 #define TIMER_INTF_ALARM_2_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTF_ALARM_1
-// Description : None
 #define TIMER_INTF_ALARM_1_RESET  _u(0x0)
 #define TIMER_INTF_ALARM_1_BITS   _u(0x00000002)
 #define TIMER_INTF_ALARM_1_MSB    _u(1)
@@ -284,7 +275,6 @@
 #define TIMER_INTF_ALARM_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTF_ALARM_0
-// Description : None
 #define TIMER_INTF_ALARM_0_RESET  _u(0x0)
 #define TIMER_INTF_ALARM_0_BITS   _u(0x00000001)
 #define TIMER_INTF_ALARM_0_MSB    _u(0)
@@ -298,7 +288,6 @@
 #define TIMER_INTS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTS_ALARM_3
-// Description : None
 #define TIMER_INTS_ALARM_3_RESET  _u(0x0)
 #define TIMER_INTS_ALARM_3_BITS   _u(0x00000008)
 #define TIMER_INTS_ALARM_3_MSB    _u(3)
@@ -306,7 +295,6 @@
 #define TIMER_INTS_ALARM_3_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTS_ALARM_2
-// Description : None
 #define TIMER_INTS_ALARM_2_RESET  _u(0x0)
 #define TIMER_INTS_ALARM_2_BITS   _u(0x00000004)
 #define TIMER_INTS_ALARM_2_MSB    _u(2)
@@ -314,7 +302,6 @@
 #define TIMER_INTS_ALARM_2_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTS_ALARM_1
-// Description : None
 #define TIMER_INTS_ALARM_1_RESET  _u(0x0)
 #define TIMER_INTS_ALARM_1_BITS   _u(0x00000002)
 #define TIMER_INTS_ALARM_1_MSB    _u(1)
@@ -322,11 +309,11 @@
 #define TIMER_INTS_ALARM_1_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : TIMER_INTS_ALARM_0
-// Description : None
 #define TIMER_INTS_ALARM_0_RESET  _u(0x0)
 #define TIMER_INTS_ALARM_0_BITS   _u(0x00000001)
 #define TIMER_INTS_ALARM_0_MSB    _u(0)
 #define TIMER_INTS_ALARM_0_LSB    _u(0)
 #define TIMER_INTS_ALARM_0_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_TIMER_DEFINED
+#endif // _HARDWARE_REGS_TIMER_H
+
diff --git a/lib/rp2040/hardware/regs/uart.h b/lib/pico-sdk/rp2040/hardware/regs/uart.h
similarity index 99%
rename from lib/rp2040/hardware/regs/uart.h
rename to lib/pico-sdk/rp2040/hardware/regs/uart.h
index 409f598..0f7f17e 100644
--- a/lib/rp2040/hardware/regs/uart.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/uart.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : UART
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_UART_DEFINED
-#define HARDWARE_REGS_UART_DEFINED
+#ifndef _HARDWARE_REGS_UART_H
+#define _HARDWARE_REGS_UART_H
 // =============================================================================
 // Register    : UART_UARTDR
 // Description : Data Register, UARTDR
@@ -1145,4 +1146,5 @@
 #define UART_UARTPCELLID3_UARTPCELLID3_LSB    _u(0)
 #define UART_UARTPCELLID3_UARTPCELLID3_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_UART_DEFINED
+#endif // _HARDWARE_REGS_UART_H
+
diff --git a/lib/rp2040/hardware/regs/usb.h b/lib/pico-sdk/rp2040/hardware/regs/usb.h
similarity index 96%
rename from lib/rp2040/hardware/regs/usb.h
rename to lib/pico-sdk/rp2040/hardware/regs/usb.h
index 5461c29..291f65e 100644
--- a/lib/rp2040/hardware/regs/usb.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/usb.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : ahbl
 // Description    : USB FS/LS controller device registers
 // =============================================================================
-#ifndef HARDWARE_REGS_USB_DEFINED
-#define HARDWARE_REGS_USB_DEFINED
+#ifndef _HARDWARE_REGS_USB_H
+#define _HARDWARE_REGS_USB_H
 // =============================================================================
 // Register    : USB_ADDR_ENDP
 // Description : Device address and endpoint control
@@ -660,7 +662,6 @@
 #define USB_SOF_WR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_SOF_WR_COUNT
-// Description : None
 #define USB_SOF_WR_COUNT_RESET  _u(0x000)
 #define USB_SOF_WR_COUNT_BITS   _u(0x000007ff)
 #define USB_SOF_WR_COUNT_MSB    _u(10)
@@ -676,7 +677,6 @@
 #define USB_SOF_RD_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_SOF_RD_COUNT
-// Description : None
 #define USB_SOF_RD_COUNT_RESET  _u(0x000)
 #define USB_SOF_RD_COUNT_BITS   _u(0x000007ff)
 #define USB_SOF_RD_COUNT_MSB    _u(10)
@@ -1072,7 +1072,7 @@
 #define USB_INT_EP_CTRL_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_INT_EP_CTRL_INT_EP_ACTIVE
-// Description : Host: Enable interrupt endpoint 1 -> 15
+// Description : Host: Enable interrupt endpoint 1 => 15
 #define USB_INT_EP_CTRL_INT_EP_ACTIVE_RESET  _u(0x0000)
 #define USB_INT_EP_CTRL_INT_EP_ACTIVE_BITS   _u(0x0000fffe)
 #define USB_INT_EP_CTRL_INT_EP_ACTIVE_MSB    _u(15)
@@ -1090,7 +1090,6 @@
 #define USB_BUFF_STATUS_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP15_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP15_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP15_OUT_BITS   _u(0x80000000)
 #define USB_BUFF_STATUS_EP15_OUT_MSB    _u(31)
@@ -1098,7 +1097,6 @@
 #define USB_BUFF_STATUS_EP15_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP15_IN
-// Description : None
 #define USB_BUFF_STATUS_EP15_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP15_IN_BITS   _u(0x40000000)
 #define USB_BUFF_STATUS_EP15_IN_MSB    _u(30)
@@ -1106,7 +1104,6 @@
 #define USB_BUFF_STATUS_EP15_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP14_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP14_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP14_OUT_BITS   _u(0x20000000)
 #define USB_BUFF_STATUS_EP14_OUT_MSB    _u(29)
@@ -1114,7 +1111,6 @@
 #define USB_BUFF_STATUS_EP14_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP14_IN
-// Description : None
 #define USB_BUFF_STATUS_EP14_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP14_IN_BITS   _u(0x10000000)
 #define USB_BUFF_STATUS_EP14_IN_MSB    _u(28)
@@ -1122,7 +1118,6 @@
 #define USB_BUFF_STATUS_EP14_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP13_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP13_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP13_OUT_BITS   _u(0x08000000)
 #define USB_BUFF_STATUS_EP13_OUT_MSB    _u(27)
@@ -1130,7 +1125,6 @@
 #define USB_BUFF_STATUS_EP13_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP13_IN
-// Description : None
 #define USB_BUFF_STATUS_EP13_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP13_IN_BITS   _u(0x04000000)
 #define USB_BUFF_STATUS_EP13_IN_MSB    _u(26)
@@ -1138,7 +1132,6 @@
 #define USB_BUFF_STATUS_EP13_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP12_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP12_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP12_OUT_BITS   _u(0x02000000)
 #define USB_BUFF_STATUS_EP12_OUT_MSB    _u(25)
@@ -1146,7 +1139,6 @@
 #define USB_BUFF_STATUS_EP12_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP12_IN
-// Description : None
 #define USB_BUFF_STATUS_EP12_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP12_IN_BITS   _u(0x01000000)
 #define USB_BUFF_STATUS_EP12_IN_MSB    _u(24)
@@ -1154,7 +1146,6 @@
 #define USB_BUFF_STATUS_EP12_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP11_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP11_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP11_OUT_BITS   _u(0x00800000)
 #define USB_BUFF_STATUS_EP11_OUT_MSB    _u(23)
@@ -1162,7 +1153,6 @@
 #define USB_BUFF_STATUS_EP11_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP11_IN
-// Description : None
 #define USB_BUFF_STATUS_EP11_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP11_IN_BITS   _u(0x00400000)
 #define USB_BUFF_STATUS_EP11_IN_MSB    _u(22)
@@ -1170,7 +1160,6 @@
 #define USB_BUFF_STATUS_EP11_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP10_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP10_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP10_OUT_BITS   _u(0x00200000)
 #define USB_BUFF_STATUS_EP10_OUT_MSB    _u(21)
@@ -1178,7 +1167,6 @@
 #define USB_BUFF_STATUS_EP10_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP10_IN
-// Description : None
 #define USB_BUFF_STATUS_EP10_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP10_IN_BITS   _u(0x00100000)
 #define USB_BUFF_STATUS_EP10_IN_MSB    _u(20)
@@ -1186,7 +1174,6 @@
 #define USB_BUFF_STATUS_EP10_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP9_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP9_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP9_OUT_BITS   _u(0x00080000)
 #define USB_BUFF_STATUS_EP9_OUT_MSB    _u(19)
@@ -1194,7 +1181,6 @@
 #define USB_BUFF_STATUS_EP9_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP9_IN
-// Description : None
 #define USB_BUFF_STATUS_EP9_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP9_IN_BITS   _u(0x00040000)
 #define USB_BUFF_STATUS_EP9_IN_MSB    _u(18)
@@ -1202,7 +1188,6 @@
 #define USB_BUFF_STATUS_EP9_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP8_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP8_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP8_OUT_BITS   _u(0x00020000)
 #define USB_BUFF_STATUS_EP8_OUT_MSB    _u(17)
@@ -1210,7 +1195,6 @@
 #define USB_BUFF_STATUS_EP8_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP8_IN
-// Description : None
 #define USB_BUFF_STATUS_EP8_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP8_IN_BITS   _u(0x00010000)
 #define USB_BUFF_STATUS_EP8_IN_MSB    _u(16)
@@ -1218,7 +1202,6 @@
 #define USB_BUFF_STATUS_EP8_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP7_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP7_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP7_OUT_BITS   _u(0x00008000)
 #define USB_BUFF_STATUS_EP7_OUT_MSB    _u(15)
@@ -1226,7 +1209,6 @@
 #define USB_BUFF_STATUS_EP7_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP7_IN
-// Description : None
 #define USB_BUFF_STATUS_EP7_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP7_IN_BITS   _u(0x00004000)
 #define USB_BUFF_STATUS_EP7_IN_MSB    _u(14)
@@ -1234,7 +1216,6 @@
 #define USB_BUFF_STATUS_EP7_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP6_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP6_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP6_OUT_BITS   _u(0x00002000)
 #define USB_BUFF_STATUS_EP6_OUT_MSB    _u(13)
@@ -1242,7 +1223,6 @@
 #define USB_BUFF_STATUS_EP6_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP6_IN
-// Description : None
 #define USB_BUFF_STATUS_EP6_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP6_IN_BITS   _u(0x00001000)
 #define USB_BUFF_STATUS_EP6_IN_MSB    _u(12)
@@ -1250,7 +1230,6 @@
 #define USB_BUFF_STATUS_EP6_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP5_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP5_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP5_OUT_BITS   _u(0x00000800)
 #define USB_BUFF_STATUS_EP5_OUT_MSB    _u(11)
@@ -1258,7 +1237,6 @@
 #define USB_BUFF_STATUS_EP5_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP5_IN
-// Description : None
 #define USB_BUFF_STATUS_EP5_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP5_IN_BITS   _u(0x00000400)
 #define USB_BUFF_STATUS_EP5_IN_MSB    _u(10)
@@ -1266,7 +1244,6 @@
 #define USB_BUFF_STATUS_EP5_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP4_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP4_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP4_OUT_BITS   _u(0x00000200)
 #define USB_BUFF_STATUS_EP4_OUT_MSB    _u(9)
@@ -1274,7 +1251,6 @@
 #define USB_BUFF_STATUS_EP4_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP4_IN
-// Description : None
 #define USB_BUFF_STATUS_EP4_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP4_IN_BITS   _u(0x00000100)
 #define USB_BUFF_STATUS_EP4_IN_MSB    _u(8)
@@ -1282,7 +1258,6 @@
 #define USB_BUFF_STATUS_EP4_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP3_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP3_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP3_OUT_BITS   _u(0x00000080)
 #define USB_BUFF_STATUS_EP3_OUT_MSB    _u(7)
@@ -1290,7 +1265,6 @@
 #define USB_BUFF_STATUS_EP3_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP3_IN
-// Description : None
 #define USB_BUFF_STATUS_EP3_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP3_IN_BITS   _u(0x00000040)
 #define USB_BUFF_STATUS_EP3_IN_MSB    _u(6)
@@ -1298,7 +1272,6 @@
 #define USB_BUFF_STATUS_EP3_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP2_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP2_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP2_OUT_BITS   _u(0x00000020)
 #define USB_BUFF_STATUS_EP2_OUT_MSB    _u(5)
@@ -1306,7 +1279,6 @@
 #define USB_BUFF_STATUS_EP2_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP2_IN
-// Description : None
 #define USB_BUFF_STATUS_EP2_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP2_IN_BITS   _u(0x00000010)
 #define USB_BUFF_STATUS_EP2_IN_MSB    _u(4)
@@ -1314,7 +1286,6 @@
 #define USB_BUFF_STATUS_EP2_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP1_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP1_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP1_OUT_BITS   _u(0x00000008)
 #define USB_BUFF_STATUS_EP1_OUT_MSB    _u(3)
@@ -1322,7 +1293,6 @@
 #define USB_BUFF_STATUS_EP1_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP1_IN
-// Description : None
 #define USB_BUFF_STATUS_EP1_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP1_IN_BITS   _u(0x00000004)
 #define USB_BUFF_STATUS_EP1_IN_MSB    _u(2)
@@ -1330,7 +1300,6 @@
 #define USB_BUFF_STATUS_EP1_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP0_OUT
-// Description : None
 #define USB_BUFF_STATUS_EP0_OUT_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP0_OUT_BITS   _u(0x00000002)
 #define USB_BUFF_STATUS_EP0_OUT_MSB    _u(1)
@@ -1338,7 +1307,6 @@
 #define USB_BUFF_STATUS_EP0_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_STATUS_EP0_IN
-// Description : None
 #define USB_BUFF_STATUS_EP0_IN_RESET  _u(0x0)
 #define USB_BUFF_STATUS_EP0_IN_BITS   _u(0x00000001)
 #define USB_BUFF_STATUS_EP0_IN_MSB    _u(0)
@@ -1355,7 +1323,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_BITS   _u(0x80000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_MSB    _u(31)
@@ -1363,7 +1330,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_BITS   _u(0x40000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_MSB    _u(30)
@@ -1371,7 +1337,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_BITS   _u(0x20000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_MSB    _u(29)
@@ -1379,7 +1344,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_BITS   _u(0x10000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_MSB    _u(28)
@@ -1387,7 +1351,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_BITS   _u(0x08000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_MSB    _u(27)
@@ -1395,7 +1358,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_BITS   _u(0x04000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_MSB    _u(26)
@@ -1403,7 +1365,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_BITS   _u(0x02000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_MSB    _u(25)
@@ -1411,7 +1372,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_BITS   _u(0x01000000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_MSB    _u(24)
@@ -1419,7 +1379,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_BITS   _u(0x00800000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_MSB    _u(23)
@@ -1427,7 +1386,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_BITS   _u(0x00400000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_MSB    _u(22)
@@ -1435,7 +1393,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_BITS   _u(0x00200000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_MSB    _u(21)
@@ -1443,7 +1400,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_BITS   _u(0x00100000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_MSB    _u(20)
@@ -1451,7 +1407,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_BITS   _u(0x00080000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_MSB    _u(19)
@@ -1459,7 +1414,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_BITS   _u(0x00040000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_MSB    _u(18)
@@ -1467,7 +1421,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_BITS   _u(0x00020000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_MSB    _u(17)
@@ -1475,7 +1428,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_BITS   _u(0x00010000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_MSB    _u(16)
@@ -1483,7 +1435,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_BITS   _u(0x00008000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_MSB    _u(15)
@@ -1491,7 +1442,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_BITS   _u(0x00004000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_MSB    _u(14)
@@ -1499,7 +1449,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_BITS   _u(0x00002000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_MSB    _u(13)
@@ -1507,7 +1456,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_BITS   _u(0x00001000)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_MSB    _u(12)
@@ -1515,7 +1463,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_BITS   _u(0x00000800)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_MSB    _u(11)
@@ -1523,7 +1470,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_BITS   _u(0x00000400)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_MSB    _u(10)
@@ -1531,7 +1477,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_BITS   _u(0x00000200)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_MSB    _u(9)
@@ -1539,7 +1484,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_BITS   _u(0x00000100)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_MSB    _u(8)
@@ -1547,7 +1491,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_BITS   _u(0x00000080)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_MSB    _u(7)
@@ -1555,7 +1498,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_BITS   _u(0x00000040)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_MSB    _u(6)
@@ -1563,7 +1505,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_BITS   _u(0x00000020)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_MSB    _u(5)
@@ -1571,7 +1512,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_BITS   _u(0x00000010)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_MSB    _u(4)
@@ -1579,7 +1519,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_BITS   _u(0x00000008)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_MSB    _u(3)
@@ -1587,7 +1526,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_BITS   _u(0x00000004)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_MSB    _u(2)
@@ -1595,7 +1533,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_BITS   _u(0x00000002)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_MSB    _u(1)
@@ -1603,7 +1540,6 @@
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN
-// Description : None
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_RESET  _u(0x0)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_BITS   _u(0x00000001)
 #define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_MSB    _u(0)
@@ -1621,7 +1557,6 @@
 #define USB_EP_ABORT_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP15_OUT
-// Description : None
 #define USB_EP_ABORT_EP15_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP15_OUT_BITS   _u(0x80000000)
 #define USB_EP_ABORT_EP15_OUT_MSB    _u(31)
@@ -1629,7 +1564,6 @@
 #define USB_EP_ABORT_EP15_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP15_IN
-// Description : None
 #define USB_EP_ABORT_EP15_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP15_IN_BITS   _u(0x40000000)
 #define USB_EP_ABORT_EP15_IN_MSB    _u(30)
@@ -1637,7 +1571,6 @@
 #define USB_EP_ABORT_EP15_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP14_OUT
-// Description : None
 #define USB_EP_ABORT_EP14_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP14_OUT_BITS   _u(0x20000000)
 #define USB_EP_ABORT_EP14_OUT_MSB    _u(29)
@@ -1645,7 +1578,6 @@
 #define USB_EP_ABORT_EP14_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP14_IN
-// Description : None
 #define USB_EP_ABORT_EP14_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP14_IN_BITS   _u(0x10000000)
 #define USB_EP_ABORT_EP14_IN_MSB    _u(28)
@@ -1653,7 +1585,6 @@
 #define USB_EP_ABORT_EP14_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP13_OUT
-// Description : None
 #define USB_EP_ABORT_EP13_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP13_OUT_BITS   _u(0x08000000)
 #define USB_EP_ABORT_EP13_OUT_MSB    _u(27)
@@ -1661,7 +1592,6 @@
 #define USB_EP_ABORT_EP13_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP13_IN
-// Description : None
 #define USB_EP_ABORT_EP13_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP13_IN_BITS   _u(0x04000000)
 #define USB_EP_ABORT_EP13_IN_MSB    _u(26)
@@ -1669,7 +1599,6 @@
 #define USB_EP_ABORT_EP13_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP12_OUT
-// Description : None
 #define USB_EP_ABORT_EP12_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP12_OUT_BITS   _u(0x02000000)
 #define USB_EP_ABORT_EP12_OUT_MSB    _u(25)
@@ -1677,7 +1606,6 @@
 #define USB_EP_ABORT_EP12_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP12_IN
-// Description : None
 #define USB_EP_ABORT_EP12_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP12_IN_BITS   _u(0x01000000)
 #define USB_EP_ABORT_EP12_IN_MSB    _u(24)
@@ -1685,7 +1613,6 @@
 #define USB_EP_ABORT_EP12_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP11_OUT
-// Description : None
 #define USB_EP_ABORT_EP11_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP11_OUT_BITS   _u(0x00800000)
 #define USB_EP_ABORT_EP11_OUT_MSB    _u(23)
@@ -1693,7 +1620,6 @@
 #define USB_EP_ABORT_EP11_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP11_IN
-// Description : None
 #define USB_EP_ABORT_EP11_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP11_IN_BITS   _u(0x00400000)
 #define USB_EP_ABORT_EP11_IN_MSB    _u(22)
@@ -1701,7 +1627,6 @@
 #define USB_EP_ABORT_EP11_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP10_OUT
-// Description : None
 #define USB_EP_ABORT_EP10_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP10_OUT_BITS   _u(0x00200000)
 #define USB_EP_ABORT_EP10_OUT_MSB    _u(21)
@@ -1709,7 +1634,6 @@
 #define USB_EP_ABORT_EP10_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP10_IN
-// Description : None
 #define USB_EP_ABORT_EP10_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP10_IN_BITS   _u(0x00100000)
 #define USB_EP_ABORT_EP10_IN_MSB    _u(20)
@@ -1717,7 +1641,6 @@
 #define USB_EP_ABORT_EP10_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP9_OUT
-// Description : None
 #define USB_EP_ABORT_EP9_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP9_OUT_BITS   _u(0x00080000)
 #define USB_EP_ABORT_EP9_OUT_MSB    _u(19)
@@ -1725,7 +1648,6 @@
 #define USB_EP_ABORT_EP9_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP9_IN
-// Description : None
 #define USB_EP_ABORT_EP9_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP9_IN_BITS   _u(0x00040000)
 #define USB_EP_ABORT_EP9_IN_MSB    _u(18)
@@ -1733,7 +1655,6 @@
 #define USB_EP_ABORT_EP9_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP8_OUT
-// Description : None
 #define USB_EP_ABORT_EP8_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP8_OUT_BITS   _u(0x00020000)
 #define USB_EP_ABORT_EP8_OUT_MSB    _u(17)
@@ -1741,7 +1662,6 @@
 #define USB_EP_ABORT_EP8_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP8_IN
-// Description : None
 #define USB_EP_ABORT_EP8_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP8_IN_BITS   _u(0x00010000)
 #define USB_EP_ABORT_EP8_IN_MSB    _u(16)
@@ -1749,7 +1669,6 @@
 #define USB_EP_ABORT_EP8_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP7_OUT
-// Description : None
 #define USB_EP_ABORT_EP7_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP7_OUT_BITS   _u(0x00008000)
 #define USB_EP_ABORT_EP7_OUT_MSB    _u(15)
@@ -1757,7 +1676,6 @@
 #define USB_EP_ABORT_EP7_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP7_IN
-// Description : None
 #define USB_EP_ABORT_EP7_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP7_IN_BITS   _u(0x00004000)
 #define USB_EP_ABORT_EP7_IN_MSB    _u(14)
@@ -1765,7 +1683,6 @@
 #define USB_EP_ABORT_EP7_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP6_OUT
-// Description : None
 #define USB_EP_ABORT_EP6_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP6_OUT_BITS   _u(0x00002000)
 #define USB_EP_ABORT_EP6_OUT_MSB    _u(13)
@@ -1773,7 +1690,6 @@
 #define USB_EP_ABORT_EP6_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP6_IN
-// Description : None
 #define USB_EP_ABORT_EP6_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP6_IN_BITS   _u(0x00001000)
 #define USB_EP_ABORT_EP6_IN_MSB    _u(12)
@@ -1781,7 +1697,6 @@
 #define USB_EP_ABORT_EP6_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP5_OUT
-// Description : None
 #define USB_EP_ABORT_EP5_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP5_OUT_BITS   _u(0x00000800)
 #define USB_EP_ABORT_EP5_OUT_MSB    _u(11)
@@ -1789,7 +1704,6 @@
 #define USB_EP_ABORT_EP5_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP5_IN
-// Description : None
 #define USB_EP_ABORT_EP5_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP5_IN_BITS   _u(0x00000400)
 #define USB_EP_ABORT_EP5_IN_MSB    _u(10)
@@ -1797,7 +1711,6 @@
 #define USB_EP_ABORT_EP5_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP4_OUT
-// Description : None
 #define USB_EP_ABORT_EP4_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP4_OUT_BITS   _u(0x00000200)
 #define USB_EP_ABORT_EP4_OUT_MSB    _u(9)
@@ -1805,7 +1718,6 @@
 #define USB_EP_ABORT_EP4_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP4_IN
-// Description : None
 #define USB_EP_ABORT_EP4_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP4_IN_BITS   _u(0x00000100)
 #define USB_EP_ABORT_EP4_IN_MSB    _u(8)
@@ -1813,7 +1725,6 @@
 #define USB_EP_ABORT_EP4_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP3_OUT
-// Description : None
 #define USB_EP_ABORT_EP3_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP3_OUT_BITS   _u(0x00000080)
 #define USB_EP_ABORT_EP3_OUT_MSB    _u(7)
@@ -1821,7 +1732,6 @@
 #define USB_EP_ABORT_EP3_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP3_IN
-// Description : None
 #define USB_EP_ABORT_EP3_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP3_IN_BITS   _u(0x00000040)
 #define USB_EP_ABORT_EP3_IN_MSB    _u(6)
@@ -1829,7 +1739,6 @@
 #define USB_EP_ABORT_EP3_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP2_OUT
-// Description : None
 #define USB_EP_ABORT_EP2_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP2_OUT_BITS   _u(0x00000020)
 #define USB_EP_ABORT_EP2_OUT_MSB    _u(5)
@@ -1837,7 +1746,6 @@
 #define USB_EP_ABORT_EP2_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP2_IN
-// Description : None
 #define USB_EP_ABORT_EP2_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP2_IN_BITS   _u(0x00000010)
 #define USB_EP_ABORT_EP2_IN_MSB    _u(4)
@@ -1845,7 +1753,6 @@
 #define USB_EP_ABORT_EP2_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP1_OUT
-// Description : None
 #define USB_EP_ABORT_EP1_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP1_OUT_BITS   _u(0x00000008)
 #define USB_EP_ABORT_EP1_OUT_MSB    _u(3)
@@ -1853,7 +1760,6 @@
 #define USB_EP_ABORT_EP1_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP1_IN
-// Description : None
 #define USB_EP_ABORT_EP1_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP1_IN_BITS   _u(0x00000004)
 #define USB_EP_ABORT_EP1_IN_MSB    _u(2)
@@ -1861,7 +1767,6 @@
 #define USB_EP_ABORT_EP1_IN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP0_OUT
-// Description : None
 #define USB_EP_ABORT_EP0_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_EP0_OUT_BITS   _u(0x00000002)
 #define USB_EP_ABORT_EP0_OUT_MSB    _u(1)
@@ -1869,7 +1774,6 @@
 #define USB_EP_ABORT_EP0_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_EP0_IN
-// Description : None
 #define USB_EP_ABORT_EP0_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_EP0_IN_BITS   _u(0x00000001)
 #define USB_EP_ABORT_EP0_IN_MSB    _u(0)
@@ -1885,7 +1789,6 @@
 #define USB_EP_ABORT_DONE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP15_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP15_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP15_OUT_BITS   _u(0x80000000)
 #define USB_EP_ABORT_DONE_EP15_OUT_MSB    _u(31)
@@ -1893,7 +1796,6 @@
 #define USB_EP_ABORT_DONE_EP15_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP15_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP15_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP15_IN_BITS   _u(0x40000000)
 #define USB_EP_ABORT_DONE_EP15_IN_MSB    _u(30)
@@ -1901,7 +1803,6 @@
 #define USB_EP_ABORT_DONE_EP15_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP14_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP14_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP14_OUT_BITS   _u(0x20000000)
 #define USB_EP_ABORT_DONE_EP14_OUT_MSB    _u(29)
@@ -1909,7 +1810,6 @@
 #define USB_EP_ABORT_DONE_EP14_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP14_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP14_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP14_IN_BITS   _u(0x10000000)
 #define USB_EP_ABORT_DONE_EP14_IN_MSB    _u(28)
@@ -1917,7 +1817,6 @@
 #define USB_EP_ABORT_DONE_EP14_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP13_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP13_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP13_OUT_BITS   _u(0x08000000)
 #define USB_EP_ABORT_DONE_EP13_OUT_MSB    _u(27)
@@ -1925,7 +1824,6 @@
 #define USB_EP_ABORT_DONE_EP13_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP13_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP13_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP13_IN_BITS   _u(0x04000000)
 #define USB_EP_ABORT_DONE_EP13_IN_MSB    _u(26)
@@ -1933,7 +1831,6 @@
 #define USB_EP_ABORT_DONE_EP13_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP12_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP12_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP12_OUT_BITS   _u(0x02000000)
 #define USB_EP_ABORT_DONE_EP12_OUT_MSB    _u(25)
@@ -1941,7 +1838,6 @@
 #define USB_EP_ABORT_DONE_EP12_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP12_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP12_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP12_IN_BITS   _u(0x01000000)
 #define USB_EP_ABORT_DONE_EP12_IN_MSB    _u(24)
@@ -1949,7 +1845,6 @@
 #define USB_EP_ABORT_DONE_EP12_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP11_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP11_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP11_OUT_BITS   _u(0x00800000)
 #define USB_EP_ABORT_DONE_EP11_OUT_MSB    _u(23)
@@ -1957,7 +1852,6 @@
 #define USB_EP_ABORT_DONE_EP11_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP11_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP11_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP11_IN_BITS   _u(0x00400000)
 #define USB_EP_ABORT_DONE_EP11_IN_MSB    _u(22)
@@ -1965,7 +1859,6 @@
 #define USB_EP_ABORT_DONE_EP11_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP10_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP10_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP10_OUT_BITS   _u(0x00200000)
 #define USB_EP_ABORT_DONE_EP10_OUT_MSB    _u(21)
@@ -1973,7 +1866,6 @@
 #define USB_EP_ABORT_DONE_EP10_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP10_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP10_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP10_IN_BITS   _u(0x00100000)
 #define USB_EP_ABORT_DONE_EP10_IN_MSB    _u(20)
@@ -1981,7 +1873,6 @@
 #define USB_EP_ABORT_DONE_EP10_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP9_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP9_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP9_OUT_BITS   _u(0x00080000)
 #define USB_EP_ABORT_DONE_EP9_OUT_MSB    _u(19)
@@ -1989,7 +1880,6 @@
 #define USB_EP_ABORT_DONE_EP9_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP9_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP9_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP9_IN_BITS   _u(0x00040000)
 #define USB_EP_ABORT_DONE_EP9_IN_MSB    _u(18)
@@ -1997,7 +1887,6 @@
 #define USB_EP_ABORT_DONE_EP9_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP8_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP8_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP8_OUT_BITS   _u(0x00020000)
 #define USB_EP_ABORT_DONE_EP8_OUT_MSB    _u(17)
@@ -2005,7 +1894,6 @@
 #define USB_EP_ABORT_DONE_EP8_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP8_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP8_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP8_IN_BITS   _u(0x00010000)
 #define USB_EP_ABORT_DONE_EP8_IN_MSB    _u(16)
@@ -2013,7 +1901,6 @@
 #define USB_EP_ABORT_DONE_EP8_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP7_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP7_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP7_OUT_BITS   _u(0x00008000)
 #define USB_EP_ABORT_DONE_EP7_OUT_MSB    _u(15)
@@ -2021,7 +1908,6 @@
 #define USB_EP_ABORT_DONE_EP7_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP7_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP7_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP7_IN_BITS   _u(0x00004000)
 #define USB_EP_ABORT_DONE_EP7_IN_MSB    _u(14)
@@ -2029,7 +1915,6 @@
 #define USB_EP_ABORT_DONE_EP7_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP6_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP6_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP6_OUT_BITS   _u(0x00002000)
 #define USB_EP_ABORT_DONE_EP6_OUT_MSB    _u(13)
@@ -2037,7 +1922,6 @@
 #define USB_EP_ABORT_DONE_EP6_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP6_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP6_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP6_IN_BITS   _u(0x00001000)
 #define USB_EP_ABORT_DONE_EP6_IN_MSB    _u(12)
@@ -2045,7 +1929,6 @@
 #define USB_EP_ABORT_DONE_EP6_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP5_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP5_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP5_OUT_BITS   _u(0x00000800)
 #define USB_EP_ABORT_DONE_EP5_OUT_MSB    _u(11)
@@ -2053,7 +1936,6 @@
 #define USB_EP_ABORT_DONE_EP5_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP5_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP5_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP5_IN_BITS   _u(0x00000400)
 #define USB_EP_ABORT_DONE_EP5_IN_MSB    _u(10)
@@ -2061,7 +1943,6 @@
 #define USB_EP_ABORT_DONE_EP5_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP4_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP4_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP4_OUT_BITS   _u(0x00000200)
 #define USB_EP_ABORT_DONE_EP4_OUT_MSB    _u(9)
@@ -2069,7 +1950,6 @@
 #define USB_EP_ABORT_DONE_EP4_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP4_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP4_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP4_IN_BITS   _u(0x00000100)
 #define USB_EP_ABORT_DONE_EP4_IN_MSB    _u(8)
@@ -2077,7 +1957,6 @@
 #define USB_EP_ABORT_DONE_EP4_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP3_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP3_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP3_OUT_BITS   _u(0x00000080)
 #define USB_EP_ABORT_DONE_EP3_OUT_MSB    _u(7)
@@ -2085,7 +1964,6 @@
 #define USB_EP_ABORT_DONE_EP3_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP3_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP3_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP3_IN_BITS   _u(0x00000040)
 #define USB_EP_ABORT_DONE_EP3_IN_MSB    _u(6)
@@ -2093,7 +1971,6 @@
 #define USB_EP_ABORT_DONE_EP3_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP2_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP2_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP2_OUT_BITS   _u(0x00000020)
 #define USB_EP_ABORT_DONE_EP2_OUT_MSB    _u(5)
@@ -2101,7 +1978,6 @@
 #define USB_EP_ABORT_DONE_EP2_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP2_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP2_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP2_IN_BITS   _u(0x00000010)
 #define USB_EP_ABORT_DONE_EP2_IN_MSB    _u(4)
@@ -2109,7 +1985,6 @@
 #define USB_EP_ABORT_DONE_EP2_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP1_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP1_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP1_OUT_BITS   _u(0x00000008)
 #define USB_EP_ABORT_DONE_EP1_OUT_MSB    _u(3)
@@ -2117,7 +1992,6 @@
 #define USB_EP_ABORT_DONE_EP1_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP1_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP1_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP1_IN_BITS   _u(0x00000004)
 #define USB_EP_ABORT_DONE_EP1_IN_MSB    _u(2)
@@ -2125,7 +1999,6 @@
 #define USB_EP_ABORT_DONE_EP1_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP0_OUT
-// Description : None
 #define USB_EP_ABORT_DONE_EP0_OUT_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP0_OUT_BITS   _u(0x00000002)
 #define USB_EP_ABORT_DONE_EP0_OUT_MSB    _u(1)
@@ -2133,7 +2006,6 @@
 #define USB_EP_ABORT_DONE_EP0_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_ABORT_DONE_EP0_IN
-// Description : None
 #define USB_EP_ABORT_DONE_EP0_IN_RESET  _u(0x0)
 #define USB_EP_ABORT_DONE_EP0_IN_BITS   _u(0x00000001)
 #define USB_EP_ABORT_DONE_EP0_IN_MSB    _u(0)
@@ -2151,7 +2023,6 @@
 #define USB_EP_STALL_ARM_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STALL_ARM_EP0_OUT
-// Description : None
 #define USB_EP_STALL_ARM_EP0_OUT_RESET  _u(0x0)
 #define USB_EP_STALL_ARM_EP0_OUT_BITS   _u(0x00000002)
 #define USB_EP_STALL_ARM_EP0_OUT_MSB    _u(1)
@@ -2159,7 +2030,6 @@
 #define USB_EP_STALL_ARM_EP0_OUT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STALL_ARM_EP0_IN
-// Description : None
 #define USB_EP_STALL_ARM_EP0_IN_RESET  _u(0x0)
 #define USB_EP_STALL_ARM_EP0_IN_BITS   _u(0x00000001)
 #define USB_EP_STALL_ARM_EP0_IN_MSB    _u(0)
@@ -2198,7 +2068,6 @@
 #define USB_EP_STATUS_STALL_NAK_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP15_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP15_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP15_OUT_BITS   _u(0x80000000)
 #define USB_EP_STATUS_STALL_NAK_EP15_OUT_MSB    _u(31)
@@ -2206,7 +2075,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP15_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP15_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP15_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP15_IN_BITS   _u(0x40000000)
 #define USB_EP_STATUS_STALL_NAK_EP15_IN_MSB    _u(30)
@@ -2214,7 +2082,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP15_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP14_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP14_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP14_OUT_BITS   _u(0x20000000)
 #define USB_EP_STATUS_STALL_NAK_EP14_OUT_MSB    _u(29)
@@ -2222,7 +2089,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP14_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP14_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP14_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP14_IN_BITS   _u(0x10000000)
 #define USB_EP_STATUS_STALL_NAK_EP14_IN_MSB    _u(28)
@@ -2230,7 +2096,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP14_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP13_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP13_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP13_OUT_BITS   _u(0x08000000)
 #define USB_EP_STATUS_STALL_NAK_EP13_OUT_MSB    _u(27)
@@ -2238,7 +2103,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP13_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP13_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP13_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP13_IN_BITS   _u(0x04000000)
 #define USB_EP_STATUS_STALL_NAK_EP13_IN_MSB    _u(26)
@@ -2246,7 +2110,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP13_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP12_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP12_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP12_OUT_BITS   _u(0x02000000)
 #define USB_EP_STATUS_STALL_NAK_EP12_OUT_MSB    _u(25)
@@ -2254,7 +2117,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP12_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP12_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP12_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP12_IN_BITS   _u(0x01000000)
 #define USB_EP_STATUS_STALL_NAK_EP12_IN_MSB    _u(24)
@@ -2262,7 +2124,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP12_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP11_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP11_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP11_OUT_BITS   _u(0x00800000)
 #define USB_EP_STATUS_STALL_NAK_EP11_OUT_MSB    _u(23)
@@ -2270,7 +2131,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP11_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP11_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP11_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP11_IN_BITS   _u(0x00400000)
 #define USB_EP_STATUS_STALL_NAK_EP11_IN_MSB    _u(22)
@@ -2278,7 +2138,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP11_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP10_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP10_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP10_OUT_BITS   _u(0x00200000)
 #define USB_EP_STATUS_STALL_NAK_EP10_OUT_MSB    _u(21)
@@ -2286,7 +2145,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP10_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP10_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP10_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP10_IN_BITS   _u(0x00100000)
 #define USB_EP_STATUS_STALL_NAK_EP10_IN_MSB    _u(20)
@@ -2294,7 +2152,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP10_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP9_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP9_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP9_OUT_BITS   _u(0x00080000)
 #define USB_EP_STATUS_STALL_NAK_EP9_OUT_MSB    _u(19)
@@ -2302,7 +2159,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP9_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP9_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP9_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP9_IN_BITS   _u(0x00040000)
 #define USB_EP_STATUS_STALL_NAK_EP9_IN_MSB    _u(18)
@@ -2310,7 +2166,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP9_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP8_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP8_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP8_OUT_BITS   _u(0x00020000)
 #define USB_EP_STATUS_STALL_NAK_EP8_OUT_MSB    _u(17)
@@ -2318,7 +2173,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP8_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP8_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP8_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP8_IN_BITS   _u(0x00010000)
 #define USB_EP_STATUS_STALL_NAK_EP8_IN_MSB    _u(16)
@@ -2326,7 +2180,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP8_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP7_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP7_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP7_OUT_BITS   _u(0x00008000)
 #define USB_EP_STATUS_STALL_NAK_EP7_OUT_MSB    _u(15)
@@ -2334,7 +2187,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP7_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP7_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP7_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP7_IN_BITS   _u(0x00004000)
 #define USB_EP_STATUS_STALL_NAK_EP7_IN_MSB    _u(14)
@@ -2342,7 +2194,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP7_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP6_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP6_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP6_OUT_BITS   _u(0x00002000)
 #define USB_EP_STATUS_STALL_NAK_EP6_OUT_MSB    _u(13)
@@ -2350,7 +2201,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP6_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP6_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP6_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP6_IN_BITS   _u(0x00001000)
 #define USB_EP_STATUS_STALL_NAK_EP6_IN_MSB    _u(12)
@@ -2358,7 +2208,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP6_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP5_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP5_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP5_OUT_BITS   _u(0x00000800)
 #define USB_EP_STATUS_STALL_NAK_EP5_OUT_MSB    _u(11)
@@ -2366,7 +2215,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP5_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP5_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP5_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP5_IN_BITS   _u(0x00000400)
 #define USB_EP_STATUS_STALL_NAK_EP5_IN_MSB    _u(10)
@@ -2374,7 +2222,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP5_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP4_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP4_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP4_OUT_BITS   _u(0x00000200)
 #define USB_EP_STATUS_STALL_NAK_EP4_OUT_MSB    _u(9)
@@ -2382,7 +2229,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP4_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP4_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP4_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP4_IN_BITS   _u(0x00000100)
 #define USB_EP_STATUS_STALL_NAK_EP4_IN_MSB    _u(8)
@@ -2390,7 +2236,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP4_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP3_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP3_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP3_OUT_BITS   _u(0x00000080)
 #define USB_EP_STATUS_STALL_NAK_EP3_OUT_MSB    _u(7)
@@ -2398,7 +2243,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP3_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP3_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP3_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP3_IN_BITS   _u(0x00000040)
 #define USB_EP_STATUS_STALL_NAK_EP3_IN_MSB    _u(6)
@@ -2406,7 +2250,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP3_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP2_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP2_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP2_OUT_BITS   _u(0x00000020)
 #define USB_EP_STATUS_STALL_NAK_EP2_OUT_MSB    _u(5)
@@ -2414,7 +2257,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP2_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP2_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP2_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP2_IN_BITS   _u(0x00000010)
 #define USB_EP_STATUS_STALL_NAK_EP2_IN_MSB    _u(4)
@@ -2422,7 +2264,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP2_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP1_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP1_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP1_OUT_BITS   _u(0x00000008)
 #define USB_EP_STATUS_STALL_NAK_EP1_OUT_MSB    _u(3)
@@ -2430,7 +2271,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP1_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP1_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP1_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP1_IN_BITS   _u(0x00000004)
 #define USB_EP_STATUS_STALL_NAK_EP1_IN_MSB    _u(2)
@@ -2438,7 +2278,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP1_IN_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP0_OUT
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP0_OUT_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP0_OUT_BITS   _u(0x00000002)
 #define USB_EP_STATUS_STALL_NAK_EP0_OUT_MSB    _u(1)
@@ -2446,7 +2285,6 @@
 #define USB_EP_STATUS_STALL_NAK_EP0_OUT_ACCESS "WC"
 // -----------------------------------------------------------------------------
 // Field       : USB_EP_STATUS_STALL_NAK_EP0_IN
-// Description : None
 #define USB_EP_STATUS_STALL_NAK_EP0_IN_RESET  _u(0x0)
 #define USB_EP_STATUS_STALL_NAK_EP0_IN_BITS   _u(0x00000001)
 #define USB_EP_STATUS_STALL_NAK_EP0_IN_MSB    _u(0)
@@ -2461,7 +2299,6 @@
 #define USB_USB_MUXING_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_MUXING_SOFTCON
-// Description : None
 #define USB_USB_MUXING_SOFTCON_RESET  _u(0x0)
 #define USB_USB_MUXING_SOFTCON_BITS   _u(0x00000008)
 #define USB_USB_MUXING_SOFTCON_MSB    _u(3)
@@ -2469,7 +2306,6 @@
 #define USB_USB_MUXING_SOFTCON_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_MUXING_TO_DIGITAL_PAD
-// Description : None
 #define USB_USB_MUXING_TO_DIGITAL_PAD_RESET  _u(0x0)
 #define USB_USB_MUXING_TO_DIGITAL_PAD_BITS   _u(0x00000004)
 #define USB_USB_MUXING_TO_DIGITAL_PAD_MSB    _u(2)
@@ -2477,7 +2313,6 @@
 #define USB_USB_MUXING_TO_DIGITAL_PAD_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_MUXING_TO_EXTPHY
-// Description : None
 #define USB_USB_MUXING_TO_EXTPHY_RESET  _u(0x0)
 #define USB_USB_MUXING_TO_EXTPHY_BITS   _u(0x00000002)
 #define USB_USB_MUXING_TO_EXTPHY_MSB    _u(1)
@@ -2485,7 +2320,6 @@
 #define USB_USB_MUXING_TO_EXTPHY_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_MUXING_TO_PHY
-// Description : None
 #define USB_USB_MUXING_TO_PHY_RESET  _u(0x0)
 #define USB_USB_MUXING_TO_PHY_BITS   _u(0x00000001)
 #define USB_USB_MUXING_TO_PHY_MSB    _u(0)
@@ -2495,14 +2329,13 @@
 // Register    : USB_USB_PWR
 // Description : Overrides for the power signals in the event that the VBUS
 //               signals are not hooked up to GPIO. Set the value of the
-//               override and then the override enable to switch over to the
+//               override and then the override enable so switch over to the
 //               override value.
 #define USB_USB_PWR_OFFSET _u(0x00000078)
 #define USB_USB_PWR_BITS   _u(0x0000003f)
 #define USB_USB_PWR_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_OVERCURR_DETECT_EN
-// Description : None
 #define USB_USB_PWR_OVERCURR_DETECT_EN_RESET  _u(0x0)
 #define USB_USB_PWR_OVERCURR_DETECT_EN_BITS   _u(0x00000020)
 #define USB_USB_PWR_OVERCURR_DETECT_EN_MSB    _u(5)
@@ -2510,7 +2343,6 @@
 #define USB_USB_PWR_OVERCURR_DETECT_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_OVERCURR_DETECT
-// Description : None
 #define USB_USB_PWR_OVERCURR_DETECT_RESET  _u(0x0)
 #define USB_USB_PWR_OVERCURR_DETECT_BITS   _u(0x00000010)
 #define USB_USB_PWR_OVERCURR_DETECT_MSB    _u(4)
@@ -2518,7 +2350,6 @@
 #define USB_USB_PWR_OVERCURR_DETECT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN
-// Description : None
 #define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_BITS   _u(0x00000008)
 #define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_MSB    _u(3)
@@ -2526,7 +2357,6 @@
 #define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_VBUS_DETECT
-// Description : None
 #define USB_USB_PWR_VBUS_DETECT_RESET  _u(0x0)
 #define USB_USB_PWR_VBUS_DETECT_BITS   _u(0x00000004)
 #define USB_USB_PWR_VBUS_DETECT_MSB    _u(2)
@@ -2534,7 +2364,6 @@
 #define USB_USB_PWR_VBUS_DETECT_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_VBUS_EN_OVERRIDE_EN
-// Description : None
 #define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_BITS   _u(0x00000002)
 #define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_MSB    _u(1)
@@ -2542,7 +2371,6 @@
 #define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USB_PWR_VBUS_EN
-// Description : None
 #define USB_USB_PWR_VBUS_EN_RESET  _u(0x0)
 #define USB_USB_PWR_VBUS_EN_BITS   _u(0x00000001)
 #define USB_USB_PWR_VBUS_EN_MSB    _u(0)
@@ -2550,15 +2378,17 @@
 #define USB_USB_PWR_VBUS_EN_ACCESS "RW"
 // =============================================================================
 // Register    : USB_USBPHY_DIRECT
-// Description : This register allows for direct control of the USB phy. Use in
-//               conjunction with usbphy_direct_override register to enable each
-//               override bit.
+// Description : Note that most functions are driven directly from usb_fsls
+//               controller.  This register allows more detailed control/status
+//               from the USB PHY. Useful for debug but not expected to be used
+//               in normal operation
+//               Use in conjunction with usbphy_direct_override register
 #define USB_USBPHY_DIRECT_OFFSET _u(0x0000007c)
 #define USB_USBPHY_DIRECT_BITS   _u(0x007fff77)
 #define USB_USBPHY_DIRECT_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DM_OVV
-// Description : DM over voltage
+// Description : Status bit from USB PHY
 #define USB_USBPHY_DIRECT_DM_OVV_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DM_OVV_BITS   _u(0x00400000)
 #define USB_USBPHY_DIRECT_DM_OVV_MSB    _u(22)
@@ -2566,7 +2396,7 @@
 #define USB_USBPHY_DIRECT_DM_OVV_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DP_OVV
-// Description : DP over voltage
+// Description : Status bit from USB PHY
 #define USB_USBPHY_DIRECT_DP_OVV_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DP_OVV_BITS   _u(0x00200000)
 #define USB_USBPHY_DIRECT_DP_OVV_MSB    _u(21)
@@ -2574,7 +2404,7 @@
 #define USB_USBPHY_DIRECT_DP_OVV_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DM_OVCN
-// Description : DM overcurrent
+// Description : Status bit from USB PHY
 #define USB_USBPHY_DIRECT_DM_OVCN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DM_OVCN_BITS   _u(0x00100000)
 #define USB_USBPHY_DIRECT_DM_OVCN_MSB    _u(20)
@@ -2582,7 +2412,7 @@
 #define USB_USBPHY_DIRECT_DM_OVCN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DP_OVCN
-// Description : DP overcurrent
+// Description : Status bit from USB PHY
 #define USB_USBPHY_DIRECT_DP_OVCN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DP_OVCN_BITS   _u(0x00080000)
 #define USB_USBPHY_DIRECT_DP_OVCN_MSB    _u(19)
@@ -2590,7 +2420,8 @@
 #define USB_USBPHY_DIRECT_DP_OVCN_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_RX_DM
-// Description : DPM pin state
+// Description : Status bit from USB PHY
+//               DPM pin state
 #define USB_USBPHY_DIRECT_RX_DM_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_RX_DM_BITS   _u(0x00040000)
 #define USB_USBPHY_DIRECT_RX_DM_MSB    _u(18)
@@ -2598,7 +2429,8 @@
 #define USB_USBPHY_DIRECT_RX_DM_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_RX_DP
-// Description : DPP pin state
+// Description : Status bit from USB PHY
+//               DPP pin state
 #define USB_USBPHY_DIRECT_RX_DP_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_RX_DP_BITS   _u(0x00020000)
 #define USB_USBPHY_DIRECT_RX_DP_MSB    _u(17)
@@ -2606,7 +2438,8 @@
 #define USB_USBPHY_DIRECT_RX_DP_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_RX_DD
-// Description : Differential RX
+// Description : Status bit from USB PHY
+//               RX Diff data
 #define USB_USBPHY_DIRECT_RX_DD_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_RX_DD_BITS   _u(0x00010000)
 #define USB_USBPHY_DIRECT_RX_DD_MSB    _u(16)
@@ -2614,9 +2447,6 @@
 #define USB_USBPHY_DIRECT_RX_DD_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_DIFFMODE
-// Description : TX_DIFFMODE=0: Single ended mode
-//               TX_DIFFMODE=1: Differential drive mode (TX_DM, TX_DM_OE
-//               ignored)
 #define USB_USBPHY_DIRECT_TX_DIFFMODE_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_DIFFMODE_BITS   _u(0x00008000)
 #define USB_USBPHY_DIRECT_TX_DIFFMODE_MSB    _u(15)
@@ -2624,8 +2454,6 @@
 #define USB_USBPHY_DIRECT_TX_DIFFMODE_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_FSSLEW
-// Description : TX_FSSLEW=0: Low speed slew rate
-//               TX_FSSLEW=1: Full speed slew rate
 #define USB_USBPHY_DIRECT_TX_FSSLEW_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_FSSLEW_BITS   _u(0x00004000)
 #define USB_USBPHY_DIRECT_TX_FSSLEW_MSB    _u(14)
@@ -2633,8 +2461,6 @@
 #define USB_USBPHY_DIRECT_TX_FSSLEW_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_PD
-// Description : TX power down override (if override enable is set). 1 = powered
-//               down.
 #define USB_USBPHY_DIRECT_TX_PD_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_PD_BITS   _u(0x00002000)
 #define USB_USBPHY_DIRECT_TX_PD_MSB    _u(13)
@@ -2642,8 +2468,6 @@
 #define USB_USBPHY_DIRECT_TX_PD_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_RX_PD
-// Description : RX power down override (if override enable is set). 1 = powered
-//               down.
 #define USB_USBPHY_DIRECT_RX_PD_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_RX_PD_BITS   _u(0x00001000)
 #define USB_USBPHY_DIRECT_RX_PD_MSB    _u(12)
@@ -2651,8 +2475,11 @@
 #define USB_USBPHY_DIRECT_RX_PD_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_DM
-// Description : Output data. TX_DIFFMODE=1, Ignored
-//               TX_DIFFMODE=0, Drives DPM only. TX_DM_OE=1 to enable drive.
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               TX_SEMODE=0, Ignored
+//               TX_SEMODE=1, Drives DPM only. TX_DM_OE=1 to enable drive.
 //               DPM=TX_DM
 #define USB_USBPHY_DIRECT_TX_DM_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_DM_BITS   _u(0x00000800)
@@ -2661,9 +2488,12 @@
 #define USB_USBPHY_DIRECT_TX_DM_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_DP
-// Description : Output data. If TX_DIFFMODE=1, Drives DPP/DPM diff pair.
-//               TX_DP_OE=1 to enable drive. DPP=TX_DP, DPM=~TX_DP
-//               If TX_DIFFMODE=0, Drives DPP only. TX_DP_OE=1 to enable drive.
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               TX_SEMODE=0, Drives DPP/DPM diff pair. TX_DP_OE=1 to enable
+//               drive. DPP=TX_DP, DPM=~TX_DP
+//               TX_SEMODE=1, Drives DPP only. TX_DP_OE=1 to enable drive.
 //               DPP=TX_DP
 #define USB_USBPHY_DIRECT_TX_DP_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_DP_BITS   _u(0x00000400)
@@ -2672,9 +2502,12 @@
 #define USB_USBPHY_DIRECT_TX_DP_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_DM_OE
-// Description : Output enable. If TX_DIFFMODE=1, Ignored.
-//               If TX_DIFFMODE=0, OE for DPM only. 0 - DPM in Hi-Z state; 1 -
-//               DPM driving
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               TX_SEMODE=0, Ignored.
+//               TX_SEMODE=1, OE for DPM only. 0 - DPM in Hi-Z state; 1 - DPM
+//               driving
 #define USB_USBPHY_DIRECT_TX_DM_OE_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_DM_OE_BITS   _u(0x00000200)
 #define USB_USBPHY_DIRECT_TX_DM_OE_MSB    _u(9)
@@ -2682,10 +2515,13 @@
 #define USB_USBPHY_DIRECT_TX_DM_OE_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_TX_DP_OE
-// Description : Output enable. If TX_DIFFMODE=1, OE for DPP/DPM diff pair. 0 -
-//               DPP/DPM in Hi-Z state; 1 - DPP/DPM driving
-//               If TX_DIFFMODE=0, OE for DPP only. 0 - DPP in Hi-Z state; 1 -
-//               DPP driving
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               TX_SEMODE=0, OE for DPP/DPM diff pair. 0 - DPP/DPM in Hi-Z
+//               state; 1 - DPP/DPM driving
+//               TX_SEMODE=1, OE for DPP only. 0 - DPP in Hi-Z state; 1 - DPP
+//               driving
 #define USB_USBPHY_DIRECT_TX_DP_OE_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_TX_DP_OE_BITS   _u(0x00000100)
 #define USB_USBPHY_DIRECT_TX_DP_OE_MSB    _u(8)
@@ -2693,7 +2529,10 @@
 #define USB_USBPHY_DIRECT_TX_DP_OE_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DM_PULLDN_EN
-// Description : DM pull down enable
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               1 - Enable Rpd on DPM
 #define USB_USBPHY_DIRECT_DM_PULLDN_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DM_PULLDN_EN_BITS   _u(0x00000040)
 #define USB_USBPHY_DIRECT_DM_PULLDN_EN_MSB    _u(6)
@@ -2701,7 +2540,10 @@
 #define USB_USBPHY_DIRECT_DM_PULLDN_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DM_PULLUP_EN
-// Description : DM pull up enable
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               1 - Enable Rpu on DPM
 #define USB_USBPHY_DIRECT_DM_PULLUP_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DM_PULLUP_EN_BITS   _u(0x00000020)
 #define USB_USBPHY_DIRECT_DM_PULLUP_EN_MSB    _u(5)
@@ -2709,8 +2551,8 @@
 #define USB_USBPHY_DIRECT_DM_PULLUP_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DM_PULLUP_HISEL
-// Description : Enable the second DM pull up resistor. 0 - Pull = Rpu2; 1 -
-//               Pull = Rpu1 + Rpu2
+// Description : when dm_pullup_en is set high, this enables second resistor. 0
+//               - Pull = Rpu2; 1 - Pull = Rpu1 + Rpu2
 #define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_BITS   _u(0x00000010)
 #define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_MSB    _u(4)
@@ -2718,7 +2560,10 @@
 #define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DP_PULLDN_EN
-// Description : DP pull down enable
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
+//               1 - Enable Rpd on DPP
 #define USB_USBPHY_DIRECT_DP_PULLDN_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DP_PULLDN_EN_BITS   _u(0x00000004)
 #define USB_USBPHY_DIRECT_DP_PULLDN_EN_MSB    _u(2)
@@ -2726,7 +2571,9 @@
 #define USB_USBPHY_DIRECT_DP_PULLDN_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DP_PULLUP_EN
-// Description : DP pull up enable
+// Description : Value to drive to USB PHY when override enable is set (which
+//               will override the default value or value driven from USB
+//               controller
 #define USB_USBPHY_DIRECT_DP_PULLUP_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DP_PULLUP_EN_BITS   _u(0x00000002)
 #define USB_USBPHY_DIRECT_DP_PULLUP_EN_MSB    _u(1)
@@ -2734,8 +2581,8 @@
 #define USB_USBPHY_DIRECT_DP_PULLUP_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_DP_PULLUP_HISEL
-// Description : Enable the second DP pull up resistor. 0 - Pull = Rpu2; 1 -
-//               Pull = Rpu1 + Rpu2
+// Description : when dp_pullup_en is set high, this enables second resistor. 0
+//               - Pull = Rpu2; 1 - Pull = Rpu1 + Rpu2
 #define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_BITS   _u(0x00000001)
 #define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_MSB    _u(0)
@@ -2743,13 +2590,11 @@
 #define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_ACCESS "RW"
 // =============================================================================
 // Register    : USB_USBPHY_DIRECT_OVERRIDE
-// Description : Override enable for each control in usbphy_direct
 #define USB_USBPHY_DIRECT_OVERRIDE_OFFSET _u(0x00000080)
 #define USB_USBPHY_DIRECT_OVERRIDE_BITS   _u(0x00009fff)
 #define USB_USBPHY_DIRECT_OVERRIDE_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_BITS   _u(0x00008000)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_MSB    _u(15)
@@ -2757,7 +2602,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_BITS   _u(0x00001000)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_MSB    _u(12)
@@ -2765,7 +2609,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_BITS   _u(0x00000800)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_MSB    _u(11)
@@ -2773,7 +2616,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_BITS   _u(0x00000400)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_MSB    _u(10)
@@ -2781,7 +2623,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_BITS   _u(0x00000200)
 #define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_MSB    _u(9)
@@ -2789,7 +2630,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_BITS   _u(0x00000100)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_MSB    _u(8)
@@ -2797,7 +2639,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_BITS   _u(0x00000080)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_MSB    _u(7)
@@ -2805,7 +2648,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_BITS   _u(0x00000040)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_MSB    _u(6)
@@ -2813,7 +2657,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_BITS   _u(0x00000020)
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_MSB    _u(5)
@@ -2821,7 +2666,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_BITS   _u(0x00000010)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_MSB    _u(4)
@@ -2829,7 +2675,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_BITS   _u(0x00000008)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_MSB    _u(3)
@@ -2837,7 +2684,8 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN
-// Description : None
+// Description : Override default value or value driven from USB Controller to
+//               PHY
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_BITS   _u(0x00000004)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_MSB    _u(2)
@@ -2845,7 +2693,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_BITS   _u(0x00000002)
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_MSB    _u(1)
@@ -2853,7 +2700,6 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN
-// Description : None
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_RESET  _u(0x0)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_BITS   _u(0x00000001)
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_MSB    _u(0)
@@ -2861,7 +2707,10 @@
 #define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_ACCESS "RW"
 // =============================================================================
 // Register    : USB_USBPHY_TRIM
-// Description : Used to adjust trim values of USB phy pull down resistors.
+// Description : Note that most functions are driven directly from usb_fsls
+//               controller.  This register allows more detailed control/status
+//               from the USB PHY. Useful for debug but not expected to be used
+//               in normal operation
 #define USB_USBPHY_TRIM_OFFSET _u(0x00000084)
 #define USB_USBPHY_TRIM_BITS   _u(0x00001f1f)
 #define USB_USBPHY_TRIM_RESET  _u(0x00001f1f)
@@ -2931,7 +2780,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTR_DEV_RESUME_FROM_HOST
 // Description : Set when the device receives a resume from the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTR_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
 #define USB_INTR_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
 #define USB_INTR_DEV_RESUME_FROM_HOST_MSB    _u(15)
@@ -3049,7 +2898,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTR_HOST_RESUME
 // Description : Host: raised when a device wakes up the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTR_HOST_RESUME_RESET  _u(0x0)
 #define USB_INTR_HOST_RESUME_BITS   _u(0x00000002)
 #define USB_INTR_HOST_RESUME_MSB    _u(1)
@@ -3109,7 +2958,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTE_DEV_RESUME_FROM_HOST
 // Description : Set when the device receives a resume from the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTE_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
 #define USB_INTE_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
 #define USB_INTE_DEV_RESUME_FROM_HOST_MSB    _u(15)
@@ -3227,7 +3076,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTE_HOST_RESUME
 // Description : Host: raised when a device wakes up the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTE_HOST_RESUME_RESET  _u(0x0)
 #define USB_INTE_HOST_RESUME_BITS   _u(0x00000002)
 #define USB_INTE_HOST_RESUME_MSB    _u(1)
@@ -3287,7 +3136,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTF_DEV_RESUME_FROM_HOST
 // Description : Set when the device receives a resume from the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTF_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
 #define USB_INTF_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
 #define USB_INTF_DEV_RESUME_FROM_HOST_MSB    _u(15)
@@ -3405,7 +3254,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTF_HOST_RESUME
 // Description : Host: raised when a device wakes up the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTF_HOST_RESUME_RESET  _u(0x0)
 #define USB_INTF_HOST_RESUME_BITS   _u(0x00000002)
 #define USB_INTF_HOST_RESUME_MSB    _u(1)
@@ -3465,7 +3314,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTS_DEV_RESUME_FROM_HOST
 // Description : Set when the device receives a resume from the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTS_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
 #define USB_INTS_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
 #define USB_INTS_DEV_RESUME_FROM_HOST_MSB    _u(15)
@@ -3583,7 +3432,7 @@
 // -----------------------------------------------------------------------------
 // Field       : USB_INTS_HOST_RESUME
 // Description : Host: raised when a device wakes up the host. Cleared by
-//               writing to SIE_STATUS.RESUME
+//               writing to SIE_STATUS.RESUME_REMOTE
 #define USB_INTS_HOST_RESUME_RESET  _u(0x0)
 #define USB_INTS_HOST_RESUME_BITS   _u(0x00000002)
 #define USB_INTS_HOST_RESUME_MSB    _u(1)
@@ -3600,4 +3449,5 @@
 #define USB_INTS_HOST_CONN_DIS_LSB    _u(0)
 #define USB_INTS_HOST_CONN_DIS_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_USB_DEFINED
+#endif // _HARDWARE_REGS_USB_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/regs/usb_device_dpram.h b/lib/pico-sdk/rp2040/hardware/regs/usb_device_dpram.h
new file mode 100644
index 0000000..d3a5ad3
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/regs/usb_device_dpram.h
@@ -0,0 +1,6753 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : USB_DEVICE_DPRAM
+// Version        : 1
+// Bus type       : ahbl
+// Description    : DPRAM layout for USB device.
+// =============================================================================
+#ifndef _HARDWARE_REGS_USB_DEVICE_DPRAM_H
+#define _HARDWARE_REGS_USB_DEVICE_DPRAM_H
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_SETUP_PACKET_LOW
+// Description : Bytes 0-3 of the SETUP packet from the host.
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_OFFSET _u(0x00000000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_BITS   _u(0xffff0000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_LSB    _u(16)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_RESET  _u(0x00)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_BITS   _u(0x0000ff00)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_MSB    _u(15)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_LSB    _u(8)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_RESET  _u(0x00)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_BITS   _u(0x000000ff)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_MSB    _u(7)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_LSB    _u(0)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_SETUP_PACKET_HIGH
+// Description : Bytes 4-7 of the setup packet from the host.
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_OFFSET _u(0x00000004)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_BITS   _u(0xffff0000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_MSB    _u(31)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_LSB    _u(16)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_MSB    _u(15)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_LSB    _u(0)
+#define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP1_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_OFFSET _u(0x00000008)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP1_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_OFFSET _u(0x0000000c)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP2_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_OFFSET _u(0x00000010)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP2_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_OFFSET _u(0x00000014)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP3_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_OFFSET _u(0x00000018)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP3_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_OFFSET _u(0x0000001c)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP4_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_OFFSET _u(0x00000020)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP4_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_OFFSET _u(0x00000024)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP5_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_OFFSET _u(0x00000028)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP5_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_OFFSET _u(0x0000002c)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP6_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_OFFSET _u(0x00000030)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP6_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_OFFSET _u(0x00000034)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP7_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_OFFSET _u(0x00000038)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP7_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_OFFSET _u(0x0000003c)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP8_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_OFFSET _u(0x00000040)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP8_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_OFFSET _u(0x00000044)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP9_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_OFFSET _u(0x00000048)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP9_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_OFFSET _u(0x0000004c)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP10_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_OFFSET _u(0x00000050)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP10_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_OFFSET _u(0x00000054)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP11_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_OFFSET _u(0x00000058)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP11_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_OFFSET _u(0x0000005c)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP12_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_OFFSET _u(0x00000060)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP12_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_OFFSET _u(0x00000064)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP13_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_OFFSET _u(0x00000068)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP13_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_OFFSET _u(0x0000006c)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP14_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_OFFSET _u(0x00000070)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP14_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_OFFSET _u(0x00000074)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP15_IN_CONTROL
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_OFFSET _u(0x00000078)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP15_OUT_CONTROL
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_OFFSET _u(0x0000007c)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BITS   _u(0xfc03ffff)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE
+// Description : Enable this endpoint. The device will not reply to any packets
+//               for this endpoint if this bit is not set.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED
+// Description : This endpoint is double buffered.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_DOUBLE_BUFFERED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF
+// Description : Trigger an interrupt each time a buffer is done.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF
+// Description : Trigger an interrupt each time both buffers are done. Only
+//               valid in double buffered mode.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_BITS   _u(0x10000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_LSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE
+//               0x0 -> Control
+//               0x1 -> Isochronous
+//               0x2 -> Bulk
+//               0x3 -> Interrupt
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL
+// Description : Trigger an interrupt if a STALL is sent. Intended for debug
+//               only.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL_BITS   _u(0x00020000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL_MSB    _u(17)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL_LSB    _u(17)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK
+// Description : Trigger an interrupt if a NAK is sent. Intended for debug only.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK_BITS   _u(0x00010000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK_MSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS
+// Description : 64 byte aligned buffer address for this EP (bits 0-5 are
+//               ignored). Relative to the start of the DPRAM.
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS_RESET  _u(0x0000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS_BITS   _u(0x0000ffff)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_OFFSET _u(0x00000080)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_OFFSET _u(0x00000084)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_OFFSET _u(0x00000088)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_OFFSET _u(0x0000008c)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_OFFSET _u(0x00000090)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_OFFSET _u(0x00000094)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_OFFSET _u(0x00000098)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_OFFSET _u(0x0000009c)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_OFFSET _u(0x000000a0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_OFFSET _u(0x000000a4)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_OFFSET _u(0x000000a8)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_OFFSET _u(0x000000ac)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_OFFSET _u(0x000000b0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_OFFSET _u(0x000000b4)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_OFFSET _u(0x000000b8)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_OFFSET _u(0x000000bc)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_OFFSET _u(0x000000c0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_OFFSET _u(0x000000c4)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_OFFSET _u(0x000000c8)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_OFFSET _u(0x000000cc)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_OFFSET _u(0x000000d0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_OFFSET _u(0x000000d4)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_OFFSET _u(0x000000d8)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_OFFSET _u(0x000000dc)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_OFFSET _u(0x000000e0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_OFFSET _u(0x000000e4)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_OFFSET _u(0x000000e8)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_OFFSET _u(0x000000ec)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_OFFSET _u(0x000000f0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_OFFSET _u(0x000000f4)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_OFFSET _u(0x000000f8)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+// Register    : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL
+// Description : Buffer control for both buffers of an endpoint. Fields ending
+//               in a _1 are for buffer 1.
+//               Fields ending in a _0 are for buffer 0. Buffer 1 controls are
+//               only valid if the endpoint is in double buffered mode.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_OFFSET _u(0x000000fc)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_BITS   _u(0xffffffff)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1
+// Description : Buffer 1 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1_BITS   _u(0x80000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1_MSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1_LSB    _u(31)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1
+// Description : Buffer 1 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1_BITS   _u(0x40000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1_MSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1_LSB    _u(30)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1
+// Description : The data pid of buffer 1.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_BITS   _u(0x20000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_MSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
+// Description : The number of bytes buffer 1 is offset from buffer 0 in
+//               Isochronous mode. Only valid in double buffered mode for an
+//               Isochronous endpoint.
+//               For a non Isochronous endpoint the offset is always 64 bytes.
+//               0x0 -> 128
+//               0x1 -> 256
+//               0x2 -> 512
+//               0x3 -> 1024
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1
+// Description : Buffer 1 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1_BITS   _u(0x04000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1_MSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1
+// Description : The length of the data in buffer 1.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1_BITS   _u(0x03ff0000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1_MSB    _u(25)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1_LSB    _u(16)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0
+// Description : Buffer 0 is full. For an IN transfer (TX to the host) the bit
+//               is set to indicate the data is valid. For an OUT transfer (RX
+//               from the host) this bit should be left as a 0. The host will
+//               set it when it has filled the buffer with data.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0_BITS   _u(0x00008000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0_MSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0_LSB    _u(15)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_FULL_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0
+// Description : Buffer 0 is the last buffer of the transfer.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0_BITS   _u(0x00004000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0_MSB    _u(14)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0_LSB    _u(14)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LAST_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0
+// Description : The data pid of buffer 0.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0_BITS   _u(0x00002000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0_MSB    _u(13)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0_LSB    _u(13)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET
+// Description : Reset the buffer selector to buffer 0.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET_BITS   _u(0x00001000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET_MSB    _u(12)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET_LSB    _u(12)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL
+// Description : Reply with a stall (valid for both buffers).
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL_BITS   _u(0x00000800)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL_MSB    _u(11)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL_LSB    _u(11)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0
+// Description : Buffer 0 is available. This bit is set to indicate the buffer
+//               can be used by the controller. The controller clears the
+//               available bit when writing the status back.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0_BITS   _u(0x00000400)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0_MSB    _u(10)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0_LSB    _u(10)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0
+// Description : The length of the data in buffer 0.
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_RESET  _u(0x000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_BITS   _u(0x000003ff)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_MSB    _u(9)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_USB_DEVICE_DPRAM_H
+
diff --git a/lib/rp2040/hardware/regs/vreg_and_chip_reset.h b/lib/pico-sdk/rp2040/hardware/regs/vreg_and_chip_reset.h
similarity index 96%
rename from lib/rp2040/hardware/regs/vreg_and_chip_reset.h
rename to lib/pico-sdk/rp2040/hardware/regs/vreg_and_chip_reset.h
index 356ff56..da61c01 100644
--- a/lib/rp2040/hardware/regs/vreg_and_chip_reset.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/vreg_and_chip_reset.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -10,8 +12,8 @@
 // Description    : control and status for on-chip voltage regulator and chip
 //                  level reset subsystem
 // =============================================================================
-#ifndef HARDWARE_REGS_VREG_AND_CHIP_RESET_DEFINED
-#define HARDWARE_REGS_VREG_AND_CHIP_RESET_DEFINED
+#ifndef _HARDWARE_REGS_VREG_AND_CHIP_RESET_H
+#define _HARDWARE_REGS_VREG_AND_CHIP_RESET_H
 // =============================================================================
 // Register    : VREG_AND_CHIP_RESET_VREG
 // Description : Voltage regulator control and status
@@ -148,4 +150,5 @@
 #define VREG_AND_CHIP_RESET_CHIP_RESET_HAD_POR_LSB    _u(8)
 #define VREG_AND_CHIP_RESET_CHIP_RESET_HAD_POR_ACCESS "RO"
 // =============================================================================
-#endif // HARDWARE_REGS_VREG_AND_CHIP_RESET_DEFINED
+#endif // _HARDWARE_REGS_VREG_AND_CHIP_RESET_H
+
diff --git a/lib/rp2040/hardware/regs/watchdog.h b/lib/pico-sdk/rp2040/hardware/regs/watchdog.h
similarity index 97%
rename from lib/rp2040/hardware/regs/watchdog.h
rename to lib/pico-sdk/rp2040/hardware/regs/watchdog.h
index 6a9853d..9c941ae 100644
--- a/lib/rp2040/hardware/regs/watchdog.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/watchdog.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -7,10 +9,9 @@
 // Register block : WATCHDOG
 // Version        : 1
 // Bus type       : apb
-// Description    : None
 // =============================================================================
-#ifndef HARDWARE_REGS_WATCHDOG_DEFINED
-#define HARDWARE_REGS_WATCHDOG_DEFINED
+#ifndef _HARDWARE_REGS_WATCHDOG_H
+#define _HARDWARE_REGS_WATCHDOG_H
 // =============================================================================
 // Register    : WATCHDOG_CTRL
 // Description : Watchdog control
@@ -89,7 +90,6 @@
 #define WATCHDOG_REASON_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : WATCHDOG_REASON_FORCE
-// Description : None
 #define WATCHDOG_REASON_FORCE_RESET  _u(0x0)
 #define WATCHDOG_REASON_FORCE_BITS   _u(0x00000002)
 #define WATCHDOG_REASON_FORCE_MSB    _u(1)
@@ -97,7 +97,6 @@
 #define WATCHDOG_REASON_FORCE_ACCESS "RO"
 // -----------------------------------------------------------------------------
 // Field       : WATCHDOG_REASON_TIMER
-// Description : None
 #define WATCHDOG_REASON_TIMER_RESET  _u(0x0)
 #define WATCHDOG_REASON_TIMER_BITS   _u(0x00000001)
 #define WATCHDOG_REASON_TIMER_MSB    _u(0)
@@ -223,4 +222,5 @@
 #define WATCHDOG_TICK_CYCLES_LSB    _u(0)
 #define WATCHDOG_TICK_CYCLES_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_WATCHDOG_DEFINED
+#endif // _HARDWARE_REGS_WATCHDOG_H
+
diff --git a/lib/rp2040/hardware/regs/xip.h b/lib/pico-sdk/rp2040/hardware/regs/xip.h
similarity index 97%
rename from lib/rp2040/hardware/regs/xip.h
rename to lib/pico-sdk/rp2040/hardware/regs/xip.h
index 3964f67..e163f36 100644
--- a/lib/rp2040/hardware/regs/xip.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/xip.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : ahb
 // Description    : QSPI flash execute-in-place block
 // =============================================================================
-#ifndef HARDWARE_REGS_XIP_DEFINED
-#define HARDWARE_REGS_XIP_DEFINED
+#ifndef _HARDWARE_REGS_XIP_H
+#define _HARDWARE_REGS_XIP_H
 // =============================================================================
 // Register    : XIP_CTRL
 // Description : Cache control
@@ -159,8 +161,8 @@
 //               a linear data block from flash to the streaming FIFO.
 //               Decrements automatically (1 at a time) as the stream
 //               progresses, and halts on reaching 0.
-//               Write 0 to halt an in-progress stream, and discard any
-//               in-flight
+//               Write 0 to halt an in-progress stream, and discard any in-
+//               flight
 //               read, so that a new stream can immediately be started (after
 //               draining the FIFO and reinitialising STREAM_ADDR)
 #define XIP_STREAM_CTR_OFFSET _u(0x00000018)
@@ -184,4 +186,5 @@
 #define XIP_STREAM_FIFO_LSB    _u(0)
 #define XIP_STREAM_FIFO_ACCESS "RF"
 // =============================================================================
-#endif // HARDWARE_REGS_XIP_DEFINED
+#endif // _HARDWARE_REGS_XIP_H
+
diff --git a/lib/rp2040/hardware/regs/xosc.h b/lib/pico-sdk/rp2040/hardware/regs/xosc.h
similarity index 74%
rename from lib/rp2040/hardware/regs/xosc.h
rename to lib/pico-sdk/rp2040/hardware/regs/xosc.h
index 4af78b9..8076a99 100644
--- a/lib/rp2040/hardware/regs/xosc.h
+++ b/lib/pico-sdk/rp2040/hardware/regs/xosc.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : apb
 // Description    : Controls the crystal oscillator
 // =============================================================================
-#ifndef HARDWARE_REGS_XOSC_DEFINED
-#define HARDWARE_REGS_XOSC_DEFINED
+#ifndef _HARDWARE_REGS_XOSC_H
+#define _HARDWARE_REGS_XOSC_H
 // =============================================================================
 // Register    : XOSC_CTRL
 // Description : Crystal Oscillator Control
@@ -22,34 +24,36 @@
 // Description : On power-up this field is initialised to DISABLE and the chip
 //               runs from the ROSC.
 //               If the chip has subsequently been programmed to run from the
-//               XOSC then setting this field to DISABLE may lock-up the chip.
-//               If this is a concern then run the clk_ref from the ROSC and
-//               enable the clk_sys RESUS feature.
+//               XOSC then DISABLE may lock-up the chip. If this is a concern
+//               then run the clk_ref from the ROSC and enable the clk_sys RESUS
+//               feature.
 //               The 12-bit code is intended to give some protection against
 //               accidental writes. An invalid setting will enable the
 //               oscillator.
 //               0xd1e -> DISABLE
 //               0xfab -> ENABLE
-#define XOSC_CTRL_ENABLE_RESET         "-"
-#define XOSC_CTRL_ENABLE_BITS          _u(0x00fff000)
-#define XOSC_CTRL_ENABLE_MSB           _u(23)
-#define XOSC_CTRL_ENABLE_LSB           _u(12)
-#define XOSC_CTRL_ENABLE_ACCESS        "RW"
+#define XOSC_CTRL_ENABLE_RESET  "-"
+#define XOSC_CTRL_ENABLE_BITS   _u(0x00fff000)
+#define XOSC_CTRL_ENABLE_MSB    _u(23)
+#define XOSC_CTRL_ENABLE_LSB    _u(12)
+#define XOSC_CTRL_ENABLE_ACCESS "RW"
 #define XOSC_CTRL_ENABLE_VALUE_DISABLE _u(0xd1e)
-#define XOSC_CTRL_ENABLE_VALUE_ENABLE  _u(0xfab)
+#define XOSC_CTRL_ENABLE_VALUE_ENABLE _u(0xfab)
 // -----------------------------------------------------------------------------
 // Field       : XOSC_CTRL_FREQ_RANGE
-// Description : Frequency range. This resets to 0xAA0 and cannot be changed.
+// Description : Frequency range. An invalid setting will retain the previous
+//               value. The actual value being used can be read from
+//               STATUS_FREQ_RANGE. This resets to 0xAA0 and cannot be changed.
 //               0xaa0 -> 1_15MHZ
 //               0xaa1 -> RESERVED_1
 //               0xaa2 -> RESERVED_2
 //               0xaa3 -> RESERVED_3
-#define XOSC_CTRL_FREQ_RANGE_RESET            "-"
-#define XOSC_CTRL_FREQ_RANGE_BITS             _u(0x00000fff)
-#define XOSC_CTRL_FREQ_RANGE_MSB              _u(11)
-#define XOSC_CTRL_FREQ_RANGE_LSB              _u(0)
-#define XOSC_CTRL_FREQ_RANGE_ACCESS           "RW"
-#define XOSC_CTRL_FREQ_RANGE_VALUE_1_15MHZ    _u(0xaa0)
+#define XOSC_CTRL_FREQ_RANGE_RESET  "-"
+#define XOSC_CTRL_FREQ_RANGE_BITS   _u(0x00000fff)
+#define XOSC_CTRL_FREQ_RANGE_MSB    _u(11)
+#define XOSC_CTRL_FREQ_RANGE_LSB    _u(0)
+#define XOSC_CTRL_FREQ_RANGE_ACCESS "RW"
+#define XOSC_CTRL_FREQ_RANGE_VALUE_1_15MHZ _u(0xaa0)
 #define XOSC_CTRL_FREQ_RANGE_VALUE_RESERVED_1 _u(0xaa1)
 #define XOSC_CTRL_FREQ_RANGE_VALUE_RESERVED_2 _u(0xaa2)
 #define XOSC_CTRL_FREQ_RANGE_VALUE_RESERVED_3 _u(0xaa3)
@@ -92,12 +96,12 @@
 //               0x1 -> RESERVED_1
 //               0x2 -> RESERVED_2
 //               0x3 -> RESERVED_3
-#define XOSC_STATUS_FREQ_RANGE_RESET            "-"
-#define XOSC_STATUS_FREQ_RANGE_BITS             _u(0x00000003)
-#define XOSC_STATUS_FREQ_RANGE_MSB              _u(1)
-#define XOSC_STATUS_FREQ_RANGE_LSB              _u(0)
-#define XOSC_STATUS_FREQ_RANGE_ACCESS           "RO"
-#define XOSC_STATUS_FREQ_RANGE_VALUE_1_15MHZ    _u(0x0)
+#define XOSC_STATUS_FREQ_RANGE_RESET  "-"
+#define XOSC_STATUS_FREQ_RANGE_BITS   _u(0x00000003)
+#define XOSC_STATUS_FREQ_RANGE_MSB    _u(1)
+#define XOSC_STATUS_FREQ_RANGE_LSB    _u(0)
+#define XOSC_STATUS_FREQ_RANGE_ACCESS "RO"
+#define XOSC_STATUS_FREQ_RANGE_VALUE_1_15MHZ _u(0x0)
 #define XOSC_STATUS_FREQ_RANGE_VALUE_RESERVED_1 _u(0x1)
 #define XOSC_STATUS_FREQ_RANGE_VALUE_RESERVED_2 _u(0x2)
 #define XOSC_STATUS_FREQ_RANGE_VALUE_RESERVED_3 _u(0x3)
@@ -107,18 +111,18 @@
 //               This is used to save power by pausing the XOSC
 //               On power-up this field is initialised to WAKE
 //               An invalid write will also select WAKE
-//               WARNING: stop the PLLs before selecting dormant mode
-//               WARNING: setup the irq before selecting dormant mode
-//               0x636f6d61 -> DORMANT
+//               Warning: stop the PLLs before selecting dormant mode
+//               Warning: setup the irq before selecting dormant mode
+//               0x636f6d61 -> dormant
 //               0x77616b65 -> WAKE
-#define XOSC_DORMANT_OFFSET        _u(0x00000008)
-#define XOSC_DORMANT_BITS          _u(0xffffffff)
-#define XOSC_DORMANT_RESET         "-"
-#define XOSC_DORMANT_MSB           _u(31)
-#define XOSC_DORMANT_LSB           _u(0)
-#define XOSC_DORMANT_ACCESS        "RW"
+#define XOSC_DORMANT_OFFSET _u(0x00000008)
+#define XOSC_DORMANT_BITS   _u(0xffffffff)
+#define XOSC_DORMANT_RESET  "-"
+#define XOSC_DORMANT_MSB    _u(31)
+#define XOSC_DORMANT_LSB    _u(0)
+#define XOSC_DORMANT_ACCESS "RW"
 #define XOSC_DORMANT_VALUE_DORMANT _u(0x636f6d61)
-#define XOSC_DORMANT_VALUE_WAKE    _u(0x77616b65)
+#define XOSC_DORMANT_VALUE_WAKE _u(0x77616b65)
 // =============================================================================
 // Register    : XOSC_STARTUP
 // Description : Controls the startup delay
@@ -128,7 +132,7 @@
 // -----------------------------------------------------------------------------
 // Field       : XOSC_STARTUP_X4
 // Description : Multiplies the startup_delay by 4. This is of little value to
-//               the user given that the delay can be programmed directly
+//               the user given that the delay can be programmed directly.
 #define XOSC_STARTUP_X4_RESET  "-"
 #define XOSC_STARTUP_X4_BITS   _u(0x00100000)
 #define XOSC_STARTUP_X4_MSB    _u(20)
@@ -136,7 +140,8 @@
 #define XOSC_STARTUP_X4_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : XOSC_STARTUP_DELAY
-// Description : in multiples of 256*xtal_period
+// Description : in multiples of 256*xtal_period. The reset value of 0xc4
+//               corresponds to approx 50 000 cycles.
 #define XOSC_STARTUP_DELAY_RESET  "-"
 #define XOSC_STARTUP_DELAY_BITS   _u(0x00003fff)
 #define XOSC_STARTUP_DELAY_MSB    _u(13)
@@ -156,4 +161,5 @@
 #define XOSC_COUNT_LSB    _u(0)
 #define XOSC_COUNT_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_XOSC_DEFINED
+#endif // _HARDWARE_REGS_XOSC_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/adc.h b/lib/pico-sdk/rp2040/hardware/structs/adc.h
new file mode 100644
index 0000000..a1b6f34
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/adc.h
@@ -0,0 +1,96 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_ADC_H
+#define _HARDWARE_STRUCTS_ADC_H
+
+/**
+ * \file rp2040/adc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/adc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_adc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/adc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(ADC_CS_OFFSET) // ADC_CS
+    // ADC Control and Status
+    // 0x001f0000 [20:16] RROBIN       (0x00) Round-robin sampling
+    // 0x00007000 [14:12] AINSEL       (0x0) Select analog mux input
+    // 0x00000400 [10]    ERR_STICKY   (0) Some past ADC conversion encountered an error
+    // 0x00000200 [9]     ERR          (0) The most recent ADC conversion encountered an error;...
+    // 0x00000100 [8]     READY        (0) 1 if the ADC is ready to start a new conversion
+    // 0x00000008 [3]     START_MANY   (0) Continuously perform conversions whilst this bit is 1
+    // 0x00000004 [2]     START_ONCE   (0) Start a single conversion
+    // 0x00000002 [1]     TS_EN        (0) Power on temperature sensor
+    // 0x00000001 [0]     EN           (0) Power on ADC and enable its clock
+    io_rw_32 cs;
+ 
+    _REG_(ADC_RESULT_OFFSET) // ADC_RESULT
+    // Result of most recent ADC conversion
+    // 0x00000fff [11:0]  RESULT       (0x000) 
+    io_ro_32 result;
+ 
+    _REG_(ADC_FCS_OFFSET) // ADC_FCS
+    // FIFO control and status
+    // 0x0f000000 [27:24] THRESH       (0x0) DREQ/IRQ asserted when level >= threshold
+    // 0x000f0000 [19:16] LEVEL        (0x0) The number of conversion results currently waiting in the FIFO
+    // 0x00000800 [11]    OVER         (0) 1 if the FIFO has been overflowed
+    // 0x00000400 [10]    UNDER        (0) 1 if the FIFO has been underflowed
+    // 0x00000200 [9]     FULL         (0) 
+    // 0x00000100 [8]     EMPTY        (0) 
+    // 0x00000008 [3]     DREQ_EN      (0) If 1: assert DMA requests when FIFO contains data
+    // 0x00000004 [2]     ERR          (0) If 1: conversion error bit appears in the FIFO alongside...
+    // 0x00000002 [1]     SHIFT        (0) If 1: FIFO results are right-shifted to be one byte in size
+    // 0x00000001 [0]     EN           (0) If 1: write result to the FIFO after each conversion
+    io_rw_32 fcs;
+ 
+    _REG_(ADC_FIFO_OFFSET) // ADC_FIFO
+    // Conversion result FIFO
+    // 0x00008000 [15]    ERR          (-) 1 if this particular sample experienced a conversion error
+    // 0x00000fff [11:0]  VAL          (-) 
+    io_ro_32 fifo;
+ 
+    _REG_(ADC_DIV_OFFSET) // ADC_DIV
+    // Clock divider
+    // 0x00ffff00 [23:8]  INT          (0x0000) Integer part of clock divisor
+    // 0x000000ff [7:0]   FRAC         (0x00) Fractional part of clock divisor
+    io_rw_32 div;
+ 
+    _REG_(ADC_INTR_OFFSET) // ADC_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_ro_32 intr;
+ 
+    _REG_(ADC_INTE_OFFSET) // ADC_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_rw_32 inte;
+ 
+    _REG_(ADC_INTF_OFFSET) // ADC_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_rw_32 intf;
+ 
+    _REG_(ADC_INTS_OFFSET) // ADC_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_ro_32 ints;
+} adc_hw_t;
+
+#define adc_hw ((adc_hw_t *)ADC_BASE)
+static_assert(sizeof (adc_hw_t) == 0x0024, "");
+
+#endif // _HARDWARE_STRUCTS_ADC_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/bus_ctrl.h b/lib/pico-sdk/rp2040/hardware/structs/bus_ctrl.h
new file mode 100644
index 0000000..b94a404
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/bus_ctrl.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/busctrl.h"
+#define bus_ctrl_hw busctrl_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2040/hardware/structs/busctrl.h b/lib/pico-sdk/rp2040/hardware/structs/busctrl.h
new file mode 100644
index 0000000..6589322
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/busctrl.h
@@ -0,0 +1,85 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_BUSCTRL_H
+#define _HARDWARE_STRUCTS_BUSCTRL_H
+
+/**
+ * \file rp2040/busctrl.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/busctrl.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_busctrl
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/busctrl.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Bus fabric performance counters on RP2040 (used as typedef \ref bus_ctrl_perf_counter_t)
+ *  \ingroup hardware_busctrl
+ */
+typedef enum bus_ctrl_perf_counter_rp2040 {
+    arbiter_rom_perf_event_access = 19,
+    arbiter_rom_perf_event_access_contested = 18,
+    arbiter_xip_main_perf_event_access = 17,
+    arbiter_xip_main_perf_event_access_contested = 16,
+    arbiter_sram0_perf_event_access = 15,
+    arbiter_sram0_perf_event_access_contested = 14,
+    arbiter_sram1_perf_event_access = 13,
+    arbiter_sram1_perf_event_access_contested = 12,
+    arbiter_sram2_perf_event_access = 11,
+    arbiter_sram2_perf_event_access_contested = 10,
+    arbiter_sram3_perf_event_access = 9,
+    arbiter_sram3_perf_event_access_contested = 8,
+    arbiter_sram4_perf_event_access = 7,
+    arbiter_sram4_perf_event_access_contested = 6,
+    arbiter_sram5_perf_event_access = 5,
+    arbiter_sram5_perf_event_access_contested = 4,
+    arbiter_fastperi_perf_event_access = 3,
+    arbiter_fastperi_perf_event_access_contested = 2,
+    arbiter_apb_perf_event_access = 1,
+    arbiter_apb_perf_event_access_contested = 0
+} bus_ctrl_perf_counter_t;
+
+typedef struct {
+    _REG_(BUSCTRL_PERFCTR0_OFFSET) // BUSCTRL_PERFCTR0
+    // Bus fabric performance counter 0
+    // 0x00ffffff [23:0]  PERFCTR0     (0x000000) Busfabric saturating performance counter 0 +
+    io_rw_32 value;
+ 
+    _REG_(BUSCTRL_PERFSEL0_OFFSET) // BUSCTRL_PERFSEL0
+    // Bus fabric performance event select for PERFCTR0
+    // 0x0000001f [4:0]   PERFSEL0     (0x1f) Select an event for PERFCTR0
+    io_rw_32 sel;
+} bus_ctrl_perf_hw_t;
+
+typedef struct {
+    _REG_(BUSCTRL_BUS_PRIORITY_OFFSET) // BUSCTRL_BUS_PRIORITY
+    // Set the priority of each master for bus arbitration
+    // 0x00001000 [12]    DMA_W        (0) 0 - low priority, 1 - high priority
+    // 0x00000100 [8]     DMA_R        (0) 0 - low priority, 1 - high priority
+    // 0x00000010 [4]     PROC1        (0) 0 - low priority, 1 - high priority
+    // 0x00000001 [0]     PROC0        (0) 0 - low priority, 1 - high priority
+    io_rw_32 priority;
+ 
+    _REG_(BUSCTRL_BUS_PRIORITY_ACK_OFFSET) // BUSCTRL_BUS_PRIORITY_ACK
+    // Bus priority acknowledge
+    // 0x00000001 [0]     BUS_PRIORITY_ACK (0) Goes to 1 once all arbiters have registered the new...
+    io_ro_32 priority_ack;
+ 
+    bus_ctrl_perf_hw_t counter[4];
+} busctrl_hw_t;
+
+#define busctrl_hw ((busctrl_hw_t *)BUSCTRL_BASE)
+static_assert(sizeof (busctrl_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_BUSCTRL_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/clocks.h b/lib/pico-sdk/rp2040/hardware/structs/clocks.h
new file mode 100644
index 0000000..bdca7ee
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/clocks.h
@@ -0,0 +1,504 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_CLOCKS_H
+#define _HARDWARE_STRUCTS_CLOCKS_H
+
+/**
+ * \file rp2040/clocks.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/clocks.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_clocks
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/clocks.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Clock numbers on RP2040 (used as typedef \ref clock_num_t) 
+ *  \ingroup hardware_clocks
+ */
+/// \tag::clkenum[]
+typedef enum clock_num_rp2040 {
+    clk_gpout0 = 0, ///< Select CLK_GPOUT0 as clock source
+    clk_gpout1 = 1, ///< Select CLK_GPOUT1 as clock source
+    clk_gpout2 = 2, ///< Select CLK_GPOUT2 as clock source
+    clk_gpout3 = 3, ///< Select CLK_GPOUT3 as clock source
+    clk_ref = 4, ///< Select CLK_REF as clock source
+    clk_sys = 5, ///< Select CLK_SYS as clock source
+    clk_peri = 6, ///< Select CLK_PERI as clock source
+    clk_usb = 7, ///< Select CLK_USB as clock source
+    clk_adc = 8, ///< Select CLK_ADC as clock source
+    clk_rtc = 9, ///< Select CLK_RTC as clock source
+    CLK_COUNT
+} clock_num_t;
+/// \end::clkenum[]
+
+/** \brief  Clock destination numbers on RP2040 (used as typedef \ref clock_dest_num_t)
+ *  \ingroup hardware_clocks
+ */
+typedef enum clock_dest_num_rp2040 {
+    CLK_DEST_SYS_CLOCKS = 0, ///< Select SYS_CLOCKS as clock destination
+    CLK_DEST_ADC_ADC = 1, ///< Select ADC_ADC as clock destination
+    CLK_DEST_SYS_ADC = 2, ///< Select SYS_ADC as clock destination
+    CLK_DEST_SYS_BUSCTRL = 3, ///< Select SYS_BUSCTRL as clock destination
+    CLK_DEST_SYS_BUSFABRIC = 4, ///< Select SYS_BUSFABRIC as clock destination
+    CLK_DEST_SYS_DMA = 5, ///< Select SYS_DMA as clock destination
+    CLK_DEST_SYS_I2C0 = 6, ///< Select SYS_I2C0 as clock destination
+    CLK_DEST_SYS_I2C1 = 7, ///< Select SYS_I2C1 as clock destination
+    CLK_DEST_SYS_IO = 8, ///< Select SYS_IO as clock destination
+    CLK_DEST_SYS_JTAG = 9, ///< Select SYS_JTAG as clock destination
+    CLK_DEST_SYS_VREG_AND_CHIP_RESET = 10, ///< Select SYS_VREG_AND_CHIP_RESET as clock destination
+    CLK_DEST_SYS_PADS = 11, ///< Select SYS_PADS as clock destination
+    CLK_DEST_SYS_PIO0 = 12, ///< Select SYS_PIO0 as clock destination
+    CLK_DEST_SYS_PIO1 = 13, ///< Select SYS_PIO1 as clock destination
+    CLK_DEST_SYS_PLL_SYS = 14, ///< Select SYS_PLL_SYS as clock destination
+    CLK_DEST_SYS_PLL_USB = 15, ///< Select SYS_PLL_USB as clock destination
+    CLK_DEST_SYS_PSM = 16, ///< Select SYS_PSM as clock destination
+    CLK_DEST_SYS_PWM = 17, ///< Select SYS_PWM as clock destination
+    CLK_DEST_SYS_RESETS = 18, ///< Select SYS_RESETS as clock destination
+    CLK_DEST_SYS_ROM = 19, ///< Select SYS_ROM as clock destination
+    CLK_DEST_SYS_ROSC = 20, ///< Select SYS_ROSC as clock destination
+    CLK_DEST_RTC_RTC = 21, ///< Select RTC_RTC as clock destination
+    CLK_DEST_SYS_RTC = 22, ///< Select SYS_RTC as clock destination
+    CLK_DEST_SYS_SIO = 23, ///< Select SYS_SIO as clock destination
+    CLK_DEST_PERI_SPI0 = 24, ///< Select PERI_SPI0 as clock destination
+    CLK_DEST_SYS_SPI0 = 25, ///< Select SYS_SPI0 as clock destination
+    CLK_DEST_PERI_SPI1 = 26, ///< Select PERI_SPI1 as clock destination
+    CLK_DEST_SYS_SPI1 = 27, ///< Select SYS_SPI1 as clock destination
+    CLK_DEST_SYS_SRAM0 = 28, ///< Select SYS_SRAM0 as clock destination
+    CLK_DEST_SYS_SRAM1 = 29, ///< Select SYS_SRAM1 as clock destination
+    CLK_DEST_SYS_SRAM2 = 30, ///< Select SYS_SRAM2 as clock destination
+    CLK_DEST_SYS_SRAM3 = 31, ///< Select SYS_SRAM3 as clock destination
+    CLK_DEST_SYS_SRAM4 = 32, ///< Select SYS_SRAM4 as clock destination
+    CLK_DEST_SYS_SRAM5 = 33, ///< Select SYS_SRAM5 as clock destination
+    CLK_DEST_SYS_SYSCFG = 34, ///< Select SYS_SYSCFG as clock destination
+    CLK_DEST_SYS_SYSINFO = 35, ///< Select SYS_SYSINFO as clock destination
+    CLK_DEST_SYS_TBMAN = 36, ///< Select SYS_TBMAN as clock destination
+    CLK_DEST_SYS_TIMER = 37, ///< Select SYS_TIMER as clock destination
+    CLK_DEST_PERI_UART0 = 38, ///< Select PERI_UART0 as clock destination
+    CLK_DEST_SYS_UART0 = 39, ///< Select SYS_UART0 as clock destination
+    CLK_DEST_PERI_UART1 = 40, ///< Select PERI_UART1 as clock destination
+    CLK_DEST_SYS_UART1 = 41, ///< Select SYS_UART1 as clock destination
+    CLK_DEST_SYS_USBCTRL = 42, ///< Select SYS_USBCTRL as clock destination
+    CLK_DEST_USB_USBCTRL = 43, ///< Select USB_USBCTRL as clock destination
+    CLK_DEST_SYS_WATCHDOG = 44, ///< Select SYS_WATCHDOG as clock destination
+    CLK_DEST_SYS_XIP = 45, ///< Select SYS_XIP as clock destination
+    CLK_DEST_SYS_XOSC = 46, ///< Select SYS_XOSC as clock destination
+    NUM_CLOCK_DESTINATIONS
+} clock_dest_num_t;
+
+/// \tag::clock_hw[]
+typedef struct {
+    _REG_(CLOCKS_CLK_GPOUT0_CTRL_OFFSET) // CLOCKS_CLK_GPOUT0_CTRL
+    // Clock control, can be changed on-the-fly (except for auxsrc)
+    // 0x00100000 [20]    NUDGE        (0) An edge on this signal shifts the phase of the output by...
+    // 0x00030000 [17:16] PHASE        (0x0) This delays the enable signal by up to 3 cycles of the...
+    // 0x00001000 [12]    DC50         (0) Enables duty cycle correction for odd divisors
+    // 0x00000800 [11]    ENABLE       (0) Starts and stops the clock generator cleanly
+    // 0x00000400 [10]    KILL         (0) Asynchronously kills the clock generator
+    // 0x000001e0 [8:5]   AUXSRC       (0x0) Selects the auxiliary clock source, will glitch when switching
+    io_rw_32 ctrl;
+ 
+    _REG_(CLOCKS_CLK_GPOUT0_DIV_OFFSET) // CLOCKS_CLK_GPOUT0_DIV
+    // Clock divisor, can be changed on-the-fly
+    // 0xffffff00 [31:8]  INT          (0x000001) Integer component of the divisor, 0 -> divide by 2^16
+    // 0x000000ff [7:0]   FRAC         (0x00) Fractional component of the divisor
+    io_rw_32 div;
+ 
+    _REG_(CLOCKS_CLK_GPOUT0_SELECTED_OFFSET) // CLOCKS_CLK_GPOUT0_SELECTED
+    // Indicates which SRC is currently selected by the glitchless mux (one-hot)
+    // 0xffffffff [31:0]  CLK_GPOUT0_SELECTED (0x00000001) This slice does not have a glitchless mux (only the...
+    io_ro_32 selected;
+} clock_hw_t;
+/// \end::clock_hw[]
+
+typedef struct {
+    _REG_(CLOCKS_CLK_SYS_RESUS_CTRL_OFFSET) // CLOCKS_CLK_SYS_RESUS_CTRL
+    // 0x00010000 [16]    CLEAR        (0) For clearing the resus after the fault that triggered it...
+    // 0x00001000 [12]    FRCE         (0) Force a resus, for test purposes only
+    // 0x00000100 [8]     ENABLE       (0) Enable resus
+    // 0x000000ff [7:0]   TIMEOUT      (0xff) This is expressed as a number of clk_ref cycles +
+    io_rw_32 ctrl;
+ 
+    _REG_(CLOCKS_CLK_SYS_RESUS_STATUS_OFFSET) // CLOCKS_CLK_SYS_RESUS_STATUS
+    // 0x00000001 [0]     RESUSSED     (0) Clock has been resuscitated, correct the error then send...
+    io_ro_32 status;
+} clock_resus_hw_t;
+
+typedef struct {
+    _REG_(CLOCKS_FC0_REF_KHZ_OFFSET) // CLOCKS_FC0_REF_KHZ
+    // Reference clock frequency in kHz
+    // 0x000fffff [19:0]  FC0_REF_KHZ  (0x00000) 
+    io_rw_32 ref_khz;
+ 
+    _REG_(CLOCKS_FC0_MIN_KHZ_OFFSET) // CLOCKS_FC0_MIN_KHZ
+    // Minimum pass frequency in kHz
+    // 0x01ffffff [24:0]  FC0_MIN_KHZ  (0x0000000) 
+    io_rw_32 min_khz;
+ 
+    _REG_(CLOCKS_FC0_MAX_KHZ_OFFSET) // CLOCKS_FC0_MAX_KHZ
+    // Maximum pass frequency in kHz
+    // 0x01ffffff [24:0]  FC0_MAX_KHZ  (0x1ffffff) 
+    io_rw_32 max_khz;
+ 
+    _REG_(CLOCKS_FC0_DELAY_OFFSET) // CLOCKS_FC0_DELAY
+    // Delays the start of frequency counting to allow the mux to settle +
+    // 0x00000007 [2:0]   FC0_DELAY    (0x1) 
+    io_rw_32 delay;
+ 
+    _REG_(CLOCKS_FC0_INTERVAL_OFFSET) // CLOCKS_FC0_INTERVAL
+    // The test interval is 0
+    // 0x0000000f [3:0]   FC0_INTERVAL (0x8) 
+    io_rw_32 interval;
+ 
+    _REG_(CLOCKS_FC0_SRC_OFFSET) // CLOCKS_FC0_SRC
+    // Clock sent to frequency counter, set to 0 when not required +
+    // 0x000000ff [7:0]   FC0_SRC      (0x00) 
+    io_rw_32 src;
+ 
+    _REG_(CLOCKS_FC0_STATUS_OFFSET) // CLOCKS_FC0_STATUS
+    // Frequency counter status
+    // 0x10000000 [28]    DIED         (0) Test clock stopped during test
+    // 0x01000000 [24]    FAST         (0) Test clock faster than expected, only valid when status_done=1
+    // 0x00100000 [20]    SLOW         (0) Test clock slower than expected, only valid when status_done=1
+    // 0x00010000 [16]    FAIL         (0) Test failed
+    // 0x00001000 [12]    WAITING      (0) Waiting for test clock to start
+    // 0x00000100 [8]     RUNNING      (0) Test running
+    // 0x00000010 [4]     DONE         (0) Test complete
+    // 0x00000001 [0]     PASS         (0) Test passed
+    io_ro_32 status;
+ 
+    _REG_(CLOCKS_FC0_RESULT_OFFSET) // CLOCKS_FC0_RESULT
+    // Result of frequency measurement, only valid when status_done=1
+    // 0x3fffffe0 [29:5]  KHZ          (0x0000000) 
+    // 0x0000001f [4:0]   FRAC         (0x00) 
+    io_ro_32 result;
+} fc_hw_t;
+
+typedef struct {
+    clock_hw_t clk[10];
+ 
+    clock_resus_hw_t resus;
+ 
+    fc_hw_t fc0;
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_WAKE_EN0_OFFSET) // CLOCKS_WAKE_EN0
+            // enable clock in wake mode
+            // 0x80000000 [31]    CLK_SYS_SRAM3 (1) 
+            // 0x40000000 [30]    CLK_SYS_SRAM2 (1) 
+            // 0x20000000 [29]    CLK_SYS_SRAM1 (1) 
+            // 0x10000000 [28]    CLK_SYS_SRAM0 (1) 
+            // 0x08000000 [27]    CLK_SYS_SPI1 (1) 
+            // 0x04000000 [26]    CLK_PERI_SPI1 (1) 
+            // 0x02000000 [25]    CLK_SYS_SPI0 (1) 
+            // 0x01000000 [24]    CLK_PERI_SPI0 (1) 
+            // 0x00800000 [23]    CLK_SYS_SIOB (1) 
+            // 0x00400000 [22]    CLK_SYS_RTC  (1) 
+            // 0x00200000 [21]    CLK_RTC_RTC  (1) 
+            // 0x00100000 [20]    CLK_SYS_ROSC (1) 
+            // 0x00080000 [19]    CLK_SYS_ROM  (1) 
+            // 0x00040000 [18]    CLK_SYS_RESETS (1) 
+            // 0x00020000 [17]    CLK_SYS_PWM  (1) 
+            // 0x00010000 [16]    CLK_SYS_POWER (1) 
+            // 0x00008000 [15]    CLK_SYS_PLL_USB (1) 
+            // 0x00004000 [14]    CLK_SYS_PLL_SYS (1) 
+            // 0x00002000 [13]    CLK_SYS_PIO1 (1) 
+            // 0x00001000 [12]    CLK_SYS_PIO0 (1) 
+            // 0x00000800 [11]    CLK_SYS_PADS (1) 
+            // 0x00000400 [10]    CLK_SYS_LDO_POR (1) 
+            // 0x00000200 [9]     CLK_SYS_JTAG (1) 
+            // 0x00000100 [8]     CLK_SYS_IO   (1) 
+            // 0x00000080 [7]     CLK_SYS_I2C1 (1) 
+            // 0x00000040 [6]     CLK_SYS_I2C0 (1) 
+            // 0x00000020 [5]     CLK_SYS_DMA  (1) 
+            // 0x00000010 [4]     CLK_SYS_BUSFABRIC (1) 
+            // 0x00000008 [3]     CLK_SYS_BUSCTRL (1) 
+            // 0x00000004 [2]     CLK_SYS_ADC0 (1) 
+            // 0x00000002 [1]     CLK_ADC_ADC0 (1) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS_BANK_DEFAULT (1) 
+            io_rw_32 wake_en0; 
+
+            _REG_(CLOCKS_WAKE_EN1_OFFSET) // CLOCKS_WAKE_EN1
+            // enable clock in wake mode
+            // 0x00004000 [14]    CLK_SYS_XOSC (1) 
+            // 0x00002000 [13]    CLK_SYS_XIP  (1) 
+            // 0x00001000 [12]    CLK_SYS_WATCHDOG (1) 
+            // 0x00000800 [11]    CLK_USB_USBCTRL (1) 
+            // 0x00000400 [10]    CLK_SYS_USBCTRL (1) 
+            // 0x00000200 [9]     CLK_SYS_UART1 (1) 
+            // 0x00000100 [8]     CLK_PERI_UART1 (1) 
+            // 0x00000080 [7]     CLK_SYS_UART0 (1) 
+            // 0x00000040 [6]     CLK_PERI_UART0 (1) 
+            // 0x00000020 [5]     CLK_SYS_TIMER (1) 
+            // 0x00000010 [4]     CLK_SYS_TBMAN (1) 
+            // 0x00000008 [3]     CLK_SYS_SYSINFO (1) 
+            // 0x00000004 [2]     CLK_SYS_SYSCFG (1) 
+            // 0x00000002 [1]     CLK_SYS_SRAM5 (1) 
+            // 0x00000001 [0]     CLK_SYS_SRAM4 (1) 
+            io_rw_32 wake_en1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_WAKE_EN0 applies similarly to other array indexes)
+        _REG_(CLOCKS_WAKE_EN0_OFFSET) // CLOCKS_WAKE_EN0
+        // enable clock in wake mode
+        // 0x80000000 [31]    CLK_SYS_SRAM3 (1) 
+        // 0x40000000 [30]    CLK_SYS_SRAM2 (1) 
+        // 0x20000000 [29]    CLK_SYS_SRAM1 (1) 
+        // 0x10000000 [28]    CLK_SYS_SRAM0 (1) 
+        // 0x08000000 [27]    CLK_SYS_SPI1 (1) 
+        // 0x04000000 [26]    CLK_PERI_SPI1 (1) 
+        // 0x02000000 [25]    CLK_SYS_SPI0 (1) 
+        // 0x01000000 [24]    CLK_PERI_SPI0 (1) 
+        // 0x00800000 [23]    CLK_SYS_SIO  (1) 
+        // 0x00400000 [22]    CLK_SYS_RTC  (1) 
+        // 0x00200000 [21]    CLK_RTC_RTC  (1) 
+        // 0x00100000 [20]    CLK_SYS_ROSC (1) 
+        // 0x00080000 [19]    CLK_SYS_ROM  (1) 
+        // 0x00040000 [18]    CLK_SYS_RESETS (1) 
+        // 0x00020000 [17]    CLK_SYS_PWM  (1) 
+        // 0x00010000 [16]    CLK_SYS_PSM  (1) 
+        // 0x00008000 [15]    CLK_SYS_PLL_USB (1) 
+        // 0x00004000 [14]    CLK_SYS_PLL_SYS (1) 
+        // 0x00002000 [13]    CLK_SYS_PIO1 (1) 
+        // 0x00001000 [12]    CLK_SYS_PIO0 (1) 
+        // 0x00000800 [11]    CLK_SYS_PADS (1) 
+        // 0x00000400 [10]    CLK_SYS_VREG_AND_CHIP_RESET (1) 
+        // 0x00000200 [9]     CLK_SYS_JTAG (1) 
+        // 0x00000100 [8]     CLK_SYS_IO   (1) 
+        // 0x00000080 [7]     CLK_SYS_I2C1 (1) 
+        // 0x00000040 [6]     CLK_SYS_I2C0 (1) 
+        // 0x00000020 [5]     CLK_SYS_DMA  (1) 
+        // 0x00000010 [4]     CLK_SYS_BUSFABRIC (1) 
+        // 0x00000008 [3]     CLK_SYS_BUSCTRL (1) 
+        // 0x00000004 [2]     CLK_SYS_ADC  (1) 
+        // 0x00000002 [1]     CLK_ADC_ADC  (1) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+        io_rw_32 wake_en[2];
+    };
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_SLEEP_EN0_OFFSET) // CLOCKS_SLEEP_EN0
+            // enable clock in sleep mode
+            // 0x80000000 [31]    CLK_SYS_SRAM3 (1) 
+            // 0x40000000 [30]    CLK_SYS_SRAM2 (1) 
+            // 0x20000000 [29]    CLK_SYS_SRAM1 (1) 
+            // 0x10000000 [28]    CLK_SYS_SRAM0 (1) 
+            // 0x08000000 [27]    CLK_SYS_SPI1 (1) 
+            // 0x04000000 [26]    CLK_PERI_SPI1 (1) 
+            // 0x02000000 [25]    CLK_SYS_SPI0 (1) 
+            // 0x01000000 [24]    CLK_PERI_SPI0 (1) 
+            // 0x00800000 [23]    CLK_SYS_SIOB (1) 
+            // 0x00400000 [22]    CLK_SYS_RTC  (1) 
+            // 0x00200000 [21]    CLK_RTC_RTC  (1) 
+            // 0x00100000 [20]    CLK_SYS_ROSC (1) 
+            // 0x00080000 [19]    CLK_SYS_ROM  (1) 
+            // 0x00040000 [18]    CLK_SYS_RESETS (1) 
+            // 0x00020000 [17]    CLK_SYS_PWM  (1) 
+            // 0x00010000 [16]    CLK_SYS_POWER (1) 
+            // 0x00008000 [15]    CLK_SYS_PLL_USB (1) 
+            // 0x00004000 [14]    CLK_SYS_PLL_SYS (1) 
+            // 0x00002000 [13]    CLK_SYS_PIO1 (1) 
+            // 0x00001000 [12]    CLK_SYS_PIO0 (1) 
+            // 0x00000800 [11]    CLK_SYS_PADS (1) 
+            // 0x00000400 [10]    CLK_SYS_LDO_POR (1) 
+            // 0x00000200 [9]     CLK_SYS_JTAG (1) 
+            // 0x00000100 [8]     CLK_SYS_IO   (1) 
+            // 0x00000080 [7]     CLK_SYS_I2C1 (1) 
+            // 0x00000040 [6]     CLK_SYS_I2C0 (1) 
+            // 0x00000020 [5]     CLK_SYS_DMA  (1) 
+            // 0x00000010 [4]     CLK_SYS_BUSFABRIC (1) 
+            // 0x00000008 [3]     CLK_SYS_BUSCTRL (1) 
+            // 0x00000004 [2]     CLK_SYS_ADC0 (1) 
+            // 0x00000002 [1]     CLK_ADC_ADC0 (1) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS_BANK_DEFAULT (1) 
+            io_rw_32 sleep_en0; 
+
+            _REG_(CLOCKS_SLEEP_EN1_OFFSET) // CLOCKS_SLEEP_EN1
+            // enable clock in sleep mode
+            // 0x00004000 [14]    CLK_SYS_XOSC (1) 
+            // 0x00002000 [13]    CLK_SYS_XIP  (1) 
+            // 0x00001000 [12]    CLK_SYS_WATCHDOG (1) 
+            // 0x00000800 [11]    CLK_USB_USBCTRL (1) 
+            // 0x00000400 [10]    CLK_SYS_USBCTRL (1) 
+            // 0x00000200 [9]     CLK_SYS_UART1 (1) 
+            // 0x00000100 [8]     CLK_PERI_UART1 (1) 
+            // 0x00000080 [7]     CLK_SYS_UART0 (1) 
+            // 0x00000040 [6]     CLK_PERI_UART0 (1) 
+            // 0x00000020 [5]     CLK_SYS_TIMER (1) 
+            // 0x00000010 [4]     CLK_SYS_TBMAN (1) 
+            // 0x00000008 [3]     CLK_SYS_SYSINFO (1) 
+            // 0x00000004 [2]     CLK_SYS_SYSCFG (1) 
+            // 0x00000002 [1]     CLK_SYS_SRAM5 (1) 
+            // 0x00000001 [0]     CLK_SYS_SRAM4 (1) 
+            io_rw_32 sleep_en1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_SLEEP_EN0 applies similarly to other array indexes)
+        _REG_(CLOCKS_SLEEP_EN0_OFFSET) // CLOCKS_SLEEP_EN0
+        // enable clock in sleep mode
+        // 0x80000000 [31]    CLK_SYS_SRAM3 (1) 
+        // 0x40000000 [30]    CLK_SYS_SRAM2 (1) 
+        // 0x20000000 [29]    CLK_SYS_SRAM1 (1) 
+        // 0x10000000 [28]    CLK_SYS_SRAM0 (1) 
+        // 0x08000000 [27]    CLK_SYS_SPI1 (1) 
+        // 0x04000000 [26]    CLK_PERI_SPI1 (1) 
+        // 0x02000000 [25]    CLK_SYS_SPI0 (1) 
+        // 0x01000000 [24]    CLK_PERI_SPI0 (1) 
+        // 0x00800000 [23]    CLK_SYS_SIO  (1) 
+        // 0x00400000 [22]    CLK_SYS_RTC  (1) 
+        // 0x00200000 [21]    CLK_RTC_RTC  (1) 
+        // 0x00100000 [20]    CLK_SYS_ROSC (1) 
+        // 0x00080000 [19]    CLK_SYS_ROM  (1) 
+        // 0x00040000 [18]    CLK_SYS_RESETS (1) 
+        // 0x00020000 [17]    CLK_SYS_PWM  (1) 
+        // 0x00010000 [16]    CLK_SYS_PSM  (1) 
+        // 0x00008000 [15]    CLK_SYS_PLL_USB (1) 
+        // 0x00004000 [14]    CLK_SYS_PLL_SYS (1) 
+        // 0x00002000 [13]    CLK_SYS_PIO1 (1) 
+        // 0x00001000 [12]    CLK_SYS_PIO0 (1) 
+        // 0x00000800 [11]    CLK_SYS_PADS (1) 
+        // 0x00000400 [10]    CLK_SYS_VREG_AND_CHIP_RESET (1) 
+        // 0x00000200 [9]     CLK_SYS_JTAG (1) 
+        // 0x00000100 [8]     CLK_SYS_IO   (1) 
+        // 0x00000080 [7]     CLK_SYS_I2C1 (1) 
+        // 0x00000040 [6]     CLK_SYS_I2C0 (1) 
+        // 0x00000020 [5]     CLK_SYS_DMA  (1) 
+        // 0x00000010 [4]     CLK_SYS_BUSFABRIC (1) 
+        // 0x00000008 [3]     CLK_SYS_BUSCTRL (1) 
+        // 0x00000004 [2]     CLK_SYS_ADC  (1) 
+        // 0x00000002 [1]     CLK_ADC_ADC  (1) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+        io_rw_32 sleep_en[2];
+    };
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_ENABLED0_OFFSET) // CLOCKS_ENABLED0
+            // indicates the state of the clock enable
+            // 0x80000000 [31]    CLK_SYS_SRAM3 (0) 
+            // 0x40000000 [30]    CLK_SYS_SRAM2 (0) 
+            // 0x20000000 [29]    CLK_SYS_SRAM1 (0) 
+            // 0x10000000 [28]    CLK_SYS_SRAM0 (0) 
+            // 0x08000000 [27]    CLK_SYS_SPI1 (0) 
+            // 0x04000000 [26]    CLK_PERI_SPI1 (0) 
+            // 0x02000000 [25]    CLK_SYS_SPI0 (0) 
+            // 0x01000000 [24]    CLK_PERI_SPI0 (0) 
+            // 0x00800000 [23]    CLK_SYS_SIOB (0) 
+            // 0x00400000 [22]    CLK_SYS_RTC  (0) 
+            // 0x00200000 [21]    CLK_RTC_RTC  (0) 
+            // 0x00100000 [20]    CLK_SYS_ROSC (0) 
+            // 0x00080000 [19]    CLK_SYS_ROM  (0) 
+            // 0x00040000 [18]    CLK_SYS_RESETS (0) 
+            // 0x00020000 [17]    CLK_SYS_PWM  (0) 
+            // 0x00010000 [16]    CLK_SYS_POWER (0) 
+            // 0x00008000 [15]    CLK_SYS_PLL_USB (0) 
+            // 0x00004000 [14]    CLK_SYS_PLL_SYS (0) 
+            // 0x00002000 [13]    CLK_SYS_PIO1 (0) 
+            // 0x00001000 [12]    CLK_SYS_PIO0 (0) 
+            // 0x00000800 [11]    CLK_SYS_PADS (0) 
+            // 0x00000400 [10]    CLK_SYS_LDO_POR (0) 
+            // 0x00000200 [9]     CLK_SYS_JTAG (0) 
+            // 0x00000100 [8]     CLK_SYS_IO   (0) 
+            // 0x00000080 [7]     CLK_SYS_I2C1 (0) 
+            // 0x00000040 [6]     CLK_SYS_I2C0 (0) 
+            // 0x00000020 [5]     CLK_SYS_DMA  (0) 
+            // 0x00000010 [4]     CLK_SYS_BUSFABRIC (0) 
+            // 0x00000008 [3]     CLK_SYS_BUSCTRL (0) 
+            // 0x00000004 [2]     CLK_SYS_ADC0 (0) 
+            // 0x00000002 [1]     CLK_ADC_ADC0 (0) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS_BANK_DEFAULT (0) 
+            io_ro_32 enabled0; 
+
+            _REG_(CLOCKS_ENABLED1_OFFSET) // CLOCKS_ENABLED1
+            // indicates the state of the clock enable
+            // 0x00004000 [14]    CLK_SYS_XOSC (0) 
+            // 0x00002000 [13]    CLK_SYS_XIP  (0) 
+            // 0x00001000 [12]    CLK_SYS_WATCHDOG (0) 
+            // 0x00000800 [11]    CLK_USB_USBCTRL (0) 
+            // 0x00000400 [10]    CLK_SYS_USBCTRL (0) 
+            // 0x00000200 [9]     CLK_SYS_UART1 (0) 
+            // 0x00000100 [8]     CLK_PERI_UART1 (0) 
+            // 0x00000080 [7]     CLK_SYS_UART0 (0) 
+            // 0x00000040 [6]     CLK_PERI_UART0 (0) 
+            // 0x00000020 [5]     CLK_SYS_TIMER (0) 
+            // 0x00000010 [4]     CLK_SYS_TBMAN (0) 
+            // 0x00000008 [3]     CLK_SYS_SYSINFO (0) 
+            // 0x00000004 [2]     CLK_SYS_SYSCFG (0) 
+            // 0x00000002 [1]     CLK_SYS_SRAM5 (0) 
+            // 0x00000001 [0]     CLK_SYS_SRAM4 (0) 
+            io_ro_32 enabled1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_ENABLED0 applies similarly to other array indexes)
+        _REG_(CLOCKS_ENABLED0_OFFSET) // CLOCKS_ENABLED0
+        // indicates the state of the clock enable
+        // 0x80000000 [31]    CLK_SYS_SRAM3 (0) 
+        // 0x40000000 [30]    CLK_SYS_SRAM2 (0) 
+        // 0x20000000 [29]    CLK_SYS_SRAM1 (0) 
+        // 0x10000000 [28]    CLK_SYS_SRAM0 (0) 
+        // 0x08000000 [27]    CLK_SYS_SPI1 (0) 
+        // 0x04000000 [26]    CLK_PERI_SPI1 (0) 
+        // 0x02000000 [25]    CLK_SYS_SPI0 (0) 
+        // 0x01000000 [24]    CLK_PERI_SPI0 (0) 
+        // 0x00800000 [23]    CLK_SYS_SIO  (0) 
+        // 0x00400000 [22]    CLK_SYS_RTC  (0) 
+        // 0x00200000 [21]    CLK_RTC_RTC  (0) 
+        // 0x00100000 [20]    CLK_SYS_ROSC (0) 
+        // 0x00080000 [19]    CLK_SYS_ROM  (0) 
+        // 0x00040000 [18]    CLK_SYS_RESETS (0) 
+        // 0x00020000 [17]    CLK_SYS_PWM  (0) 
+        // 0x00010000 [16]    CLK_SYS_PSM  (0) 
+        // 0x00008000 [15]    CLK_SYS_PLL_USB (0) 
+        // 0x00004000 [14]    CLK_SYS_PLL_SYS (0) 
+        // 0x00002000 [13]    CLK_SYS_PIO1 (0) 
+        // 0x00001000 [12]    CLK_SYS_PIO0 (0) 
+        // 0x00000800 [11]    CLK_SYS_PADS (0) 
+        // 0x00000400 [10]    CLK_SYS_VREG_AND_CHIP_RESET (0) 
+        // 0x00000200 [9]     CLK_SYS_JTAG (0) 
+        // 0x00000100 [8]     CLK_SYS_IO   (0) 
+        // 0x00000080 [7]     CLK_SYS_I2C1 (0) 
+        // 0x00000040 [6]     CLK_SYS_I2C0 (0) 
+        // 0x00000020 [5]     CLK_SYS_DMA  (0) 
+        // 0x00000010 [4]     CLK_SYS_BUSFABRIC (0) 
+        // 0x00000008 [3]     CLK_SYS_BUSCTRL (0) 
+        // 0x00000004 [2]     CLK_SYS_ADC  (0) 
+        // 0x00000002 [1]     CLK_ADC_ADC  (0) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (0) 
+        io_ro_32 enabled[2];
+    };
+ 
+    _REG_(CLOCKS_INTR_OFFSET) // CLOCKS_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_ro_32 intr;
+ 
+    _REG_(CLOCKS_INTE_OFFSET) // CLOCKS_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_rw_32 inte;
+ 
+    _REG_(CLOCKS_INTF_OFFSET) // CLOCKS_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_rw_32 intf;
+ 
+    _REG_(CLOCKS_INTS_OFFSET) // CLOCKS_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_ro_32 ints;
+} clocks_hw_t;
+
+#define clocks_hw ((clocks_hw_t *)CLOCKS_BASE)
+static_assert(sizeof (clocks_hw_t) == 0x00c8, "");
+
+#endif // _HARDWARE_STRUCTS_CLOCKS_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/dma.h b/lib/pico-sdk/rp2040/hardware/structs/dma.h
new file mode 100644
index 0000000..bc83060
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/dma.h
@@ -0,0 +1,239 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_DMA_H
+#define _HARDWARE_STRUCTS_DMA_H
+
+/**
+ * \file rp2040/dma.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/dma.h"
+#include "hardware/structs/dma_debug.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_dma
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/dma.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(DMA_CH0_READ_ADDR_OFFSET) // DMA_CH0_READ_ADDR
+    // DMA Channel 0 Read Address pointer
+    // 0xffffffff [31:0]  CH0_READ_ADDR (0x00000000) This register updates automatically each time a read completes
+    io_rw_32 read_addr;
+ 
+    _REG_(DMA_CH0_WRITE_ADDR_OFFSET) // DMA_CH0_WRITE_ADDR
+    // DMA Channel 0 Write Address pointer
+    // 0xffffffff [31:0]  CH0_WRITE_ADDR (0x00000000) This register updates automatically each time a write completes
+    io_rw_32 write_addr;
+ 
+    _REG_(DMA_CH0_TRANS_COUNT_OFFSET) // DMA_CH0_TRANS_COUNT
+    // DMA Channel 0 Transfer Count
+    // 0xffffffff [31:0]  CH0_TRANS_COUNT (0x00000000) Program the number of bus transfers a channel will...
+    io_rw_32 transfer_count;
+ 
+    _REG_(DMA_CH0_CTRL_TRIG_OFFSET) // DMA_CH0_CTRL_TRIG
+    // DMA Channel 0 Control and Status
+    // 0x80000000 [31]    AHB_ERROR    (0) Logical OR of the READ_ERROR and WRITE_ERROR flags
+    // 0x40000000 [30]    READ_ERROR   (0) If 1, the channel received a read bus error
+    // 0x20000000 [29]    WRITE_ERROR  (0) If 1, the channel received a write bus error
+    // 0x01000000 [24]    BUSY         (0) This flag goes high when the channel starts a new...
+    // 0x00800000 [23]    SNIFF_EN     (0) If 1, this channel's data transfers are visible to the...
+    // 0x00400000 [22]    BSWAP        (0) Apply byte-swap transformation to DMA data
+    // 0x00200000 [21]    IRQ_QUIET    (0) In QUIET mode, the channel does not generate IRQs at the...
+    // 0x001f8000 [20:15] TREQ_SEL     (0x00) Select a Transfer Request signal
+    // 0x00007800 [14:11] CHAIN_TO     (0x0) When this channel completes, it will trigger the channel...
+    // 0x00000400 [10]    RING_SEL     (0) Select whether RING_SIZE applies to read or write addresses
+    // 0x000003c0 [9:6]   RING_SIZE    (0x0) Size of address wrap region
+    // 0x00000020 [5]     INCR_WRITE   (0) If 1, the write address increments with each transfer
+    // 0x00000010 [4]     INCR_READ    (0) If 1, the read address increments with each transfer
+    // 0x0000000c [3:2]   DATA_SIZE    (0x0) Set the size of each bus transfer (byte/halfword/word)
+    // 0x00000002 [1]     HIGH_PRIORITY (0) HIGH_PRIORITY gives a channel preferential treatment in...
+    // 0x00000001 [0]     EN           (0) DMA Channel Enable
+    io_rw_32 ctrl_trig;
+ 
+    _REG_(DMA_CH0_AL1_CTRL_OFFSET) // DMA_CH0_AL1_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL1_CTRL (-) 
+    io_rw_32 al1_ctrl;
+ 
+    _REG_(DMA_CH0_AL1_READ_ADDR_OFFSET) // DMA_CH0_AL1_READ_ADDR
+    // Alias for channel 0 READ_ADDR register
+    // 0xffffffff [31:0]  CH0_AL1_READ_ADDR (-) 
+    io_rw_32 al1_read_addr;
+ 
+    _REG_(DMA_CH0_AL1_WRITE_ADDR_OFFSET) // DMA_CH0_AL1_WRITE_ADDR
+    // Alias for channel 0 WRITE_ADDR register
+    // 0xffffffff [31:0]  CH0_AL1_WRITE_ADDR (-) 
+    io_rw_32 al1_write_addr;
+ 
+    _REG_(DMA_CH0_AL1_TRANS_COUNT_TRIG_OFFSET) // DMA_CH0_AL1_TRANS_COUNT_TRIG
+    // Alias for channel 0 TRANS_COUNT register +
+    // 0xffffffff [31:0]  CH0_AL1_TRANS_COUNT_TRIG (-) 
+    io_rw_32 al1_transfer_count_trig;
+ 
+    _REG_(DMA_CH0_AL2_CTRL_OFFSET) // DMA_CH0_AL2_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL2_CTRL (-) 
+    io_rw_32 al2_ctrl;
+ 
+    _REG_(DMA_CH0_AL2_TRANS_COUNT_OFFSET) // DMA_CH0_AL2_TRANS_COUNT
+    // Alias for channel 0 TRANS_COUNT register
+    // 0xffffffff [31:0]  CH0_AL2_TRANS_COUNT (-) 
+    io_rw_32 al2_transfer_count;
+ 
+    _REG_(DMA_CH0_AL2_READ_ADDR_OFFSET) // DMA_CH0_AL2_READ_ADDR
+    // Alias for channel 0 READ_ADDR register
+    // 0xffffffff [31:0]  CH0_AL2_READ_ADDR (-) 
+    io_rw_32 al2_read_addr;
+ 
+    _REG_(DMA_CH0_AL2_WRITE_ADDR_TRIG_OFFSET) // DMA_CH0_AL2_WRITE_ADDR_TRIG
+    // Alias for channel 0 WRITE_ADDR register +
+    // 0xffffffff [31:0]  CH0_AL2_WRITE_ADDR_TRIG (-) 
+    io_rw_32 al2_write_addr_trig;
+ 
+    _REG_(DMA_CH0_AL3_CTRL_OFFSET) // DMA_CH0_AL3_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL3_CTRL (-) 
+    io_rw_32 al3_ctrl;
+ 
+    _REG_(DMA_CH0_AL3_WRITE_ADDR_OFFSET) // DMA_CH0_AL3_WRITE_ADDR
+    // Alias for channel 0 WRITE_ADDR register
+    // 0xffffffff [31:0]  CH0_AL3_WRITE_ADDR (-) 
+    io_rw_32 al3_write_addr;
+ 
+    _REG_(DMA_CH0_AL3_TRANS_COUNT_OFFSET) // DMA_CH0_AL3_TRANS_COUNT
+    // Alias for channel 0 TRANS_COUNT register
+    // 0xffffffff [31:0]  CH0_AL3_TRANS_COUNT (-) 
+    io_rw_32 al3_transfer_count;
+ 
+    _REG_(DMA_CH0_AL3_READ_ADDR_TRIG_OFFSET) // DMA_CH0_AL3_READ_ADDR_TRIG
+    // Alias for channel 0 READ_ADDR register +
+    // 0xffffffff [31:0]  CH0_AL3_READ_ADDR_TRIG (-) 
+    io_rw_32 al3_read_addr_trig;
+} dma_channel_hw_t;
+
+typedef struct {
+    _REG_(DMA_INTR_OFFSET) // DMA_INTR
+    // Interrupt Status (raw)
+    // 0x0000ffff [15:0]  INTR         (0x0000) Raw interrupt status for DMA Channels 0
+    io_rw_32 intr;
+ 
+    _REG_(DMA_INTE0_OFFSET) // DMA_INTE0
+    // Interrupt Enables for IRQ 0
+    // 0x0000ffff [15:0]  INTE0        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 0
+    io_rw_32 inte;
+ 
+    _REG_(DMA_INTF0_OFFSET) // DMA_INTF0
+    // Force Interrupts
+    // 0x0000ffff [15:0]  INTF0        (0x0000) Write 1s to force the corresponding bits in INTE0
+    io_rw_32 intf;
+ 
+    _REG_(DMA_INTS0_OFFSET) // DMA_INTS0
+    // Interrupt Status for IRQ 0
+    // 0x0000ffff [15:0]  INTS0        (0x0000) Indicates active channel interrupt requests which are...
+    io_rw_32 ints;
+} dma_irq_ctrl_hw_t;
+
+typedef struct {
+    dma_channel_hw_t ch[12];
+ 
+    uint32_t _pad0[64];
+ 
+    union {
+        struct {
+            _REG_(DMA_INTR_OFFSET) // DMA_INTR
+            // Interrupt Status (raw)
+            // 0x0000ffff [15:0]  INTR         (0x0000) Raw interrupt status for DMA Channels 0
+            io_rw_32 intr;
+
+            _REG_(DMA_INTE0_OFFSET) // DMA_INTE0
+            // Interrupt Enables for IRQ 0
+            // 0x0000ffff [15:0]  INTE0        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 0
+            io_rw_32 inte0;
+
+            _REG_(DMA_INTF0_OFFSET) // DMA_INTF0
+            // Force Interrupts
+            // 0x0000ffff [15:0]  INTF0        (0x0000) Write 1s to force the corresponding bits in INTE0                  
+            io_rw_32 intf0;
+
+            _REG_(DMA_INTS0_OFFSET) // DMA_INTS0
+            // Interrupt Status for IRQ 0
+            // 0x0000ffff [15:0]  INTS0        (0x0000) Indicates active channel interrupt requests which are...
+            io_rw_32 ints0;
+
+            uint32_t __pad0;
+
+            _REG_(DMA_INTE1_OFFSET) // DMA_INTE1
+            // Interrupt Enables for IRQ 1
+            // 0x0000ffff [15:0]  INTE1        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 1
+            io_rw_32 inte1;
+
+            _REG_(DMA_INTF1_OFFSET) // DMA_INTF1
+            // Force Interrupts for IRQ 1
+            // 0x0000ffff [15:0]  INTF1        (0x0000) Write 1s to force the corresponding bits in INTF1
+            io_rw_32 intf1;
+
+            _REG_(DMA_INTS1_OFFSET) // DMA_INTS1
+            // Interrupt Status (masked) for IRQ 1
+            // 0x0000ffff [15:0]  INTS1        (0x0000) Indicates active channel interrupt requests which are...
+            io_rw_32 ints1;
+        };
+        dma_irq_ctrl_hw_t irq_ctrl[2];
+    };
+ 
+    // (Description copied from array index 0 register DMA_TIMER0 applies similarly to other array indexes)
+    _REG_(DMA_TIMER0_OFFSET) // DMA_TIMER0
+    // Pacing (X/Y) Fractional Timer +
+    // 0xffff0000 [31:16] X            (0x0000) Pacing Timer Dividend
+    // 0x0000ffff [15:0]  Y            (0x0000) Pacing Timer Divisor
+    io_rw_32 timer[4];
+ 
+    _REG_(DMA_MULTI_CHAN_TRIGGER_OFFSET) // DMA_MULTI_CHAN_TRIGGER
+    // Trigger one or more channels simultaneously
+    // 0x0000ffff [15:0]  MULTI_CHAN_TRIGGER (0x0000) Each bit in this register corresponds to a DMA channel
+    io_wo_32 multi_channel_trigger;
+ 
+    _REG_(DMA_SNIFF_CTRL_OFFSET) // DMA_SNIFF_CTRL
+    // Sniffer Control
+    // 0x00000800 [11]    OUT_INV      (0) If set, the result appears inverted (bitwise complement)...
+    // 0x00000400 [10]    OUT_REV      (0) If set, the result appears bit-reversed when read
+    // 0x00000200 [9]     BSWAP        (0) Locally perform a byte reverse on the sniffed data,...
+    // 0x000001e0 [8:5]   CALC         (0x0) 
+    // 0x0000001e [4:1]   DMACH        (0x0) DMA channel for Sniffer to observe
+    // 0x00000001 [0]     EN           (0) Enable sniffer
+    io_rw_32 sniff_ctrl;
+ 
+    _REG_(DMA_SNIFF_DATA_OFFSET) // DMA_SNIFF_DATA
+    // Data accumulator for sniff hardware
+    // 0xffffffff [31:0]  SNIFF_DATA   (0x00000000) Write an initial seed value here before starting a DMA...
+    io_rw_32 sniff_data;
+ 
+    uint32_t _pad1;
+ 
+    _REG_(DMA_FIFO_LEVELS_OFFSET) // DMA_FIFO_LEVELS
+    // Debug RAF, WAF, TDF levels
+    // 0x00ff0000 [23:16] RAF_LVL      (0x00) Current Read-Address-FIFO fill level
+    // 0x0000ff00 [15:8]  WAF_LVL      (0x00) Current Write-Address-FIFO fill level
+    // 0x000000ff [7:0]   TDF_LVL      (0x00) Current Transfer-Data-FIFO fill level
+    io_ro_32 fifo_levels;
+ 
+    _REG_(DMA_CHAN_ABORT_OFFSET) // DMA_CHAN_ABORT
+    // Abort an in-progress transfer sequence on one or more channels
+    // 0x0000ffff [15:0]  CHAN_ABORT   (0x0000) Each bit corresponds to a channel
+    io_wo_32 abort;
+} dma_hw_t;
+
+#define dma_hw ((dma_hw_t *)DMA_BASE)
+static_assert(sizeof (dma_hw_t) == 0x0448, "");
+
+#endif // _HARDWARE_STRUCTS_DMA_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/dma_debug.h b/lib/pico-sdk/rp2040/hardware/structs/dma_debug.h
new file mode 100644
index 0000000..239b8ca
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/dma_debug.h
@@ -0,0 +1,47 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_DMA_DEBUG_H
+#define _HARDWARE_STRUCTS_DMA_DEBUG_H
+
+/**
+ * \file rp2040/dma_debug.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/dma.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_dma
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/dma.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(DMA_CH0_DBG_CTDREQ_OFFSET) // DMA_CH0_DBG_CTDREQ
+    // Read: get channel DREQ counter (i
+    // 0x0000003f [5:0]   CH0_DBG_CTDREQ (0x00) 
+    io_rw_32 dbg_ctdreq;
+ 
+    _REG_(DMA_CH0_DBG_TCR_OFFSET) // DMA_CH0_DBG_TCR
+    // Read to get channel TRANS_COUNT reload value, i
+    // 0xffffffff [31:0]  CH0_DBG_TCR  (0x00000000) 
+    io_ro_32 dbg_tcr;
+ 
+    uint32_t _pad0[14];
+} dma_debug_channel_hw_t;
+
+typedef struct {
+    dma_debug_channel_hw_t ch[12];
+} dma_debug_hw_t;
+
+#define dma_debug_hw ((dma_debug_hw_t *)(DMA_BASE + DMA_CH0_DBG_CTDREQ_OFFSET))
+
+#endif // _HARDWARE_STRUCTS_DMA_DEBUG_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/i2c.h b/lib/pico-sdk/rp2040/hardware/structs/i2c.h
new file mode 100644
index 0000000..2ff0997
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/i2c.h
@@ -0,0 +1,338 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_I2C_H
+#define _HARDWARE_STRUCTS_I2C_H
+
+/**
+ * \file rp2040/i2c.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/i2c.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_i2c
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/i2c.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(I2C_IC_CON_OFFSET) // I2C_IC_CON
+    // I2C Control Register
+    // 0x00000400 [10]    STOP_DET_IF_MASTER_ACTIVE (0) Master issues the STOP_DET interrupt irrespective of...
+    // 0x00000200 [9]     RX_FIFO_FULL_HLD_CTRL (0) This bit controls whether DW_apb_i2c should hold the bus...
+    // 0x00000100 [8]     TX_EMPTY_CTRL (0) This bit controls the generation of the TX_EMPTY...
+    // 0x00000080 [7]     STOP_DET_IFADDRESSED (0) In slave mode: - 1'b1:  issues the STOP_DET interrupt...
+    // 0x00000040 [6]     IC_SLAVE_DISABLE (1) This bit controls whether I2C has its slave disabled,...
+    // 0x00000020 [5]     IC_RESTART_EN (1) Determines whether RESTART conditions may be sent when...
+    // 0x00000010 [4]     IC_10BITADDR_MASTER (0) Controls whether the DW_apb_i2c starts its transfers in...
+    // 0x00000008 [3]     IC_10BITADDR_SLAVE (0) When acting as a slave, this bit controls whether the...
+    // 0x00000006 [2:1]   SPEED        (0x2) These bits control at which speed the DW_apb_i2c...
+    // 0x00000001 [0]     MASTER_MODE  (1) This bit controls whether the DW_apb_i2c master is enabled
+    io_rw_32 con;
+ 
+    _REG_(I2C_IC_TAR_OFFSET) // I2C_IC_TAR
+    // I2C Target Address Register
+    // 0x00000800 [11]    SPECIAL      (0) This bit indicates whether software performs a Device-ID...
+    // 0x00000400 [10]    GC_OR_START  (0) If bit 11 (SPECIAL) is set to 1 and bit 13(Device-ID) is...
+    // 0x000003ff [9:0]   IC_TAR       (0x055) This is the target address for any master transaction
+    io_rw_32 tar;
+ 
+    _REG_(I2C_IC_SAR_OFFSET) // I2C_IC_SAR
+    // I2C Slave Address Register
+    // 0x000003ff [9:0]   IC_SAR       (0x055) The IC_SAR holds the slave address when the I2C is...
+    io_rw_32 sar;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(I2C_IC_DATA_CMD_OFFSET) // I2C_IC_DATA_CMD
+    // I2C Rx/Tx Data Buffer and Command Register
+    // 0x00000800 [11]    FIRST_DATA_BYTE (0) Indicates the first data byte received after the address...
+    // 0x00000400 [10]    RESTART      (0) This bit controls whether a RESTART is issued before the...
+    // 0x00000200 [9]     STOP         (0) This bit controls whether a STOP is issued after the...
+    // 0x00000100 [8]     CMD          (0) This bit controls whether a read or a write is performed
+    // 0x000000ff [7:0]   DAT          (0x00) This register contains the data to be transmitted or...
+    io_rw_32 data_cmd;
+ 
+    _REG_(I2C_IC_SS_SCL_HCNT_OFFSET) // I2C_IC_SS_SCL_HCNT
+    // Standard Speed I2C Clock SCL High Count Register
+    // 0x0000ffff [15:0]  IC_SS_SCL_HCNT (0x0028) This register must be set before any I2C bus transaction...
+    io_rw_32 ss_scl_hcnt;
+ 
+    _REG_(I2C_IC_SS_SCL_LCNT_OFFSET) // I2C_IC_SS_SCL_LCNT
+    // Standard Speed I2C Clock SCL Low Count Register
+    // 0x0000ffff [15:0]  IC_SS_SCL_LCNT (0x002f) This register must be set before any I2C bus transaction...
+    io_rw_32 ss_scl_lcnt;
+ 
+    _REG_(I2C_IC_FS_SCL_HCNT_OFFSET) // I2C_IC_FS_SCL_HCNT
+    // Fast Mode or Fast Mode Plus I2C Clock SCL High Count Register
+    // 0x0000ffff [15:0]  IC_FS_SCL_HCNT (0x0006) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_scl_hcnt;
+ 
+    _REG_(I2C_IC_FS_SCL_LCNT_OFFSET) // I2C_IC_FS_SCL_LCNT
+    // Fast Mode or Fast Mode Plus I2C Clock SCL Low Count Register
+    // 0x0000ffff [15:0]  IC_FS_SCL_LCNT (0x000d) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_scl_lcnt;
+ 
+    uint32_t _pad1[2];
+ 
+    _REG_(I2C_IC_INTR_STAT_OFFSET) // I2C_IC_INTR_STAT
+    // I2C Interrupt Status Register
+    // 0x00001000 [12]    R_RESTART_DET (0) See IC_RAW_INTR_STAT for a detailed description of...
+    // 0x00000800 [11]    R_GEN_CALL   (0) See IC_RAW_INTR_STAT for a detailed description of R_GEN_CALL bit
+    // 0x00000400 [10]    R_START_DET  (0) See IC_RAW_INTR_STAT for a detailed description of...
+    // 0x00000200 [9]     R_STOP_DET   (0) See IC_RAW_INTR_STAT for a detailed description of R_STOP_DET bit
+    // 0x00000100 [8]     R_ACTIVITY   (0) See IC_RAW_INTR_STAT for a detailed description of R_ACTIVITY bit
+    // 0x00000080 [7]     R_RX_DONE    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_DONE bit
+    // 0x00000040 [6]     R_TX_ABRT    (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_ABRT bit
+    // 0x00000020 [5]     R_RD_REQ     (0) See IC_RAW_INTR_STAT for a detailed description of R_RD_REQ bit
+    // 0x00000010 [4]     R_TX_EMPTY   (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_EMPTY bit
+    // 0x00000008 [3]     R_TX_OVER    (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_OVER bit
+    // 0x00000004 [2]     R_RX_FULL    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_FULL bit
+    // 0x00000002 [1]     R_RX_OVER    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_OVER bit
+    // 0x00000001 [0]     R_RX_UNDER   (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_UNDER bit
+    io_ro_32 intr_stat;
+ 
+    _REG_(I2C_IC_INTR_MASK_OFFSET) // I2C_IC_INTR_MASK
+    // I2C Interrupt Mask Register
+    // 0x00001000 [12]    M_RESTART_DET (0) This bit masks the R_RESTART_DET interrupt in...
+    // 0x00000800 [11]    M_GEN_CALL   (1) This bit masks the R_GEN_CALL interrupt in IC_INTR_STAT register
+    // 0x00000400 [10]    M_START_DET  (0) This bit masks the R_START_DET interrupt in IC_INTR_STAT register
+    // 0x00000200 [9]     M_STOP_DET   (0) This bit masks the R_STOP_DET interrupt in IC_INTR_STAT register
+    // 0x00000100 [8]     M_ACTIVITY   (0) This bit masks the R_ACTIVITY interrupt in IC_INTR_STAT register
+    // 0x00000080 [7]     M_RX_DONE    (1) This bit masks the R_RX_DONE interrupt in IC_INTR_STAT register
+    // 0x00000040 [6]     M_TX_ABRT    (1) This bit masks the R_TX_ABRT interrupt in IC_INTR_STAT register
+    // 0x00000020 [5]     M_RD_REQ     (1) This bit masks the R_RD_REQ interrupt in IC_INTR_STAT register
+    // 0x00000010 [4]     M_TX_EMPTY   (1) This bit masks the R_TX_EMPTY interrupt in IC_INTR_STAT register
+    // 0x00000008 [3]     M_TX_OVER    (1) This bit masks the R_TX_OVER interrupt in IC_INTR_STAT register
+    // 0x00000004 [2]     M_RX_FULL    (1) This bit masks the R_RX_FULL interrupt in IC_INTR_STAT register
+    // 0x00000002 [1]     M_RX_OVER    (1) This bit masks the R_RX_OVER interrupt in IC_INTR_STAT register
+    // 0x00000001 [0]     M_RX_UNDER   (1) This bit masks the R_RX_UNDER interrupt in IC_INTR_STAT register
+    io_rw_32 intr_mask;
+ 
+    _REG_(I2C_IC_RAW_INTR_STAT_OFFSET) // I2C_IC_RAW_INTR_STAT
+    // I2C Raw Interrupt Status Register
+    // 0x00001000 [12]    RESTART_DET  (0) Indicates whether a RESTART condition has occurred on...
+    // 0x00000800 [11]    GEN_CALL     (0) Set only when a General Call address is received and it...
+    // 0x00000400 [10]    START_DET    (0) Indicates whether a START or RESTART condition has...
+    // 0x00000200 [9]     STOP_DET     (0) Indicates whether a STOP condition has occurred on the...
+    // 0x00000100 [8]     ACTIVITY     (0) This bit captures DW_apb_i2c activity and stays set...
+    // 0x00000080 [7]     RX_DONE      (0) When the DW_apb_i2c is acting as a slave-transmitter,...
+    // 0x00000040 [6]     TX_ABRT      (0) This bit indicates if DW_apb_i2c, as an I2C transmitter,...
+    // 0x00000020 [5]     RD_REQ       (0) This bit is set to 1 when DW_apb_i2c is acting as a...
+    // 0x00000010 [4]     TX_EMPTY     (0) The behavior of the TX_EMPTY interrupt status differs...
+    // 0x00000008 [3]     TX_OVER      (0) Set during transmit if the transmit buffer is filled to...
+    // 0x00000004 [2]     RX_FULL      (0) Set when the receive buffer reaches or goes above the...
+    // 0x00000002 [1]     RX_OVER      (0) Set if the receive buffer is completely filled to...
+    // 0x00000001 [0]     RX_UNDER     (0) Set if the processor attempts to read the receive buffer...
+    io_ro_32 raw_intr_stat;
+ 
+    _REG_(I2C_IC_RX_TL_OFFSET) // I2C_IC_RX_TL
+    // I2C Receive FIFO Threshold Register
+    // 0x000000ff [7:0]   RX_TL        (0x00) Receive FIFO Threshold Level
+    io_rw_32 rx_tl;
+ 
+    _REG_(I2C_IC_TX_TL_OFFSET) // I2C_IC_TX_TL
+    // I2C Transmit FIFO Threshold Register
+    // 0x000000ff [7:0]   TX_TL        (0x00) Transmit FIFO Threshold Level
+    io_rw_32 tx_tl;
+ 
+    _REG_(I2C_IC_CLR_INTR_OFFSET) // I2C_IC_CLR_INTR
+    // Clear Combined and Individual Interrupt Register
+    // 0x00000001 [0]     CLR_INTR     (0) Read this register to clear the combined interrupt, all...
+    io_ro_32 clr_intr;
+ 
+    _REG_(I2C_IC_CLR_RX_UNDER_OFFSET) // I2C_IC_CLR_RX_UNDER
+    // Clear RX_UNDER Interrupt Register
+    // 0x00000001 [0]     CLR_RX_UNDER (0) Read this register to clear the RX_UNDER interrupt (bit...
+    io_ro_32 clr_rx_under;
+ 
+    _REG_(I2C_IC_CLR_RX_OVER_OFFSET) // I2C_IC_CLR_RX_OVER
+    // Clear RX_OVER Interrupt Register
+    // 0x00000001 [0]     CLR_RX_OVER  (0) Read this register to clear the RX_OVER interrupt (bit...
+    io_ro_32 clr_rx_over;
+ 
+    _REG_(I2C_IC_CLR_TX_OVER_OFFSET) // I2C_IC_CLR_TX_OVER
+    // Clear TX_OVER Interrupt Register
+    // 0x00000001 [0]     CLR_TX_OVER  (0) Read this register to clear the TX_OVER interrupt (bit...
+    io_ro_32 clr_tx_over;
+ 
+    _REG_(I2C_IC_CLR_RD_REQ_OFFSET) // I2C_IC_CLR_RD_REQ
+    // Clear RD_REQ Interrupt Register
+    // 0x00000001 [0]     CLR_RD_REQ   (0) Read this register to clear the RD_REQ interrupt (bit 5)...
+    io_ro_32 clr_rd_req;
+ 
+    _REG_(I2C_IC_CLR_TX_ABRT_OFFSET) // I2C_IC_CLR_TX_ABRT
+    // Clear TX_ABRT Interrupt Register
+    // 0x00000001 [0]     CLR_TX_ABRT  (0) Read this register to clear the TX_ABRT interrupt (bit...
+    io_ro_32 clr_tx_abrt;
+ 
+    _REG_(I2C_IC_CLR_RX_DONE_OFFSET) // I2C_IC_CLR_RX_DONE
+    // Clear RX_DONE Interrupt Register
+    // 0x00000001 [0]     CLR_RX_DONE  (0) Read this register to clear the RX_DONE interrupt (bit...
+    io_ro_32 clr_rx_done;
+ 
+    _REG_(I2C_IC_CLR_ACTIVITY_OFFSET) // I2C_IC_CLR_ACTIVITY
+    // Clear ACTIVITY Interrupt Register
+    // 0x00000001 [0]     CLR_ACTIVITY (0) Reading this register clears the ACTIVITY interrupt if...
+    io_ro_32 clr_activity;
+ 
+    _REG_(I2C_IC_CLR_STOP_DET_OFFSET) // I2C_IC_CLR_STOP_DET
+    // Clear STOP_DET Interrupt Register
+    // 0x00000001 [0]     CLR_STOP_DET (0) Read this register to clear the STOP_DET interrupt (bit...
+    io_ro_32 clr_stop_det;
+ 
+    _REG_(I2C_IC_CLR_START_DET_OFFSET) // I2C_IC_CLR_START_DET
+    // Clear START_DET Interrupt Register
+    // 0x00000001 [0]     CLR_START_DET (0) Read this register to clear the START_DET interrupt (bit...
+    io_ro_32 clr_start_det;
+ 
+    _REG_(I2C_IC_CLR_GEN_CALL_OFFSET) // I2C_IC_CLR_GEN_CALL
+    // Clear GEN_CALL Interrupt Register
+    // 0x00000001 [0]     CLR_GEN_CALL (0) Read this register to clear the GEN_CALL interrupt (bit...
+    io_ro_32 clr_gen_call;
+ 
+    _REG_(I2C_IC_ENABLE_OFFSET) // I2C_IC_ENABLE
+    // I2C ENABLE Register
+    // 0x00000004 [2]     TX_CMD_BLOCK (0) In Master mode: - 1'b1: Blocks the transmission of data...
+    // 0x00000002 [1]     ABORT        (0) When set, the controller initiates the transfer abort
+    // 0x00000001 [0]     ENABLE       (0) Controls whether the DW_apb_i2c is enabled
+    io_rw_32 enable;
+ 
+    _REG_(I2C_IC_STATUS_OFFSET) // I2C_IC_STATUS
+    // I2C STATUS Register
+    // 0x00000040 [6]     SLV_ACTIVITY (0) Slave FSM Activity Status
+    // 0x00000020 [5]     MST_ACTIVITY (0) Master FSM Activity Status
+    // 0x00000010 [4]     RFF          (0) Receive FIFO Completely Full
+    // 0x00000008 [3]     RFNE         (0) Receive FIFO Not Empty
+    // 0x00000004 [2]     TFE          (1) Transmit FIFO Completely Empty
+    // 0x00000002 [1]     TFNF         (1) Transmit FIFO Not Full
+    // 0x00000001 [0]     ACTIVITY     (0) I2C Activity Status
+    io_ro_32 status;
+ 
+    _REG_(I2C_IC_TXFLR_OFFSET) // I2C_IC_TXFLR
+    // I2C Transmit FIFO Level Register
+    // 0x0000001f [4:0]   TXFLR        (0x00) Transmit FIFO Level
+    io_ro_32 txflr;
+ 
+    _REG_(I2C_IC_RXFLR_OFFSET) // I2C_IC_RXFLR
+    // I2C Receive FIFO Level Register
+    // 0x0000001f [4:0]   RXFLR        (0x00) Receive FIFO Level
+    io_ro_32 rxflr;
+ 
+    _REG_(I2C_IC_SDA_HOLD_OFFSET) // I2C_IC_SDA_HOLD
+    // I2C SDA Hold Time Length Register
+    // 0x00ff0000 [23:16] IC_SDA_RX_HOLD (0x00) Sets the required SDA hold time in units of ic_clk...
+    // 0x0000ffff [15:0]  IC_SDA_TX_HOLD (0x0001) Sets the required SDA hold time in units of ic_clk...
+    io_rw_32 sda_hold;
+ 
+    _REG_(I2C_IC_TX_ABRT_SOURCE_OFFSET) // I2C_IC_TX_ABRT_SOURCE
+    // I2C Transmit Abort Source Register
+    // 0xff800000 [31:23] TX_FLUSH_CNT (0x000) This field indicates the number of Tx FIFO Data Commands...
+    // 0x00010000 [16]    ABRT_USER_ABRT (0) This is a master-mode-only bit
+    // 0x00008000 [15]    ABRT_SLVRD_INTX (0) 1: When the processor side responds to a slave mode...
+    // 0x00004000 [14]    ABRT_SLV_ARBLOST (0) This field indicates that a Slave has lost the bus while...
+    // 0x00002000 [13]    ABRT_SLVFLUSH_TXFIFO (0) This field specifies that the Slave has received a read...
+    // 0x00001000 [12]    ARB_LOST     (0) This field specifies that the Master has lost...
+    // 0x00000800 [11]    ABRT_MASTER_DIS (0) This field indicates that the User tries to initiate a...
+    // 0x00000400 [10]    ABRT_10B_RD_NORSTRT (0) This field indicates that the restart is disabled...
+    // 0x00000200 [9]     ABRT_SBYTE_NORSTRT (0) To clear Bit 9, the source of the ABRT_SBYTE_NORSTRT...
+    // 0x00000100 [8]     ABRT_HS_NORSTRT (0) This field indicates that the restart is disabled...
+    // 0x00000080 [7]     ABRT_SBYTE_ACKDET (0) This field indicates that the Master has sent a START...
+    // 0x00000040 [6]     ABRT_HS_ACKDET (0) This field indicates that the Master is in High Speed...
+    // 0x00000020 [5]     ABRT_GCALL_READ (0) This field indicates that DW_apb_i2c in the master mode...
+    // 0x00000010 [4]     ABRT_GCALL_NOACK (0) This field indicates that DW_apb_i2c in master mode has...
+    // 0x00000008 [3]     ABRT_TXDATA_NOACK (0) This field indicates the master-mode only bit
+    // 0x00000004 [2]     ABRT_10ADDR2_NOACK (0) This field indicates that the Master is in 10-bit...
+    // 0x00000002 [1]     ABRT_10ADDR1_NOACK (0) This field indicates that the Master is in 10-bit...
+    // 0x00000001 [0]     ABRT_7B_ADDR_NOACK (0) This field indicates that the Master is in 7-bit...
+    io_ro_32 tx_abrt_source;
+ 
+    _REG_(I2C_IC_SLV_DATA_NACK_ONLY_OFFSET) // I2C_IC_SLV_DATA_NACK_ONLY
+    // Generate Slave Data NACK Register
+    // 0x00000001 [0]     NACK         (0) Generate NACK
+    io_rw_32 slv_data_nack_only;
+ 
+    _REG_(I2C_IC_DMA_CR_OFFSET) // I2C_IC_DMA_CR
+    // DMA Control Register
+    // 0x00000002 [1]     TDMAE        (0) Transmit DMA Enable
+    // 0x00000001 [0]     RDMAE        (0) Receive DMA Enable
+    io_rw_32 dma_cr;
+ 
+    _REG_(I2C_IC_DMA_TDLR_OFFSET) // I2C_IC_DMA_TDLR
+    // DMA Transmit Data Level Register
+    // 0x0000000f [3:0]   DMATDL       (0x0) Transmit Data Level
+    io_rw_32 dma_tdlr;
+ 
+    _REG_(I2C_IC_DMA_RDLR_OFFSET) // I2C_IC_DMA_RDLR
+    // DMA Transmit Data Level Register
+    // 0x0000000f [3:0]   DMARDL       (0x0) Receive Data Level
+    io_rw_32 dma_rdlr;
+ 
+    _REG_(I2C_IC_SDA_SETUP_OFFSET) // I2C_IC_SDA_SETUP
+    // I2C SDA Setup Register
+    // 0x000000ff [7:0]   SDA_SETUP    (0x64) SDA Setup
+    io_rw_32 sda_setup;
+ 
+    _REG_(I2C_IC_ACK_GENERAL_CALL_OFFSET) // I2C_IC_ACK_GENERAL_CALL
+    // I2C ACK General Call Register
+    // 0x00000001 [0]     ACK_GEN_CALL (1) ACK General Call
+    io_rw_32 ack_general_call;
+ 
+    _REG_(I2C_IC_ENABLE_STATUS_OFFSET) // I2C_IC_ENABLE_STATUS
+    // I2C Enable Status Register
+    // 0x00000004 [2]     SLV_RX_DATA_LOST (0) Slave Received Data Lost
+    // 0x00000002 [1]     SLV_DISABLED_WHILE_BUSY (0) Slave Disabled While Busy (Transmit, Receive)
+    // 0x00000001 [0]     IC_EN        (0) ic_en Status
+    io_ro_32 enable_status;
+ 
+    _REG_(I2C_IC_FS_SPKLEN_OFFSET) // I2C_IC_FS_SPKLEN
+    // I2C SS, FS or FM+ spike suppression limit
+    // 0x000000ff [7:0]   IC_FS_SPKLEN (0x07) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_spklen;
+ 
+    uint32_t _pad2;
+ 
+    _REG_(I2C_IC_CLR_RESTART_DET_OFFSET) // I2C_IC_CLR_RESTART_DET
+    // Clear RESTART_DET Interrupt Register
+    // 0x00000001 [0]     CLR_RESTART_DET (0) Read this register to clear the RESTART_DET interrupt...
+    io_ro_32 clr_restart_det;
+ 
+    uint32_t _pad3[18];
+ 
+    _REG_(I2C_IC_COMP_PARAM_1_OFFSET) // I2C_IC_COMP_PARAM_1
+    // Component Parameter Register 1
+    // 0x00ff0000 [23:16] TX_BUFFER_DEPTH (0x00) TX Buffer Depth = 16
+    // 0x0000ff00 [15:8]  RX_BUFFER_DEPTH (0x00) RX Buffer Depth = 16
+    // 0x00000080 [7]     ADD_ENCODED_PARAMS (0) Encoded parameters not visible
+    // 0x00000040 [6]     HAS_DMA      (0) DMA handshaking signals are enabled
+    // 0x00000020 [5]     INTR_IO      (0) COMBINED Interrupt outputs
+    // 0x00000010 [4]     HC_COUNT_VALUES (0) Programmable count values for each mode
+    // 0x0000000c [3:2]   MAX_SPEED_MODE (0x0) MAX SPEED MODE = FAST MODE
+    // 0x00000003 [1:0]   APB_DATA_WIDTH (0x0) APB data bus width is 32 bits
+    io_ro_32 comp_param_1;
+ 
+    _REG_(I2C_IC_COMP_VERSION_OFFSET) // I2C_IC_COMP_VERSION
+    // I2C Component Version Register
+    // 0xffffffff [31:0]  IC_COMP_VERSION (0x3230312a) 
+    io_ro_32 comp_version;
+ 
+    _REG_(I2C_IC_COMP_TYPE_OFFSET) // I2C_IC_COMP_TYPE
+    // I2C Component Type Register
+    // 0xffffffff [31:0]  IC_COMP_TYPE (0x44570140) Designware Component Type number = 0x44_57_01_40
+    io_ro_32 comp_type;
+} i2c_hw_t;
+
+#define i2c0_hw ((i2c_hw_t *)I2C0_BASE)
+#define i2c1_hw ((i2c_hw_t *)I2C1_BASE)
+static_assert(sizeof (i2c_hw_t) == 0x0100, "");
+
+#endif // _HARDWARE_STRUCTS_I2C_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/interp.h b/lib/pico-sdk/rp2040/hardware/structs/interp.h
new file mode 100644
index 0000000..abc0684
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/interp.h
@@ -0,0 +1,86 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_INTERP_H
+#define _HARDWARE_STRUCTS_INTERP_H
+
+/**
+ * \file rp2040/interp.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sio.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_sio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    // (Description copied from array index 0 register SIO_INTERP0_ACCUM0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_ACCUM0_OFFSET) // SIO_INTERP0_ACCUM0
+    // Read/write access to accumulator 0
+    // 0xffffffff [31:0]  INTERP0_ACCUM0 (0x00000000) 
+    io_rw_32 accum[2];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_BASE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_BASE0_OFFSET) // SIO_INTERP0_BASE0
+    // Read/write access to BASE0 register
+    // 0xffffffff [31:0]  INTERP0_BASE0 (0x00000000) 
+    io_rw_32 base[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_POP_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_POP_LANE0_OFFSET) // SIO_INTERP0_POP_LANE0
+    // Read LANE0 result, and simultaneously write lane results to both accumulators (POP)
+    // 0xffffffff [31:0]  INTERP0_POP_LANE0 (0x00000000) 
+    io_ro_32 pop[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_PEEK_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_PEEK_LANE0_OFFSET) // SIO_INTERP0_PEEK_LANE0
+    // Read LANE0 result, without altering any internal state (PEEK)
+    // 0xffffffff [31:0]  INTERP0_PEEK_LANE0 (0x00000000) 
+    io_ro_32 peek[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_CTRL_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_CTRL_LANE0_OFFSET) // SIO_INTERP0_CTRL_LANE0
+    // Control register for lane 0
+    // 0x02000000 [25]    OVERF        (0) Set if either OVERF0 or OVERF1 is set
+    // 0x01000000 [24]    OVERF1       (0) Indicates if any masked-off MSBs in ACCUM1 are set
+    // 0x00800000 [23]    OVERF0       (0) Indicates if any masked-off MSBs in ACCUM0 are set
+    // 0x00200000 [21]    BLEND        (0) Only present on INTERP0 on each core
+    // 0x00180000 [20:19] FORCE_MSB    (0x0) ORed into bits 29:28 of the lane result presented to the...
+    // 0x00040000 [18]    ADD_RAW      (0) If 1, mask + shift is bypassed for LANE0 result
+    // 0x00020000 [17]    CROSS_RESULT (0) If 1, feed the opposite lane's result into this lane's...
+    // 0x00010000 [16]    CROSS_INPUT  (0) If 1, feed the opposite lane's accumulator into this...
+    // 0x00008000 [15]    SIGNED       (0) If SIGNED is set, the shifted and masked accumulator...
+    // 0x00007c00 [14:10] MASK_MSB     (0x00) The most-significant bit allowed to pass by the mask...
+    // 0x000003e0 [9:5]   MASK_LSB     (0x00) The least-significant bit allowed to pass by the mask (inclusive)
+    // 0x0000001f [4:0]   SHIFT        (0x00) Logical right-shift applied to accumulator before masking
+    io_rw_32 ctrl[2];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_ACCUM0_ADD applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_ACCUM0_ADD_OFFSET) // SIO_INTERP0_ACCUM0_ADD
+    // Values written here are atomically added to ACCUM0
+    // 0x00ffffff [23:0]  INTERP0_ACCUM0_ADD (0x000000) 
+    io_rw_32 add_raw[2];
+ 
+    _REG_(SIO_INTERP0_BASE_1AND0_OFFSET) // SIO_INTERP0_BASE_1AND0
+    // On write, the lower 16 bits go to BASE0, upper bits to BASE1 simultaneously.
+    // 0xffffffff [31:0]  INTERP0_BASE_1AND0 (0x00000000) 
+    io_wo_32 base01;
+} interp_hw_t;
+
+#define interp_hw_array ((interp_hw_t *)(SIO_BASE + SIO_INTERP0_ACCUM0_OFFSET))
+static_assert(sizeof (interp_hw_t) == 0x0040, "");
+#define interp0_hw (&interp_hw_array[0])
+#define interp1_hw (&interp_hw_array[1])
+
+#endif // _HARDWARE_STRUCTS_INTERP_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/io_bank0.h b/lib/pico-sdk/rp2040/hardware/structs/io_bank0.h
new file mode 100644
index 0000000..6c09bb0
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/io_bank0.h
@@ -0,0 +1,236 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_IO_BANK0_H
+#define _HARDWARE_STRUCTS_IO_BANK0_H
+
+/**
+ * \file rp2040/io_bank0.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/io_bank0.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_io_bank0
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/io_bank0.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/**
+ * \brief GPIO pin function selectors on RP2040 (used as typedef \ref gpio_function_t) 
+ * \ingroup hardware_gpio
+ */
+typedef enum gpio_function_rp2040 {
+    GPIO_FUNC_XIP = 0, ///< Select XIP as GPIO pin function
+    GPIO_FUNC_SPI = 1, ///< Select SPI as GPIO pin function
+    GPIO_FUNC_UART = 2, ///< Select UART as GPIO pin function
+    GPIO_FUNC_I2C = 3, ///< Select I2C as GPIO pin function
+    GPIO_FUNC_PWM = 4, ///< Select PWM as GPIO pin function
+    GPIO_FUNC_SIO = 5, ///< Select SIO as GPIO pin function
+    GPIO_FUNC_PIO0 = 6, ///< Select PIO0 as GPIO pin function
+    GPIO_FUNC_PIO1 = 7, ///< Select PIO1 as GPIO pin function
+    GPIO_FUNC_GPCK = 8, ///< Select GPCK as GPIO pin function
+    GPIO_FUNC_USB = 9, ///< Select USB as GPIO pin function
+    GPIO_FUNC_NULL = 0x1f, ///< Select NULL as GPIO pin function
+} gpio_function_t;
+
+typedef struct {
+    _REG_(IO_BANK0_GPIO0_STATUS_OFFSET) // IO_BANK0_GPIO0_STATUS
+    // GPIO status
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x01000000 [24]    IRQFROMPAD   (0) interrupt from pad before override is applied
+    // 0x00080000 [19]    INTOPERI     (0) input signal to peripheral, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before override is applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00001000 [12]    OEFROMPERI   (0) output enable from selected peripheral, before register...
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    // 0x00000100 [8]     OUTFROMPERI  (0) output signal from selected peripheral, before register...
+    io_ro_32 status;
+ 
+    _REG_(IO_BANK0_GPIO0_CTRL_OFFSET) // IO_BANK0_GPIO0_CTRL
+    // GPIO control including function select and overrides
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x00003000 [13:12] OEOVER       (0x0) 
+    // 0x00000300 [9:8]   OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 ctrl;
+} io_bank0_status_ctrl_hw_t;
+
+typedef struct {
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTE0_OFFSET) // IO_BANK0_PROC0_INTE0
+    // Interrupt Enable for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 inte[4];
+ 
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTF0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTF0_OFFSET) // IO_BANK0_PROC0_INTF0
+    // Interrupt Force for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 intf[4];
+ 
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTS0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTS0_OFFSET) // IO_BANK0_PROC0_INTS0
+    // Interrupt status after masking & forcing for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_ro_32 ints[4];
+} io_bank0_irq_ctrl_hw_t;
+
+/// \tag::io_bank0_hw[]
+typedef struct {
+    io_bank0_status_ctrl_hw_t io[30];
+ 
+    // (Description copied from array index 0 register IO_BANK0_INTR0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_INTR0_OFFSET) // IO_BANK0_INTR0
+    // Raw Interrupts
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 intr[4];
+ 
+    union {
+        struct {
+            io_bank0_irq_ctrl_hw_t proc0_irq_ctrl;
+            io_bank0_irq_ctrl_hw_t proc1_irq_ctrl;
+            io_bank0_irq_ctrl_hw_t dormant_wake_irq_ctrl;
+        };
+        io_bank0_irq_ctrl_hw_t irq_ctrl[3];
+    };
+} io_bank0_hw_t;
+/// \end::io_bank0_hw[]
+
+#define io_bank0_hw ((io_bank0_hw_t *)IO_BANK0_BASE)
+static_assert(sizeof (io_bank0_hw_t) == 0x0190, "");
+
+#endif // _HARDWARE_STRUCTS_IO_BANK0_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/io_qspi.h b/lib/pico-sdk/rp2040/hardware/structs/io_qspi.h
new file mode 100644
index 0000000..4dca02f
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/io_qspi.h
@@ -0,0 +1,189 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_IO_QSPI_H
+#define _HARDWARE_STRUCTS_IO_QSPI_H
+
+/**
+ * \file rp2040/io_qspi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/io_qspi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_io_qspi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/io_qspi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/**
+ * \brief QSPI pin function selectors on RP2040 (used as typedef \ref gpio_function1_t) 
+ */
+typedef enum gpio_function1_rp2040 {
+    GPIO_FUNC1_XIP = 0, ///< Select XIP as QSPI pin function
+    GPIO_FUNC1_SIO = 5, ///< Select SIO as QSPI pin function
+    GPIO_FUNC1_NULL = 0x1f, ///< Select NULL as QSPI pin function
+} gpio_function1_t;
+
+typedef struct {
+    _REG_(IO_QSPI_GPIO_QSPI_SCLK_STATUS_OFFSET) // IO_QSPI_GPIO_QSPI_SCLK_STATUS
+    // GPIO status
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x01000000 [24]    IRQFROMPAD   (0) interrupt from pad before override is applied
+    // 0x00080000 [19]    INTOPERI     (0) input signal to peripheral, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before override is applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00001000 [12]    OEFROMPERI   (0) output enable from selected peripheral, before register...
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    // 0x00000100 [8]     OUTFROMPERI  (0) output signal from selected peripheral, before register...
+    io_ro_32 status;
+ 
+    _REG_(IO_QSPI_GPIO_QSPI_SCLK_CTRL_OFFSET) // IO_QSPI_GPIO_QSPI_SCLK_CTRL
+    // GPIO control including function select and overrides
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x00003000 [13:12] OEOVER       (0x0) 
+    // 0x00000300 [9:8]   OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 ctrl;
+} io_qspi_status_ctrl_hw_t;
+
+typedef struct {
+    _REG_(IO_QSPI_PROC0_INTE_OFFSET) // IO_QSPI_PROC0_INTE
+    // Interrupt Enable for proc0
+    // 0x00800000 [23]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    io_rw_32 inte;
+ 
+    _REG_(IO_QSPI_PROC0_INTF_OFFSET) // IO_QSPI_PROC0_INTF
+    // Interrupt Force for proc0
+    // 0x00800000 [23]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    io_rw_32 intf;
+ 
+    _REG_(IO_QSPI_PROC0_INTS_OFFSET) // IO_QSPI_PROC0_INTS
+    // Interrupt status after masking & forcing for proc0
+    // 0x00800000 [23]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    io_ro_32 ints;
+} io_qspi_irq_ctrl_hw_t;
+
+typedef struct {
+    io_qspi_status_ctrl_hw_t io[6];
+ 
+    _REG_(IO_QSPI_INTR_OFFSET) // IO_QSPI_INTR
+    // Raw Interrupts
+    // 0x00800000 [23]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    io_rw_32 intr;
+ 
+    union {
+        struct {
+            io_qspi_irq_ctrl_hw_t proc0_irq_ctrl;
+            io_qspi_irq_ctrl_hw_t proc1_irq_ctrl;
+            io_qspi_irq_ctrl_hw_t dormant_wake_irq_ctrl;
+        };
+        io_qspi_irq_ctrl_hw_t irq_ctrl[3];
+    };
+} io_qspi_hw_t;
+
+#define io_qspi_hw ((io_qspi_hw_t *)IO_QSPI_BASE)
+static_assert(sizeof (io_qspi_hw_t) == 0x0058, "");
+
+#endif // _HARDWARE_STRUCTS_IO_QSPI_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/iobank0.h b/lib/pico-sdk/rp2040/hardware/structs/iobank0.h
new file mode 100644
index 0000000..2dc31e3
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/iobank0.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/io_bank0.h"
+#define iobank0_hw io_bank0_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2040/hardware/structs/ioqspi.h b/lib/pico-sdk/rp2040/hardware/structs/ioqspi.h
new file mode 100644
index 0000000..20cc74c
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/ioqspi.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/io_qspi.h"
+#define ioqspi_hw io_qspi_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2040/hardware/structs/m0plus.h b/lib/pico-sdk/rp2040/hardware/structs/m0plus.h
new file mode 100644
index 0000000..6d30ede
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/m0plus.h
@@ -0,0 +1,197 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_M0PLUS_H
+#define _HARDWARE_STRUCTS_M0PLUS_H
+
+/**
+ * \file rp2040/m0plus.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m0plus.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_m0plus
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m0plus.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    uint32_t _pad0[14340];
+ 
+    _REG_(M0PLUS_SYST_CSR_OFFSET) // M0PLUS_SYST_CSR
+    // SysTick Control and Status Register
+    // 0x00010000 [16]    COUNTFLAG    (0) Returns 1 if timer counted to 0 since last time this was read
+    // 0x00000004 [2]     CLKSOURCE    (0) SysTick clock source
+    // 0x00000002 [1]     TICKINT      (0) Enables SysTick exception request: +
+    // 0x00000001 [0]     ENABLE       (0) Enable SysTick counter: +
+    io_rw_32 syst_csr;
+ 
+    _REG_(M0PLUS_SYST_RVR_OFFSET) // M0PLUS_SYST_RVR
+    // SysTick Reload Value Register
+    // 0x00ffffff [23:0]  RELOAD       (0x000000) Value to load into the SysTick Current Value Register...
+    io_rw_32 syst_rvr;
+ 
+    _REG_(M0PLUS_SYST_CVR_OFFSET) // M0PLUS_SYST_CVR
+    // SysTick Current Value Register
+    // 0x00ffffff [23:0]  CURRENT      (0x000000) Reads return the current value of the SysTick counter
+    io_rw_32 syst_cvr;
+ 
+    _REG_(M0PLUS_SYST_CALIB_OFFSET) // M0PLUS_SYST_CALIB
+    // SysTick Calibration Value Register
+    // 0x80000000 [31]    NOREF        (0) If reads as 1, the Reference clock is not provided - the...
+    // 0x40000000 [30]    SKEW         (0) If reads as 1, the calibration value for 10ms is inexact...
+    // 0x00ffffff [23:0]  TENMS        (0x000000) An optional Reload value to be used for 10ms (100Hz)...
+    io_ro_32 syst_calib;
+ 
+    uint32_t _pad1[56];
+ 
+    _REG_(M0PLUS_NVIC_ISER_OFFSET) // M0PLUS_NVIC_ISER
+    // Interrupt Set-Enable Register
+    // 0xffffffff [31:0]  SETENA       (0x00000000) Interrupt set-enable bits
+    io_rw_32 nvic_iser;
+ 
+    uint32_t _pad2[31];
+ 
+    _REG_(M0PLUS_NVIC_ICER_OFFSET) // M0PLUS_NVIC_ICER
+    // Interrupt Clear-Enable Register
+    // 0xffffffff [31:0]  CLRENA       (0x00000000) Interrupt clear-enable bits
+    io_rw_32 nvic_icer;
+ 
+    uint32_t _pad3[31];
+ 
+    _REG_(M0PLUS_NVIC_ISPR_OFFSET) // M0PLUS_NVIC_ISPR
+    // Interrupt Set-Pending Register
+    // 0xffffffff [31:0]  SETPEND      (0x00000000) Interrupt set-pending bits
+    io_rw_32 nvic_ispr;
+ 
+    uint32_t _pad4[31];
+ 
+    _REG_(M0PLUS_NVIC_ICPR_OFFSET) // M0PLUS_NVIC_ICPR
+    // Interrupt Clear-Pending Register
+    // 0xffffffff [31:0]  CLRPEND      (0x00000000) Interrupt clear-pending bits
+    io_rw_32 nvic_icpr;
+ 
+    uint32_t _pad5[95];
+ 
+    // (Description copied from array index 0 register M0PLUS_NVIC_IPR0 applies similarly to other array indexes)
+    _REG_(M0PLUS_NVIC_IPR0_OFFSET) // M0PLUS_NVIC_IPR0
+    // Interrupt Priority Register 0
+    // 0xc0000000 [31:30] IP_3         (0x0) Priority of interrupt 3
+    // 0x00c00000 [23:22] IP_2         (0x0) Priority of interrupt 2
+    // 0x0000c000 [15:14] IP_1         (0x0) Priority of interrupt 1
+    // 0x000000c0 [7:6]   IP_0         (0x0) Priority of interrupt 0
+    io_rw_32 nvic_ipr[8];
+ 
+    uint32_t _pad6[568];
+ 
+    _REG_(M0PLUS_CPUID_OFFSET) // M0PLUS_CPUID
+    // CPUID Base Register
+    // 0xff000000 [31:24] IMPLEMENTER  (0x41) Implementor code: 0x41 = ARM
+    // 0x00f00000 [23:20] VARIANT      (0x0) Major revision number n in the rnpm revision status: +
+    // 0x000f0000 [19:16] ARCHITECTURE (0xc) Constant that defines the architecture of the processor: +
+    // 0x0000fff0 [15:4]  PARTNO       (0xc60) Number of processor within family: 0xC60 = Cortex-M0+
+    // 0x0000000f [3:0]   REVISION     (0x1) Minor revision number m in the rnpm revision status: +
+    io_ro_32 cpuid;
+ 
+    _REG_(M0PLUS_ICSR_OFFSET) // M0PLUS_ICSR
+    // Interrupt Control and State Register
+    // 0x80000000 [31]    NMIPENDSET   (0) Setting this bit will activate an NMI
+    // 0x10000000 [28]    PENDSVSET    (0) PendSV set-pending bit
+    // 0x08000000 [27]    PENDSVCLR    (0) PendSV clear-pending bit
+    // 0x04000000 [26]    PENDSTSET    (0) SysTick exception set-pending bit
+    // 0x02000000 [25]    PENDSTCLR    (0) SysTick exception clear-pending bit
+    // 0x00800000 [23]    ISRPREEMPT   (0) The system can only access this bit when the core is halted
+    // 0x00400000 [22]    ISRPENDING   (0) External interrupt pending flag
+    // 0x001ff000 [20:12] VECTPENDING  (0x000) Indicates the exception number for the highest priority...
+    // 0x000001ff [8:0]   VECTACTIVE   (0x000) Active exception number field
+    io_rw_32 icsr;
+ 
+    _REG_(M0PLUS_VTOR_OFFSET) // M0PLUS_VTOR
+    // Vector Table Offset Register
+    // 0xffffff00 [31:8]  TBLOFF       (0x000000) Bits [31:8] of the indicate the vector table offset address
+    io_rw_32 vtor;
+ 
+    _REG_(M0PLUS_AIRCR_OFFSET) // M0PLUS_AIRCR
+    // Application Interrupt and Reset Control Register
+    // 0xffff0000 [31:16] VECTKEY      (0x0000) Register key: +
+    // 0x00008000 [15]    ENDIANESS    (0) Data endianness implemented: +
+    // 0x00000004 [2]     SYSRESETREQ  (0) Writing 1 to this bit causes the SYSRESETREQ signal to...
+    // 0x00000002 [1]     VECTCLRACTIVE (0) Clears all active state information for fixed and...
+    io_rw_32 aircr;
+ 
+    _REG_(M0PLUS_SCR_OFFSET) // M0PLUS_SCR
+    // System Control Register
+    // 0x00000010 [4]     SEVONPEND    (0) Send Event on Pending bit: +
+    // 0x00000004 [2]     SLEEPDEEP    (0) Controls whether the processor uses sleep or deep sleep...
+    // 0x00000002 [1]     SLEEPONEXIT  (0) Indicates sleep-on-exit when returning from Handler mode...
+    io_rw_32 scr;
+ 
+    _REG_(M0PLUS_CCR_OFFSET) // M0PLUS_CCR
+    // Configuration and Control Register
+    // 0x00000200 [9]     STKALIGN     (0) Always reads as one, indicates 8-byte stack alignment on...
+    // 0x00000008 [3]     UNALIGN_TRP  (0) Always reads as one, indicates that all unaligned...
+    io_ro_32 ccr;
+ 
+    uint32_t _pad7;
+ 
+    // (Description copied from array index 0 register M0PLUS_SHPR2 applies similarly to other array indexes)
+    _REG_(M0PLUS_SHPR2_OFFSET) // M0PLUS_SHPR2
+    // System Handler Priority Register 2
+    // 0xc0000000 [31:30] PRI_11       (0x0) Priority of system handler 11, SVCall
+    io_rw_32 shpr[2];
+ 
+    _REG_(M0PLUS_SHCSR_OFFSET) // M0PLUS_SHCSR
+    // System Handler Control and State Register
+    // 0x00008000 [15]    SVCALLPENDED (0) Reads as 1 if SVCall is Pending
+    io_rw_32 shcsr;
+ 
+    uint32_t _pad8[26];
+ 
+    _REG_(M0PLUS_MPU_TYPE_OFFSET) // M0PLUS_MPU_TYPE
+    // MPU Type Register
+    // 0x00ff0000 [23:16] IREGION      (0x00) Instruction region
+    // 0x0000ff00 [15:8]  DREGION      (0x08) Number of regions supported by the MPU
+    // 0x00000001 [0]     SEPARATE     (0) Indicates support for separate instruction and data address maps
+    io_ro_32 mpu_type;
+ 
+    _REG_(M0PLUS_MPU_CTRL_OFFSET) // M0PLUS_MPU_CTRL
+    // MPU Control Register
+    // 0x00000004 [2]     PRIVDEFENA   (0) Controls whether the default memory map is enabled as a...
+    // 0x00000002 [1]     HFNMIENA     (0) Controls the use of the MPU for HardFaults and NMIs
+    // 0x00000001 [0]     ENABLE       (0) Enables the MPU
+    io_rw_32 mpu_ctrl;
+ 
+    _REG_(M0PLUS_MPU_RNR_OFFSET) // M0PLUS_MPU_RNR
+    // MPU Region Number Register
+    // 0x0000000f [3:0]   REGION       (0x0) Indicates the MPU region referenced by the MPU_RBAR and...
+    io_rw_32 mpu_rnr;
+ 
+    _REG_(M0PLUS_MPU_RBAR_OFFSET) // M0PLUS_MPU_RBAR
+    // MPU Region Base Address Register
+    // 0xffffff00 [31:8]  ADDR         (0x000000) Base address of the region
+    // 0x00000010 [4]     VALID        (0) On writes, indicates whether the write must update the...
+    // 0x0000000f [3:0]   REGION       (0x0) On writes, specifies the number of the region whose base...
+    io_rw_32 mpu_rbar;
+ 
+    _REG_(M0PLUS_MPU_RASR_OFFSET) // M0PLUS_MPU_RASR
+    // MPU Region Attribute and Size Register
+    // 0xffff0000 [31:16] ATTRS        (0x0000) The MPU Region Attribute field
+    // 0x0000ff00 [15:8]  SRD          (0x00) Subregion Disable
+    // 0x0000003e [5:1]   SIZE         (0x00) Indicates the region size
+    // 0x00000001 [0]     ENABLE       (0) Enables the region
+    io_rw_32 mpu_rasr;
+} m0plus_hw_t;
+
+#define ppb_hw ((m0plus_hw_t *)PPB_BASE)
+static_assert(sizeof (m0plus_hw_t) == 0xeda4, "");
+
+#endif // _HARDWARE_STRUCTS_M0PLUS_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/mpu.h b/lib/pico-sdk/rp2040/hardware/structs/mpu.h
new file mode 100644
index 0000000..766f4d5
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/mpu.h
@@ -0,0 +1,66 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_MPU_H
+#define _HARDWARE_STRUCTS_MPU_H
+
+/**
+ * \file rp2040/mpu.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m0plus.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_m0plus
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m0plus.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(M0PLUS_MPU_TYPE_OFFSET) // M0PLUS_MPU_TYPE
+    // MPU Type Register
+    // 0x00ff0000 [23:16] IREGION      (0x00) Instruction region
+    // 0x0000ff00 [15:8]  DREGION      (0x08) Number of regions supported by the MPU
+    // 0x00000001 [0]     SEPARATE     (0) Indicates support for separate instruction and data address maps
+    io_ro_32 type;
+ 
+    _REG_(M0PLUS_MPU_CTRL_OFFSET) // M0PLUS_MPU_CTRL
+    // MPU Control Register
+    // 0x00000004 [2]     PRIVDEFENA   (0) Controls whether the default memory map is enabled as a...
+    // 0x00000002 [1]     HFNMIENA     (0) Controls the use of the MPU for HardFaults and NMIs
+    // 0x00000001 [0]     ENABLE       (0) Enables the MPU
+    io_rw_32 ctrl;
+ 
+    _REG_(M0PLUS_MPU_RNR_OFFSET) // M0PLUS_MPU_RNR
+    // MPU Region Number Register
+    // 0x0000000f [3:0]   REGION       (0x0) Indicates the MPU region referenced by the MPU_RBAR and...
+    io_rw_32 rnr;
+ 
+    _REG_(M0PLUS_MPU_RBAR_OFFSET) // M0PLUS_MPU_RBAR
+    // MPU Region Base Address Register
+    // 0xffffff00 [31:8]  ADDR         (0x000000) Base address of the region
+    // 0x00000010 [4]     VALID        (0) On writes, indicates whether the write must update the...
+    // 0x0000000f [3:0]   REGION       (0x0) On writes, specifies the number of the region whose base...
+    io_rw_32 rbar;
+ 
+    _REG_(M0PLUS_MPU_RASR_OFFSET) // M0PLUS_MPU_RASR
+    // MPU Region Attribute and Size Register
+    // 0xffff0000 [31:16] ATTRS        (0x0000) The MPU Region Attribute field
+    // 0x0000ff00 [15:8]  SRD          (0x00) Subregion Disable
+    // 0x0000003e [5:1]   SIZE         (0x00) Indicates the region size
+    // 0x00000001 [0]     ENABLE       (0) Enables the region
+    io_rw_32 rasr;
+} mpu_hw_t;
+
+#define mpu_hw ((mpu_hw_t *)(PPB_BASE + M0PLUS_MPU_TYPE_OFFSET))
+static_assert(sizeof (mpu_hw_t) == 0x0014, "");
+
+#endif // _HARDWARE_STRUCTS_MPU_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/nvic.h b/lib/pico-sdk/rp2040/hardware/structs/nvic.h
new file mode 100644
index 0000000..d09ebd1
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/nvic.h
@@ -0,0 +1,69 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_NVIC_H
+#define _HARDWARE_STRUCTS_NVIC_H
+
+/**
+ * \file rp2040/nvic.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m0plus.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_m0plus
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m0plus.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(M0PLUS_NVIC_ISER_OFFSET) // M0PLUS_NVIC_ISER
+    // Interrupt Set-Enable Register
+    // 0xffffffff [31:0]  SETENA       (0x00000000) Interrupt set-enable bits
+    io_rw_32 iser;
+ 
+    uint32_t _pad0[31];
+ 
+    _REG_(M0PLUS_NVIC_ICER_OFFSET) // M0PLUS_NVIC_ICER
+    // Interrupt Clear-Enable Register
+    // 0xffffffff [31:0]  CLRENA       (0x00000000) Interrupt clear-enable bits
+    io_rw_32 icer;
+ 
+    uint32_t _pad1[31];
+ 
+    _REG_(M0PLUS_NVIC_ISPR_OFFSET) // M0PLUS_NVIC_ISPR
+    // Interrupt Set-Pending Register
+    // 0xffffffff [31:0]  SETPEND      (0x00000000) Interrupt set-pending bits
+    io_rw_32 ispr;
+ 
+    uint32_t _pad2[31];
+ 
+    _REG_(M0PLUS_NVIC_ICPR_OFFSET) // M0PLUS_NVIC_ICPR
+    // Interrupt Clear-Pending Register
+    // 0xffffffff [31:0]  CLRPEND      (0x00000000) Interrupt clear-pending bits
+    io_rw_32 icpr;
+ 
+    uint32_t _pad3[95];
+ 
+    // (Description copied from array index 0 register M0PLUS_NVIC_IPR0 applies similarly to other array indexes)
+    _REG_(M0PLUS_NVIC_IPR0_OFFSET) // M0PLUS_NVIC_IPR0
+    // Interrupt Priority Register 0
+    // 0xc0000000 [31:30] IP_3         (0x0) Priority of interrupt 3
+    // 0x00c00000 [23:22] IP_2         (0x0) Priority of interrupt 2
+    // 0x0000c000 [15:14] IP_1         (0x0) Priority of interrupt 1
+    // 0x000000c0 [7:6]   IP_0         (0x0) Priority of interrupt 0
+    io_rw_32 ipr[8];
+} nvic_hw_t;
+
+#define nvic_hw ((nvic_hw_t *)(PPB_BASE + M0PLUS_NVIC_ISER_OFFSET))
+static_assert(sizeof (nvic_hw_t) == 0x0320, "");
+
+#endif // _HARDWARE_STRUCTS_NVIC_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/pads_bank0.h b/lib/pico-sdk/rp2040/hardware/structs/pads_bank0.h
new file mode 100644
index 0000000..f00c70a
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/pads_bank0.h
@@ -0,0 +1,49 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PADS_BANK0_H
+#define _HARDWARE_STRUCTS_PADS_BANK0_H
+
+/**
+ * \file rp2040/pads_bank0.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pads_bank0.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_pads_bank0
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pads_bank0.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PADS_BANK0_VOLTAGE_SELECT_OFFSET) // PADS_BANK0_VOLTAGE_SELECT
+    // Voltage select
+    // 0x00000001 [0]     VOLTAGE_SELECT (0) 
+    io_rw_32 voltage_select;
+ 
+    // (Description copied from array index 0 register PADS_BANK0_GPIO0 applies similarly to other array indexes)
+    _REG_(PADS_BANK0_GPIO0_OFFSET) // PADS_BANK0_GPIO0
+    // Pad control register
+    // 0x00000080 [7]     OD           (0) Output disable
+    // 0x00000040 [6]     IE           (1) Input enable
+    // 0x00000030 [5:4]   DRIVE        (0x1) Drive strength
+    // 0x00000008 [3]     PUE          (0) Pull up enable
+    // 0x00000004 [2]     PDE          (1) Pull down enable
+    // 0x00000002 [1]     SCHMITT      (1) Enable schmitt trigger
+    // 0x00000001 [0]     SLEWFAST     (0) Slew rate control
+    io_rw_32 io[30];
+} pads_bank0_hw_t;
+
+#define pads_bank0_hw ((pads_bank0_hw_t *)PADS_BANK0_BASE)
+static_assert(sizeof (pads_bank0_hw_t) == 0x007c, "");
+
+#endif // _HARDWARE_STRUCTS_PADS_BANK0_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/pads_qspi.h b/lib/pico-sdk/rp2040/hardware/structs/pads_qspi.h
new file mode 100644
index 0000000..66b6c1a
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/pads_qspi.h
@@ -0,0 +1,49 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PADS_QSPI_H
+#define _HARDWARE_STRUCTS_PADS_QSPI_H
+
+/**
+ * \file rp2040/pads_qspi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pads_qspi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_pads_qspi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pads_qspi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PADS_QSPI_VOLTAGE_SELECT_OFFSET) // PADS_QSPI_VOLTAGE_SELECT
+    // Voltage select
+    // 0x00000001 [0]     VOLTAGE_SELECT (0) 
+    io_rw_32 voltage_select;
+ 
+    // (Description copied from array index 0 register PADS_QSPI_GPIO_QSPI_SCLK applies similarly to other array indexes)
+    _REG_(PADS_QSPI_GPIO_QSPI_SCLK_OFFSET) // PADS_QSPI_GPIO_QSPI_SCLK
+    // Pad control register
+    // 0x00000080 [7]     OD           (0) Output disable
+    // 0x00000040 [6]     IE           (1) Input enable
+    // 0x00000030 [5:4]   DRIVE        (0x1) Drive strength
+    // 0x00000008 [3]     PUE          (0) Pull up enable
+    // 0x00000004 [2]     PDE          (1) Pull down enable
+    // 0x00000002 [1]     SCHMITT      (1) Enable schmitt trigger
+    // 0x00000001 [0]     SLEWFAST     (0) Slew rate control
+    io_rw_32 io[6];
+} pads_qspi_hw_t;
+
+#define pads_qspi_hw ((pads_qspi_hw_t *)PADS_QSPI_BASE)
+static_assert(sizeof (pads_qspi_hw_t) == 0x001c, "");
+
+#endif // _HARDWARE_STRUCTS_PADS_QSPI_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/padsbank0.h b/lib/pico-sdk/rp2040/hardware/structs/padsbank0.h
new file mode 100644
index 0000000..cb14e79
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/padsbank0.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/pads_bank0.h"
+#define padsbank0_hw pads_bank0_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2040/hardware/structs/pio.h b/lib/pico-sdk/rp2040/hardware/structs/pio.h
new file mode 100644
index 0000000..bceb14a
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/pio.h
@@ -0,0 +1,343 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PIO_H
+#define _HARDWARE_STRUCTS_PIO_H
+
+/**
+ * \file rp2040/pio.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pio.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_pio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PIO_SM0_CLKDIV_OFFSET) // PIO_SM0_CLKDIV
+    // Clock divisor register for state machine 0 +
+    // 0xffff0000 [31:16] INT          (0x0001) Effective frequency is sysclk/(int + frac/256)
+    // 0x0000ff00 [15:8]  FRAC         (0x00) Fractional part of clock divisor
+    io_rw_32 clkdiv;
+ 
+    _REG_(PIO_SM0_EXECCTRL_OFFSET) // PIO_SM0_EXECCTRL
+    // Execution/behavioural settings for state machine 0
+    // 0x80000000 [31]    EXEC_STALLED (0) If 1, an instruction written to SMx_INSTR is stalled,...
+    // 0x40000000 [30]    SIDE_EN      (0) If 1, the MSB of the Delay/Side-set instruction field is...
+    // 0x20000000 [29]    SIDE_PINDIR  (0) If 1, side-set data is asserted to pin directions,...
+    // 0x1f000000 [28:24] JMP_PIN      (0x00) The GPIO number to use as condition for JMP PIN
+    // 0x00f80000 [23:19] OUT_EN_SEL   (0x00) Which data bit to use for inline OUT enable
+    // 0x00040000 [18]    INLINE_OUT_EN (0) If 1, use a bit of OUT data as an auxiliary write enable +
+    // 0x00020000 [17]    OUT_STICKY   (0) Continuously assert the most recent OUT/SET to the pins
+    // 0x0001f000 [16:12] WRAP_TOP     (0x1f) After reaching this address, execution is wrapped to wrap_bottom
+    // 0x00000f80 [11:7]  WRAP_BOTTOM  (0x00) After reaching wrap_top, execution is wrapped to this address
+    // 0x00000010 [4]     STATUS_SEL   (0) Comparison used for the MOV x, STATUS instruction
+    // 0x0000000f [3:0]   STATUS_N     (0x0) Comparison level for the MOV x, STATUS instruction
+    io_rw_32 execctrl;
+ 
+    _REG_(PIO_SM0_SHIFTCTRL_OFFSET) // PIO_SM0_SHIFTCTRL
+    // Control behaviour of the input/output shift registers for state machine 0
+    // 0x80000000 [31]    FJOIN_RX     (0) When 1, RX FIFO steals the TX FIFO's storage, and...
+    // 0x40000000 [30]    FJOIN_TX     (0) When 1, TX FIFO steals the RX FIFO's storage, and...
+    // 0x3e000000 [29:25] PULL_THRESH  (0x00) Number of bits shifted out of OSR before autopull, or...
+    // 0x01f00000 [24:20] PUSH_THRESH  (0x00) Number of bits shifted into ISR before autopush, or...
+    // 0x00080000 [19]    OUT_SHIFTDIR (1) 1 = shift out of output shift register to right
+    // 0x00040000 [18]    IN_SHIFTDIR  (1) 1 = shift input shift register to right (data enters from left)
+    // 0x00020000 [17]    AUTOPULL     (0) Pull automatically when the output shift register is emptied, i
+    // 0x00010000 [16]    AUTOPUSH     (0) Push automatically when the input shift register is filled, i
+    io_rw_32 shiftctrl;
+ 
+    _REG_(PIO_SM0_ADDR_OFFSET) // PIO_SM0_ADDR
+    // Current instruction address of state machine 0
+    // 0x0000001f [4:0]   SM0_ADDR     (0x00) 
+    io_ro_32 addr;
+ 
+    _REG_(PIO_SM0_INSTR_OFFSET) // PIO_SM0_INSTR
+    // Read to see the instruction currently addressed by state machine 0's program counter +
+    // 0x0000ffff [15:0]  SM0_INSTR    (-) 
+    io_rw_32 instr;
+ 
+    _REG_(PIO_SM0_PINCTRL_OFFSET) // PIO_SM0_PINCTRL
+    // State machine pin control
+    // 0xe0000000 [31:29] SIDESET_COUNT (0x0) The number of MSBs of the Delay/Side-set instruction...
+    // 0x1c000000 [28:26] SET_COUNT    (0x5) The number of pins asserted by a SET
+    // 0x03f00000 [25:20] OUT_COUNT    (0x00) The number of pins asserted by an OUT PINS, OUT PINDIRS...
+    // 0x000f8000 [19:15] IN_BASE      (0x00) The pin which is mapped to the least-significant bit of...
+    // 0x00007c00 [14:10] SIDESET_BASE (0x00) The lowest-numbered pin that will be affected by a...
+    // 0x000003e0 [9:5]   SET_BASE     (0x00) The lowest-numbered pin that will be affected by a SET...
+    // 0x0000001f [4:0]   OUT_BASE     (0x00) The lowest-numbered pin that will be affected by an OUT...
+    io_rw_32 pinctrl;
+} pio_sm_hw_t;
+
+typedef struct {
+    _REG_(PIO_IRQ0_INTE_OFFSET) // PIO_IRQ0_INTE
+    // Interrupt Enable for irq0
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_rw_32 inte;
+ 
+    _REG_(PIO_IRQ0_INTF_OFFSET) // PIO_IRQ0_INTF
+    // Interrupt Force for irq0
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_rw_32 intf;
+ 
+    _REG_(PIO_IRQ0_INTS_OFFSET) // PIO_IRQ0_INTS
+    // Interrupt status after masking & forcing for irq0
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_ro_32 ints;
+} pio_irq_ctrl_hw_t;
+
+typedef struct {
+    _REG_(PIO_CTRL_OFFSET) // PIO_CTRL
+    // PIO control register
+    // 0x00000f00 [11:8]  CLKDIV_RESTART (0x0) Restart a state machine's clock divider from an initial...
+    // 0x000000f0 [7:4]   SM_RESTART   (0x0) Write 1 to instantly clear internal SM state which may...
+    // 0x0000000f [3:0]   SM_ENABLE    (0x0) Enable/disable each of the four state machines by...
+    io_rw_32 ctrl;
+ 
+    _REG_(PIO_FSTAT_OFFSET) // PIO_FSTAT
+    // FIFO status register
+    // 0x0f000000 [27:24] TXEMPTY      (0xf) State machine TX FIFO is empty
+    // 0x000f0000 [19:16] TXFULL       (0x0) State machine TX FIFO is full
+    // 0x00000f00 [11:8]  RXEMPTY      (0xf) State machine RX FIFO is empty
+    // 0x0000000f [3:0]   RXFULL       (0x0) State machine RX FIFO is full
+    io_ro_32 fstat;
+ 
+    _REG_(PIO_FDEBUG_OFFSET) // PIO_FDEBUG
+    // FIFO debug register
+    // 0x0f000000 [27:24] TXSTALL      (0x0) State machine has stalled on empty TX FIFO during a...
+    // 0x000f0000 [19:16] TXOVER       (0x0) TX FIFO overflow (i
+    // 0x00000f00 [11:8]  RXUNDER      (0x0) RX FIFO underflow (i
+    // 0x0000000f [3:0]   RXSTALL      (0x0) State machine has stalled on full RX FIFO during a...
+    io_rw_32 fdebug;
+ 
+    _REG_(PIO_FLEVEL_OFFSET) // PIO_FLEVEL
+    // FIFO levels
+    // 0xf0000000 [31:28] RX3          (0x0) 
+    // 0x0f000000 [27:24] TX3          (0x0) 
+    // 0x00f00000 [23:20] RX2          (0x0) 
+    // 0x000f0000 [19:16] TX2          (0x0) 
+    // 0x0000f000 [15:12] RX1          (0x0) 
+    // 0x00000f00 [11:8]  TX1          (0x0) 
+    // 0x000000f0 [7:4]   RX0          (0x0) 
+    // 0x0000000f [3:0]   TX0          (0x0) 
+    io_ro_32 flevel;
+ 
+    // (Description copied from array index 0 register PIO_TXF0 applies similarly to other array indexes)
+    _REG_(PIO_TXF0_OFFSET) // PIO_TXF0
+    // Direct write access to the TX FIFO for this state machine
+    // 0xffffffff [31:0]  TXF0         (0x00000000) 
+    io_wo_32 txf[4];
+ 
+    // (Description copied from array index 0 register PIO_RXF0 applies similarly to other array indexes)
+    _REG_(PIO_RXF0_OFFSET) // PIO_RXF0
+    // Direct read access to the RX FIFO for this state machine
+    // 0xffffffff [31:0]  RXF0         (-) 
+    io_ro_32 rxf[4];
+ 
+    _REG_(PIO_IRQ_OFFSET) // PIO_IRQ
+    // State machine IRQ flags register
+    // 0x000000ff [7:0]   IRQ          (0x00) 
+    io_rw_32 irq;
+ 
+    _REG_(PIO_IRQ_FORCE_OFFSET) // PIO_IRQ_FORCE
+    // Writing a 1 to each of these bits will forcibly assert the corresponding IRQ
+    // 0x000000ff [7:0]   IRQ_FORCE    (0x00) 
+    io_wo_32 irq_force;
+ 
+    _REG_(PIO_INPUT_SYNC_BYPASS_OFFSET) // PIO_INPUT_SYNC_BYPASS
+    // There is a 2-flipflop synchronizer on each GPIO input, which protects PIO logic from metastabilities
+    // 0xffffffff [31:0]  INPUT_SYNC_BYPASS (0x00000000) 
+    io_rw_32 input_sync_bypass;
+ 
+    _REG_(PIO_DBG_PADOUT_OFFSET) // PIO_DBG_PADOUT
+    // Read to sample the pad output values PIO is currently driving to the GPIOs
+    // 0xffffffff [31:0]  DBG_PADOUT   (0x00000000) 
+    io_ro_32 dbg_padout;
+ 
+    _REG_(PIO_DBG_PADOE_OFFSET) // PIO_DBG_PADOE
+    // Read to sample the pad output enables (direction) PIO is currently driving to the GPIOs
+    // 0xffffffff [31:0]  DBG_PADOE    (0x00000000) 
+    io_ro_32 dbg_padoe;
+ 
+    _REG_(PIO_DBG_CFGINFO_OFFSET) // PIO_DBG_CFGINFO
+    // The PIO hardware has some free parameters that may vary between chip products
+    // 0x003f0000 [21:16] IMEM_SIZE    (-) The size of the instruction memory, measured in units of...
+    // 0x00000f00 [11:8]  SM_COUNT     (-) The number of state machines this PIO instance is equipped with
+    // 0x0000003f [5:0]   FIFO_DEPTH   (-) The depth of the state machine TX/RX FIFOs, measured in words
+    io_ro_32 dbg_cfginfo;
+ 
+    // (Description copied from array index 0 register PIO_INSTR_MEM0 applies similarly to other array indexes)
+    _REG_(PIO_INSTR_MEM0_OFFSET) // PIO_INSTR_MEM0
+    // Write-only access to instruction memory location 0
+    // 0x0000ffff [15:0]  INSTR_MEM0   (0x0000) 
+    io_wo_32 instr_mem[32];
+ 
+    pio_sm_hw_t sm[4];
+ 
+    _REG_(PIO_INTR_OFFSET) // PIO_INTR
+    // Raw Interrupts
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_ro_32 intr;
+ 
+    union {
+        struct {
+            _REG_(PIO_IRQ0_INTE_OFFSET) // PIO_IRQ0_INTE
+            // Interrupt Enable for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 inte0;
+
+            _REG_(PIO_IRQ0_INTF_OFFSET) // PIO_IRQ0_INTF
+            // Interrupt Force for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 intf0;
+
+            _REG_(PIO_IRQ0_INTS_OFFSET) // PIO_IRQ0_INTS
+            // Interrupt status after masking & forcing for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_ro_32 ints0;
+
+            _REG_(PIO_IRQ1_INTE_OFFSET) // PIO_IRQ1_INTE
+            // Interrupt Enable for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 inte1;
+
+            _REG_(PIO_IRQ1_INTF_OFFSET) // PIO_IRQ1_INTF
+            // Interrupt Force for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 intf1;
+
+            _REG_(PIO_IRQ1_INTS_OFFSET) // PIO_IRQ1_INTS
+            // Interrupt status after masking & forcing for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_ro_32 ints1;
+        };
+        pio_irq_ctrl_hw_t irq_ctrl[2];
+    };
+} pio_hw_t;
+
+#define pio0_hw ((pio_hw_t *)PIO0_BASE)
+#define pio1_hw ((pio_hw_t *)PIO1_BASE)
+static_assert(sizeof (pio_hw_t) == 0x0144, "");
+
+#endif // _HARDWARE_STRUCTS_PIO_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/pll.h b/lib/pico-sdk/rp2040/hardware/structs/pll.h
new file mode 100644
index 0000000..7d3ccc8
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/pll.h
@@ -0,0 +1,61 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PLL_H
+#define _HARDWARE_STRUCTS_PLL_H
+
+/**
+ * \file rp2040/pll.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pll.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_pll
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pll.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/// \tag::pll_hw[]
+typedef struct {
+    _REG_(PLL_CS_OFFSET) // PLL_CS
+    // Control and Status
+    // 0x80000000 [31]    LOCK         (0) PLL is locked
+    // 0x00000100 [8]     BYPASS       (0) Passes the reference clock to the output instead of the...
+    // 0x0000003f [5:0]   REFDIV       (0x01) Divides the PLL input reference clock
+    io_rw_32 cs;
+ 
+    _REG_(PLL_PWR_OFFSET) // PLL_PWR
+    // Controls the PLL power modes
+    // 0x00000020 [5]     VCOPD        (1) PLL VCO powerdown +
+    // 0x00000008 [3]     POSTDIVPD    (1) PLL post divider powerdown +
+    // 0x00000004 [2]     DSMPD        (1) PLL DSM powerdown +
+    // 0x00000001 [0]     PD           (1) PLL powerdown +
+    io_rw_32 pwr;
+ 
+    _REG_(PLL_FBDIV_INT_OFFSET) // PLL_FBDIV_INT
+    // Feedback divisor
+    // 0x00000fff [11:0]  FBDIV_INT    (0x000) see ctrl reg description for constraints
+    io_rw_32 fbdiv_int;
+ 
+    _REG_(PLL_PRIM_OFFSET) // PLL_PRIM
+    // Controls the PLL post dividers for the primary output
+    // 0x00070000 [18:16] POSTDIV1     (0x7) divide by 1-7
+    // 0x00007000 [14:12] POSTDIV2     (0x7) divide by 1-7
+    io_rw_32 prim;
+} pll_hw_t;
+/// \end::pll_hw[]
+
+#define pll_sys_hw ((pll_hw_t *)PLL_SYS_BASE)
+#define pll_usb_hw ((pll_hw_t *)PLL_USB_BASE)
+static_assert(sizeof (pll_hw_t) == 0x0010, "");
+
+#endif // _HARDWARE_STRUCTS_PLL_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/psm.h b/lib/pico-sdk/rp2040/hardware/structs/psm.h
new file mode 100644
index 0000000..74ccaf3
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/psm.h
@@ -0,0 +1,116 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PSM_H
+#define _HARDWARE_STRUCTS_PSM_H
+
+/**
+ * \file rp2040/psm.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/psm.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_psm
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/psm.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PSM_FRCE_ON_OFFSET) // PSM_FRCE_ON
+    // Force block out of reset (i
+    // 0x00010000 [16]    PROC1        (0) 
+    // 0x00008000 [15]    PROC0        (0) 
+    // 0x00004000 [14]    SIO          (0) 
+    // 0x00002000 [13]    VREG_AND_CHIP_RESET (0) 
+    // 0x00001000 [12]    XIP          (0) 
+    // 0x00000800 [11]    SRAM5        (0) 
+    // 0x00000400 [10]    SRAM4        (0) 
+    // 0x00000200 [9]     SRAM3        (0) 
+    // 0x00000100 [8]     SRAM2        (0) 
+    // 0x00000080 [7]     SRAM1        (0) 
+    // 0x00000040 [6]     SRAM0        (0) 
+    // 0x00000020 [5]     ROM          (0) 
+    // 0x00000010 [4]     BUSFABRIC    (0) 
+    // 0x00000008 [3]     RESETS       (0) 
+    // 0x00000004 [2]     CLOCKS       (0) 
+    // 0x00000002 [1]     XOSC         (0) 
+    // 0x00000001 [0]     ROSC         (0) 
+    io_rw_32 frce_on;
+ 
+    _REG_(PSM_FRCE_OFF_OFFSET) // PSM_FRCE_OFF
+    // Force into reset (i
+    // 0x00010000 [16]    PROC1        (0) 
+    // 0x00008000 [15]    PROC0        (0) 
+    // 0x00004000 [14]    SIO          (0) 
+    // 0x00002000 [13]    VREG_AND_CHIP_RESET (0) 
+    // 0x00001000 [12]    XIP          (0) 
+    // 0x00000800 [11]    SRAM5        (0) 
+    // 0x00000400 [10]    SRAM4        (0) 
+    // 0x00000200 [9]     SRAM3        (0) 
+    // 0x00000100 [8]     SRAM2        (0) 
+    // 0x00000080 [7]     SRAM1        (0) 
+    // 0x00000040 [6]     SRAM0        (0) 
+    // 0x00000020 [5]     ROM          (0) 
+    // 0x00000010 [4]     BUSFABRIC    (0) 
+    // 0x00000008 [3]     RESETS       (0) 
+    // 0x00000004 [2]     CLOCKS       (0) 
+    // 0x00000002 [1]     XOSC         (0) 
+    // 0x00000001 [0]     ROSC         (0) 
+    io_rw_32 frce_off;
+ 
+    _REG_(PSM_WDSEL_OFFSET) // PSM_WDSEL
+    // Set to 1 if this peripheral should be reset when the watchdog fires
+    // 0x00010000 [16]    PROC1        (0) 
+    // 0x00008000 [15]    PROC0        (0) 
+    // 0x00004000 [14]    SIO          (0) 
+    // 0x00002000 [13]    VREG_AND_CHIP_RESET (0) 
+    // 0x00001000 [12]    XIP          (0) 
+    // 0x00000800 [11]    SRAM5        (0) 
+    // 0x00000400 [10]    SRAM4        (0) 
+    // 0x00000200 [9]     SRAM3        (0) 
+    // 0x00000100 [8]     SRAM2        (0) 
+    // 0x00000080 [7]     SRAM1        (0) 
+    // 0x00000040 [6]     SRAM0        (0) 
+    // 0x00000020 [5]     ROM          (0) 
+    // 0x00000010 [4]     BUSFABRIC    (0) 
+    // 0x00000008 [3]     RESETS       (0) 
+    // 0x00000004 [2]     CLOCKS       (0) 
+    // 0x00000002 [1]     XOSC         (0) 
+    // 0x00000001 [0]     ROSC         (0) 
+    io_rw_32 wdsel;
+ 
+    _REG_(PSM_DONE_OFFSET) // PSM_DONE
+    // Indicates the peripheral's registers are ready to access
+    // 0x00010000 [16]    PROC1        (0) 
+    // 0x00008000 [15]    PROC0        (0) 
+    // 0x00004000 [14]    SIO          (0) 
+    // 0x00002000 [13]    VREG_AND_CHIP_RESET (0) 
+    // 0x00001000 [12]    XIP          (0) 
+    // 0x00000800 [11]    SRAM5        (0) 
+    // 0x00000400 [10]    SRAM4        (0) 
+    // 0x00000200 [9]     SRAM3        (0) 
+    // 0x00000100 [8]     SRAM2        (0) 
+    // 0x00000080 [7]     SRAM1        (0) 
+    // 0x00000040 [6]     SRAM0        (0) 
+    // 0x00000020 [5]     ROM          (0) 
+    // 0x00000010 [4]     BUSFABRIC    (0) 
+    // 0x00000008 [3]     RESETS       (0) 
+    // 0x00000004 [2]     CLOCKS       (0) 
+    // 0x00000002 [1]     XOSC         (0) 
+    // 0x00000001 [0]     ROSC         (0) 
+    io_ro_32 done;
+} psm_hw_t;
+
+#define psm_hw ((psm_hw_t *)PSM_BASE)
+static_assert(sizeof (psm_hw_t) == 0x0010, "");
+
+#endif // _HARDWARE_STRUCTS_PSM_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/pwm.h b/lib/pico-sdk/rp2040/hardware/structs/pwm.h
new file mode 100644
index 0000000..3eedee4
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/pwm.h
@@ -0,0 +1,172 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PWM_H
+#define _HARDWARE_STRUCTS_PWM_H
+
+/**
+ * \file rp2040/pwm.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pwm.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_pwm
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pwm.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PWM_CH0_CSR_OFFSET) // PWM_CH0_CSR
+    // Control and status register
+    // 0x00000080 [7]     PH_ADV       (0) Advance the phase of the counter by 1 count, while it is running
+    // 0x00000040 [6]     PH_RET       (0) Retard the phase of the counter by 1 count, while it is running
+    // 0x00000030 [5:4]   DIVMODE      (0x0) 
+    // 0x00000008 [3]     B_INV        (0) Invert output B
+    // 0x00000004 [2]     A_INV        (0) Invert output A
+    // 0x00000002 [1]     PH_CORRECT   (0) 1: Enable phase-correct modulation
+    // 0x00000001 [0]     EN           (0) Enable the PWM channel
+    io_rw_32 csr;
+ 
+    _REG_(PWM_CH0_DIV_OFFSET) // PWM_CH0_DIV
+    // INT and FRAC form a fixed-point fractional number
+    // 0x00000ff0 [11:4]  INT          (0x01) 
+    // 0x0000000f [3:0]   FRAC         (0x0) 
+    io_rw_32 div;
+ 
+    _REG_(PWM_CH0_CTR_OFFSET) // PWM_CH0_CTR
+    // Direct access to the PWM counter
+    // 0x0000ffff [15:0]  CH0_CTR      (0x0000) 
+    io_rw_32 ctr;
+ 
+    _REG_(PWM_CH0_CC_OFFSET) // PWM_CH0_CC
+    // Counter compare values
+    // 0xffff0000 [31:16] B            (0x0000) 
+    // 0x0000ffff [15:0]  A            (0x0000) 
+    io_rw_32 cc;
+ 
+    _REG_(PWM_CH0_TOP_OFFSET) // PWM_CH0_TOP
+    // Counter wrap value
+    // 0x0000ffff [15:0]  CH0_TOP      (0xffff) 
+    io_rw_32 top;
+} pwm_slice_hw_t;
+
+typedef struct {
+    _REG_(PWM_INTE_OFFSET) // PWM_INTE
+    // Interrupt Enable
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 inte;
+ 
+    _REG_(PWM_INTF_OFFSET) // PWM_INTF
+    // Interrupt Force
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 intf;
+ 
+    _REG_(PWM_INTS_OFFSET) // PWM_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_ro_32 ints;
+} pwm_irq_ctrl_hw_t;
+
+typedef struct {
+    pwm_slice_hw_t slice[8];
+ 
+    _REG_(PWM_EN_OFFSET) // PWM_EN
+    // This register aliases the CSR_EN bits for all channels
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 en;
+ 
+    _REG_(PWM_INTR_OFFSET) // PWM_INTR
+    // Raw Interrupts
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 intr;
+ 
+    union {
+        struct {
+            _REG_(PWM_INTE_OFFSET) // PWM_INTE
+            // Interrupt Enable
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 inte;
+
+            _REG_(PWM_INTF_OFFSET) // PWM_INTF
+            // Interrupt Force
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 intf;
+
+            _REG_(PWM_INTS_OFFSET) // PWM_INTS
+            // Interrupt status after masking & forcing
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 ints;
+        };
+        pwm_irq_ctrl_hw_t irq_ctrl[1];
+    };
+} pwm_hw_t;
+
+#define pwm_hw ((pwm_hw_t *)PWM_BASE)
+static_assert(sizeof (pwm_hw_t) == 0x00b4, "");
+
+#endif // _HARDWARE_STRUCTS_PWM_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/resets.h b/lib/pico-sdk/rp2040/hardware/structs/resets.h
new file mode 100644
index 0000000..ca3a629
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/resets.h
@@ -0,0 +1,153 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_RESETS_H
+#define _HARDWARE_STRUCTS_RESETS_H
+
+/**
+ * \file rp2040/resets.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/resets.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_resets
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/resets.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Resettable component numbers on RP2040 (used as typedef \ref reset_num_t)
+ *  \ingroup hardware_resets
+ */
+typedef enum reset_num_rp2040 {
+    RESET_ADC = 0, ///< Select ADC to be reset
+    RESET_BUSCTRL = 1, ///< Select BUSCTRL to be reset
+    RESET_DMA = 2, ///< Select DMA to be reset
+    RESET_I2C0 = 3, ///< Select I2C0 to be reset
+    RESET_I2C1 = 4, ///< Select I2C1 to be reset
+    RESET_IO_BANK0 = 5, ///< Select IO_BANK0 to be reset
+    RESET_IO_QSPI = 6, ///< Select IO_QSPI to be reset
+    RESET_JTAG = 7, ///< Select JTAG to be reset
+    RESET_PADS_BANK0 = 8, ///< Select PADS_BANK0 to be reset
+    RESET_PADS_QSPI = 9, ///< Select PADS_QSPI to be reset
+    RESET_PIO0 = 10, ///< Select PIO0 to be reset
+    RESET_PIO1 = 11, ///< Select PIO1 to be reset
+    RESET_PLL_SYS = 12, ///< Select PLL_SYS to be reset
+    RESET_PLL_USB = 13, ///< Select PLL_USB to be reset
+    RESET_PWM = 14, ///< Select PWM to be reset
+    RESET_RTC = 15, ///< Select RTC to be reset
+    RESET_SPI0 = 16, ///< Select SPI0 to be reset
+    RESET_SPI1 = 17, ///< Select SPI1 to be reset
+    RESET_SYSCFG = 18, ///< Select SYSCFG to be reset
+    RESET_SYSINFO = 19, ///< Select SYSINFO to be reset
+    RESET_TBMAN = 20, ///< Select TBMAN to be reset
+    RESET_TIMER = 21, ///< Select TIMER to be reset
+    RESET_UART0 = 22, ///< Select UART0 to be reset
+    RESET_UART1 = 23, ///< Select UART1 to be reset
+    RESET_USBCTRL = 24, ///< Select USBCTRL to be reset
+    RESET_COUNT
+} reset_num_t;
+
+/// \tag::resets_hw[]
+typedef struct {
+    _REG_(RESETS_RESET_OFFSET) // RESETS_RESET
+    // Reset control.
+    // 0x01000000 [24]    USBCTRL      (1) 
+    // 0x00800000 [23]    UART1        (1) 
+    // 0x00400000 [22]    UART0        (1) 
+    // 0x00200000 [21]    TIMER        (1) 
+    // 0x00100000 [20]    TBMAN        (1) 
+    // 0x00080000 [19]    SYSINFO      (1) 
+    // 0x00040000 [18]    SYSCFG       (1) 
+    // 0x00020000 [17]    SPI1         (1) 
+    // 0x00010000 [16]    SPI0         (1) 
+    // 0x00008000 [15]    RTC          (1) 
+    // 0x00004000 [14]    PWM          (1) 
+    // 0x00002000 [13]    PLL_USB      (1) 
+    // 0x00001000 [12]    PLL_SYS      (1) 
+    // 0x00000800 [11]    PIO1         (1) 
+    // 0x00000400 [10]    PIO0         (1) 
+    // 0x00000200 [9]     PADS_QSPI    (1) 
+    // 0x00000100 [8]     PADS_BANK0   (1) 
+    // 0x00000080 [7]     JTAG         (1) 
+    // 0x00000040 [6]     IO_QSPI      (1) 
+    // 0x00000020 [5]     IO_BANK0     (1) 
+    // 0x00000010 [4]     I2C1         (1) 
+    // 0x00000008 [3]     I2C0         (1) 
+    // 0x00000004 [2]     DMA          (1) 
+    // 0x00000002 [1]     BUSCTRL      (1) 
+    // 0x00000001 [0]     ADC          (1) 
+    io_rw_32 reset;
+ 
+    _REG_(RESETS_WDSEL_OFFSET) // RESETS_WDSEL
+    // Watchdog select.
+    // 0x01000000 [24]    USBCTRL      (0) 
+    // 0x00800000 [23]    UART1        (0) 
+    // 0x00400000 [22]    UART0        (0) 
+    // 0x00200000 [21]    TIMER        (0) 
+    // 0x00100000 [20]    TBMAN        (0) 
+    // 0x00080000 [19]    SYSINFO      (0) 
+    // 0x00040000 [18]    SYSCFG       (0) 
+    // 0x00020000 [17]    SPI1         (0) 
+    // 0x00010000 [16]    SPI0         (0) 
+    // 0x00008000 [15]    RTC          (0) 
+    // 0x00004000 [14]    PWM          (0) 
+    // 0x00002000 [13]    PLL_USB      (0) 
+    // 0x00001000 [12]    PLL_SYS      (0) 
+    // 0x00000800 [11]    PIO1         (0) 
+    // 0x00000400 [10]    PIO0         (0) 
+    // 0x00000200 [9]     PADS_QSPI    (0) 
+    // 0x00000100 [8]     PADS_BANK0   (0) 
+    // 0x00000080 [7]     JTAG         (0) 
+    // 0x00000040 [6]     IO_QSPI      (0) 
+    // 0x00000020 [5]     IO_BANK0     (0) 
+    // 0x00000010 [4]     I2C1         (0) 
+    // 0x00000008 [3]     I2C0         (0) 
+    // 0x00000004 [2]     DMA          (0) 
+    // 0x00000002 [1]     BUSCTRL      (0) 
+    // 0x00000001 [0]     ADC          (0) 
+    io_rw_32 wdsel;
+ 
+    _REG_(RESETS_RESET_DONE_OFFSET) // RESETS_RESET_DONE
+    // Reset done.
+    // 0x01000000 [24]    USBCTRL      (0) 
+    // 0x00800000 [23]    UART1        (0) 
+    // 0x00400000 [22]    UART0        (0) 
+    // 0x00200000 [21]    TIMER        (0) 
+    // 0x00100000 [20]    TBMAN        (0) 
+    // 0x00080000 [19]    SYSINFO      (0) 
+    // 0x00040000 [18]    SYSCFG       (0) 
+    // 0x00020000 [17]    SPI1         (0) 
+    // 0x00010000 [16]    SPI0         (0) 
+    // 0x00008000 [15]    RTC          (0) 
+    // 0x00004000 [14]    PWM          (0) 
+    // 0x00002000 [13]    PLL_USB      (0) 
+    // 0x00001000 [12]    PLL_SYS      (0) 
+    // 0x00000800 [11]    PIO1         (0) 
+    // 0x00000400 [10]    PIO0         (0) 
+    // 0x00000200 [9]     PADS_QSPI    (0) 
+    // 0x00000100 [8]     PADS_BANK0   (0) 
+    // 0x00000080 [7]     JTAG         (0) 
+    // 0x00000040 [6]     IO_QSPI      (0) 
+    // 0x00000020 [5]     IO_BANK0     (0) 
+    // 0x00000010 [4]     I2C1         (0) 
+    // 0x00000008 [3]     I2C0         (0) 
+    // 0x00000004 [2]     DMA          (0) 
+    // 0x00000002 [1]     BUSCTRL      (0) 
+    // 0x00000001 [0]     ADC          (0) 
+    io_ro_32 reset_done;
+} resets_hw_t;
+/// \end::resets_hw[]
+
+#define resets_hw ((resets_hw_t *)RESETS_BASE)
+static_assert(sizeof (resets_hw_t) == 0x000c, "");
+
+#endif // _HARDWARE_STRUCTS_RESETS_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/rosc.h b/lib/pico-sdk/rp2040/hardware/structs/rosc.h
new file mode 100644
index 0000000..2bc8200
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/rosc.h
@@ -0,0 +1,92 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_ROSC_H
+#define _HARDWARE_STRUCTS_ROSC_H
+
+/**
+ * \file rp2040/rosc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/rosc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_rosc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/rosc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(ROSC_CTRL_OFFSET) // ROSC_CTRL
+    // Ring Oscillator control
+    // 0x00fff000 [23:12] ENABLE       (-) On power-up this field is initialised to ENABLE +
+    // 0x00000fff [11:0]  FREQ_RANGE   (0xaa0) Controls the number of delay stages in the ROSC ring +
+    io_rw_32 ctrl;
+ 
+    _REG_(ROSC_FREQA_OFFSET) // ROSC_FREQA
+    // Ring Oscillator frequency control A
+    // 0xffff0000 [31:16] PASSWD       (0x0000) Set to 0x9696 to apply the settings +
+    // 0x00007000 [14:12] DS3          (0x0) Stage 3 drive strength
+    // 0x00000700 [10:8]  DS2          (0x0) Stage 2 drive strength
+    // 0x00000070 [6:4]   DS1          (0x0) Stage 1 drive strength
+    // 0x00000007 [2:0]   DS0          (0x0) Stage 0 drive strength
+    io_rw_32 freqa;
+ 
+    _REG_(ROSC_FREQB_OFFSET) // ROSC_FREQB
+    // Ring Oscillator frequency control B
+    // 0xffff0000 [31:16] PASSWD       (0x0000) Set to 0x9696 to apply the settings +
+    // 0x00007000 [14:12] DS7          (0x0) Stage 7 drive strength
+    // 0x00000700 [10:8]  DS6          (0x0) Stage 6 drive strength
+    // 0x00000070 [6:4]   DS5          (0x0) Stage 5 drive strength
+    // 0x00000007 [2:0]   DS4          (0x0) Stage 4 drive strength
+    io_rw_32 freqb;
+ 
+    _REG_(ROSC_DORMANT_OFFSET) // ROSC_DORMANT
+    // Ring Oscillator pause control
+    // 0xffffffff [31:0]  DORMANT      (-) This is used to save power by pausing the ROSC +
+    io_rw_32 dormant;
+ 
+    _REG_(ROSC_DIV_OFFSET) // ROSC_DIV
+    // Controls the output divider
+    // 0x00000fff [11:0]  DIV          (-) set to 0xaa0 + div where +
+    io_rw_32 div;
+ 
+    _REG_(ROSC_PHASE_OFFSET) // ROSC_PHASE
+    // Controls the phase shifted output
+    // 0x00000ff0 [11:4]  PASSWD       (0x00) set to 0xaa +
+    // 0x00000008 [3]     ENABLE       (1) enable the phase-shifted output +
+    // 0x00000004 [2]     FLIP         (0) invert the phase-shifted output +
+    // 0x00000003 [1:0]   SHIFT        (0x0) phase shift the phase-shifted output by SHIFT input clocks +
+    io_rw_32 phase;
+ 
+    _REG_(ROSC_STATUS_OFFSET) // ROSC_STATUS
+    // Ring Oscillator Status
+    // 0x80000000 [31]    STABLE       (0) Oscillator is running and stable
+    // 0x01000000 [24]    BADWRITE     (0) An invalid value has been written to CTRL_ENABLE or...
+    // 0x00010000 [16]    DIV_RUNNING  (-) post-divider is running +
+    // 0x00001000 [12]    ENABLED      (-) Oscillator is enabled but not necessarily running and stable +
+    io_rw_32 status;
+ 
+    _REG_(ROSC_RANDOMBIT_OFFSET) // ROSC_RANDOMBIT
+    // Returns a 1 bit random value
+    // 0x00000001 [0]     RANDOMBIT    (1) 
+    io_ro_32 randombit;
+ 
+    _REG_(ROSC_COUNT_OFFSET) // ROSC_COUNT
+    // A down counter running at the ROSC frequency which counts to zero and stops.
+    // 0x000000ff [7:0]   COUNT        (0x00) 
+    io_rw_32 count;
+} rosc_hw_t;
+
+#define rosc_hw ((rosc_hw_t *)ROSC_BASE)
+static_assert(sizeof (rosc_hw_t) == 0x0024, "");
+
+#endif // _HARDWARE_STRUCTS_ROSC_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/rtc.h b/lib/pico-sdk/rp2040/hardware/structs/rtc.h
new file mode 100644
index 0000000..6f35b68
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/rtc.h
@@ -0,0 +1,119 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_RTC_H
+#define _HARDWARE_STRUCTS_RTC_H
+
+/**
+ * \file rp2040/rtc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/rtc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_rtc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/rtc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(RTC_CLKDIV_M1_OFFSET) // RTC_CLKDIV_M1
+    // Divider minus 1 for the 1 second counter
+    // 0x0000ffff [15:0]  CLKDIV_M1    (0x0000) 
+    io_rw_32 clkdiv_m1;
+ 
+    _REG_(RTC_SETUP_0_OFFSET) // RTC_SETUP_0
+    // RTC setup register 0
+    // 0x00fff000 [23:12] YEAR         (0x000) Year
+    // 0x00000f00 [11:8]  MONTH        (0x0) Month (1
+    // 0x0000001f [4:0]   DAY          (0x00) Day of the month (1
+    io_rw_32 setup_0;
+ 
+    _REG_(RTC_SETUP_1_OFFSET) // RTC_SETUP_1
+    // RTC setup register 1
+    // 0x07000000 [26:24] DOTW         (0x0) Day of the week: 1-Monday
+    // 0x001f0000 [20:16] HOUR         (0x00) Hours
+    // 0x00003f00 [13:8]  MIN          (0x00) Minutes
+    // 0x0000003f [5:0]   SEC          (0x00) Seconds
+    io_rw_32 setup_1;
+ 
+    _REG_(RTC_CTRL_OFFSET) // RTC_CTRL
+    // RTC Control and status
+    // 0x00000100 [8]     FORCE_NOTLEAPYEAR (0) If set, leapyear is forced off
+    // 0x00000010 [4]     LOAD         (0) Load RTC
+    // 0x00000002 [1]     RTC_ACTIVE   (-) RTC enabled (running)
+    // 0x00000001 [0]     RTC_ENABLE   (0) Enable RTC
+    io_rw_32 ctrl;
+ 
+    _REG_(RTC_IRQ_SETUP_0_OFFSET) // RTC_IRQ_SETUP_0
+    // Interrupt setup register 0
+    // 0x20000000 [29]    MATCH_ACTIVE (-) 
+    // 0x10000000 [28]    MATCH_ENA    (0) Global match enable
+    // 0x04000000 [26]    YEAR_ENA     (0) Enable year matching
+    // 0x02000000 [25]    MONTH_ENA    (0) Enable month matching
+    // 0x01000000 [24]    DAY_ENA      (0) Enable day matching
+    // 0x00fff000 [23:12] YEAR         (0x000) Year
+    // 0x00000f00 [11:8]  MONTH        (0x0) Month (1
+    // 0x0000001f [4:0]   DAY          (0x00) Day of the month (1
+    io_rw_32 irq_setup_0;
+ 
+    _REG_(RTC_IRQ_SETUP_1_OFFSET) // RTC_IRQ_SETUP_1
+    // Interrupt setup register 1
+    // 0x80000000 [31]    DOTW_ENA     (0) Enable day of the week matching
+    // 0x40000000 [30]    HOUR_ENA     (0) Enable hour matching
+    // 0x20000000 [29]    MIN_ENA      (0) Enable minute matching
+    // 0x10000000 [28]    SEC_ENA      (0) Enable second matching
+    // 0x07000000 [26:24] DOTW         (0x0) Day of the week
+    // 0x001f0000 [20:16] HOUR         (0x00) Hours
+    // 0x00003f00 [13:8]  MIN          (0x00) Minutes
+    // 0x0000003f [5:0]   SEC          (0x00) Seconds
+    io_rw_32 irq_setup_1;
+ 
+    _REG_(RTC_RTC_1_OFFSET) // RTC_RTC_1
+    // RTC register 1
+    // 0x00fff000 [23:12] YEAR         (-) Year
+    // 0x00000f00 [11:8]  MONTH        (-) Month (1
+    // 0x0000001f [4:0]   DAY          (-) Day of the month (1
+    io_ro_32 rtc_1;
+ 
+    _REG_(RTC_RTC_0_OFFSET) // RTC_RTC_0
+    // RTC register 0 +
+    // 0x07000000 [26:24] DOTW         (-) Day of the week
+    // 0x001f0000 [20:16] HOUR         (-) Hours
+    // 0x00003f00 [13:8]  MIN          (-) Minutes
+    // 0x0000003f [5:0]   SEC          (-) Seconds
+    io_ro_32 rtc_0;
+ 
+    _REG_(RTC_INTR_OFFSET) // RTC_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     RTC          (0) 
+    io_ro_32 intr;
+ 
+    _REG_(RTC_INTE_OFFSET) // RTC_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     RTC          (0) 
+    io_rw_32 inte;
+ 
+    _REG_(RTC_INTF_OFFSET) // RTC_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     RTC          (0) 
+    io_rw_32 intf;
+ 
+    _REG_(RTC_INTS_OFFSET) // RTC_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     RTC          (0) 
+    io_ro_32 ints;
+} rtc_hw_t;
+
+#define rtc_hw ((rtc_hw_t *)RTC_BASE)
+static_assert(sizeof (rtc_hw_t) == 0x0030, "");
+
+#endif // _HARDWARE_STRUCTS_RTC_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/scb.h b/lib/pico-sdk/rp2040/hardware/structs/scb.h
new file mode 100644
index 0000000..d4af748
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/scb.h
@@ -0,0 +1,74 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SCB_H
+#define _HARDWARE_STRUCTS_SCB_H
+
+/**
+ * \file rp2040/scb.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m0plus.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_m0plus
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m0plus.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(M0PLUS_CPUID_OFFSET) // M0PLUS_CPUID
+    // CPUID Base Register
+    // 0xff000000 [31:24] IMPLEMENTER  (0x41) Implementor code: 0x41 = ARM
+    // 0x00f00000 [23:20] VARIANT      (0x0) Major revision number n in the rnpm revision status: +
+    // 0x000f0000 [19:16] ARCHITECTURE (0xc) Constant that defines the architecture of the processor: +
+    // 0x0000fff0 [15:4]  PARTNO       (0xc60) Number of processor within family: 0xC60 = Cortex-M0+
+    // 0x0000000f [3:0]   REVISION     (0x1) Minor revision number m in the rnpm revision status: +
+    io_ro_32 cpuid;
+ 
+    _REG_(M0PLUS_ICSR_OFFSET) // M0PLUS_ICSR
+    // Interrupt Control and State Register
+    // 0x80000000 [31]    NMIPENDSET   (0) Setting this bit will activate an NMI
+    // 0x10000000 [28]    PENDSVSET    (0) PendSV set-pending bit
+    // 0x08000000 [27]    PENDSVCLR    (0) PendSV clear-pending bit
+    // 0x04000000 [26]    PENDSTSET    (0) SysTick exception set-pending bit
+    // 0x02000000 [25]    PENDSTCLR    (0) SysTick exception clear-pending bit
+    // 0x00800000 [23]    ISRPREEMPT   (0) The system can only access this bit when the core is halted
+    // 0x00400000 [22]    ISRPENDING   (0) External interrupt pending flag
+    // 0x001ff000 [20:12] VECTPENDING  (0x000) Indicates the exception number for the highest priority...
+    // 0x000001ff [8:0]   VECTACTIVE   (0x000) Active exception number field
+    io_rw_32 icsr;
+ 
+    _REG_(M0PLUS_VTOR_OFFSET) // M0PLUS_VTOR
+    // Vector Table Offset Register
+    // 0xffffff00 [31:8]  TBLOFF       (0x000000) Bits [31:8] of the indicate the vector table offset address
+    io_rw_32 vtor;
+ 
+    _REG_(M0PLUS_AIRCR_OFFSET) // M0PLUS_AIRCR
+    // Application Interrupt and Reset Control Register
+    // 0xffff0000 [31:16] VECTKEY      (0x0000) Register key: +
+    // 0x00008000 [15]    ENDIANESS    (0) Data endianness implemented: +
+    // 0x00000004 [2]     SYSRESETREQ  (0) Writing 1 to this bit causes the SYSRESETREQ signal to...
+    // 0x00000002 [1]     VECTCLRACTIVE (0) Clears all active state information for fixed and...
+    io_rw_32 aircr;
+ 
+    _REG_(M0PLUS_SCR_OFFSET) // M0PLUS_SCR
+    // System Control Register
+    // 0x00000010 [4]     SEVONPEND    (0) Send Event on Pending bit: +
+    // 0x00000004 [2]     SLEEPDEEP    (0) Controls whether the processor uses sleep or deep sleep...
+    // 0x00000002 [1]     SLEEPONEXIT  (0) Indicates sleep-on-exit when returning from Handler mode...
+    io_rw_32 scr;
+} armv6m_scb_hw_t;
+
+#define scb_hw ((armv6m_scb_hw_t *)(PPB_BASE + M0PLUS_CPUID_OFFSET))
+static_assert(sizeof (armv6m_scb_hw_t) == 0x0014, "");
+
+#endif // _HARDWARE_STRUCTS_SCB_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/sio.h b/lib/pico-sdk/rp2040/hardware/structs/sio.h
new file mode 100644
index 0000000..412a7d8
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/sio.h
@@ -0,0 +1,200 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SIO_H
+#define _HARDWARE_STRUCTS_SIO_H
+
+/**
+ * \file rp2040/sio.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sio.h"
+#include "hardware/structs/interp.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_sio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+
+typedef struct {
+    _REG_(SIO_CPUID_OFFSET) // SIO_CPUID
+    // Processor core identifier
+    // 0xffffffff [31:0]  CPUID        (-) Value is 0 when read from processor core 0, and 1 when...
+    io_ro_32 cpuid;
+ 
+    _REG_(SIO_GPIO_IN_OFFSET) // SIO_GPIO_IN
+    // Input value for GPIO pins
+    // 0x3fffffff [29:0]  GPIO_IN      (0x00000000) Input value for GPIO0
+    io_ro_32 gpio_in;
+ 
+    _REG_(SIO_GPIO_HI_IN_OFFSET) // SIO_GPIO_HI_IN
+    // Input value for QSPI pins
+    // 0x0000003f [5:0]   GPIO_HI_IN   (0x00) Input value on QSPI IO in order 0
+    io_ro_32 gpio_hi_in;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(SIO_GPIO_OUT_OFFSET) // SIO_GPIO_OUT
+    // GPIO output value
+    // 0x3fffffff [29:0]  GPIO_OUT     (0x00000000) Set output level (1/0 -> high/low) for GPIO0
+    io_rw_32 gpio_out;
+ 
+    _REG_(SIO_GPIO_OUT_SET_OFFSET) // SIO_GPIO_OUT_SET
+    // GPIO output value set
+    // 0x3fffffff [29:0]  GPIO_OUT_SET (0x00000000) Perform an atomic bit-set on GPIO_OUT, i
+    io_wo_32 gpio_set;
+ 
+    _REG_(SIO_GPIO_OUT_CLR_OFFSET) // SIO_GPIO_OUT_CLR
+    // GPIO output value clear
+    // 0x3fffffff [29:0]  GPIO_OUT_CLR (0x00000000) Perform an atomic bit-clear on GPIO_OUT, i
+    io_wo_32 gpio_clr;
+ 
+    _REG_(SIO_GPIO_OUT_XOR_OFFSET) // SIO_GPIO_OUT_XOR
+    // GPIO output value XOR
+    // 0x3fffffff [29:0]  GPIO_OUT_XOR (0x00000000) Perform an atomic bitwise XOR on GPIO_OUT, i
+    io_wo_32 gpio_togl;
+ 
+    _REG_(SIO_GPIO_OE_OFFSET) // SIO_GPIO_OE
+    // GPIO output enable
+    // 0x3fffffff [29:0]  GPIO_OE      (0x00000000) Set output enable (1/0 -> output/input) for GPIO0
+    io_rw_32 gpio_oe;
+ 
+    _REG_(SIO_GPIO_OE_SET_OFFSET) // SIO_GPIO_OE_SET
+    // GPIO output enable set
+    // 0x3fffffff [29:0]  GPIO_OE_SET  (0x00000000) Perform an atomic bit-set on GPIO_OE, i
+    io_wo_32 gpio_oe_set;
+ 
+    _REG_(SIO_GPIO_OE_CLR_OFFSET) // SIO_GPIO_OE_CLR
+    // GPIO output enable clear
+    // 0x3fffffff [29:0]  GPIO_OE_CLR  (0x00000000) Perform an atomic bit-clear on GPIO_OE, i
+    io_wo_32 gpio_oe_clr;
+ 
+    _REG_(SIO_GPIO_OE_XOR_OFFSET) // SIO_GPIO_OE_XOR
+    // GPIO output enable XOR
+    // 0x3fffffff [29:0]  GPIO_OE_XOR  (0x00000000) Perform an atomic bitwise XOR on GPIO_OE, i
+    io_wo_32 gpio_oe_togl;
+ 
+    _REG_(SIO_GPIO_HI_OUT_OFFSET) // SIO_GPIO_HI_OUT
+    // QSPI output value
+    // 0x0000003f [5:0]   GPIO_HI_OUT  (0x00) Set output level (1/0 -> high/low) for QSPI IO0
+    io_rw_32 gpio_hi_out;
+ 
+    _REG_(SIO_GPIO_HI_OUT_SET_OFFSET) // SIO_GPIO_HI_OUT_SET
+    // QSPI output value set
+    // 0x0000003f [5:0]   GPIO_HI_OUT_SET (0x00) Perform an atomic bit-set on GPIO_HI_OUT, i
+    io_wo_32 gpio_hi_set;
+ 
+    _REG_(SIO_GPIO_HI_OUT_CLR_OFFSET) // SIO_GPIO_HI_OUT_CLR
+    // QSPI output value clear
+    // 0x0000003f [5:0]   GPIO_HI_OUT_CLR (0x00) Perform an atomic bit-clear on GPIO_HI_OUT, i
+    io_wo_32 gpio_hi_clr;
+ 
+    _REG_(SIO_GPIO_HI_OUT_XOR_OFFSET) // SIO_GPIO_HI_OUT_XOR
+    // QSPI output value XOR
+    // 0x0000003f [5:0]   GPIO_HI_OUT_XOR (0x00) Perform an atomic bitwise XOR on GPIO_HI_OUT, i
+    io_wo_32 gpio_hi_togl;
+ 
+    _REG_(SIO_GPIO_HI_OE_OFFSET) // SIO_GPIO_HI_OE
+    // QSPI output enable
+    // 0x0000003f [5:0]   GPIO_HI_OE   (0x00) Set output enable (1/0 -> output/input) for QSPI IO0
+    io_rw_32 gpio_hi_oe;
+ 
+    _REG_(SIO_GPIO_HI_OE_SET_OFFSET) // SIO_GPIO_HI_OE_SET
+    // QSPI output enable set
+    // 0x0000003f [5:0]   GPIO_HI_OE_SET (0x00) Perform an atomic bit-set on GPIO_HI_OE, i
+    io_wo_32 gpio_hi_oe_set;
+ 
+    _REG_(SIO_GPIO_HI_OE_CLR_OFFSET) // SIO_GPIO_HI_OE_CLR
+    // QSPI output enable clear
+    // 0x0000003f [5:0]   GPIO_HI_OE_CLR (0x00) Perform an atomic bit-clear on GPIO_HI_OE, i
+    io_wo_32 gpio_hi_oe_clr;
+ 
+    _REG_(SIO_GPIO_HI_OE_XOR_OFFSET) // SIO_GPIO_HI_OE_XOR
+    // QSPI output enable XOR
+    // 0x0000003f [5:0]   GPIO_HI_OE_XOR (0x00) Perform an atomic bitwise XOR on GPIO_HI_OE, i
+    io_wo_32 gpio_hi_oe_togl;
+ 
+    _REG_(SIO_FIFO_ST_OFFSET) // SIO_FIFO_ST
+    // Status register for inter-core FIFOs (mailboxes).
+    // 0x00000008 [3]     ROE          (0) Sticky flag indicating the RX FIFO was read when empty
+    // 0x00000004 [2]     WOF          (0) Sticky flag indicating the TX FIFO was written when full
+    // 0x00000002 [1]     RDY          (1) Value is 1 if this core's TX FIFO is not full (i
+    // 0x00000001 [0]     VLD          (0) Value is 1 if this core's RX FIFO is not empty (i
+    io_rw_32 fifo_st;
+ 
+    _REG_(SIO_FIFO_WR_OFFSET) // SIO_FIFO_WR
+    // Write access to this core's TX FIFO
+    // 0xffffffff [31:0]  FIFO_WR      (0x00000000) 
+    io_wo_32 fifo_wr;
+ 
+    _REG_(SIO_FIFO_RD_OFFSET) // SIO_FIFO_RD
+    // Read access to this core's RX FIFO
+    // 0xffffffff [31:0]  FIFO_RD      (-) 
+    io_ro_32 fifo_rd;
+ 
+    _REG_(SIO_SPINLOCK_ST_OFFSET) // SIO_SPINLOCK_ST
+    // Spinlock state
+    // 0xffffffff [31:0]  SPINLOCK_ST  (0x00000000) 
+    io_ro_32 spinlock_st;
+ 
+    _REG_(SIO_DIV_UDIVIDEND_OFFSET) // SIO_DIV_UDIVIDEND
+    // Divider unsigned dividend
+    // 0xffffffff [31:0]  DIV_UDIVIDEND (0x00000000) 
+    io_rw_32 div_udividend;
+ 
+    _REG_(SIO_DIV_UDIVISOR_OFFSET) // SIO_DIV_UDIVISOR
+    // Divider unsigned divisor
+    // 0xffffffff [31:0]  DIV_UDIVISOR (0x00000000) 
+    io_rw_32 div_udivisor;
+ 
+    _REG_(SIO_DIV_SDIVIDEND_OFFSET) // SIO_DIV_SDIVIDEND
+    // Divider signed dividend
+    // 0xffffffff [31:0]  DIV_SDIVIDEND (0x00000000) 
+    io_rw_32 div_sdividend;
+ 
+    _REG_(SIO_DIV_SDIVISOR_OFFSET) // SIO_DIV_SDIVISOR
+    // Divider signed divisor
+    // 0xffffffff [31:0]  DIV_SDIVISOR (0x00000000) 
+    io_rw_32 div_sdivisor;
+ 
+    _REG_(SIO_DIV_QUOTIENT_OFFSET) // SIO_DIV_QUOTIENT
+    // Divider result quotient
+    // 0xffffffff [31:0]  DIV_QUOTIENT (0x00000000) 
+    io_rw_32 div_quotient;
+ 
+    _REG_(SIO_DIV_REMAINDER_OFFSET) // SIO_DIV_REMAINDER
+    // Divider result remainder
+    // 0xffffffff [31:0]  DIV_REMAINDER (0x00000000) 
+    io_rw_32 div_remainder;
+ 
+    _REG_(SIO_DIV_CSR_OFFSET) // SIO_DIV_CSR
+    // Control and status register for divider
+    // 0x00000002 [1]     DIRTY        (0) Changes to 1 when any register is written, and back to 0...
+    // 0x00000001 [0]     READY        (1) Reads as 0 when a calculation is in progress, 1 otherwise
+    io_ro_32 div_csr;
+ 
+    uint32_t _pad1;
+ 
+    interp_hw_t interp[2];
+ 
+    // (Description copied from array index 0 register SIO_SPINLOCK0 applies similarly to other array indexes)
+    _REG_(SIO_SPINLOCK0_OFFSET) // SIO_SPINLOCK0
+    // Spinlock register 0
+    // 0xffffffff [31:0]  SPINLOCK0    (0x00000000) 
+    io_rw_32 spinlock[32];
+} sio_hw_t;
+
+#define sio_hw ((sio_hw_t *)SIO_BASE)
+static_assert(sizeof (sio_hw_t) == 0x0180, "");
+
+#endif // _HARDWARE_STRUCTS_SIO_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/spi.h b/lib/pico-sdk/rp2040/hardware/structs/spi.h
new file mode 100644
index 0000000..7d1956e
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/spi.h
@@ -0,0 +1,105 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SPI_H
+#define _HARDWARE_STRUCTS_SPI_H
+
+/**
+ * \file rp2040/spi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/spi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_spi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/spi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SPI_SSPCR0_OFFSET) // SPI_SSPCR0
+    // Control register 0, SSPCR0 on page 3-4
+    // 0x0000ff00 [15:8]  SCR          (0x00) Serial clock rate
+    // 0x00000080 [7]     SPH          (0) SSPCLKOUT phase, applicable to Motorola SPI frame format only
+    // 0x00000040 [6]     SPO          (0) SSPCLKOUT polarity, applicable to Motorola SPI frame format only
+    // 0x00000030 [5:4]   FRF          (0x0) Frame format: 00 Motorola SPI frame format
+    // 0x0000000f [3:0]   DSS          (0x0) Data Size Select: 0000 Reserved, undefined operation
+    io_rw_32 cr0;
+ 
+    _REG_(SPI_SSPCR1_OFFSET) // SPI_SSPCR1
+    // Control register 1, SSPCR1 on page 3-5
+    // 0x00000008 [3]     SOD          (0) Slave-mode output disable
+    // 0x00000004 [2]     MS           (0) Master or slave mode select
+    // 0x00000002 [1]     SSE          (0) Synchronous serial port enable: 0 SSP operation disabled
+    // 0x00000001 [0]     LBM          (0) Loop back mode: 0 Normal serial port operation enabled
+    io_rw_32 cr1;
+ 
+    _REG_(SPI_SSPDR_OFFSET) // SPI_SSPDR
+    // Data register, SSPDR on page 3-6
+    // 0x0000ffff [15:0]  DATA         (-) Transmit/Receive FIFO: Read Receive FIFO
+    io_rw_32 dr;
+ 
+    _REG_(SPI_SSPSR_OFFSET) // SPI_SSPSR
+    // Status register, SSPSR on page 3-7
+    // 0x00000010 [4]     BSY          (0) PrimeCell SSP busy flag, RO: 0 SSP is idle
+    // 0x00000008 [3]     RFF          (0) Receive FIFO full, RO: 0 Receive FIFO is not full
+    // 0x00000004 [2]     RNE          (0) Receive FIFO not empty, RO: 0 Receive FIFO is empty
+    // 0x00000002 [1]     TNF          (1) Transmit FIFO not full, RO: 0 Transmit FIFO is full
+    // 0x00000001 [0]     TFE          (1) Transmit FIFO empty, RO: 0 Transmit FIFO is not empty
+    io_ro_32 sr;
+ 
+    _REG_(SPI_SSPCPSR_OFFSET) // SPI_SSPCPSR
+    // Clock prescale register, SSPCPSR on page 3-8
+    // 0x000000ff [7:0]   CPSDVSR      (0x00) Clock prescale divisor
+    io_rw_32 cpsr;
+ 
+    _REG_(SPI_SSPIMSC_OFFSET) // SPI_SSPIMSC
+    // Interrupt mask set or clear register, SSPIMSC on page 3-9
+    // 0x00000008 [3]     TXIM         (0) Transmit FIFO interrupt mask: 0 Transmit FIFO half empty...
+    // 0x00000004 [2]     RXIM         (0) Receive FIFO interrupt mask: 0 Receive FIFO half full or...
+    // 0x00000002 [1]     RTIM         (0) Receive timeout interrupt mask: 0 Receive FIFO not empty...
+    // 0x00000001 [0]     RORIM        (0) Receive overrun interrupt mask: 0 Receive FIFO written...
+    io_rw_32 imsc;
+ 
+    _REG_(SPI_SSPRIS_OFFSET) // SPI_SSPRIS
+    // Raw interrupt status register, SSPRIS on page 3-10
+    // 0x00000008 [3]     TXRIS        (1) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000004 [2]     RXRIS        (0) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000002 [1]     RTRIS        (0) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000001 [0]     RORRIS       (0) Gives the raw interrupt state, prior to masking, of the...
+    io_ro_32 ris;
+ 
+    _REG_(SPI_SSPMIS_OFFSET) // SPI_SSPMIS
+    // Masked interrupt status register, SSPMIS on page 3-11
+    // 0x00000008 [3]     TXMIS        (0) Gives the transmit FIFO masked interrupt state, after...
+    // 0x00000004 [2]     RXMIS        (0) Gives the receive FIFO masked interrupt state, after...
+    // 0x00000002 [1]     RTMIS        (0) Gives the receive timeout masked interrupt state, after...
+    // 0x00000001 [0]     RORMIS       (0) Gives the receive over run masked interrupt status,...
+    io_ro_32 mis;
+ 
+    _REG_(SPI_SSPICR_OFFSET) // SPI_SSPICR
+    // Interrupt clear register, SSPICR on page 3-11
+    // 0x00000002 [1]     RTIC         (0) Clears the SSPRTINTR interrupt
+    // 0x00000001 [0]     RORIC        (0) Clears the SSPRORINTR interrupt
+    io_rw_32 icr;
+ 
+    _REG_(SPI_SSPDMACR_OFFSET) // SPI_SSPDMACR
+    // DMA control register, SSPDMACR on page 3-12
+    // 0x00000002 [1]     TXDMAE       (0) Transmit DMA Enable
+    // 0x00000001 [0]     RXDMAE       (0) Receive DMA Enable
+    io_rw_32 dmacr;
+} spi_hw_t;
+
+#define spi0_hw ((spi_hw_t *)SPI0_BASE)
+#define spi1_hw ((spi_hw_t *)SPI1_BASE)
+static_assert(sizeof (spi_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_SPI_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/ssi.h b/lib/pico-sdk/rp2040/hardware/structs/ssi.h
new file mode 100644
index 0000000..9d5fdac
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/ssi.h
@@ -0,0 +1,215 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SSI_H
+#define _HARDWARE_STRUCTS_SSI_H
+
+/**
+ * \file rp2040/ssi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/ssi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_ssi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/ssi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SSI_CTRLR0_OFFSET) // SSI_CTRLR0
+    // Control register 0
+    // 0x01000000 [24]    SSTE         (0) Slave select toggle enable
+    // 0x00600000 [22:21] SPI_FRF      (0x0) SPI frame format
+    // 0x001f0000 [20:16] DFS_32       (0x00) Data frame size in 32b transfer mode +
+    // 0x0000f000 [15:12] CFS          (0x0) Control frame size +
+    // 0x00000800 [11]    SRL          (0) Shift register loop (test mode)
+    // 0x00000400 [10]    SLV_OE       (0) Slave output enable
+    // 0x00000300 [9:8]   TMOD         (0x0) Transfer mode
+    // 0x00000080 [7]     SCPOL        (0) Serial clock polarity
+    // 0x00000040 [6]     SCPH         (0) Serial clock phase
+    // 0x00000030 [5:4]   FRF          (0x0) Frame format
+    // 0x0000000f [3:0]   DFS          (0x0) Data frame size
+    io_rw_32 ctrlr0;
+ 
+    _REG_(SSI_CTRLR1_OFFSET) // SSI_CTRLR1
+    // Master Control register 1
+    // 0x0000ffff [15:0]  NDF          (0x0000) Number of data frames
+    io_rw_32 ctrlr1;
+ 
+    _REG_(SSI_SSIENR_OFFSET) // SSI_SSIENR
+    // SSI Enable
+    // 0x00000001 [0]     SSI_EN       (0) SSI enable
+    io_rw_32 ssienr;
+ 
+    _REG_(SSI_MWCR_OFFSET) // SSI_MWCR
+    // Microwire Control
+    // 0x00000004 [2]     MHS          (0) Microwire handshaking
+    // 0x00000002 [1]     MDD          (0) Microwire control
+    // 0x00000001 [0]     MWMOD        (0) Microwire transfer mode
+    io_rw_32 mwcr;
+ 
+    _REG_(SSI_SER_OFFSET) // SSI_SER
+    // Slave enable
+    // 0x00000001 [0]     SER          (0) For each bit: +
+    io_rw_32 ser;
+ 
+    _REG_(SSI_BAUDR_OFFSET) // SSI_BAUDR
+    // Baud rate
+    // 0x0000ffff [15:0]  SCKDV        (0x0000) SSI clock divider
+    io_rw_32 baudr;
+ 
+    _REG_(SSI_TXFTLR_OFFSET) // SSI_TXFTLR
+    // TX FIFO threshold level
+    // 0x000000ff [7:0]   TFT          (0x00) Transmit FIFO threshold
+    io_rw_32 txftlr;
+ 
+    _REG_(SSI_RXFTLR_OFFSET) // SSI_RXFTLR
+    // RX FIFO threshold level
+    // 0x000000ff [7:0]   RFT          (0x00) Receive FIFO threshold
+    io_rw_32 rxftlr;
+ 
+    _REG_(SSI_TXFLR_OFFSET) // SSI_TXFLR
+    // TX FIFO level
+    // 0x000000ff [7:0]   TFTFL        (0x00) Transmit FIFO level
+    io_ro_32 txflr;
+ 
+    _REG_(SSI_RXFLR_OFFSET) // SSI_RXFLR
+    // RX FIFO level
+    // 0x000000ff [7:0]   RXTFL        (0x00) Receive FIFO level
+    io_ro_32 rxflr;
+ 
+    _REG_(SSI_SR_OFFSET) // SSI_SR
+    // Status register
+    // 0x00000040 [6]     DCOL         (0) Data collision error
+    // 0x00000020 [5]     TXE          (0) Transmission error
+    // 0x00000010 [4]     RFF          (0) Receive FIFO full
+    // 0x00000008 [3]     RFNE         (0) Receive FIFO not empty
+    // 0x00000004 [2]     TFE          (0) Transmit FIFO empty
+    // 0x00000002 [1]     TFNF         (0) Transmit FIFO not full
+    // 0x00000001 [0]     BUSY         (0) SSI busy flag
+    io_ro_32 sr;
+ 
+    _REG_(SSI_IMR_OFFSET) // SSI_IMR
+    // Interrupt mask
+    // 0x00000020 [5]     MSTIM        (0) Multi-master contention interrupt mask
+    // 0x00000010 [4]     RXFIM        (0) Receive FIFO full interrupt mask
+    // 0x00000008 [3]     RXOIM        (0) Receive FIFO overflow interrupt mask
+    // 0x00000004 [2]     RXUIM        (0) Receive FIFO underflow interrupt mask
+    // 0x00000002 [1]     TXOIM        (0) Transmit FIFO overflow interrupt mask
+    // 0x00000001 [0]     TXEIM        (0) Transmit FIFO empty interrupt mask
+    io_rw_32 imr;
+ 
+    _REG_(SSI_ISR_OFFSET) // SSI_ISR
+    // Interrupt status
+    // 0x00000020 [5]     MSTIS        (0) Multi-master contention interrupt status
+    // 0x00000010 [4]     RXFIS        (0) Receive FIFO full interrupt status
+    // 0x00000008 [3]     RXOIS        (0) Receive FIFO overflow interrupt status
+    // 0x00000004 [2]     RXUIS        (0) Receive FIFO underflow interrupt status
+    // 0x00000002 [1]     TXOIS        (0) Transmit FIFO overflow interrupt status
+    // 0x00000001 [0]     TXEIS        (0) Transmit FIFO empty interrupt status
+    io_ro_32 isr;
+ 
+    _REG_(SSI_RISR_OFFSET) // SSI_RISR
+    // Raw interrupt status
+    // 0x00000020 [5]     MSTIR        (0) Multi-master contention raw interrupt status
+    // 0x00000010 [4]     RXFIR        (0) Receive FIFO full raw interrupt status
+    // 0x00000008 [3]     RXOIR        (0) Receive FIFO overflow raw interrupt status
+    // 0x00000004 [2]     RXUIR        (0) Receive FIFO underflow raw interrupt status
+    // 0x00000002 [1]     TXOIR        (0) Transmit FIFO overflow raw interrupt status
+    // 0x00000001 [0]     TXEIR        (0) Transmit FIFO empty raw interrupt status
+    io_ro_32 risr;
+ 
+    _REG_(SSI_TXOICR_OFFSET) // SSI_TXOICR
+    // TX FIFO overflow interrupt clear
+    // 0x00000001 [0]     TXOICR       (0) Clear-on-read transmit FIFO overflow interrupt
+    io_ro_32 txoicr;
+ 
+    _REG_(SSI_RXOICR_OFFSET) // SSI_RXOICR
+    // RX FIFO overflow interrupt clear
+    // 0x00000001 [0]     RXOICR       (0) Clear-on-read receive FIFO overflow interrupt
+    io_ro_32 rxoicr;
+ 
+    _REG_(SSI_RXUICR_OFFSET) // SSI_RXUICR
+    // RX FIFO underflow interrupt clear
+    // 0x00000001 [0]     RXUICR       (0) Clear-on-read receive FIFO underflow interrupt
+    io_ro_32 rxuicr;
+ 
+    _REG_(SSI_MSTICR_OFFSET) // SSI_MSTICR
+    // Multi-master interrupt clear
+    // 0x00000001 [0]     MSTICR       (0) Clear-on-read multi-master contention interrupt
+    io_ro_32 msticr;
+ 
+    _REG_(SSI_ICR_OFFSET) // SSI_ICR
+    // Interrupt clear
+    // 0x00000001 [0]     ICR          (0) Clear-on-read all active interrupts
+    io_ro_32 icr;
+ 
+    _REG_(SSI_DMACR_OFFSET) // SSI_DMACR
+    // DMA control
+    // 0x00000002 [1]     TDMAE        (0) Transmit DMA enable
+    // 0x00000001 [0]     RDMAE        (0) Receive DMA enable
+    io_rw_32 dmacr;
+ 
+    _REG_(SSI_DMATDLR_OFFSET) // SSI_DMATDLR
+    // DMA TX data level
+    // 0x000000ff [7:0]   DMATDL       (0x00) Transmit data watermark level
+    io_rw_32 dmatdlr;
+ 
+    _REG_(SSI_DMARDLR_OFFSET) // SSI_DMARDLR
+    // DMA RX data level
+    // 0x000000ff [7:0]   DMARDL       (0x00) Receive data watermark level (DMARDLR+1)
+    io_rw_32 dmardlr;
+ 
+    _REG_(SSI_IDR_OFFSET) // SSI_IDR
+    // Identification register
+    // 0xffffffff [31:0]  IDCODE       (0x51535049) Peripheral dentification code
+    io_ro_32 idr;
+ 
+    _REG_(SSI_SSI_VERSION_ID_OFFSET) // SSI_SSI_VERSION_ID
+    // Version ID
+    // 0xffffffff [31:0]  SSI_COMP_VERSION (0x3430312a) SNPS component version (format X
+    io_ro_32 ssi_version_id;
+ 
+    _REG_(SSI_DR0_OFFSET) // SSI_DR0
+    // Data Register 0 (of 36)
+    // 0xffffffff [31:0]  DR           (0x00000000) First data register of 36
+    io_rw_32 dr0;
+ 
+    uint32_t _pad0[35];
+ 
+    _REG_(SSI_RX_SAMPLE_DLY_OFFSET) // SSI_RX_SAMPLE_DLY
+    // RX sample delay
+    // 0x000000ff [7:0]   RSD          (0x00) RXD sample delay (in SCLK cycles)
+    io_rw_32 rx_sample_dly;
+ 
+    _REG_(SSI_SPI_CTRLR0_OFFSET) // SSI_SPI_CTRLR0
+    // SPI control
+    // 0xff000000 [31:24] XIP_CMD      (0x03) SPI Command to send in XIP mode (INST_L = 8-bit) or to...
+    // 0x00040000 [18]    SPI_RXDS_EN  (0) Read data strobe enable
+    // 0x00020000 [17]    INST_DDR_EN  (0) Instruction DDR transfer enable
+    // 0x00010000 [16]    SPI_DDR_EN   (0) SPI DDR transfer enable
+    // 0x0000f800 [15:11] WAIT_CYCLES  (0x00) Wait cycles between control frame transmit and data...
+    // 0x00000300 [9:8]   INST_L       (0x0) Instruction length (0/4/8/16b)
+    // 0x0000003c [5:2]   ADDR_L       (0x0) Address length (0b-60b in 4b increments)
+    // 0x00000003 [1:0]   TRANS_TYPE   (0x0) Address and instruction transfer format
+    io_rw_32 spi_ctrlr0;
+ 
+    _REG_(SSI_TXD_DRIVE_EDGE_OFFSET) // SSI_TXD_DRIVE_EDGE
+    // TX drive edge
+    // 0x000000ff [7:0]   TDE          (0x00) TXD drive edge
+    io_rw_32 txd_drive_edge;
+} ssi_hw_t;
+
+#define ssi_hw ((ssi_hw_t *)XIP_SSI_BASE)
+static_assert(sizeof (ssi_hw_t) == 0x00fc, "");
+
+#endif // _HARDWARE_STRUCTS_SSI_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/syscfg.h b/lib/pico-sdk/rp2040/hardware/structs/syscfg.h
new file mode 100644
index 0000000..1d63dc7
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/syscfg.h
@@ -0,0 +1,84 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSCFG_H
+#define _HARDWARE_STRUCTS_SYSCFG_H
+
+/**
+ * \file rp2040/syscfg.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/syscfg.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_syscfg
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/syscfg.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SYSCFG_PROC0_NMI_MASK_OFFSET) // SYSCFG_PROC0_NMI_MASK
+    // Processor core 0 NMI source mask
+    // 0xffffffff [31:0]  PROC0_NMI_MASK (0x00000000) Set a bit high to enable NMI from that IRQ
+    io_rw_32 proc0_nmi_mask;
+ 
+    _REG_(SYSCFG_PROC1_NMI_MASK_OFFSET) // SYSCFG_PROC1_NMI_MASK
+    // Processor core 1 NMI source mask
+    // 0xffffffff [31:0]  PROC1_NMI_MASK (0x00000000) Set a bit high to enable NMI from that IRQ
+    io_rw_32 proc1_nmi_mask;
+ 
+    _REG_(SYSCFG_PROC_CONFIG_OFFSET) // SYSCFG_PROC_CONFIG
+    // Configuration for processors
+    // 0xf0000000 [31:28] PROC1_DAP_INSTID (0x1) Configure proc1 DAP instance ID
+    // 0x0f000000 [27:24] PROC0_DAP_INSTID (0x0) Configure proc0 DAP instance ID
+    // 0x00000002 [1]     PROC1_HALTED (0) Indication that proc1 has halted
+    // 0x00000001 [0]     PROC0_HALTED (0) Indication that proc0 has halted
+    io_rw_32 proc_config;
+ 
+    _REG_(SYSCFG_PROC_IN_SYNC_BYPASS_OFFSET) // SYSCFG_PROC_IN_SYNC_BYPASS
+    // For each bit, if 1, bypass the input synchronizer between that GPIO +
+    // 0x3fffffff [29:0]  PROC_IN_SYNC_BYPASS (0x00000000) 
+    io_rw_32 proc_in_sync_bypass;
+ 
+    _REG_(SYSCFG_PROC_IN_SYNC_BYPASS_HI_OFFSET) // SYSCFG_PROC_IN_SYNC_BYPASS_HI
+    // For each bit, if 1, bypass the input synchronizer between that GPIO +
+    // 0x0000003f [5:0]   PROC_IN_SYNC_BYPASS_HI (0x00) 
+    io_rw_32 proc_in_sync_bypass_hi;
+ 
+    _REG_(SYSCFG_DBGFORCE_OFFSET) // SYSCFG_DBGFORCE
+    // Directly control the SWD debug port of either processor
+    // 0x00000080 [7]     PROC1_ATTACH (0) Attach processor 1 debug port to syscfg controls, and...
+    // 0x00000040 [6]     PROC1_SWCLK  (1) Directly drive processor 1 SWCLK, if PROC1_ATTACH is set
+    // 0x00000020 [5]     PROC1_SWDI   (1) Directly drive processor 1 SWDIO input, if PROC1_ATTACH is set
+    // 0x00000010 [4]     PROC1_SWDO   (-) Observe the value of processor 1 SWDIO output
+    // 0x00000008 [3]     PROC0_ATTACH (0) Attach processor 0 debug port to syscfg controls, and...
+    // 0x00000004 [2]     PROC0_SWCLK  (1) Directly drive processor 0 SWCLK, if PROC0_ATTACH is set
+    // 0x00000002 [1]     PROC0_SWDI   (1) Directly drive processor 0 SWDIO input, if PROC0_ATTACH is set
+    // 0x00000001 [0]     PROC0_SWDO   (-) Observe the value of processor 0 SWDIO output
+    io_rw_32 dbgforce;
+ 
+    _REG_(SYSCFG_MEMPOWERDOWN_OFFSET) // SYSCFG_MEMPOWERDOWN
+    // Control power downs to memories
+    // 0x00000080 [7]     ROM          (0) 
+    // 0x00000040 [6]     USB          (0) 
+    // 0x00000020 [5]     SRAM5        (0) 
+    // 0x00000010 [4]     SRAM4        (0) 
+    // 0x00000008 [3]     SRAM3        (0) 
+    // 0x00000004 [2]     SRAM2        (0) 
+    // 0x00000002 [1]     SRAM1        (0) 
+    // 0x00000001 [0]     SRAM0        (0) 
+    io_rw_32 mempowerdown;
+} syscfg_hw_t;
+
+#define syscfg_hw ((syscfg_hw_t *)SYSCFG_BASE)
+static_assert(sizeof (syscfg_hw_t) == 0x001c, "");
+
+#endif // _HARDWARE_STRUCTS_SYSCFG_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/sysinfo.h b/lib/pico-sdk/rp2040/hardware/structs/sysinfo.h
new file mode 100644
index 0000000..6c0502f
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/sysinfo.h
@@ -0,0 +1,52 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSINFO_H
+#define _HARDWARE_STRUCTS_SYSINFO_H
+
+/**
+ * \file rp2040/sysinfo.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sysinfo.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_sysinfo
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sysinfo.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SYSINFO_CHIP_ID_OFFSET) // SYSINFO_CHIP_ID
+    // JEDEC JEP-106 compliant chip identifier
+    // 0xf0000000 [31:28] REVISION     (-) 
+    // 0x0ffff000 [27:12] PART         (-) 
+    // 0x00000fff [11:0]  MANUFACTURER (-) 
+    io_ro_32 chip_id;
+ 
+    _REG_(SYSINFO_PLATFORM_OFFSET) // SYSINFO_PLATFORM
+    // Platform register
+    // 0x00000002 [1]     ASIC         (0) 
+    // 0x00000001 [0]     FPGA         (0) 
+    io_ro_32 platform;
+ 
+    uint32_t _pad0[2];
+ 
+    _REG_(SYSINFO_GITREF_RP2040_OFFSET) // SYSINFO_GITREF_RP2040
+    // Git hash of the chip source
+    // 0xffffffff [31:0]  GITREF_RP2040 (-) 
+    io_ro_32 gitref_rp2040;
+} sysinfo_hw_t;
+
+#define sysinfo_hw ((sysinfo_hw_t *)SYSINFO_BASE)
+static_assert(sizeof (sysinfo_hw_t) == 0x0014, "");
+
+#endif // _HARDWARE_STRUCTS_SYSINFO_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/systick.h b/lib/pico-sdk/rp2040/hardware/structs/systick.h
new file mode 100644
index 0000000..ee87871
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/systick.h
@@ -0,0 +1,57 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSTICK_H
+#define _HARDWARE_STRUCTS_SYSTICK_H
+
+/**
+ * \file rp2040/systick.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m0plus.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_m0plus
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m0plus.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(M0PLUS_SYST_CSR_OFFSET) // M0PLUS_SYST_CSR
+    // SysTick Control and Status Register
+    // 0x00010000 [16]    COUNTFLAG    (0) Returns 1 if timer counted to 0 since last time this was read
+    // 0x00000004 [2]     CLKSOURCE    (0) SysTick clock source
+    // 0x00000002 [1]     TICKINT      (0) Enables SysTick exception request: +
+    // 0x00000001 [0]     ENABLE       (0) Enable SysTick counter: +
+    io_rw_32 csr;
+ 
+    _REG_(M0PLUS_SYST_RVR_OFFSET) // M0PLUS_SYST_RVR
+    // SysTick Reload Value Register
+    // 0x00ffffff [23:0]  RELOAD       (0x000000) Value to load into the SysTick Current Value Register...
+    io_rw_32 rvr;
+ 
+    _REG_(M0PLUS_SYST_CVR_OFFSET) // M0PLUS_SYST_CVR
+    // SysTick Current Value Register
+    // 0x00ffffff [23:0]  CURRENT      (0x000000) Reads return the current value of the SysTick counter
+    io_rw_32 cvr;
+ 
+    _REG_(M0PLUS_SYST_CALIB_OFFSET) // M0PLUS_SYST_CALIB
+    // SysTick Calibration Value Register
+    // 0x80000000 [31]    NOREF        (0) If reads as 1, the Reference clock is not provided - the...
+    // 0x40000000 [30]    SKEW         (0) If reads as 1, the calibration value for 10ms is inexact...
+    // 0x00ffffff [23:0]  TENMS        (0x000000) An optional Reload value to be used for 10ms (100Hz)...
+    io_ro_32 calib;
+} systick_hw_t;
+
+#define systick_hw ((systick_hw_t *)(PPB_BASE + M0PLUS_SYST_CSR_OFFSET))
+static_assert(sizeof (systick_hw_t) == 0x0010, "");
+
+#endif // _HARDWARE_STRUCTS_SYSTICK_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/tbman.h b/lib/pico-sdk/rp2040/hardware/structs/tbman.h
new file mode 100644
index 0000000..78a5f3b
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/tbman.h
@@ -0,0 +1,38 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TBMAN_H
+#define _HARDWARE_STRUCTS_TBMAN_H
+
+/**
+ * \file rp2040/tbman.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/tbman.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_tbman
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/tbman.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(TBMAN_PLATFORM_OFFSET) // TBMAN_PLATFORM
+    // Indicates the type of platform in use
+    // 0x00000002 [1]     FPGA         (0) Indicates the platform is an FPGA
+    // 0x00000001 [0]     ASIC         (1) Indicates the platform is an ASIC
+    io_ro_32 platform;
+} tbman_hw_t;
+
+#define tbman_hw ((tbman_hw_t *)TBMAN_BASE)
+static_assert(sizeof (tbman_hw_t) == 0x0004, "");
+
+#endif // _HARDWARE_STRUCTS_TBMAN_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/timer.h b/lib/pico-sdk/rp2040/hardware/structs/timer.h
new file mode 100644
index 0000000..1b059ad
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/timer.h
@@ -0,0 +1,116 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TIMER_H
+#define _HARDWARE_STRUCTS_TIMER_H
+
+/**
+ * \file rp2040/timer.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/timer.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_timer
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/timer.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(TIMER_TIMEHW_OFFSET) // TIMER_TIMEHW
+    // Write to bits 63:32 of time +
+    // 0xffffffff [31:0]  TIMEHW       (0x00000000) 
+    io_wo_32 timehw;
+ 
+    _REG_(TIMER_TIMELW_OFFSET) // TIMER_TIMELW
+    // Write to bits 31:0 of time +
+    // 0xffffffff [31:0]  TIMELW       (0x00000000) 
+    io_wo_32 timelw;
+ 
+    _REG_(TIMER_TIMEHR_OFFSET) // TIMER_TIMEHR
+    // Read from bits 63:32 of time +
+    // 0xffffffff [31:0]  TIMEHR       (0x00000000) 
+    io_ro_32 timehr;
+ 
+    _REG_(TIMER_TIMELR_OFFSET) // TIMER_TIMELR
+    // Read from bits 31:0 of time
+    // 0xffffffff [31:0]  TIMELR       (0x00000000) 
+    io_ro_32 timelr;
+ 
+    // (Description copied from array index 0 register TIMER_ALARM0 applies similarly to other array indexes)
+    _REG_(TIMER_ALARM0_OFFSET) // TIMER_ALARM0
+    // Arm alarm 0, and configure the time it will fire
+    // 0xffffffff [31:0]  ALARM0       (0x00000000) 
+    io_rw_32 alarm[4];
+ 
+    _REG_(TIMER_ARMED_OFFSET) // TIMER_ARMED
+    // Indicates the armed/disarmed status of each alarm
+    // 0x0000000f [3:0]   ARMED        (0x0) 
+    io_rw_32 armed;
+ 
+    _REG_(TIMER_TIMERAWH_OFFSET) // TIMER_TIMERAWH
+    // Raw read from bits 63:32 of time (no side effects)
+    // 0xffffffff [31:0]  TIMERAWH     (0x00000000) 
+    io_ro_32 timerawh;
+ 
+    _REG_(TIMER_TIMERAWL_OFFSET) // TIMER_TIMERAWL
+    // Raw read from bits 31:0 of time (no side effects)
+    // 0xffffffff [31:0]  TIMERAWL     (0x00000000) 
+    io_ro_32 timerawl;
+ 
+    _REG_(TIMER_DBGPAUSE_OFFSET) // TIMER_DBGPAUSE
+    // Set bits high to enable pause when the corresponding debug ports are active
+    // 0x00000004 [2]     DBG1         (1) Pause when processor 1 is in debug mode
+    // 0x00000002 [1]     DBG0         (1) Pause when processor 0 is in debug mode
+    io_rw_32 dbgpause;
+ 
+    _REG_(TIMER_PAUSE_OFFSET) // TIMER_PAUSE
+    // Set high to pause the timer
+    // 0x00000001 [0]     PAUSE        (0) 
+    io_rw_32 pause;
+ 
+    _REG_(TIMER_INTR_OFFSET) // TIMER_INTR
+    // Raw Interrupts
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 intr;
+ 
+    _REG_(TIMER_INTE_OFFSET) // TIMER_INTE
+    // Interrupt Enable
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 inte;
+ 
+    _REG_(TIMER_INTF_OFFSET) // TIMER_INTF
+    // Interrupt Force
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 intf;
+ 
+    _REG_(TIMER_INTS_OFFSET) // TIMER_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_ro_32 ints;
+} timer_hw_t;
+
+#define timer_hw ((timer_hw_t *)TIMER_BASE)
+static_assert(sizeof (timer_hw_t) == 0x0044, "");
+
+#endif // _HARDWARE_STRUCTS_TIMER_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/uart.h b/lib/pico-sdk/rp2040/hardware/structs/uart.h
new file mode 100644
index 0000000..db0b4be
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/uart.h
@@ -0,0 +1,182 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_UART_H
+#define _HARDWARE_STRUCTS_UART_H
+
+/**
+ * \file rp2040/uart.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/uart.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_uart
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/uart.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(UART_UARTDR_OFFSET) // UART_UARTDR
+    // Data Register, UARTDR
+    // 0x00000800 [11]    OE           (-) Overrun error
+    // 0x00000400 [10]    BE           (-) Break error
+    // 0x00000200 [9]     PE           (-) Parity error
+    // 0x00000100 [8]     FE           (-) Framing error
+    // 0x000000ff [7:0]   DATA         (-) Receive (read) data character
+    io_rw_32 dr;
+ 
+    _REG_(UART_UARTRSR_OFFSET) // UART_UARTRSR
+    // Receive Status Register/Error Clear Register, UARTRSR/UARTECR
+    // 0x00000008 [3]     OE           (0) Overrun error
+    // 0x00000004 [2]     BE           (0) Break error
+    // 0x00000002 [1]     PE           (0) Parity error
+    // 0x00000001 [0]     FE           (0) Framing error
+    io_rw_32 rsr;
+ 
+    uint32_t _pad0[4];
+ 
+    _REG_(UART_UARTFR_OFFSET) // UART_UARTFR
+    // Flag Register, UARTFR
+    // 0x00000100 [8]     RI           (-) Ring indicator
+    // 0x00000080 [7]     TXFE         (1) Transmit FIFO empty
+    // 0x00000040 [6]     RXFF         (0) Receive FIFO full
+    // 0x00000020 [5]     TXFF         (0) Transmit FIFO full
+    // 0x00000010 [4]     RXFE         (1) Receive FIFO empty
+    // 0x00000008 [3]     BUSY         (0) UART busy
+    // 0x00000004 [2]     DCD          (-) Data carrier detect
+    // 0x00000002 [1]     DSR          (-) Data set ready
+    // 0x00000001 [0]     CTS          (-) Clear to send
+    io_ro_32 fr;
+ 
+    uint32_t _pad1;
+ 
+    _REG_(UART_UARTILPR_OFFSET) // UART_UARTILPR
+    // IrDA Low-Power Counter Register, UARTILPR
+    // 0x000000ff [7:0]   ILPDVSR      (0x00) 8-bit low-power divisor value
+    io_rw_32 ilpr;
+ 
+    _REG_(UART_UARTIBRD_OFFSET) // UART_UARTIBRD
+    // Integer Baud Rate Register, UARTIBRD
+    // 0x0000ffff [15:0]  BAUD_DIVINT  (0x0000) The integer baud rate divisor
+    io_rw_32 ibrd;
+ 
+    _REG_(UART_UARTFBRD_OFFSET) // UART_UARTFBRD
+    // Fractional Baud Rate Register, UARTFBRD
+    // 0x0000003f [5:0]   BAUD_DIVFRAC (0x00) The fractional baud rate divisor
+    io_rw_32 fbrd;
+ 
+    _REG_(UART_UARTLCR_H_OFFSET) // UART_UARTLCR_H
+    // Line Control Register, UARTLCR_H
+    // 0x00000080 [7]     SPS          (0) Stick parity select
+    // 0x00000060 [6:5]   WLEN         (0x0) Word length
+    // 0x00000010 [4]     FEN          (0) Enable FIFOs: 0 = FIFOs are disabled (character mode)...
+    // 0x00000008 [3]     STP2         (0) Two stop bits select
+    // 0x00000004 [2]     EPS          (0) Even parity select
+    // 0x00000002 [1]     PEN          (0) Parity enable: 0 = parity is disabled and no parity bit...
+    // 0x00000001 [0]     BRK          (0) Send break
+    io_rw_32 lcr_h;
+ 
+    _REG_(UART_UARTCR_OFFSET) // UART_UARTCR
+    // Control Register, UARTCR
+    // 0x00008000 [15]    CTSEN        (0) CTS hardware flow control enable
+    // 0x00004000 [14]    RTSEN        (0) RTS hardware flow control enable
+    // 0x00002000 [13]    OUT2         (0) This bit is the complement of the UART Out2 (nUARTOut2)...
+    // 0x00001000 [12]    OUT1         (0) This bit is the complement of the UART Out1 (nUARTOut1)...
+    // 0x00000800 [11]    RTS          (0) Request to send
+    // 0x00000400 [10]    DTR          (0) Data transmit ready
+    // 0x00000200 [9]     RXE          (1) Receive enable
+    // 0x00000100 [8]     TXE          (1) Transmit enable
+    // 0x00000080 [7]     LBE          (0) Loopback enable
+    // 0x00000004 [2]     SIRLP        (0) SIR low-power IrDA mode
+    // 0x00000002 [1]     SIREN        (0) SIR enable: 0 = IrDA SIR ENDEC is disabled
+    // 0x00000001 [0]     UARTEN       (0) UART enable: 0 = UART is disabled
+    io_rw_32 cr;
+ 
+    _REG_(UART_UARTIFLS_OFFSET) // UART_UARTIFLS
+    // Interrupt FIFO Level Select Register, UARTIFLS
+    // 0x00000038 [5:3]   RXIFLSEL     (0x2) Receive interrupt FIFO level select
+    // 0x00000007 [2:0]   TXIFLSEL     (0x2) Transmit interrupt FIFO level select
+    io_rw_32 ifls;
+ 
+    _REG_(UART_UARTIMSC_OFFSET) // UART_UARTIMSC
+    // Interrupt Mask Set/Clear Register, UARTIMSC
+    // 0x00000400 [10]    OEIM         (0) Overrun error interrupt mask
+    // 0x00000200 [9]     BEIM         (0) Break error interrupt mask
+    // 0x00000100 [8]     PEIM         (0) Parity error interrupt mask
+    // 0x00000080 [7]     FEIM         (0) Framing error interrupt mask
+    // 0x00000040 [6]     RTIM         (0) Receive timeout interrupt mask
+    // 0x00000020 [5]     TXIM         (0) Transmit interrupt mask
+    // 0x00000010 [4]     RXIM         (0) Receive interrupt mask
+    // 0x00000008 [3]     DSRMIM       (0) nUARTDSR modem interrupt mask
+    // 0x00000004 [2]     DCDMIM       (0) nUARTDCD modem interrupt mask
+    // 0x00000002 [1]     CTSMIM       (0) nUARTCTS modem interrupt mask
+    // 0x00000001 [0]     RIMIM        (0) nUARTRI modem interrupt mask
+    io_rw_32 imsc;
+ 
+    _REG_(UART_UARTRIS_OFFSET) // UART_UARTRIS
+    // Raw Interrupt Status Register, UARTRIS
+    // 0x00000400 [10]    OERIS        (0) Overrun error interrupt status
+    // 0x00000200 [9]     BERIS        (0) Break error interrupt status
+    // 0x00000100 [8]     PERIS        (0) Parity error interrupt status
+    // 0x00000080 [7]     FERIS        (0) Framing error interrupt status
+    // 0x00000040 [6]     RTRIS        (0) Receive timeout interrupt status
+    // 0x00000020 [5]     TXRIS        (0) Transmit interrupt status
+    // 0x00000010 [4]     RXRIS        (0) Receive interrupt status
+    // 0x00000008 [3]     DSRRMIS      (-) nUARTDSR modem interrupt status
+    // 0x00000004 [2]     DCDRMIS      (-) nUARTDCD modem interrupt status
+    // 0x00000002 [1]     CTSRMIS      (-) nUARTCTS modem interrupt status
+    // 0x00000001 [0]     RIRMIS       (-) nUARTRI modem interrupt status
+    io_ro_32 ris;
+ 
+    _REG_(UART_UARTMIS_OFFSET) // UART_UARTMIS
+    // Masked Interrupt Status Register, UARTMIS
+    // 0x00000400 [10]    OEMIS        (0) Overrun error masked interrupt status
+    // 0x00000200 [9]     BEMIS        (0) Break error masked interrupt status
+    // 0x00000100 [8]     PEMIS        (0) Parity error masked interrupt status
+    // 0x00000080 [7]     FEMIS        (0) Framing error masked interrupt status
+    // 0x00000040 [6]     RTMIS        (0) Receive timeout masked interrupt status
+    // 0x00000020 [5]     TXMIS        (0) Transmit masked interrupt status
+    // 0x00000010 [4]     RXMIS        (0) Receive masked interrupt status
+    // 0x00000008 [3]     DSRMMIS      (-) nUARTDSR modem masked interrupt status
+    // 0x00000004 [2]     DCDMMIS      (-) nUARTDCD modem masked interrupt status
+    // 0x00000002 [1]     CTSMMIS      (-) nUARTCTS modem masked interrupt status
+    // 0x00000001 [0]     RIMMIS       (-) nUARTRI modem masked interrupt status
+    io_ro_32 mis;
+ 
+    _REG_(UART_UARTICR_OFFSET) // UART_UARTICR
+    // Interrupt Clear Register, UARTICR
+    // 0x00000400 [10]    OEIC         (-) Overrun error interrupt clear
+    // 0x00000200 [9]     BEIC         (-) Break error interrupt clear
+    // 0x00000100 [8]     PEIC         (-) Parity error interrupt clear
+    // 0x00000080 [7]     FEIC         (-) Framing error interrupt clear
+    // 0x00000040 [6]     RTIC         (-) Receive timeout interrupt clear
+    // 0x00000020 [5]     TXIC         (-) Transmit interrupt clear
+    // 0x00000010 [4]     RXIC         (-) Receive interrupt clear
+    // 0x00000008 [3]     DSRMIC       (-) nUARTDSR modem interrupt clear
+    // 0x00000004 [2]     DCDMIC       (-) nUARTDCD modem interrupt clear
+    // 0x00000002 [1]     CTSMIC       (-) nUARTCTS modem interrupt clear
+    // 0x00000001 [0]     RIMIC        (-) nUARTRI modem interrupt clear
+    io_rw_32 icr;
+ 
+    _REG_(UART_UARTDMACR_OFFSET) // UART_UARTDMACR
+    // DMA Control Register, UARTDMACR
+    // 0x00000004 [2]     DMAONERR     (0) DMA on error
+    // 0x00000002 [1]     TXDMAE       (0) Transmit DMA enable
+    // 0x00000001 [0]     RXDMAE       (0) Receive DMA enable
+    io_rw_32 dmacr;
+} uart_hw_t;
+
+#define uart0_hw ((uart_hw_t *)UART0_BASE)
+#define uart1_hw ((uart_hw_t *)UART1_BASE)
+static_assert(sizeof (uart_hw_t) == 0x004c, "");
+
+#endif // _HARDWARE_STRUCTS_UART_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/usb.h b/lib/pico-sdk/rp2040/hardware/structs/usb.h
new file mode 100644
index 0000000..399845f
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/usb.h
@@ -0,0 +1,476 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_USB_H
+#define _HARDWARE_STRUCTS_USB_H
+
+/**
+ * \file rp2040/usb.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/usb.h"
+#include "hardware/structs/usb_dpram.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_usb
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/usb.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(USB_ADDR_ENDP_OFFSET) // USB_ADDR_ENDP
+    // Device address and endpoint control
+    // 0x000f0000 [19:16] ENDPOINT     (0x0) Device endpoint to send data to
+    // 0x0000007f [6:0]   ADDRESS      (0x00) In device mode, the address that the device should respond to
+    io_rw_32 dev_addr_ctrl;
+ 
+    // (Description copied from array index 0 register USB_ADDR_ENDP1 applies similarly to other array indexes)
+    _REG_(USB_ADDR_ENDP1_OFFSET) // USB_ADDR_ENDP1
+    // Interrupt endpoint 1
+    // 0x04000000 [26]    INTEP_PREAMBLE (0) Interrupt EP requires preamble (is a low speed device on...
+    // 0x02000000 [25]    INTEP_DIR    (0) Direction of the interrupt endpoint
+    // 0x000f0000 [19:16] ENDPOINT     (0x0) Endpoint number of the interrupt endpoint
+    // 0x0000007f [6:0]   ADDRESS      (0x00) Device address
+    io_rw_32 int_ep_addr_ctrl[15];
+ 
+    _REG_(USB_MAIN_CTRL_OFFSET) // USB_MAIN_CTRL
+    // Main control register
+    // 0x80000000 [31]    SIM_TIMING   (0) Reduced timings for simulation
+    // 0x00000002 [1]     HOST_NDEVICE (0) Device mode = 0, Host mode = 1
+    // 0x00000001 [0]     CONTROLLER_EN (0) Enable controller
+    io_rw_32 main_ctrl;
+ 
+    _REG_(USB_SOF_WR_OFFSET) // USB_SOF_WR
+    // Set the SOF (Start of Frame) frame number in the host controller
+    // 0x000007ff [10:0]  COUNT        (0x000) 
+    io_wo_32 sof_wr;
+ 
+    _REG_(USB_SOF_RD_OFFSET) // USB_SOF_RD
+    // Read the last SOF (Start of Frame) frame number seen
+    // 0x000007ff [10:0]  COUNT        (0x000) 
+    io_ro_32 sof_rd;
+ 
+    _REG_(USB_SIE_CTRL_OFFSET) // USB_SIE_CTRL
+    // SIE control register
+    // 0x80000000 [31]    EP0_INT_STALL (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a STALL
+    // 0x40000000 [30]    EP0_DOUBLE_BUF (0) Device: EP0 single buffered = 0, double buffered = 1
+    // 0x20000000 [29]    EP0_INT_1BUF (0) Device: Set bit in BUFF_STATUS for every buffer completed on EP0
+    // 0x10000000 [28]    EP0_INT_2BUF (0) Device: Set bit in BUFF_STATUS for every 2 buffers...
+    // 0x08000000 [27]    EP0_INT_NAK  (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a NAK
+    // 0x04000000 [26]    DIRECT_EN    (0) Direct bus drive enable
+    // 0x02000000 [25]    DIRECT_DP    (0) Direct control of DP
+    // 0x01000000 [24]    DIRECT_DM    (0) Direct control of DM
+    // 0x00040000 [18]    TRANSCEIVER_PD (0) Power down bus transceiver
+    // 0x00020000 [17]    RPU_OPT      (0) Device: Pull-up strength (0=1K2, 1=2k3)
+    // 0x00010000 [16]    PULLUP_EN    (0) Device: Enable pull up resistor
+    // 0x00008000 [15]    PULLDOWN_EN  (0) Host: Enable pull down resistors
+    // 0x00002000 [13]    RESET_BUS    (0) Host: Reset bus
+    // 0x00001000 [12]    RESUME       (0) Device: Remote wakeup
+    // 0x00000800 [11]    VBUS_EN      (0) Host: Enable VBUS
+    // 0x00000400 [10]    KEEP_ALIVE_EN (0) Host: Enable keep alive packet (for low speed bus)
+    // 0x00000200 [9]     SOF_EN       (0) Host: Enable SOF generation (for full speed bus)
+    // 0x00000100 [8]     SOF_SYNC     (0) Host: Delay packet(s) until after SOF
+    // 0x00000040 [6]     PREAMBLE_EN  (0) Host: Preable enable for LS device on FS hub
+    // 0x00000010 [4]     STOP_TRANS   (0) Host: Stop transaction
+    // 0x00000008 [3]     RECEIVE_DATA (0) Host: Receive transaction (IN to host)
+    // 0x00000004 [2]     SEND_DATA    (0) Host: Send transaction (OUT from host)
+    // 0x00000002 [1]     SEND_SETUP   (0) Host: Send Setup packet
+    // 0x00000001 [0]     START_TRANS  (0) Host: Start transaction
+    io_rw_32 sie_ctrl;
+ 
+    _REG_(USB_SIE_STATUS_OFFSET) // USB_SIE_STATUS
+    // SIE status register
+    // 0x80000000 [31]    DATA_SEQ_ERROR (0) Data Sequence Error
+    // 0x40000000 [30]    ACK_REC      (0) ACK received
+    // 0x20000000 [29]    STALL_REC    (0) Host: STALL received
+    // 0x10000000 [28]    NAK_REC      (0) Host: NAK received
+    // 0x08000000 [27]    RX_TIMEOUT   (0) RX timeout is raised by both the host and device if an...
+    // 0x04000000 [26]    RX_OVERFLOW  (0) RX overflow is raised by the Serial RX engine if the...
+    // 0x02000000 [25]    BIT_STUFF_ERROR (0) Bit Stuff Error
+    // 0x01000000 [24]    CRC_ERROR    (0) CRC Error
+    // 0x00080000 [19]    BUS_RESET    (0) Device: bus reset received
+    // 0x00040000 [18]    TRANS_COMPLETE (0) Transaction complete
+    // 0x00020000 [17]    SETUP_REC    (0) Device: Setup packet received
+    // 0x00010000 [16]    CONNECTED    (0) Device: connected
+    // 0x00000800 [11]    RESUME       (0) Host: Device has initiated a remote resume
+    // 0x00000400 [10]    VBUS_OVER_CURR (0) VBUS over current detected
+    // 0x00000300 [9:8]   SPEED        (0x0) Host: device speed
+    // 0x00000010 [4]     SUSPENDED    (0) Bus in suspended state
+    // 0x0000000c [3:2]   LINE_STATE   (0x0) USB bus line state
+    // 0x00000001 [0]     VBUS_DETECTED (0) Device: VBUS Detected
+    io_rw_32 sie_status;
+ 
+    _REG_(USB_INT_EP_CTRL_OFFSET) // USB_INT_EP_CTRL
+    // interrupt endpoint control register
+    // 0x0000fffe [15:1]  INT_EP_ACTIVE (0x0000) Host: Enable interrupt endpoint 1 => 15
+    io_rw_32 int_ep_ctrl;
+ 
+    _REG_(USB_BUFF_STATUS_OFFSET) // USB_BUFF_STATUS
+    // Buffer status register
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 buf_status;
+ 
+    _REG_(USB_BUFF_CPU_SHOULD_HANDLE_OFFSET) // USB_BUFF_CPU_SHOULD_HANDLE
+    // Which of the double buffers should be handled
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_ro_32 buf_cpu_should_handle;
+ 
+    _REG_(USB_EP_ABORT_OFFSET) // USB_EP_ABORT
+    // Device only: Can be set to ignore the buffer control register for this endpoint in case you...
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 abort;
+ 
+    _REG_(USB_EP_ABORT_DONE_OFFSET) // USB_EP_ABORT_DONE
+    // Device only: Used in conjunction with `EP_ABORT`
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 abort_done;
+ 
+    _REG_(USB_EP_STALL_ARM_OFFSET) // USB_EP_STALL_ARM
+    // Device: this bit must be set in conjunction with the `STALL` bit in the buffer control register...
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 ep_stall_arm;
+ 
+    _REG_(USB_NAK_POLL_OFFSET) // USB_NAK_POLL
+    // Used by the host controller
+    // 0x03ff0000 [25:16] DELAY_FS     (0x010) NAK polling interval for a full speed device
+    // 0x000003ff [9:0]   DELAY_LS     (0x010) NAK polling interval for a low speed device
+    io_rw_32 nak_poll;
+ 
+    _REG_(USB_EP_STATUS_STALL_NAK_OFFSET) // USB_EP_STATUS_STALL_NAK
+    // Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL` bits are set
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 ep_nak_stall_status;
+ 
+    _REG_(USB_USB_MUXING_OFFSET) // USB_USB_MUXING
+    // Where to connect the USB controller
+    // 0x00000008 [3]     SOFTCON      (0) 
+    // 0x00000004 [2]     TO_DIGITAL_PAD (0) 
+    // 0x00000002 [1]     TO_EXTPHY    (0) 
+    // 0x00000001 [0]     TO_PHY       (0) 
+    io_rw_32 muxing;
+ 
+    _REG_(USB_USB_PWR_OFFSET) // USB_USB_PWR
+    // Overrides for the power signals in the event that the VBUS signals are not hooked up to GPIO
+    // 0x00000020 [5]     OVERCURR_DETECT_EN (0) 
+    // 0x00000010 [4]     OVERCURR_DETECT (0) 
+    // 0x00000008 [3]     VBUS_DETECT_OVERRIDE_EN (0) 
+    // 0x00000004 [2]     VBUS_DETECT  (0) 
+    // 0x00000002 [1]     VBUS_EN_OVERRIDE_EN (0) 
+    // 0x00000001 [0]     VBUS_EN      (0) 
+    io_rw_32 pwr;
+ 
+    _REG_(USB_USBPHY_DIRECT_OFFSET) // USB_USBPHY_DIRECT
+    // Note that most functions are driven directly from usb_fsls controller
+    // 0x00400000 [22]    DM_OVV       (0) Status bit from USB PHY
+    // 0x00200000 [21]    DP_OVV       (0) Status bit from USB PHY
+    // 0x00100000 [20]    DM_OVCN      (0) Status bit from USB PHY
+    // 0x00080000 [19]    DP_OVCN      (0) Status bit from USB PHY
+    // 0x00040000 [18]    RX_DM        (0) Status bit from USB PHY +
+    // 0x00020000 [17]    RX_DP        (0) Status bit from USB PHY +
+    // 0x00010000 [16]    RX_DD        (0) Status bit from USB PHY +
+    // 0x00008000 [15]    TX_DIFFMODE  (0) 
+    // 0x00004000 [14]    TX_FSSLEW    (0) 
+    // 0x00002000 [13]    TX_PD        (0) 
+    // 0x00001000 [12]    RX_PD        (0) 
+    // 0x00000800 [11]    TX_DM        (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000400 [10]    TX_DP        (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000200 [9]     TX_DM_OE     (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000100 [8]     TX_DP_OE     (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000040 [6]     DM_PULLDN_EN (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000020 [5]     DM_PULLUP_EN (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000010 [4]     DM_PULLUP_HISEL (0) when dm_pullup_en is set high, this enables second resistor
+    // 0x00000004 [2]     DP_PULLDN_EN (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000002 [1]     DP_PULLUP_EN (0) Value to drive to USB PHY when override enable is set...
+    // 0x00000001 [0]     DP_PULLUP_HISEL (0) when dp_pullup_en is set high, this enables second resistor
+    io_rw_32 phy_direct;
+ 
+    _REG_(USB_USBPHY_DIRECT_OVERRIDE_OFFSET) // USB_USBPHY_DIRECT_OVERRIDE
+    // 0x00008000 [15]    TX_DIFFMODE_OVERRIDE_EN (0) 
+    // 0x00001000 [12]    DM_PULLUP_OVERRIDE_EN (0) 
+    // 0x00000800 [11]    TX_FSSLEW_OVERRIDE_EN (0) 
+    // 0x00000400 [10]    TX_PD_OVERRIDE_EN (0) 
+    // 0x00000200 [9]     RX_PD_OVERRIDE_EN (0) 
+    // 0x00000100 [8]     TX_DM_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000080 [7]     TX_DP_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000040 [6]     TX_DM_OE_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000020 [5]     TX_DP_OE_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000010 [4]     DM_PULLDN_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000008 [3]     DP_PULLDN_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000004 [2]     DP_PULLUP_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
+    // 0x00000002 [1]     DM_PULLUP_HISEL_OVERRIDE_EN (0) 
+    // 0x00000001 [0]     DP_PULLUP_HISEL_OVERRIDE_EN (0) 
+    io_rw_32 phy_direct_override;
+ 
+    _REG_(USB_USBPHY_TRIM_OFFSET) // USB_USBPHY_TRIM
+    // Note that most functions are driven directly from usb_fsls controller
+    // 0x00001f00 [12:8]  DM_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
+    // 0x0000001f [4:0]   DP_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
+    io_rw_32 phy_trim;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(USB_INTR_OFFSET) // USB_INTR
+    // Raw Interrupts
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_ro_32 intr;
+ 
+    _REG_(USB_INTE_OFFSET) // USB_INTE
+    // Interrupt Enable
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_rw_32 inte;
+ 
+    _REG_(USB_INTF_OFFSET) // USB_INTF
+    // Interrupt Force
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_rw_32 intf;
+ 
+    _REG_(USB_INTS_OFFSET) // USB_INTS
+    // Interrupt status after masking & forcing
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_ro_32 ints;
+} usb_hw_t;
+
+#define usb_hw ((usb_hw_t *)USBCTRL_REGS_BASE)
+static_assert(sizeof (usb_hw_t) == 0x009c, "");
+
+#endif // _HARDWARE_STRUCTS_USB_H
+
diff --git a/lib/rp2040/hardware/structs/usb.h b/lib/pico-sdk/rp2040/hardware/structs/usb_dpram.h
similarity index 76%
rename from lib/rp2040/hardware/structs/usb.h
rename to lib/pico-sdk/rp2040/hardware/structs/usb_dpram.h
index 0254e61..aaa4ec5 100644
--- a/lib/rp2040/hardware/structs/usb.h
+++ b/lib/pico-sdk/rp2040/hardware/structs/usb_dpram.h
@@ -1,15 +1,24 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+/**
+ * Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
 
-#ifndef _HARDWARE_STRUCTS_USB_H
-#define _HARDWARE_STRUCTS_USB_H
+#ifndef _HARDWARE_STRUCTS_USB_DPRAM_H
+#define _HARDWARE_STRUCTS_USB_DPRAM_H
 
 #include "hardware/address_mapped.h"
 #include "hardware/regs/usb.h"
 
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_usb
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/usb.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+
 // 0-15
 #define USB_NUM_ENDPOINTS 16
 
@@ -39,10 +48,10 @@
 #define EP_CTRL_INTERRUPT_PER_DOUBLE_BUFFER (1u << 28)
 #define EP_CTRL_INTERRUPT_ON_NAK (1u << 16)
 #define EP_CTRL_INTERRUPT_ON_STALL (1u << 17)
-#define EP_CTRL_BUFFER_TYPE_LSB 26
-#define EP_CTRL_HOST_INTERRUPT_INTERVAL_LSB 16
+#define EP_CTRL_BUFFER_TYPE_LSB 26u
+#define EP_CTRL_HOST_INTERRUPT_INTERVAL_LSB 16u
 
-#define USB_DPRAM_SIZE 4096
+#define USB_DPRAM_SIZE 4096u
 
 // PICO_CONFIG: USB_DPRAM_MAX, Set amount of USB RAM used by USB system, min=0, max=4096, default=4096, group=hardware_usb
 // Allow user to claim some of the USB RAM for themselves
@@ -111,39 +120,9 @@ typedef struct {
 static_assert(sizeof(usb_host_dpram_t) == USB_DPRAM_MAX, "");
 static_assert(offsetof(usb_host_dpram_t, epx_data) == 0x180, "");
 
-typedef struct {
-    io_rw_32 dev_addr_ctrl;
-    io_rw_32 int_ep_addr_ctrl[USB_HOST_INTERRUPT_ENDPOINTS];
-    io_rw_32 main_ctrl;
-    io_rw_32 sof_rw;
-    io_ro_32 sof_rd;
-    io_rw_32 sie_ctrl;
-    io_rw_32 sie_status;
-    io_rw_32 int_ep_ctrl;
-    io_rw_32 buf_status;
-    io_rw_32 buf_cpu_should_handle; // for double buff
-    io_rw_32 abort;
-    io_rw_32 abort_done;
-    io_rw_32 ep_stall_arm;
-    io_rw_32 nak_poll;
-    io_rw_32 ep_nak_stall_status;
-    io_rw_32 muxing;
-    io_rw_32 pwr;
-    io_rw_32 phy_direct;
-    io_rw_32 phy_direct_override;
-    io_rw_32 phy_trim;
-    io_rw_32 linestate_tuning;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_rw_32 ints;
-} usb_hw_t;
-
-check_hw_layout(usb_hw_t, ints, USB_INTS_OFFSET);
-
-#define usb_hw ((usb_hw_t *)USBCTRL_REGS_BASE)
-
 #define usb_dpram ((usb_device_dpram_t *)USBCTRL_DPRAM_BASE)
 #define usbh_dpram ((usb_host_dpram_t *)USBCTRL_DPRAM_BASE)
 
-#endif
+static_assert( USB_HOST_INTERRUPT_ENDPOINTS == 15, "");
+
+#endif // _HARDWARE_STRUCTS_USB_DPRAM_H
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2040/hardware/structs/vreg_and_chip_reset.h b/lib/pico-sdk/rp2040/hardware/structs/vreg_and_chip_reset.h
new file mode 100644
index 0000000..0f16a0a
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/vreg_and_chip_reset.h
@@ -0,0 +1,54 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_VREG_AND_CHIP_RESET_H
+#define _HARDWARE_STRUCTS_VREG_AND_CHIP_RESET_H
+
+/**
+ * \file rp2040/vreg_and_chip_reset.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/vreg_and_chip_reset.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_vreg_and_chip_reset
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/vreg_and_chip_reset.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(VREG_AND_CHIP_RESET_VREG_OFFSET) // VREG_AND_CHIP_RESET_VREG
+    // Voltage regulator control and status
+    // 0x00001000 [12]    ROK          (0) regulation status +
+    // 0x000000f0 [7:4]   VSEL         (0xb) output voltage select +
+    // 0x00000002 [1]     HIZ          (0) high impedance mode select +
+    // 0x00000001 [0]     EN           (1) enable +
+    io_rw_32 vreg;
+ 
+    _REG_(VREG_AND_CHIP_RESET_BOD_OFFSET) // VREG_AND_CHIP_RESET_BOD
+    // brown-out detection control
+    // 0x000000f0 [7:4]   VSEL         (0x9) threshold select +
+    // 0x00000001 [0]     EN           (1) enable +
+    io_rw_32 bod;
+ 
+    _REG_(VREG_AND_CHIP_RESET_CHIP_RESET_OFFSET) // VREG_AND_CHIP_RESET_CHIP_RESET
+    // Chip reset control and status
+    // 0x01000000 [24]    PSM_RESTART_FLAG (0) This is set by psm_restart from the debugger
+    // 0x00100000 [20]    HAD_PSM_RESTART (0) Last reset was from the debug port
+    // 0x00010000 [16]    HAD_RUN      (0) Last reset was from the RUN pin
+    // 0x00000100 [8]     HAD_POR      (0) Last reset was from the power-on reset or brown-out...
+    io_rw_32 chip_reset;
+} vreg_and_chip_reset_hw_t;
+
+#define vreg_and_chip_reset_hw ((vreg_and_chip_reset_hw_t *)VREG_AND_CHIP_RESET_BASE)
+static_assert(sizeof (vreg_and_chip_reset_hw_t) == 0x000c, "");
+
+#endif // _HARDWARE_STRUCTS_VREG_AND_CHIP_RESET_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/watchdog.h b/lib/pico-sdk/rp2040/hardware/structs/watchdog.h
new file mode 100644
index 0000000..7667aa4
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/watchdog.h
@@ -0,0 +1,67 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_WATCHDOG_H
+#define _HARDWARE_STRUCTS_WATCHDOG_H
+
+/**
+ * \file rp2040/watchdog.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/watchdog.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_watchdog
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/watchdog.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(WATCHDOG_CTRL_OFFSET) // WATCHDOG_CTRL
+    // Watchdog control
+    // 0x80000000 [31]    TRIGGER      (0) Trigger a watchdog reset
+    // 0x40000000 [30]    ENABLE       (0) When not enabled the watchdog timer is paused
+    // 0x04000000 [26]    PAUSE_DBG1   (1) Pause the watchdog timer when processor 1 is in debug mode
+    // 0x02000000 [25]    PAUSE_DBG0   (1) Pause the watchdog timer when processor 0 is in debug mode
+    // 0x01000000 [24]    PAUSE_JTAG   (1) Pause the watchdog timer when JTAG is accessing the bus fabric
+    // 0x00ffffff [23:0]  TIME         (0x000000) Indicates the number of ticks / 2 (see errata RP2040-E1)...
+    io_rw_32 ctrl;
+ 
+    _REG_(WATCHDOG_LOAD_OFFSET) // WATCHDOG_LOAD
+    // Load the watchdog timer.
+    // 0x00ffffff [23:0]  LOAD         (0x000000) 
+    io_wo_32 load;
+ 
+    _REG_(WATCHDOG_REASON_OFFSET) // WATCHDOG_REASON
+    // Logs the reason for the last reset.
+    // 0x00000002 [1]     FORCE        (0) 
+    // 0x00000001 [0]     TIMER        (0) 
+    io_ro_32 reason;
+ 
+    // (Description copied from array index 0 register WATCHDOG_SCRATCH0 applies similarly to other array indexes)
+    _REG_(WATCHDOG_SCRATCH0_OFFSET) // WATCHDOG_SCRATCH0
+    // Scratch register
+    // 0xffffffff [31:0]  SCRATCH0     (0x00000000) 
+    io_rw_32 scratch[8];
+ 
+    _REG_(WATCHDOG_TICK_OFFSET) // WATCHDOG_TICK
+    // Controls the tick generator
+    // 0x000ff800 [19:11] COUNT        (-) Count down timer: the remaining number clk_tick cycles...
+    // 0x00000400 [10]    RUNNING      (-) Is the tick generator running?
+    // 0x00000200 [9]     ENABLE       (1) start / stop tick generation
+    // 0x000001ff [8:0]   CYCLES       (0x000) Total number of clk_tick cycles before the next tick
+    io_rw_32 tick;
+} watchdog_hw_t;
+
+#define watchdog_hw ((watchdog_hw_t *)WATCHDOG_BASE)
+static_assert(sizeof (watchdog_hw_t) == 0x0030, "");
+
+#endif // _HARDWARE_STRUCTS_WATCHDOG_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/xip.h b/lib/pico-sdk/rp2040/hardware/structs/xip.h
new file mode 100644
index 0000000..332e8cc
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/xip.h
@@ -0,0 +1,76 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_XIP_H
+#define _HARDWARE_STRUCTS_XIP_H
+
+/**
+ * \file rp2040/xip.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/xip.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_xip
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/xip.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(XIP_CTRL_OFFSET) // XIP_CTRL
+    // Cache control
+    // 0x00000008 [3]     POWER_DOWN   (0) When 1, the cache memories are powered down
+    // 0x00000002 [1]     ERR_BADWRITE (1) When 1, writes to any alias other than 0x0 (caching,...
+    // 0x00000001 [0]     EN           (1) When 1, enable the cache
+    io_rw_32 ctrl;
+ 
+    _REG_(XIP_FLUSH_OFFSET) // XIP_FLUSH
+    // Cache Flush control
+    // 0x00000001 [0]     FLUSH        (0) Write 1 to flush the cache
+    io_wo_32 flush;
+ 
+    _REG_(XIP_STAT_OFFSET) // XIP_STAT
+    // Cache Status
+    // 0x00000004 [2]     FIFO_FULL    (0) When 1, indicates the XIP streaming FIFO is completely full
+    // 0x00000002 [1]     FIFO_EMPTY   (1) When 1, indicates the XIP streaming FIFO is completely empty
+    // 0x00000001 [0]     FLUSH_READY  (0) Reads as 0 while a cache flush is in progress, and 1 otherwise
+    io_ro_32 stat;
+ 
+    _REG_(XIP_CTR_HIT_OFFSET) // XIP_CTR_HIT
+    // Cache Hit counter
+    // 0xffffffff [31:0]  CTR_HIT      (0x00000000) A 32 bit saturating counter that increments upon each...
+    io_rw_32 ctr_hit;
+ 
+    _REG_(XIP_CTR_ACC_OFFSET) // XIP_CTR_ACC
+    // Cache Access counter
+    // 0xffffffff [31:0]  CTR_ACC      (0x00000000) A 32 bit saturating counter that increments upon each...
+    io_rw_32 ctr_acc;
+ 
+    _REG_(XIP_STREAM_ADDR_OFFSET) // XIP_STREAM_ADDR
+    // FIFO stream address
+    // 0xfffffffc [31:2]  STREAM_ADDR  (0x00000000) The address of the next word to be streamed from flash...
+    io_rw_32 stream_addr;
+ 
+    _REG_(XIP_STREAM_CTR_OFFSET) // XIP_STREAM_CTR
+    // FIFO stream control
+    // 0x003fffff [21:0]  STREAM_CTR   (0x000000) Write a nonzero value to start a streaming read
+    io_rw_32 stream_ctr;
+ 
+    _REG_(XIP_STREAM_FIFO_OFFSET) // XIP_STREAM_FIFO
+    // FIFO stream data
+    // 0xffffffff [31:0]  STREAM_FIFO  (0x00000000) Streamed data is buffered here, for retrieval by the system DMA
+    io_ro_32 stream_fifo;
+} xip_ctrl_hw_t;
+
+#define xip_ctrl_hw ((xip_ctrl_hw_t *)XIP_CTRL_BASE)
+static_assert(sizeof (xip_ctrl_hw_t) == 0x0020, "");
+
+#endif // _HARDWARE_STRUCTS_XIP_H
+
diff --git a/lib/pico-sdk/rp2040/hardware/structs/xip_ctrl.h b/lib/pico-sdk/rp2040/hardware/structs/xip_ctrl.h
new file mode 100644
index 0000000..c31569b
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/xip_ctrl.h
@@ -0,0 +1,11 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/xip.h"
+#define XIP_STAT_FIFO_FULL XIP_STAT_FIFO_FULL_BITS
+#define XIP_STAT_FIFO_EMPTY XIP_STAT_FIFO_EMPTY_BITS
+#define XIP_STAT_FLUSH_RDY XIP_STAT_FLUSH_READY_BITS
diff --git a/lib/pico-sdk/rp2040/hardware/structs/xosc.h b/lib/pico-sdk/rp2040/hardware/structs/xosc.h
new file mode 100644
index 0000000..ee5a234
--- /dev/null
+++ b/lib/pico-sdk/rp2040/hardware/structs/xosc.h
@@ -0,0 +1,66 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_XOSC_H
+#define _HARDWARE_STRUCTS_XOSC_H
+
+/**
+ * \file rp2040/xosc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/xosc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_xosc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/xosc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/// \tag::xosc_hw[]
+typedef struct {
+    _REG_(XOSC_CTRL_OFFSET) // XOSC_CTRL
+    // Crystal Oscillator Control
+    // 0x00fff000 [23:12] ENABLE       (-) On power-up this field is initialised to DISABLE and the...
+    // 0x00000fff [11:0]  FREQ_RANGE   (-) Frequency range
+    io_rw_32 ctrl;
+ 
+    _REG_(XOSC_STATUS_OFFSET) // XOSC_STATUS
+    // Crystal Oscillator Status
+    // 0x80000000 [31]    STABLE       (0) Oscillator is running and stable
+    // 0x01000000 [24]    BADWRITE     (0) An invalid value has been written to CTRL_ENABLE or...
+    // 0x00001000 [12]    ENABLED      (-) Oscillator is enabled but not necessarily running and...
+    // 0x00000003 [1:0]   FREQ_RANGE   (-) The current frequency range setting, always reads 0
+    io_rw_32 status;
+ 
+    _REG_(XOSC_DORMANT_OFFSET) // XOSC_DORMANT
+    // Crystal Oscillator pause control
+    // 0xffffffff [31:0]  DORMANT      (-) This is used to save power by pausing the XOSC +
+    io_rw_32 dormant;
+ 
+    _REG_(XOSC_STARTUP_OFFSET) // XOSC_STARTUP
+    // Controls the startup delay
+    // 0x00100000 [20]    X4           (-) Multiplies the startup_delay by 4
+    // 0x00003fff [13:0]  DELAY        (-) in multiples of 256*xtal_period
+    io_rw_32 startup;
+ 
+    uint32_t _pad0[3];
+ 
+    _REG_(XOSC_COUNT_OFFSET) // XOSC_COUNT
+    // A down counter running at the XOSC frequency which counts to zero and stops.
+    // 0x000000ff [7:0]   COUNT        (0x00) 
+    io_rw_32 count;
+} xosc_hw_t;
+/// \end::xosc_hw[]
+
+#define xosc_hw ((xosc_hw_t *)XOSC_BASE)
+static_assert(sizeof (xosc_hw_t) == 0x0020, "");
+
+#endif // _HARDWARE_STRUCTS_XOSC_H
+
diff --git a/lib/pico-sdk/rp2040/pico/asm_helper.S b/lib/pico-sdk/rp2040/pico/asm_helper.S
new file mode 100644
index 0000000..59c67db
--- /dev/null
+++ b/lib/pico-sdk/rp2040/pico/asm_helper.S
@@ -0,0 +1,52 @@
+/*
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+//#include "pico.h"
+
+# note we don't do this by default in this file for backwards comaptibility with user code
+# that may include this file, but not use unified syntax. Note that this macro does equivalent
+# setup to the pico_default_asm macro for inline assembly in C code.
+.macro pico_default_asm_setup
+.syntax unified
+.cpu cortex-m0plus
+.thumb
+.endm
+
+// do not put align in here as it is used mid function sometimes
+.macro regular_func x
+.global \x
+.type \x,%function
+.thumb_func
+\x:
+.endm
+
+.macro weak_func x
+.weak \x
+.type \x,%function
+.thumb_func
+\x:
+.endm
+
+.macro regular_func_with_section x
+.section .text.\x
+regular_func \x
+.endm
+
+// do not put align in here as it is used mid function sometimes
+.macro wrapper_func x
+regular_func WRAPPER_FUNC_NAME(\x)
+.endm
+
+.macro weak_wrapper_func x
+weak_func WRAPPER_FUNC_NAME(\x)
+.endm
+
+# backwards compatibility
+.macro __pre_init func, priority_string
+.section .preinit_array.\priority_string
+.p2align 2
+.word \func
+.endm
diff --git a/lib/pico-sdk/rp2350/cmsis_include/RP2350.h b/lib/pico-sdk/rp2350/cmsis_include/RP2350.h
new file mode 100644
index 0000000..94d0f17
--- /dev/null
+++ b/lib/pico-sdk/rp2350/cmsis_include/RP2350.h
@@ -0,0 +1,6070 @@
+/*
+ * Copyright (c) 2024 Raspberry Pi Ltd. SPDX-License-Identifier: BSD-3-Clause
+ *
+ * @file     src/rp2_common/cmsis/stub/CMSIS/Device/RP2350/Include/RP2350.h
+ * @brief    CMSIS HeaderFile
+ * @version  0.1
+ * @date     Thu Aug  8 04:04:02 2024
+ * @note     Generated by SVDConv V3.3.47
+ *           from File 'src/rp2_common/cmsis/../../rp2350/hardware_regs/RP2350.svd',
+ *           last modified on Thu Aug  8 03:59:33 2024
+ */
+
+
+/** @addtogroup Raspberry Pi
+  * @{
+  */
+
+
+/** @addtogroup RP2350
+  * @{
+  */
+
+
+#ifndef RP2350_H
+#define RP2350_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+/** @addtogroup Configuration_of_CMSIS
+  * @{
+  */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                Interrupt Number Definition                                ================ */
+/* =========================================================================================================================== */
+
+typedef enum {
+/* =======================================  ARM Cortex-M33 Specific Interrupt Numbers  ======================================= */
+  Reset_IRQn                = -15,              /*!< -15  Reset Vector, invoked on Power up and warm reset                     */
+  NonMaskableInt_IRQn       = -14,              /*!< -14  Non maskable Interrupt, cannot be stopped or preempted               */
+  HardFault_IRQn            = -13,              /*!< -13  Hard Fault, all classes of Fault                                     */
+  MemoryManagement_IRQn     = -12,              /*!< -12  Memory Management, MPU mismatch, including Access Violation
+                                                     and No Match                                                              */
+  BusFault_IRQn             = -11,              /*!< -11  Bus Fault, Pre-Fetch-, Memory Access Fault, other address/memory
+                                                     related Fault                                                             */
+  UsageFault_IRQn           = -10,              /*!< -10  Usage Fault, i.e. Undef Instruction, Illegal State Transition        */
+  SecureFault_IRQn          =  -9,              /*!< -9 Secure Fault Handler                                                   */
+  SVCall_IRQn               =  -5,              /*!< -5 System Service Call via SVC instruction                                */
+  DebugMonitor_IRQn         =  -4,              /*!< -4 Debug Monitor                                                          */
+  PendSV_IRQn               =  -2,              /*!< -2 Pendable request for system service                                    */
+  SysTick_IRQn              =  -1,              /*!< -1 System Tick Timer                                                      */
+/* ===========================================  RP2350 Specific Interrupt Numbers  =========================================== */
+  TIMER0_IRQ_0_IRQn         =   0,              /*!< 0  TIMER0_IRQ_0                                                           */
+  TIMER0_IRQ_1_IRQn         =   1,              /*!< 1  TIMER0_IRQ_1                                                           */
+  TIMER0_IRQ_2_IRQn         =   2,              /*!< 2  TIMER0_IRQ_2                                                           */
+  TIMER0_IRQ_3_IRQn         =   3,              /*!< 3  TIMER0_IRQ_3                                                           */
+  TIMER1_IRQ_0_IRQn         =   4,              /*!< 4  TIMER1_IRQ_0                                                           */
+  TIMER1_IRQ_1_IRQn         =   5,              /*!< 5  TIMER1_IRQ_1                                                           */
+  TIMER1_IRQ_2_IRQn         =   6,              /*!< 6  TIMER1_IRQ_2                                                           */
+  TIMER1_IRQ_3_IRQn         =   7,              /*!< 7  TIMER1_IRQ_3                                                           */
+  PWM_IRQ_WRAP_0_IRQn       =   8,              /*!< 8  PWM_IRQ_WRAP_0                                                         */
+  PWM_IRQ_WRAP_1_IRQn       =   9,              /*!< 9  PWM_IRQ_WRAP_1                                                         */
+  DMA_IRQ_0_IRQn            =  10,              /*!< 10 DMA_IRQ_0                                                              */
+  DMA_IRQ_1_IRQn            =  11,              /*!< 11 DMA_IRQ_1                                                              */
+  DMA_IRQ_2_IRQn            =  12,              /*!< 12 DMA_IRQ_2                                                              */
+  DMA_IRQ_3_IRQn            =  13,              /*!< 13 DMA_IRQ_3                                                              */
+  USBCTRL_IRQ_IRQn          =  14,              /*!< 14 USBCTRL_IRQ                                                            */
+  PIO0_IRQ_0_IRQn           =  15,              /*!< 15 PIO0_IRQ_0                                                             */
+  PIO0_IRQ_1_IRQn           =  16,              /*!< 16 PIO0_IRQ_1                                                             */
+  PIO1_IRQ_0_IRQn           =  17,              /*!< 17 PIO1_IRQ_0                                                             */
+  PIO1_IRQ_1_IRQn           =  18,              /*!< 18 PIO1_IRQ_1                                                             */
+  PIO2_IRQ_0_IRQn           =  19,              /*!< 19 PIO2_IRQ_0                                                             */
+  PIO2_IRQ_1_IRQn           =  20,              /*!< 20 PIO2_IRQ_1                                                             */
+  IO_IRQ_BANK0_IRQn         =  21,              /*!< 21 IO_IRQ_BANK0                                                           */
+  IO_IRQ_BANK0_NS_IRQn      =  22,              /*!< 22 IO_IRQ_BANK0_NS                                                        */
+  IO_IRQ_QSPI_IRQn          =  23,              /*!< 23 IO_IRQ_QSPI                                                            */
+  IO_IRQ_QSPI_NS_IRQn       =  24,              /*!< 24 IO_IRQ_QSPI_NS                                                         */
+  SIO_IRQ_FIFO_IRQn         =  25,              /*!< 25 SIO_IRQ_FIFO                                                           */
+  SIO_IRQ_BELL_IRQn         =  26,              /*!< 26 SIO_IRQ_BELL                                                           */
+  SIO_IRQ_FIFO_NS_IRQn      =  27,              /*!< 27 SIO_IRQ_FIFO_NS                                                        */
+  SIO_IRQ_BELL_NS_IRQn      =  28,              /*!< 28 SIO_IRQ_BELL_NS                                                        */
+  SIO_IRQ_MTIMECMP_IRQn     =  29,              /*!< 29 SIO_IRQ_MTIMECMP                                                       */
+  CLOCKS_IRQ_IRQn           =  30,              /*!< 30 CLOCKS_IRQ                                                             */
+  SPI0_IRQ_IRQn             =  31,              /*!< 31 SPI0_IRQ                                                               */
+  SPI1_IRQ_IRQn             =  32,              /*!< 32 SPI1_IRQ                                                               */
+  UART0_IRQ_IRQn            =  33,              /*!< 33 UART0_IRQ                                                              */
+  UART1_IRQ_IRQn            =  34,              /*!< 34 UART1_IRQ                                                              */
+  ADC_IRQ_FIFO_IRQn         =  35,              /*!< 35 ADC_IRQ_FIFO                                                           */
+  I2C0_IRQ_IRQn             =  36,              /*!< 36 I2C0_IRQ                                                               */
+  I2C1_IRQ_IRQn             =  37,              /*!< 37 I2C1_IRQ                                                               */
+  OTP_IRQ_IRQn              =  38,              /*!< 38 OTP_IRQ                                                                */
+  TRNG_IRQ_IRQn             =  39,              /*!< 39 TRNG_IRQ                                                               */
+  PLL_SYS_IRQ_IRQn          =  42,              /*!< 42 PLL_SYS_IRQ                                                            */
+  PLL_USB_IRQ_IRQn          =  43,              /*!< 43 PLL_USB_IRQ                                                            */
+  POWMAN_IRQ_POW_IRQn       =  44,              /*!< 44 POWMAN_IRQ_POW                                                         */
+  POWMAN_IRQ_TIMER_IRQn     =  45               /*!< 45 POWMAN_IRQ_TIMER                                                       */
+} IRQn_Type;
+
+
+
+/* =========================================================================================================================== */
+/* ================                           Processor and Core Peripheral Section                           ================ */
+/* =========================================================================================================================== */
+
+/* ==========================  Configuration of the ARM Cortex-M33 Processor and Core Peripherals  =========================== */
+#define __CM33_REV                 0x0100U      /*!< CM33 Core Revision                                                        */
+#define __NVIC_PRIO_BITS               4        /*!< Number of Bits used for Priority Levels                                   */
+#define __Vendor_SysTickConfig         0        /*!< Set to 1 if different SysTick Config is used                              */
+#define __VTOR_PRESENT                 1        /*!< Set to 1 if CPU supports Vector Table Offset Register                     */
+#define __MPU_PRESENT                  1        /*!< MPU present                                                               */
+#define __FPU_PRESENT                  1        /*!< FPU present                                                               */
+#define __FPU_DP                       0        /*!< Double Precision FPU                                                      */
+#define __DSP_PRESENT                  1        /*!< DSP extension present                                                     */
+#define __SAUREGION_PRESENT            1        /*!< SAU region present                                                        */
+
+
+/** @} */ /* End of group Configuration_of_CMSIS */
+
+#include "core_cm33.h"                          /*!< ARM Cortex-M33 processor and core peripherals                             */
+#include "system_RP2350.h"                      /*!< RP2350 System                                                             */
+
+#ifndef __IM                                    /*!< Fallback for older CMSIS versions                                         */
+  #define __IM   __I
+#endif
+#ifndef __OM                                    /*!< Fallback for older CMSIS versions                                         */
+  #define __OM   __O
+#endif
+#ifndef __IOM                                   /*!< Fallback for older CMSIS versions                                         */
+  #define __IOM  __IO
+#endif
+
+
+/* =========================================================================================================================== */
+/* ================                            Device Specific Peripheral Section                             ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_peripherals
+  * @{
+  */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          RESETS                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief RESETS (RESETS)
+  */
+
+typedef struct {                                /*!< RESETS Structure                                                          */
+  __IOM uint32_t  RESET;                        /*!< RESET                                                                     */
+  __IOM uint32_t  WDSEL;                        /*!< WDSEL                                                                     */
+  __IOM uint32_t  RESET_DONE;                   /*!< RESET_DONE                                                                */
+} RESETS_Type;                                  /*!< Size = 12 (0xc)                                                           */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PSM                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PSM (PSM)
+  */
+
+typedef struct {                                /*!< PSM Structure                                                             */
+  __IOM uint32_t  FRCE_ON;                      /*!< Force block out of reset (i.e. power it on)                               */
+  __IOM uint32_t  FRCE_OFF;                     /*!< Force into reset (i.e. power it off)                                      */
+  __IOM uint32_t  WDSEL;                        /*!< Set to 1 if the watchdog should reset this                                */
+  __IOM uint32_t  DONE;                         /*!< Is the subsystem ready?                                                   */
+} PSM_Type;                                     /*!< Size = 16 (0x10)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          CLOCKS                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief CLOCKS (CLOCKS)
+  */
+
+typedef struct {                                /*!< CLOCKS Structure                                                          */
+  __IOM uint32_t  CLK_GPOUT0_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT0_DIV;               /*!< CLK_GPOUT0_DIV                                                            */
+  __IOM uint32_t  CLK_GPOUT0_SELECTED;          /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_GPOUT1_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT1_DIV;               /*!< CLK_GPOUT1_DIV                                                            */
+  __IOM uint32_t  CLK_GPOUT1_SELECTED;          /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_GPOUT2_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT2_DIV;               /*!< CLK_GPOUT2_DIV                                                            */
+  __IOM uint32_t  CLK_GPOUT2_SELECTED;          /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_GPOUT3_CTRL;              /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_GPOUT3_DIV;               /*!< CLK_GPOUT3_DIV                                                            */
+  __IOM uint32_t  CLK_GPOUT3_SELECTED;          /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_REF_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_REF_DIV;                  /*!< CLK_REF_DIV                                                               */
+  __IOM uint32_t  CLK_REF_SELECTED;             /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_SYS_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_SYS_DIV;                  /*!< CLK_SYS_DIV                                                               */
+  __IOM uint32_t  CLK_SYS_SELECTED;             /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_PERI_CTRL;                /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_PERI_DIV;                 /*!< CLK_PERI_DIV                                                              */
+  __IOM uint32_t  CLK_PERI_SELECTED;            /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_HSTX_CTRL;                /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_HSTX_DIV;                 /*!< CLK_HSTX_DIV                                                              */
+  __IOM uint32_t  CLK_HSTX_SELECTED;            /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_USB_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_USB_DIV;                  /*!< CLK_USB_DIV                                                               */
+  __IOM uint32_t  CLK_USB_SELECTED;             /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  CLK_ADC_CTRL;                 /*!< Clock control, can be changed on-the-fly (except for auxsrc)              */
+  __IOM uint32_t  CLK_ADC_DIV;                  /*!< CLK_ADC_DIV                                                               */
+  __IOM uint32_t  CLK_ADC_SELECTED;             /*!< Indicates which src is currently selected (one-hot)                       */
+  __IOM uint32_t  DFTCLK_XOSC_CTRL;             /*!< DFTCLK_XOSC_CTRL                                                          */
+  __IOM uint32_t  DFTCLK_ROSC_CTRL;             /*!< DFTCLK_ROSC_CTRL                                                          */
+  __IOM uint32_t  DFTCLK_LPOSC_CTRL;            /*!< DFTCLK_LPOSC_CTRL                                                         */
+  __IOM uint32_t  CLK_SYS_RESUS_CTRL;           /*!< CLK_SYS_RESUS_CTRL                                                        */
+  __IOM uint32_t  CLK_SYS_RESUS_STATUS;         /*!< CLK_SYS_RESUS_STATUS                                                      */
+  __IOM uint32_t  FC0_REF_KHZ;                  /*!< Reference clock frequency in kHz                                          */
+  __IOM uint32_t  FC0_MIN_KHZ;                  /*!< Minimum pass frequency in kHz. This is optional. Set to 0 if
+                                                     you are not using the pass/fail flags                                     */
+  __IOM uint32_t  FC0_MAX_KHZ;                  /*!< Maximum pass frequency in kHz. This is optional. Set to 0x1ffffff
+                                                     if you are not using the pass/fail flags                                  */
+  __IOM uint32_t  FC0_DELAY;                    /*!< Delays the start of frequency counting to allow the mux to settle
+                                                     Delay is measured in multiples of the reference clock period              */
+  __IOM uint32_t  FC0_INTERVAL;                 /*!< The test interval is 0.98us * 2**interval, but let's call it
+                                                     1us * 2**interval The default gives a test interval of
+                                                     250us                                                                     */
+  __IOM uint32_t  FC0_SRC;                      /*!< Clock sent to frequency counter, set to 0 when not required
+                                                     Writing to this register initiates the frequency count                    */
+  __IOM uint32_t  FC0_STATUS;                   /*!< Frequency counter status                                                  */
+  __IOM uint32_t  FC0_RESULT;                   /*!< Result of frequency measurement, only valid when status_done=1            */
+  __IOM uint32_t  WAKE_EN0;                     /*!< enable clock in wake mode                                                 */
+  __IOM uint32_t  WAKE_EN1;                     /*!< enable clock in wake mode                                                 */
+  __IOM uint32_t  SLEEP_EN0;                    /*!< enable clock in sleep mode                                                */
+  __IOM uint32_t  SLEEP_EN1;                    /*!< enable clock in sleep mode                                                */
+  __IOM uint32_t  ENABLED0;                     /*!< indicates the state of the clock enable                                   */
+  __IOM uint32_t  ENABLED1;                     /*!< indicates the state of the clock enable                                   */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} CLOCKS_Type;                                  /*!< Size = 212 (0xd4)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           TICKS                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief TICKS (TICKS)
+  */
+
+typedef struct {                                /*!< TICKS Structure                                                           */
+  __IOM uint32_t  PROC0_CTRL;                   /*!< Controls the tick generator                                               */
+  __IOM uint32_t  PROC0_CYCLES;                 /*!< PROC0_CYCLES                                                              */
+  __IOM uint32_t  PROC0_COUNT;                  /*!< PROC0_COUNT                                                               */
+  __IOM uint32_t  PROC1_CTRL;                   /*!< Controls the tick generator                                               */
+  __IOM uint32_t  PROC1_CYCLES;                 /*!< PROC1_CYCLES                                                              */
+  __IOM uint32_t  PROC1_COUNT;                  /*!< PROC1_COUNT                                                               */
+  __IOM uint32_t  TIMER0_CTRL;                  /*!< Controls the tick generator                                               */
+  __IOM uint32_t  TIMER0_CYCLES;                /*!< TIMER0_CYCLES                                                             */
+  __IOM uint32_t  TIMER0_COUNT;                 /*!< TIMER0_COUNT                                                              */
+  __IOM uint32_t  TIMER1_CTRL;                  /*!< Controls the tick generator                                               */
+  __IOM uint32_t  TIMER1_CYCLES;                /*!< TIMER1_CYCLES                                                             */
+  __IOM uint32_t  TIMER1_COUNT;                 /*!< TIMER1_COUNT                                                              */
+  __IOM uint32_t  WATCHDOG_CTRL;                /*!< Controls the tick generator                                               */
+  __IOM uint32_t  WATCHDOG_CYCLES;              /*!< WATCHDOG_CYCLES                                                           */
+  __IOM uint32_t  WATCHDOG_COUNT;               /*!< WATCHDOG_COUNT                                                            */
+  __IOM uint32_t  RISCV_CTRL;                   /*!< Controls the tick generator                                               */
+  __IOM uint32_t  RISCV_CYCLES;                 /*!< RISCV_CYCLES                                                              */
+  __IOM uint32_t  RISCV_COUNT;                  /*!< RISCV_COUNT                                                               */
+} TICKS_Type;                                   /*!< Size = 72 (0x48)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                        PADS_BANK0                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PADS_BANK0 (PADS_BANK0)
+  */
+
+typedef struct {                                /*!< PADS_BANK0 Structure                                                      */
+  __IOM uint32_t  VOLTAGE_SELECT;               /*!< Voltage select. Per bank control                                          */
+  __IOM uint32_t  GPIO0;                        /*!< GPIO0                                                                     */
+  __IOM uint32_t  GPIO1;                        /*!< GPIO1                                                                     */
+  __IOM uint32_t  GPIO2;                        /*!< GPIO2                                                                     */
+  __IOM uint32_t  GPIO3;                        /*!< GPIO3                                                                     */
+  __IOM uint32_t  GPIO4;                        /*!< GPIO4                                                                     */
+  __IOM uint32_t  GPIO5;                        /*!< GPIO5                                                                     */
+  __IOM uint32_t  GPIO6;                        /*!< GPIO6                                                                     */
+  __IOM uint32_t  GPIO7;                        /*!< GPIO7                                                                     */
+  __IOM uint32_t  GPIO8;                        /*!< GPIO8                                                                     */
+  __IOM uint32_t  GPIO9;                        /*!< GPIO9                                                                     */
+  __IOM uint32_t  GPIO10;                       /*!< GPIO10                                                                    */
+  __IOM uint32_t  GPIO11;                       /*!< GPIO11                                                                    */
+  __IOM uint32_t  GPIO12;                       /*!< GPIO12                                                                    */
+  __IOM uint32_t  GPIO13;                       /*!< GPIO13                                                                    */
+  __IOM uint32_t  GPIO14;                       /*!< GPIO14                                                                    */
+  __IOM uint32_t  GPIO15;                       /*!< GPIO15                                                                    */
+  __IOM uint32_t  GPIO16;                       /*!< GPIO16                                                                    */
+  __IOM uint32_t  GPIO17;                       /*!< GPIO17                                                                    */
+  __IOM uint32_t  GPIO18;                       /*!< GPIO18                                                                    */
+  __IOM uint32_t  GPIO19;                       /*!< GPIO19                                                                    */
+  __IOM uint32_t  GPIO20;                       /*!< GPIO20                                                                    */
+  __IOM uint32_t  GPIO21;                       /*!< GPIO21                                                                    */
+  __IOM uint32_t  GPIO22;                       /*!< GPIO22                                                                    */
+  __IOM uint32_t  GPIO23;                       /*!< GPIO23                                                                    */
+  __IOM uint32_t  GPIO24;                       /*!< GPIO24                                                                    */
+  __IOM uint32_t  GPIO25;                       /*!< GPIO25                                                                    */
+  __IOM uint32_t  GPIO26;                       /*!< GPIO26                                                                    */
+  __IOM uint32_t  GPIO27;                       /*!< GPIO27                                                                    */
+  __IOM uint32_t  GPIO28;                       /*!< GPIO28                                                                    */
+  __IOM uint32_t  GPIO29;                       /*!< GPIO29                                                                    */
+  __IOM uint32_t  GPIO30;                       /*!< GPIO30                                                                    */
+  __IOM uint32_t  GPIO31;                       /*!< GPIO31                                                                    */
+  __IOM uint32_t  GPIO32;                       /*!< GPIO32                                                                    */
+  __IOM uint32_t  GPIO33;                       /*!< GPIO33                                                                    */
+  __IOM uint32_t  GPIO34;                       /*!< GPIO34                                                                    */
+  __IOM uint32_t  GPIO35;                       /*!< GPIO35                                                                    */
+  __IOM uint32_t  GPIO36;                       /*!< GPIO36                                                                    */
+  __IOM uint32_t  GPIO37;                       /*!< GPIO37                                                                    */
+  __IOM uint32_t  GPIO38;                       /*!< GPIO38                                                                    */
+  __IOM uint32_t  GPIO39;                       /*!< GPIO39                                                                    */
+  __IOM uint32_t  GPIO40;                       /*!< GPIO40                                                                    */
+  __IOM uint32_t  GPIO41;                       /*!< GPIO41                                                                    */
+  __IOM uint32_t  GPIO42;                       /*!< GPIO42                                                                    */
+  __IOM uint32_t  GPIO43;                       /*!< GPIO43                                                                    */
+  __IOM uint32_t  GPIO44;                       /*!< GPIO44                                                                    */
+  __IOM uint32_t  GPIO45;                       /*!< GPIO45                                                                    */
+  __IOM uint32_t  GPIO46;                       /*!< GPIO46                                                                    */
+  __IOM uint32_t  GPIO47;                       /*!< GPIO47                                                                    */
+  __IOM uint32_t  SWCLK;                        /*!< SWCLK                                                                     */
+  __IOM uint32_t  SWD;                          /*!< SWD                                                                       */
+} PADS_BANK0_Type;                              /*!< Size = 204 (0xcc)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         PADS_QSPI                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PADS_QSPI (PADS_QSPI)
+  */
+
+typedef struct {                                /*!< PADS_QSPI Structure                                                       */
+  __IOM uint32_t  VOLTAGE_SELECT;               /*!< Voltage select. Per bank control                                          */
+  __IOM uint32_t  GPIO_QSPI_SCLK;               /*!< GPIO_QSPI_SCLK                                                            */
+  __IOM uint32_t  GPIO_QSPI_SD0;                /*!< GPIO_QSPI_SD0                                                             */
+  __IOM uint32_t  GPIO_QSPI_SD1;                /*!< GPIO_QSPI_SD1                                                             */
+  __IOM uint32_t  GPIO_QSPI_SD2;                /*!< GPIO_QSPI_SD2                                                             */
+  __IOM uint32_t  GPIO_QSPI_SD3;                /*!< GPIO_QSPI_SD3                                                             */
+  __IOM uint32_t  GPIO_QSPI_SS;                 /*!< GPIO_QSPI_SS                                                              */
+} PADS_QSPI_Type;                               /*!< Size = 28 (0x1c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          IO_QSPI                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief IO_QSPI (IO_QSPI)
+  */
+
+typedef struct {                                /*!< IO_QSPI Structure                                                         */
+  __IOM uint32_t  USBPHY_DP_STATUS;             /*!< USBPHY_DP_STATUS                                                          */
+  __IOM uint32_t  USBPHY_DP_CTRL;               /*!< USBPHY_DP_CTRL                                                            */
+  __IOM uint32_t  USBPHY_DM_STATUS;             /*!< USBPHY_DM_STATUS                                                          */
+  __IOM uint32_t  USBPHY_DM_CTRL;               /*!< USBPHY_DM_CTRL                                                            */
+  __IOM uint32_t  GPIO_QSPI_SCLK_STATUS;        /*!< GPIO_QSPI_SCLK_STATUS                                                     */
+  __IOM uint32_t  GPIO_QSPI_SCLK_CTRL;          /*!< GPIO_QSPI_SCLK_CTRL                                                       */
+  __IOM uint32_t  GPIO_QSPI_SS_STATUS;          /*!< GPIO_QSPI_SS_STATUS                                                       */
+  __IOM uint32_t  GPIO_QSPI_SS_CTRL;            /*!< GPIO_QSPI_SS_CTRL                                                         */
+  __IOM uint32_t  GPIO_QSPI_SD0_STATUS;         /*!< GPIO_QSPI_SD0_STATUS                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD0_CTRL;           /*!< GPIO_QSPI_SD0_CTRL                                                        */
+  __IOM uint32_t  GPIO_QSPI_SD1_STATUS;         /*!< GPIO_QSPI_SD1_STATUS                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD1_CTRL;           /*!< GPIO_QSPI_SD1_CTRL                                                        */
+  __IOM uint32_t  GPIO_QSPI_SD2_STATUS;         /*!< GPIO_QSPI_SD2_STATUS                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD2_CTRL;           /*!< GPIO_QSPI_SD2_CTRL                                                        */
+  __IOM uint32_t  GPIO_QSPI_SD3_STATUS;         /*!< GPIO_QSPI_SD3_STATUS                                                      */
+  __IOM uint32_t  GPIO_QSPI_SD3_CTRL;           /*!< GPIO_QSPI_SD3_CTRL                                                        */
+  __IM  uint32_t  RESERVED[112];
+  __IOM uint32_t  IRQSUMMARY_PROC0_SECURE;      /*!< IRQSUMMARY_PROC0_SECURE                                                   */
+  __IOM uint32_t  IRQSUMMARY_PROC0_NONSECURE;   /*!< IRQSUMMARY_PROC0_NONSECURE                                                */
+  __IOM uint32_t  IRQSUMMARY_PROC1_SECURE;      /*!< IRQSUMMARY_PROC1_SECURE                                                   */
+  __IOM uint32_t  IRQSUMMARY_PROC1_NONSECURE;   /*!< IRQSUMMARY_PROC1_NONSECURE                                                */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_SECURE;/*!< IRQSUMMARY_DORMANT_WAKE_SECURE                                           */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_NONSECURE;/*!< IRQSUMMARY_DORMANT_WAKE_NONSECURE                                     */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  PROC0_INTE;                   /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTF;                   /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTS;                   /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC1_INTE;                   /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTF;                   /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTS;                   /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  DORMANT_WAKE_INTE;            /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTF;            /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTS;            /*!< Interrupt status after masking & forcing for dormant_wake                 */
+} IO_QSPI_Type;                                 /*!< Size = 576 (0x240)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         IO_BANK0                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief IO_BANK0 (IO_BANK0)
+  */
+
+typedef struct {                                /*!< IO_BANK0 Structure                                                        */
+  __IOM uint32_t  GPIO0_STATUS;                 /*!< GPIO0_STATUS                                                              */
+  __IOM uint32_t  GPIO0_CTRL;                   /*!< GPIO0_CTRL                                                                */
+  __IOM uint32_t  GPIO1_STATUS;                 /*!< GPIO1_STATUS                                                              */
+  __IOM uint32_t  GPIO1_CTRL;                   /*!< GPIO1_CTRL                                                                */
+  __IOM uint32_t  GPIO2_STATUS;                 /*!< GPIO2_STATUS                                                              */
+  __IOM uint32_t  GPIO2_CTRL;                   /*!< GPIO2_CTRL                                                                */
+  __IOM uint32_t  GPIO3_STATUS;                 /*!< GPIO3_STATUS                                                              */
+  __IOM uint32_t  GPIO3_CTRL;                   /*!< GPIO3_CTRL                                                                */
+  __IOM uint32_t  GPIO4_STATUS;                 /*!< GPIO4_STATUS                                                              */
+  __IOM uint32_t  GPIO4_CTRL;                   /*!< GPIO4_CTRL                                                                */
+  __IOM uint32_t  GPIO5_STATUS;                 /*!< GPIO5_STATUS                                                              */
+  __IOM uint32_t  GPIO5_CTRL;                   /*!< GPIO5_CTRL                                                                */
+  __IOM uint32_t  GPIO6_STATUS;                 /*!< GPIO6_STATUS                                                              */
+  __IOM uint32_t  GPIO6_CTRL;                   /*!< GPIO6_CTRL                                                                */
+  __IOM uint32_t  GPIO7_STATUS;                 /*!< GPIO7_STATUS                                                              */
+  __IOM uint32_t  GPIO7_CTRL;                   /*!< GPIO7_CTRL                                                                */
+  __IOM uint32_t  GPIO8_STATUS;                 /*!< GPIO8_STATUS                                                              */
+  __IOM uint32_t  GPIO8_CTRL;                   /*!< GPIO8_CTRL                                                                */
+  __IOM uint32_t  GPIO9_STATUS;                 /*!< GPIO9_STATUS                                                              */
+  __IOM uint32_t  GPIO9_CTRL;                   /*!< GPIO9_CTRL                                                                */
+  __IOM uint32_t  GPIO10_STATUS;                /*!< GPIO10_STATUS                                                             */
+  __IOM uint32_t  GPIO10_CTRL;                  /*!< GPIO10_CTRL                                                               */
+  __IOM uint32_t  GPIO11_STATUS;                /*!< GPIO11_STATUS                                                             */
+  __IOM uint32_t  GPIO11_CTRL;                  /*!< GPIO11_CTRL                                                               */
+  __IOM uint32_t  GPIO12_STATUS;                /*!< GPIO12_STATUS                                                             */
+  __IOM uint32_t  GPIO12_CTRL;                  /*!< GPIO12_CTRL                                                               */
+  __IOM uint32_t  GPIO13_STATUS;                /*!< GPIO13_STATUS                                                             */
+  __IOM uint32_t  GPIO13_CTRL;                  /*!< GPIO13_CTRL                                                               */
+  __IOM uint32_t  GPIO14_STATUS;                /*!< GPIO14_STATUS                                                             */
+  __IOM uint32_t  GPIO14_CTRL;                  /*!< GPIO14_CTRL                                                               */
+  __IOM uint32_t  GPIO15_STATUS;                /*!< GPIO15_STATUS                                                             */
+  __IOM uint32_t  GPIO15_CTRL;                  /*!< GPIO15_CTRL                                                               */
+  __IOM uint32_t  GPIO16_STATUS;                /*!< GPIO16_STATUS                                                             */
+  __IOM uint32_t  GPIO16_CTRL;                  /*!< GPIO16_CTRL                                                               */
+  __IOM uint32_t  GPIO17_STATUS;                /*!< GPIO17_STATUS                                                             */
+  __IOM uint32_t  GPIO17_CTRL;                  /*!< GPIO17_CTRL                                                               */
+  __IOM uint32_t  GPIO18_STATUS;                /*!< GPIO18_STATUS                                                             */
+  __IOM uint32_t  GPIO18_CTRL;                  /*!< GPIO18_CTRL                                                               */
+  __IOM uint32_t  GPIO19_STATUS;                /*!< GPIO19_STATUS                                                             */
+  __IOM uint32_t  GPIO19_CTRL;                  /*!< GPIO19_CTRL                                                               */
+  __IOM uint32_t  GPIO20_STATUS;                /*!< GPIO20_STATUS                                                             */
+  __IOM uint32_t  GPIO20_CTRL;                  /*!< GPIO20_CTRL                                                               */
+  __IOM uint32_t  GPIO21_STATUS;                /*!< GPIO21_STATUS                                                             */
+  __IOM uint32_t  GPIO21_CTRL;                  /*!< GPIO21_CTRL                                                               */
+  __IOM uint32_t  GPIO22_STATUS;                /*!< GPIO22_STATUS                                                             */
+  __IOM uint32_t  GPIO22_CTRL;                  /*!< GPIO22_CTRL                                                               */
+  __IOM uint32_t  GPIO23_STATUS;                /*!< GPIO23_STATUS                                                             */
+  __IOM uint32_t  GPIO23_CTRL;                  /*!< GPIO23_CTRL                                                               */
+  __IOM uint32_t  GPIO24_STATUS;                /*!< GPIO24_STATUS                                                             */
+  __IOM uint32_t  GPIO24_CTRL;                  /*!< GPIO24_CTRL                                                               */
+  __IOM uint32_t  GPIO25_STATUS;                /*!< GPIO25_STATUS                                                             */
+  __IOM uint32_t  GPIO25_CTRL;                  /*!< GPIO25_CTRL                                                               */
+  __IOM uint32_t  GPIO26_STATUS;                /*!< GPIO26_STATUS                                                             */
+  __IOM uint32_t  GPIO26_CTRL;                  /*!< GPIO26_CTRL                                                               */
+  __IOM uint32_t  GPIO27_STATUS;                /*!< GPIO27_STATUS                                                             */
+  __IOM uint32_t  GPIO27_CTRL;                  /*!< GPIO27_CTRL                                                               */
+  __IOM uint32_t  GPIO28_STATUS;                /*!< GPIO28_STATUS                                                             */
+  __IOM uint32_t  GPIO28_CTRL;                  /*!< GPIO28_CTRL                                                               */
+  __IOM uint32_t  GPIO29_STATUS;                /*!< GPIO29_STATUS                                                             */
+  __IOM uint32_t  GPIO29_CTRL;                  /*!< GPIO29_CTRL                                                               */
+  __IOM uint32_t  GPIO30_STATUS;                /*!< GPIO30_STATUS                                                             */
+  __IOM uint32_t  GPIO30_CTRL;                  /*!< GPIO30_CTRL                                                               */
+  __IOM uint32_t  GPIO31_STATUS;                /*!< GPIO31_STATUS                                                             */
+  __IOM uint32_t  GPIO31_CTRL;                  /*!< GPIO31_CTRL                                                               */
+  __IOM uint32_t  GPIO32_STATUS;                /*!< GPIO32_STATUS                                                             */
+  __IOM uint32_t  GPIO32_CTRL;                  /*!< GPIO32_CTRL                                                               */
+  __IOM uint32_t  GPIO33_STATUS;                /*!< GPIO33_STATUS                                                             */
+  __IOM uint32_t  GPIO33_CTRL;                  /*!< GPIO33_CTRL                                                               */
+  __IOM uint32_t  GPIO34_STATUS;                /*!< GPIO34_STATUS                                                             */
+  __IOM uint32_t  GPIO34_CTRL;                  /*!< GPIO34_CTRL                                                               */
+  __IOM uint32_t  GPIO35_STATUS;                /*!< GPIO35_STATUS                                                             */
+  __IOM uint32_t  GPIO35_CTRL;                  /*!< GPIO35_CTRL                                                               */
+  __IOM uint32_t  GPIO36_STATUS;                /*!< GPIO36_STATUS                                                             */
+  __IOM uint32_t  GPIO36_CTRL;                  /*!< GPIO36_CTRL                                                               */
+  __IOM uint32_t  GPIO37_STATUS;                /*!< GPIO37_STATUS                                                             */
+  __IOM uint32_t  GPIO37_CTRL;                  /*!< GPIO37_CTRL                                                               */
+  __IOM uint32_t  GPIO38_STATUS;                /*!< GPIO38_STATUS                                                             */
+  __IOM uint32_t  GPIO38_CTRL;                  /*!< GPIO38_CTRL                                                               */
+  __IOM uint32_t  GPIO39_STATUS;                /*!< GPIO39_STATUS                                                             */
+  __IOM uint32_t  GPIO39_CTRL;                  /*!< GPIO39_CTRL                                                               */
+  __IOM uint32_t  GPIO40_STATUS;                /*!< GPIO40_STATUS                                                             */
+  __IOM uint32_t  GPIO40_CTRL;                  /*!< GPIO40_CTRL                                                               */
+  __IOM uint32_t  GPIO41_STATUS;                /*!< GPIO41_STATUS                                                             */
+  __IOM uint32_t  GPIO41_CTRL;                  /*!< GPIO41_CTRL                                                               */
+  __IOM uint32_t  GPIO42_STATUS;                /*!< GPIO42_STATUS                                                             */
+  __IOM uint32_t  GPIO42_CTRL;                  /*!< GPIO42_CTRL                                                               */
+  __IOM uint32_t  GPIO43_STATUS;                /*!< GPIO43_STATUS                                                             */
+  __IOM uint32_t  GPIO43_CTRL;                  /*!< GPIO43_CTRL                                                               */
+  __IOM uint32_t  GPIO44_STATUS;                /*!< GPIO44_STATUS                                                             */
+  __IOM uint32_t  GPIO44_CTRL;                  /*!< GPIO44_CTRL                                                               */
+  __IOM uint32_t  GPIO45_STATUS;                /*!< GPIO45_STATUS                                                             */
+  __IOM uint32_t  GPIO45_CTRL;                  /*!< GPIO45_CTRL                                                               */
+  __IOM uint32_t  GPIO46_STATUS;                /*!< GPIO46_STATUS                                                             */
+  __IOM uint32_t  GPIO46_CTRL;                  /*!< GPIO46_CTRL                                                               */
+  __IOM uint32_t  GPIO47_STATUS;                /*!< GPIO47_STATUS                                                             */
+  __IOM uint32_t  GPIO47_CTRL;                  /*!< GPIO47_CTRL                                                               */
+  __IM  uint32_t  RESERVED[32];
+  __IOM uint32_t  IRQSUMMARY_PROC0_SECURE0;     /*!< IRQSUMMARY_PROC0_SECURE0                                                  */
+  __IOM uint32_t  IRQSUMMARY_PROC0_SECURE1;     /*!< IRQSUMMARY_PROC0_SECURE1                                                  */
+  __IOM uint32_t  IRQSUMMARY_PROC0_NONSECURE0;  /*!< IRQSUMMARY_PROC0_NONSECURE0                                               */
+  __IOM uint32_t  IRQSUMMARY_PROC0_NONSECURE1;  /*!< IRQSUMMARY_PROC0_NONSECURE1                                               */
+  __IOM uint32_t  IRQSUMMARY_PROC1_SECURE0;     /*!< IRQSUMMARY_PROC1_SECURE0                                                  */
+  __IOM uint32_t  IRQSUMMARY_PROC1_SECURE1;     /*!< IRQSUMMARY_PROC1_SECURE1                                                  */
+  __IOM uint32_t  IRQSUMMARY_PROC1_NONSECURE0;  /*!< IRQSUMMARY_PROC1_NONSECURE0                                               */
+  __IOM uint32_t  IRQSUMMARY_PROC1_NONSECURE1;  /*!< IRQSUMMARY_PROC1_NONSECURE1                                               */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_SECURE0;/*!< IRQSUMMARY_DORMANT_WAKE_SECURE0                                         */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_SECURE1;/*!< IRQSUMMARY_DORMANT_WAKE_SECURE1                                         */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_NONSECURE0;/*!< IRQSUMMARY_DORMANT_WAKE_NONSECURE0                                   */
+  __IOM uint32_t  IRQSUMMARY_DORMANT_WAKE_NONSECURE1;/*!< IRQSUMMARY_DORMANT_WAKE_NONSECURE1                                   */
+  __IOM uint32_t  INTR0;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR1;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR2;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR3;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR4;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTR5;                        /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  PROC0_INTE0;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE1;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE2;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE3;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE4;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTE5;                  /*!< Interrupt Enable for proc0                                                */
+  __IOM uint32_t  PROC0_INTF0;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF1;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF2;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF3;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF4;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTF5;                  /*!< Interrupt Force for proc0                                                 */
+  __IOM uint32_t  PROC0_INTS0;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS1;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS2;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS3;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS4;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC0_INTS5;                  /*!< Interrupt status after masking & forcing for proc0                        */
+  __IOM uint32_t  PROC1_INTE0;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE1;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE2;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE3;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE4;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTE5;                  /*!< Interrupt Enable for proc1                                                */
+  __IOM uint32_t  PROC1_INTF0;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF1;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF2;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF3;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF4;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTF5;                  /*!< Interrupt Force for proc1                                                 */
+  __IOM uint32_t  PROC1_INTS0;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS1;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS2;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS3;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS4;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  PROC1_INTS5;                  /*!< Interrupt status after masking & forcing for proc1                        */
+  __IOM uint32_t  DORMANT_WAKE_INTE0;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE1;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE2;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE3;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE4;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTE5;           /*!< Interrupt Enable for dormant_wake                                         */
+  __IOM uint32_t  DORMANT_WAKE_INTF0;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF1;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF2;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF3;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF4;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTF5;           /*!< Interrupt Force for dormant_wake                                          */
+  __IOM uint32_t  DORMANT_WAKE_INTS0;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS1;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS2;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS3;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS4;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+  __IOM uint32_t  DORMANT_WAKE_INTS5;           /*!< Interrupt status after masking & forcing for dormant_wake                 */
+} IO_BANK0_Type;                                /*!< Size = 800 (0x320)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          SYSINFO                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SYSINFO (SYSINFO)
+  */
+
+typedef struct {                                /*!< SYSINFO Structure                                                         */
+  __IOM uint32_t  CHIP_ID;                      /*!< JEDEC JEP-106 compliant chip identifier.                                  */
+  __IOM uint32_t  PACKAGE_SEL;                  /*!< PACKAGE_SEL                                                               */
+  __IOM uint32_t  PLATFORM;                     /*!< Platform register. Allows software to know what environment
+                                                     it is running in during pre-production development. Post-production,
+                                                     the PLATFORM is always ASIC, non-SIM.                                     */
+  __IM  uint32_t  RESERVED[2];
+  __IOM uint32_t  GITREF_RP2350;                /*!< Git hash of the chip source. Used to identify chip version.               */
+} SYSINFO_Type;                                 /*!< Size = 24 (0x18)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          SHA256                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SHA-256 hash function implementation (SHA256)
+  */
+
+typedef struct {                                /*!< SHA256 Structure                                                          */
+  __IOM uint32_t  CSR;                          /*!< Control and status register                                               */
+  __IOM uint32_t  WDATA;                        /*!< Write data register                                                       */
+  __IOM uint32_t  SUM0;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM1;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM2;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM3;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM4;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM5;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM6;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+  __IOM uint32_t  SUM7;                         /*!< 256-bit checksum result. Contents are undefined when CSR_SUM_VLD
+                                                     is 0.                                                                     */
+} SHA256_Type;                                  /*!< Size = 40 (0x28)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         HSTX_FIFO                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief FIFO status and write access for HSTX (HSTX_FIFO)
+  */
+
+typedef struct {                                /*!< HSTX_FIFO Structure                                                       */
+  __IOM uint32_t  STAT;                         /*!< FIFO status                                                               */
+  __IOM uint32_t  FIFO;                         /*!< Write access to FIFO                                                      */
+} HSTX_FIFO_Type;                               /*!< Size = 8 (0x8)                                                            */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         HSTX_CTRL                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Control interface to HSTX. For FIFO write access and status, see the HSTX_FIFO register block. (HSTX_CTRL)
+  */
+
+typedef struct {                                /*!< HSTX_CTRL Structure                                                       */
+  __IOM uint32_t  CSR;                          /*!< CSR                                                                       */
+  __IOM uint32_t  BIT0;                         /*!< Data control register for output bit 0                                    */
+  __IOM uint32_t  BIT1;                         /*!< Data control register for output bit 1                                    */
+  __IOM uint32_t  BIT2;                         /*!< Data control register for output bit 2                                    */
+  __IOM uint32_t  BIT3;                         /*!< Data control register for output bit 3                                    */
+  __IOM uint32_t  BIT4;                         /*!< Data control register for output bit 4                                    */
+  __IOM uint32_t  BIT5;                         /*!< Data control register for output bit 5                                    */
+  __IOM uint32_t  BIT6;                         /*!< Data control register for output bit 6                                    */
+  __IOM uint32_t  BIT7;                         /*!< Data control register for output bit 7                                    */
+  __IOM uint32_t  EXPAND_SHIFT;                 /*!< Configure the optional shifter inside the command expander                */
+  __IOM uint32_t  EXPAND_TMDS;                  /*!< Configure the optional TMDS encoder inside the command expander           */
+} HSTX_CTRL_Type;                               /*!< Size = 44 (0x2c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           EPPB                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Cortex-M33 EPPB vendor register block for RP2350 (EPPB)
+  */
+
+typedef struct {                                /*!< EPPB Structure                                                            */
+  __IOM uint32_t  NMI_MASK0;                    /*!< NMI mask for IRQs 0 through 31. This register is core-local,
+                                                     and is reset by a processor warm reset.                                   */
+  __IOM uint32_t  NMI_MASK1;                    /*!< NMI mask for IRQs 0 though 51. This register is core-local,
+                                                     and is reset by a processor warm reset.                                   */
+  __IOM uint32_t  SLEEPCTRL;                    /*!< Nonstandard sleep control register                                        */
+} EPPB_Type;                                    /*!< Size = 12 (0xc)                                                           */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PPB                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief TEAL registers accessible through the debug interface (PPB)
+  */
+
+typedef struct {                                /*!< PPB Structure                                                             */
+  __IOM uint32_t  ITM_STIM0;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM1;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM2;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM3;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM4;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM5;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM6;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM7;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM8;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM9;                    /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM10;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM11;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM12;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM13;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM14;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM15;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM16;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM17;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM18;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM19;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM20;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM21;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM22;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM23;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM24;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM25;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM26;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM27;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM28;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM29;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM30;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IOM uint32_t  ITM_STIM31;                   /*!< Provides the interface for generating Instrumentation packets             */
+  __IM  uint32_t  RESERVED[864];
+  __IOM uint32_t  ITM_TER0;                     /*!< Provide an individual enable bit for each ITM_STIM register               */
+  __IM  uint32_t  RESERVED1[15];
+  __IOM uint32_t  ITM_TPR;                      /*!< Controls which stimulus ports can be accessed by unprivileged
+                                                     code                                                                      */
+  __IM  uint32_t  RESERVED2[15];
+  __IOM uint32_t  ITM_TCR;                      /*!< Configures and controls transfers through the ITM interface               */
+  __IM  uint32_t  RESERVED3[27];
+  __IOM uint32_t  INT_ATREADY;                  /*!< Integration Mode: Read ATB Ready                                          */
+  __IM  uint32_t  RESERVED4;
+  __IOM uint32_t  INT_ATVALID;                  /*!< Integration Mode: Write ATB Valid                                         */
+  __IM  uint32_t  RESERVED5;
+  __IOM uint32_t  ITM_ITCTRL;                   /*!< Integration Mode Control Register                                         */
+  __IM  uint32_t  RESERVED6[46];
+  __IOM uint32_t  ITM_DEVARCH;                  /*!< Provides CoreSight discovery information for the ITM                      */
+  __IM  uint32_t  RESERVED7[3];
+  __IOM uint32_t  ITM_DEVTYPE;                  /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR4;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR5;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR6;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR7;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR0;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR1;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR2;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_PIDR3;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_CIDR0;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_CIDR1;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_CIDR2;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  ITM_CIDR3;                    /*!< Provides CoreSight discovery information for the ITM                      */
+  __IOM uint32_t  DWT_CTRL;                     /*!< Provides configuration and status information for the DWT unit,
+                                                     and used to control features of the unit                                  */
+  __IOM uint32_t  DWT_CYCCNT;                   /*!< Shows or sets the value of the processor cycle counter, CYCCNT            */
+  __IM  uint32_t  RESERVED8;
+  __IOM uint32_t  DWT_EXCCNT;                   /*!< Counts the total cycles spent in exception processing                     */
+  __IM  uint32_t  RESERVED9;
+  __IOM uint32_t  DWT_LSUCNT;                   /*!< Increments on the additional cycles required to execute all
+                                                     load or store instructions                                                */
+  __IOM uint32_t  DWT_FOLDCNT;                  /*!< Increments on the additional cycles required to execute all
+                                                     load or store instructions                                                */
+  __IM  uint32_t  RESERVED10;
+  __IOM uint32_t  DWT_COMP0;                    /*!< Provides a reference value for use by watchpoint comparator
+                                                     0                                                                         */
+  __IM  uint32_t  RESERVED11;
+  __IOM uint32_t  DWT_FUNCTION0;                /*!< Controls the operation of watchpoint comparator 0                         */
+  __IM  uint32_t  RESERVED12;
+  __IOM uint32_t  DWT_COMP1;                    /*!< Provides a reference value for use by watchpoint comparator
+                                                     1                                                                         */
+  __IM  uint32_t  RESERVED13;
+  __IOM uint32_t  DWT_FUNCTION1;                /*!< Controls the operation of watchpoint comparator 1                         */
+  __IM  uint32_t  RESERVED14;
+  __IOM uint32_t  DWT_COMP2;                    /*!< Provides a reference value for use by watchpoint comparator
+                                                     2                                                                         */
+  __IM  uint32_t  RESERVED15;
+  __IOM uint32_t  DWT_FUNCTION2;                /*!< Controls the operation of watchpoint comparator 2                         */
+  __IM  uint32_t  RESERVED16;
+  __IOM uint32_t  DWT_COMP3;                    /*!< Provides a reference value for use by watchpoint comparator
+                                                     3                                                                         */
+  __IM  uint32_t  RESERVED17;
+  __IOM uint32_t  DWT_FUNCTION3;                /*!< Controls the operation of watchpoint comparator 3                         */
+  __IM  uint32_t  RESERVED18[984];
+  __IOM uint32_t  DWT_DEVARCH;                  /*!< Provides CoreSight discovery information for the DWT                      */
+  __IM  uint32_t  RESERVED19[3];
+  __IOM uint32_t  DWT_DEVTYPE;                  /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR4;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR5;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR6;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR7;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR0;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR1;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR2;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_PIDR3;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_CIDR0;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_CIDR1;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_CIDR2;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  DWT_CIDR3;                    /*!< Provides CoreSight discovery information for the DWT                      */
+  __IOM uint32_t  FP_CTRL;                      /*!< Provides FPB implementation information, and the global enable
+                                                     for the FPB unit                                                          */
+  __IOM uint32_t  FP_REMAP;                     /*!< Indicates whether the implementation supports Flash Patch remap
+                                                     and, if it does, holds the target address for remap                       */
+  __IOM uint32_t  FP_COMP0;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP1;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP2;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP3;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP4;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP5;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP6;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IOM uint32_t  FP_COMP7;                     /*!< Holds an address for comparison. The effect of the match depends
+                                                     on the configuration of the FPB and whether the comparator
+                                                     is an instruction address comparator or a literal address
+                                                     comparator                                                                */
+  __IM  uint32_t  RESERVED20[997];
+  __IOM uint32_t  FP_DEVARCH;                   /*!< Provides CoreSight discovery information for the FPB                      */
+  __IM  uint32_t  RESERVED21[3];
+  __IOM uint32_t  FP_DEVTYPE;                   /*!< Provides CoreSight discovery information for the FPB                      */
+  __IOM uint32_t  FP_PIDR4;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR5;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR6;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR7;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR0;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR1;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR2;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_PIDR3;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_CIDR0;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_CIDR1;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_CIDR2;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IOM uint32_t  FP_CIDR3;                     /*!< Provides CoreSight discovery information for the FP                       */
+  __IM  uint32_t  RESERVED22[11265];
+  __IOM uint32_t  ICTR;                         /*!< Provides information about the interrupt controller                       */
+  __IOM uint32_t  ACTLR;                        /*!< Provides IMPLEMENTATION DEFINED configuration and control options         */
+  __IM  uint32_t  RESERVED23;
+  __IOM uint32_t  SYST_CSR;                     /*!< Use the SysTick Control and Status Register to enable the SysTick
+                                                     features.                                                                 */
+  __IOM uint32_t  SYST_RVR;                     /*!< Use the SysTick Reload Value Register to specify the start value
+                                                     to load into the current value register when the counter
+                                                     reaches 0. It can be any value between 0 and 0x00FFFFFF.
+                                                     A start value of 0 is possible, but has no effect because
+                                                     the SysTick interrupt and COUNTFLAG are activated when
+                                                     counting from 1 to 0. The reset value of this register
+                                                     is UNKNOWN. To generate a multi-shot timer with a period
+                                                     of N processor clock cycles, use a RELOAD value of N-1.
+                                                     For example, if the SysTick interrupt is required every
+                                                     100 clock pulses, set RELOAD to 99.                                       */
+  __IOM uint32_t  SYST_CVR;                     /*!< Use the SysTick Current Value Register to find the current value
+                                                     in the register. The reset value of this register is UNKNOWN.             */
+  __IOM uint32_t  SYST_CALIB;                   /*!< Use the SysTick Calibration Value Register to enable software
+                                                     to scale to any required speed using divide and multiply.                 */
+  __IM  uint32_t  RESERVED24[56];
+  __IOM uint32_t  NVIC_ISER0;                   /*!< Enables or reads the enabled state of each group of 32 interrupts         */
+  __IOM uint32_t  NVIC_ISER1;                   /*!< Enables or reads the enabled state of each group of 32 interrupts         */
+  __IM  uint32_t  RESERVED25[30];
+  __IOM uint32_t  NVIC_ICER0;                   /*!< Clears or reads the enabled state of each group of 32 interrupts          */
+  __IOM uint32_t  NVIC_ICER1;                   /*!< Clears or reads the enabled state of each group of 32 interrupts          */
+  __IM  uint32_t  RESERVED26[30];
+  __IOM uint32_t  NVIC_ISPR0;                   /*!< Enables or reads the pending state of each group of 32 interrupts         */
+  __IOM uint32_t  NVIC_ISPR1;                   /*!< Enables or reads the pending state of each group of 32 interrupts         */
+  __IM  uint32_t  RESERVED27[30];
+  __IOM uint32_t  NVIC_ICPR0;                   /*!< Clears or reads the pending state of each group of 32 interrupts          */
+  __IOM uint32_t  NVIC_ICPR1;                   /*!< Clears or reads the pending state of each group of 32 interrupts          */
+  __IM  uint32_t  RESERVED28[30];
+  __IOM uint32_t  NVIC_IABR0;                   /*!< For each group of 32 interrupts, shows the active state of each
+                                                     interrupt                                                                 */
+  __IOM uint32_t  NVIC_IABR1;                   /*!< For each group of 32 interrupts, shows the active state of each
+                                                     interrupt                                                                 */
+  __IM  uint32_t  RESERVED29[30];
+  __IOM uint32_t  NVIC_ITNS0;                   /*!< For each group of 32 interrupts, determines whether each interrupt
+                                                     targets Non-secure or Secure state                                        */
+  __IOM uint32_t  NVIC_ITNS1;                   /*!< For each group of 32 interrupts, determines whether each interrupt
+                                                     targets Non-secure or Secure state                                        */
+  __IM  uint32_t  RESERVED30[30];
+  __IOM uint32_t  NVIC_IPR0;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR1;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR2;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR3;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR4;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR5;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR6;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR7;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR8;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR9;                    /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR10;                   /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR11;                   /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR12;                   /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR13;                   /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR14;                   /*!< Sets or reads interrupt priorities                                        */
+  __IOM uint32_t  NVIC_IPR15;                   /*!< Sets or reads interrupt priorities                                        */
+  __IM  uint32_t  RESERVED31[560];
+  __IOM uint32_t  CPUID;                        /*!< Provides identification information for the PE, including an
+                                                     implementer code for the device and a device ID number                    */
+  __IOM uint32_t  ICSR;                         /*!< Controls and provides status information for NMI, PendSV, SysTick
+                                                     and interrupts                                                            */
+  __IOM uint32_t  VTOR;                         /*!< The VTOR indicates the offset of the vector table base address
+                                                     from memory address 0x00000000.                                           */
+  __IOM uint32_t  AIRCR;                        /*!< Use the Application Interrupt and Reset Control Register to:
+                                                     determine data endianness, clear all active state information
+                                                     from debug halt mode, request a system reset.                             */
+  __IOM uint32_t  SCR;                          /*!< System Control Register. Use the System Control Register for
+                                                     power-management functions: signal to the system when the
+                                                     processor can enter a low power state, control how the
+                                                     processor enters and exits low power states.                              */
+  __IOM uint32_t  CCR;                          /*!< Sets or returns configuration and control data                            */
+  __IOM uint32_t  SHPR1;                        /*!< Sets or returns priority for system handlers 4 - 7                        */
+  __IOM uint32_t  SHPR2;                        /*!< Sets or returns priority for system handlers 8 - 11                       */
+  __IOM uint32_t  SHPR3;                        /*!< Sets or returns priority for system handlers 12 - 15                      */
+  __IOM uint32_t  SHCSR;                        /*!< Provides access to the active and pending status of system exceptions     */
+  __IOM uint32_t  CFSR;                         /*!< Contains the three Configurable Fault Status Registers. 31:16
+                                                     UFSR: Provides information on UsageFault exceptions 15:8
+                                                     BFSR: Provides information on BusFault exceptions 7:0 MMFSR:
+                                                     Provides information on MemManage exceptions                              */
+  __IOM uint32_t  HFSR;                         /*!< Shows the cause of any HardFaults                                         */
+  __IOM uint32_t  DFSR;                         /*!< Shows which debug event occurred                                          */
+  __IOM uint32_t  MMFAR;                        /*!< Shows the address of the memory location that caused an MPU
+                                                     fault                                                                     */
+  __IOM uint32_t  BFAR;                         /*!< Shows the address associated with a precise data access BusFault          */
+  __IM  uint32_t  RESERVED32;
+  __IOM uint32_t  ID_PFR0;                      /*!< Gives top-level information about the instruction set supported
+                                                     by the PE                                                                 */
+  __IOM uint32_t  ID_PFR1;                      /*!< Gives information about the programmers' model and Extensions
+                                                     support                                                                   */
+  __IOM uint32_t  ID_DFR0;                      /*!< Provides top level information about the debug system                     */
+  __IOM uint32_t  ID_AFR0;                      /*!< Provides information about the IMPLEMENTATION DEFINED features
+                                                     of the PE                                                                 */
+  __IOM uint32_t  ID_MMFR0;                     /*!< Provides information about the implemented memory model and
+                                                     memory management support                                                 */
+  __IOM uint32_t  ID_MMFR1;                     /*!< Provides information about the implemented memory model and
+                                                     memory management support                                                 */
+  __IOM uint32_t  ID_MMFR2;                     /*!< Provides information about the implemented memory model and
+                                                     memory management support                                                 */
+  __IOM uint32_t  ID_MMFR3;                     /*!< Provides information about the implemented memory model and
+                                                     memory management support                                                 */
+  __IOM uint32_t  ID_ISAR0;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IOM uint32_t  ID_ISAR1;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IOM uint32_t  ID_ISAR2;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IOM uint32_t  ID_ISAR3;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IOM uint32_t  ID_ISAR4;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IOM uint32_t  ID_ISAR5;                     /*!< Provides information about the instruction set implemented by
+                                                     the PE                                                                    */
+  __IM  uint32_t  RESERVED33;
+  __IOM uint32_t  CTR;                          /*!< Provides information about the architecture of the caches. CTR
+                                                     is RES0 if CLIDR is zero.                                                 */
+  __IM  uint32_t  RESERVED34[2];
+  __IOM uint32_t  CPACR;                        /*!< Specifies the access privileges for coprocessors and the FP
+                                                     Extension                                                                 */
+  __IOM uint32_t  NSACR;                        /*!< Defines the Non-secure access permissions for both the FP Extension
+                                                     and coprocessors CP0 to CP7                                               */
+  __IOM uint32_t  MPU_TYPE;                     /*!< The MPU Type Register indicates how many regions the MPU `FTSSS
+                                                     supports                                                                  */
+  __IOM uint32_t  MPU_CTRL;                     /*!< Enables the MPU and, when the MPU is enabled, controls whether
+                                                     the default memory map is enabled as a background region
+                                                     for privileged accesses, and whether the MPU is enabled
+                                                     for HardFaults, NMIs, and exception handlers when FAULTMASK
+                                                     is set to 1                                                               */
+  __IOM uint32_t  MPU_RNR;                      /*!< Selects the region currently accessed by MPU_RBAR and MPU_RLAR            */
+  __IOM uint32_t  MPU_RBAR;                     /*!< Provides indirect read and write access to the base address
+                                                     of the currently selected MPU region `FTSSS                               */
+  __IOM uint32_t  MPU_RLAR;                     /*!< Provides indirect read and write access to the limit address
+                                                     of the currently selected MPU region `FTSSS                               */
+  __IOM uint32_t  MPU_RBAR_A1;                  /*!< Provides indirect read and write access to the base address
+                                                     of the MPU region selected by MPU_RNR[7:2]:(1[1:0]) `FTSSS                */
+  __IOM uint32_t  MPU_RLAR_A1;                  /*!< Provides indirect read and write access to the limit address
+                                                     of the currently selected MPU region selected by MPU_RNR[7:2]:(1[1:0])
+                                                     `FTSSS                                                                    */
+  __IOM uint32_t  MPU_RBAR_A2;                  /*!< Provides indirect read and write access to the base address
+                                                     of the MPU region selected by MPU_RNR[7:2]:(2[1:0]) `FTSSS                */
+  __IOM uint32_t  MPU_RLAR_A2;                  /*!< Provides indirect read and write access to the limit address
+                                                     of the currently selected MPU region selected by MPU_RNR[7:2]:(2[1:0])
+                                                     `FTSSS                                                                    */
+  __IOM uint32_t  MPU_RBAR_A3;                  /*!< Provides indirect read and write access to the base address
+                                                     of the MPU region selected by MPU_RNR[7:2]:(3[1:0]) `FTSSS                */
+  __IOM uint32_t  MPU_RLAR_A3;                  /*!< Provides indirect read and write access to the limit address
+                                                     of the currently selected MPU region selected by MPU_RNR[7:2]:(3[1:0])
+                                                     `FTSSS                                                                    */
+  __IM  uint32_t  RESERVED35;
+  __IOM uint32_t  MPU_MAIR0;                    /*!< Along with MPU_MAIR1, provides the memory attribute encodings
+                                                     corresponding to the AttrIndex values                                     */
+  __IOM uint32_t  MPU_MAIR1;                    /*!< Along with MPU_MAIR0, provides the memory attribute encodings
+                                                     corresponding to the AttrIndex values                                     */
+  __IM  uint32_t  RESERVED36[2];
+  __IOM uint32_t  SAU_CTRL;                     /*!< Allows enabling of the Security Attribution Unit                          */
+  __IOM uint32_t  SAU_TYPE;                     /*!< Indicates the number of regions implemented by the Security
+                                                     Attribution Unit                                                          */
+  __IOM uint32_t  SAU_RNR;                      /*!< Selects the region currently accessed by SAU_RBAR and SAU_RLAR            */
+  __IOM uint32_t  SAU_RBAR;                     /*!< Provides indirect read and write access to the base address
+                                                     of the currently selected SAU region                                      */
+  __IOM uint32_t  SAU_RLAR;                     /*!< Provides indirect read and write access to the limit address
+                                                     of the currently selected SAU region                                      */
+  __IOM uint32_t  SFSR;                         /*!< Provides information about any security related faults                    */
+  __IOM uint32_t  SFAR;                         /*!< Shows the address of the memory location that caused a Security
+                                                     violation                                                                 */
+  __IM  uint32_t  RESERVED37;
+  __IOM uint32_t  DHCSR;                        /*!< Controls halting debug                                                    */
+  __IOM uint32_t  DCRSR;                        /*!< With the DCRDR, provides debug access to the general-purpose
+                                                     registers, special-purpose registers, and the FP extension
+                                                     registers. A write to the DCRSR specifies the register
+                                                     to transfer, whether the transfer is a read or write, and
+                                                     starts the transfer                                                       */
+  __IOM uint32_t  DCRDR;                        /*!< With the DCRSR, provides debug access to the general-purpose
+                                                     registers, special-purpose registers, and the FP Extension
+                                                     registers. If the Main Extension is implemented, it can
+                                                     also be used for message passing between an external debugger
+                                                     and a debug agent running on the PE                                       */
+  __IOM uint32_t  DEMCR;                        /*!< Manages vector catch behavior and DebugMonitor handling when
+                                                     debugging                                                                 */
+  __IM  uint32_t  RESERVED38[2];
+  __IOM uint32_t  DSCSR;                        /*!< Provides control and status information for Secure debug                  */
+  __IM  uint32_t  RESERVED39[61];
+  __IOM uint32_t  STIR;                         /*!< Provides a mechanism for software to generate an interrupt                */
+  __IM  uint32_t  RESERVED40[12];
+  __IOM uint32_t  FPCCR;                        /*!< Holds control data for the Floating-point extension                       */
+  __IOM uint32_t  FPCAR;                        /*!< Holds the location of the unpopulated floating-point register
+                                                     space allocated on an exception stack frame                               */
+  __IOM uint32_t  FPDSCR;                       /*!< Holds the default values for the floating-point status control
+                                                     data that the PE assigns to the FPSCR when it creates a
+                                                     new floating-point context                                                */
+  __IOM uint32_t  MVFR0;                        /*!< Describes the features provided by the Floating-point Extension           */
+  __IOM uint32_t  MVFR1;                        /*!< Describes the features provided by the Floating-point Extension           */
+  __IOM uint32_t  MVFR2;                        /*!< Describes the features provided by the Floating-point Extension           */
+  __IM  uint32_t  RESERVED41[28];
+  __IOM uint32_t  DDEVARCH;                     /*!< Provides CoreSight discovery information for the SCS                      */
+  __IM  uint32_t  RESERVED42[3];
+  __IOM uint32_t  DDEVTYPE;                     /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR4;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR5;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR6;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR7;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR0;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR1;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR2;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DPIDR3;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DCIDR0;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DCIDR1;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DCIDR2;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IOM uint32_t  DCIDR3;                       /*!< Provides CoreSight discovery information for the SCS                      */
+  __IM  uint32_t  RESERVED43[51201];
+  __IOM uint32_t  TRCPRGCTLR;                   /*!< Programming Control Register                                              */
+  __IM  uint32_t  RESERVED44;
+  __IOM uint32_t  TRCSTATR;                     /*!< The TRCSTATR indicates the ETM-Teal status                                */
+  __IOM uint32_t  TRCCONFIGR;                   /*!< The TRCCONFIGR sets the basic tracing options for the trace
+                                                     unit                                                                      */
+  __IM  uint32_t  RESERVED45[3];
+  __IOM uint32_t  TRCEVENTCTL0R;                /*!< The TRCEVENTCTL0R controls the tracing of events in the trace
+                                                     stream. The events also drive the ETM-Teal external outputs.              */
+  __IOM uint32_t  TRCEVENTCTL1R;                /*!< The TRCEVENTCTL1R controls how the events selected by TRCEVENTCTL0R
+                                                     behave                                                                    */
+  __IM  uint32_t  RESERVED46;
+  __IOM uint32_t  TRCSTALLCTLR;                 /*!< The TRCSTALLCTLR enables ETM-Teal to stall the processor if
+                                                     the ETM-Teal FIFO goes over the programmed level to minimize
+                                                     risk of overflow                                                          */
+  __IOM uint32_t  TRCTSCTLR;                    /*!< The TRCTSCTLR controls the insertion of global timestamps into
+                                                     the trace stream. A timestamp is always inserted into the
+                                                     instruction trace stream                                                  */
+  __IOM uint32_t  TRCSYNCPR;                    /*!< The TRCSYNCPR specifies the period of trace synchronization
+                                                     of the trace streams. TRCSYNCPR defines a number of bytes
+                                                     of trace between requests for trace synchronization. This
+                                                     value is always a power of two                                            */
+  __IOM uint32_t  TRCCCCTLR;                    /*!< The TRCCCCTLR sets the threshold value for instruction trace
+                                                     cycle counting. The threshold represents the minimum interval
+                                                     between cycle count trace packets                                         */
+  __IM  uint32_t  RESERVED47[17];
+  __IOM uint32_t  TRCVICTLR;                    /*!< The TRCVICTLR controls instruction trace filtering                        */
+  __IM  uint32_t  RESERVED48[47];
+  __IOM uint32_t  TRCCNTRLDVR0;                 /*!< The TRCCNTRLDVR defines the reload value for the reduced function
+                                                     counter                                                                   */
+  __IM  uint32_t  RESERVED49[15];
+  __IOM uint32_t  TRCIDR8;                      /*!< TRCIDR8                                                                   */
+  __IOM uint32_t  TRCIDR9;                      /*!< TRCIDR9                                                                   */
+  __IOM uint32_t  TRCIDR10;                     /*!< TRCIDR10                                                                  */
+  __IOM uint32_t  TRCIDR11;                     /*!< TRCIDR11                                                                  */
+  __IOM uint32_t  TRCIDR12;                     /*!< TRCIDR12                                                                  */
+  __IOM uint32_t  TRCIDR13;                     /*!< TRCIDR13                                                                  */
+  __IM  uint32_t  RESERVED50[10];
+  __IOM uint32_t  TRCIMSPEC;                    /*!< The TRCIMSPEC shows the presence of any IMPLEMENTATION SPECIFIC
+                                                     features, and enables any features that are provided                      */
+  __IM  uint32_t  RESERVED51[7];
+  __IOM uint32_t  TRCIDR0;                      /*!< TRCIDR0                                                                   */
+  __IOM uint32_t  TRCIDR1;                      /*!< TRCIDR1                                                                   */
+  __IOM uint32_t  TRCIDR2;                      /*!< TRCIDR2                                                                   */
+  __IOM uint32_t  TRCIDR3;                      /*!< TRCIDR3                                                                   */
+  __IOM uint32_t  TRCIDR4;                      /*!< TRCIDR4                                                                   */
+  __IOM uint32_t  TRCIDR5;                      /*!< TRCIDR5                                                                   */
+  __IOM uint32_t  TRCIDR6;                      /*!< TRCIDR6                                                                   */
+  __IOM uint32_t  TRCIDR7;                      /*!< TRCIDR7                                                                   */
+  __IM  uint32_t  RESERVED52[2];
+  __IOM uint32_t  TRCRSCTLR2;                   /*!< The TRCRSCTLR controls the trace resources                                */
+  __IOM uint32_t  TRCRSCTLR3;                   /*!< The TRCRSCTLR controls the trace resources                                */
+  __IM  uint32_t  RESERVED53[36];
+  __IOM uint32_t  TRCSSCSR;                     /*!< Controls the corresponding single-shot comparator resource                */
+  __IM  uint32_t  RESERVED54[7];
+  __IOM uint32_t  TRCSSPCICR;                   /*!< Selects the PE comparator inputs for Single-shot control                  */
+  __IM  uint32_t  RESERVED55[19];
+  __IOM uint32_t  TRCPDCR;                      /*!< Requests the system to provide power to the trace unit                    */
+  __IOM uint32_t  TRCPDSR;                      /*!< Returns the following information about the trace unit: - OS
+                                                     Lock status. - Core power domain status. - Power interruption
+                                                     status                                                                    */
+  __IM  uint32_t  RESERVED56[755];
+  __IOM uint32_t  TRCITATBIDR;                  /*!< Trace Integration ATB Identification Register                             */
+  __IM  uint32_t  RESERVED57[3];
+  __IOM uint32_t  TRCITIATBINR;                 /*!< Trace Integration Instruction ATB In Register                             */
+  __IM  uint32_t  RESERVED58;
+  __IOM uint32_t  TRCITIATBOUTR;                /*!< Trace Integration Instruction ATB Out Register                            */
+  __IM  uint32_t  RESERVED59[40];
+  __IOM uint32_t  TRCCLAIMSET;                  /*!< Claim Tag Set Register                                                    */
+  __IOM uint32_t  TRCCLAIMCLR;                  /*!< Claim Tag Clear Register                                                  */
+  __IM  uint32_t  RESERVED60[4];
+  __IOM uint32_t  TRCAUTHSTATUS;                /*!< Returns the level of tracing that the trace unit can support              */
+  __IOM uint32_t  TRCDEVARCH;                   /*!< TRCDEVARCH                                                                */
+  __IM  uint32_t  RESERVED61[2];
+  __IOM uint32_t  TRCDEVID;                     /*!< TRCDEVID                                                                  */
+  __IOM uint32_t  TRCDEVTYPE;                   /*!< TRCDEVTYPE                                                                */
+  __IOM uint32_t  TRCPIDR4;                     /*!< TRCPIDR4                                                                  */
+  __IOM uint32_t  TRCPIDR5;                     /*!< TRCPIDR5                                                                  */
+  __IOM uint32_t  TRCPIDR6;                     /*!< TRCPIDR6                                                                  */
+  __IOM uint32_t  TRCPIDR7;                     /*!< TRCPIDR7                                                                  */
+  __IOM uint32_t  TRCPIDR0;                     /*!< TRCPIDR0                                                                  */
+  __IOM uint32_t  TRCPIDR1;                     /*!< TRCPIDR1                                                                  */
+  __IOM uint32_t  TRCPIDR2;                     /*!< TRCPIDR2                                                                  */
+  __IOM uint32_t  TRCPIDR3;                     /*!< TRCPIDR3                                                                  */
+  __IOM uint32_t  TRCCIDR0;                     /*!< TRCCIDR0                                                                  */
+  __IOM uint32_t  TRCCIDR1;                     /*!< TRCCIDR1                                                                  */
+  __IOM uint32_t  TRCCIDR2;                     /*!< TRCCIDR2                                                                  */
+  __IOM uint32_t  TRCCIDR3;                     /*!< TRCCIDR3                                                                  */
+  __IOM uint32_t  CTICONTROL;                   /*!< CTI Control Register                                                      */
+  __IM  uint32_t  RESERVED62[3];
+  __IOM uint32_t  CTIINTACK;                    /*!< CTI Interrupt Acknowledge Register                                        */
+  __IOM uint32_t  CTIAPPSET;                    /*!< CTI Application Trigger Set Register                                      */
+  __IOM uint32_t  CTIAPPCLEAR;                  /*!< CTI Application Trigger Clear Register                                    */
+  __IOM uint32_t  CTIAPPPULSE;                  /*!< CTI Application Pulse Register                                            */
+  __IOM uint32_t  CTIINEN0;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN1;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN2;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN3;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN4;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN5;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN6;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIINEN7;                     /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IM  uint32_t  RESERVED63[24];
+  __IOM uint32_t  CTIOUTEN0;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN1;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN2;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN3;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN4;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN5;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN6;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTIOUTEN7;                    /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IM  uint32_t  RESERVED64[28];
+  __IOM uint32_t  CTITRIGINSTATUS;              /*!< CTI Trigger to Channel Enable Registers                                   */
+  __IOM uint32_t  CTITRIGOUTSTATUS;             /*!< CTI Trigger In Status Register                                            */
+  __IOM uint32_t  CTICHINSTATUS;                /*!< CTI Channel In Status Register                                            */
+  __IM  uint32_t  RESERVED65;
+  __IOM uint32_t  CTIGATE;                      /*!< Enable CTI Channel Gate register                                          */
+  __IOM uint32_t  ASICCTL;                      /*!< External Multiplexer Control register                                     */
+  __IM  uint32_t  RESERVED66[871];
+  __IOM uint32_t  ITCHOUT;                      /*!< Integration Test Channel Output register                                  */
+  __IOM uint32_t  ITTRIGOUT;                    /*!< Integration Test Trigger Output register                                  */
+  __IM  uint32_t  RESERVED67[2];
+  __IOM uint32_t  ITCHIN;                       /*!< Integration Test Channel Input register                                   */
+  __IM  uint32_t  RESERVED68[2];
+  __IOM uint32_t  ITCTRL;                       /*!< Integration Mode Control register                                         */
+  __IM  uint32_t  RESERVED69[46];
+  __IOM uint32_t  DEVARCH;                      /*!< Device Architecture register                                              */
+  __IM  uint32_t  RESERVED70[2];
+  __IOM uint32_t  DEVID;                        /*!< Device Configuration register                                             */
+  __IOM uint32_t  DEVTYPE;                      /*!< Device Type Identifier register                                           */
+  __IOM uint32_t  PIDR4;                        /*!< CoreSight Peripheral ID4                                                  */
+  __IOM uint32_t  PIDR5;                        /*!< CoreSight Peripheral ID5                                                  */
+  __IOM uint32_t  PIDR6;                        /*!< CoreSight Peripheral ID6                                                  */
+  __IOM uint32_t  PIDR7;                        /*!< CoreSight Peripheral ID7                                                  */
+  __IOM uint32_t  PIDR0;                        /*!< CoreSight Peripheral ID0                                                  */
+  __IOM uint32_t  PIDR1;                        /*!< CoreSight Peripheral ID1                                                  */
+  __IOM uint32_t  PIDR2;                        /*!< CoreSight Peripheral ID2                                                  */
+  __IOM uint32_t  PIDR3;                        /*!< CoreSight Peripheral ID3                                                  */
+  __IOM uint32_t  CIDR0;                        /*!< CoreSight Component ID0                                                   */
+  __IOM uint32_t  CIDR1;                        /*!< CoreSight Component ID1                                                   */
+  __IOM uint32_t  CIDR2;                        /*!< CoreSight Component ID2                                                   */
+  __IOM uint32_t  CIDR3;                        /*!< CoreSight Component ID3                                                   */
+} PPB_Type;                                     /*!< Size = 274432 (0x43000)                                                   */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            QMI                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief QSPI Memory Interface.
+
+            Provides a memory-mapped interface to up to two SPI/DSPI/QSPI flash or PSRAM devices. Also provides a serial interface for programming and configuration of the external device. (QMI)
+  */
+
+typedef struct {                                /*!< QMI Structure                                                             */
+  __IOM uint32_t  DIRECT_CSR;                   /*!< Control and status for direct serial mode Direct serial mode
+                                                     allows the processor to send and receive raw serial frames,
+                                                     for programming, configuration and control of the external
+                                                     memory devices. Only SPI mode 0 (CPOL=0 CPHA=0) is supported.             */
+  __IOM uint32_t  DIRECT_TX;                    /*!< Transmit FIFO for direct mode                                             */
+  __IOM uint32_t  DIRECT_RX;                    /*!< Receive FIFO for direct mode                                              */
+  __IOM uint32_t  M0_TIMING;                    /*!< Timing configuration register for memory address window 0.                */
+  __IOM uint32_t  M0_RFMT;                      /*!< Read transfer format configuration for memory address window
+                                                     0. Configure the bus width of each transfer phase individually,
+                                                     and configure the length or presence of the command prefix,
+                                                     command suffix and dummy/turnaround transfer phases. Only
+                                                     24-bit addresses are supported. The reset value of the
+                                                     M0_RFMT register is configured to support a basic 03h serial
+                                                     read transfer with no additional configuration.                           */
+  __IOM uint32_t  M0_RCMD;                      /*!< Command constants used for reads from memory address window
+                                                     0. The reset value of the M0_RCMD register is configured
+                                                     to support a basic 03h serial read transfer with no additional
+                                                     configuration.                                                            */
+  __IOM uint32_t  M0_WFMT;                      /*!< Write transfer format configuration for memory address window
+                                                     0. Configure the bus width of each transfer phase individually,
+                                                     and configure the length or presence of the command prefix,
+                                                     command suffix and dummy/turnaround transfer phases. Only
+                                                     24-bit addresses are supported. The reset value of the
+                                                     M0_WFMT register is configured to support a basic 02h serial
+                                                     write transfer. However, writes to this window must first
+                                                     be enabled via the XIP_CTRL_WRITABLE_M0 bit, as XIP memory
+                                                     is read-only by default.                                                  */
+  __IOM uint32_t  M0_WCMD;                      /*!< Command constants used for writes to memory address window 0.
+                                                     The reset value of the M0_WCMD register is configured to
+                                                     support a basic 02h serial write transfer with no additional
+                                                     configuration.                                                            */
+  __IOM uint32_t  M1_TIMING;                    /*!< Timing configuration register for memory address window 1.                */
+  __IOM uint32_t  M1_RFMT;                      /*!< Read transfer format configuration for memory address window
+                                                     1. Configure the bus width of each transfer phase individually,
+                                                     and configure the length or presence of the command prefix,
+                                                     command suffix and dummy/turnaround transfer phases. Only
+                                                     24-bit addresses are supported. The reset value of the
+                                                     M1_RFMT register is configured to support a basic 03h serial
+                                                     read transfer with no additional configuration.                           */
+  __IOM uint32_t  M1_RCMD;                      /*!< Command constants used for reads from memory address window
+                                                     1. The reset value of the M1_RCMD register is configured
+                                                     to support a basic 03h serial read transfer with no additional
+                                                     configuration.                                                            */
+  __IOM uint32_t  M1_WFMT;                      /*!< Write transfer format configuration for memory address window
+                                                     1. Configure the bus width of each transfer phase individually,
+                                                     and configure the length or presence of the command prefix,
+                                                     command suffix and dummy/turnaround transfer phases. Only
+                                                     24-bit addresses are supported. The reset value of the
+                                                     M1_WFMT register is configured to support a basic 02h serial
+                                                     write transfer. However, writes to this window must first
+                                                     be enabled via the XIP_CTRL_WRITABLE_M1 bit, as XIP memory
+                                                     is read-only by default.                                                  */
+  __IOM uint32_t  M1_WCMD;                      /*!< Command constants used for writes to memory address window 1.
+                                                     The reset value of the M1_WCMD register is configured to
+                                                     support a basic 02h serial write transfer with no additional
+                                                     configuration.                                                            */
+  __IOM uint32_t  ATRANS0;                      /*!< Configure address translation for XIP virtual addresses 0x000000
+                                                     through 0x3fffff (a 4 MiB window starting at +0 MiB). Address
+                                                     translation allows a program image to be executed in place
+                                                     at multiple physical flash addresses (for example, a double-buffered
+                                                     flash image for over-the-air updates), without the overhead
+                                                     of position-independent code. At reset, the address translation
+                                                     registers are initialised to an identity mapping, so that
+                                                     they can be ignored if address translation is not required.
+                                                     Note that the XIP cache is fully virtually addressed, so
+                                                     a cache flush is required after changing the address translation.         */
+  __IOM uint32_t  ATRANS1;                      /*!< Configure address translation for XIP virtual addresses 0x400000
+                                                     through 0x7fffff (a 4 MiB window starting at +4 MiB). Address
+                                                     translation allows a program image to be executed in place
+                                                     at multiple physical flash addresses (for example, a double-buffered
+                                                     flash image for over-the-air updates), without the overhead
+                                                     of position-independent code. At reset, the address translation
+                                                     registers are initialised to an identity mapping, so that
+                                                     they can be ignored if address translation is not required.
+                                                     Note that the XIP cache is fully virtually addressed, so
+                                                     a cache flush is required after changing the address translation.         */
+  __IOM uint32_t  ATRANS2;                      /*!< Configure address translation for XIP virtual addresses 0x800000
+                                                     through 0xbfffff (a 4 MiB window starting at +8 MiB). Address
+                                                     translation allows a program image to be executed in place
+                                                     at multiple physical flash addresses (for example, a double-buffered
+                                                     flash image for over-the-air updates), without the overhead
+                                                     of position-independent code. At reset, the address translation
+                                                     registers are initialised to an identity mapping, so that
+                                                     they can be ignored if address translation is not required.
+                                                     Note that the XIP cache is fully virtually addressed, so
+                                                     a cache flush is required after changing the address translation.         */
+  __IOM uint32_t  ATRANS3;                      /*!< Configure address translation for XIP virtual addresses 0xc00000
+                                                     through 0xffffff (a 4 MiB window starting at +12 MiB).
+                                                     Address translation allows a program image to be executed
+                                                     in place at multiple physical flash addresses (for example,
+                                                     a double-buffered flash image for over-the-air updates),
+                                                     without the overhead of position-independent code. At reset,
+                                                     the address translation registers are initialised to an
+                                                     identity mapping, so that they can be ignored if address
+                                                     translation is not required. Note that the XIP cache is
+                                                     fully virtually addressed, so a cache flush is required
+                                                     after changing the address translation.                                   */
+  __IOM uint32_t  ATRANS4;                      /*!< Configure address translation for XIP virtual addresses 0x1000000
+                                                     through 0x13fffff (a 4 MiB window starting at +16 MiB).
+                                                     Address translation allows a program image to be executed
+                                                     in place at multiple physical flash addresses (for example,
+                                                     a double-buffered flash image for over-the-air updates),
+                                                     without the overhead of position-independent code. At reset,
+                                                     the address translation registers are initialised to an
+                                                     identity mapping, so that they can be ignored if address
+                                                     translation is not required. Note that the XIP cache is
+                                                     fully virtually addressed, so a cache flush is required
+                                                     after changing the address translation.                                   */
+  __IOM uint32_t  ATRANS5;                      /*!< Configure address translation for XIP virtual addresses 0x1400000
+                                                     through 0x17fffff (a 4 MiB window starting at +20 MiB).
+                                                     Address translation allows a program image to be executed
+                                                     in place at multiple physical flash addresses (for example,
+                                                     a double-buffered flash image for over-the-air updates),
+                                                     without the overhead of position-independent code. At reset,
+                                                     the address translation registers are initialised to an
+                                                     identity mapping, so that they can be ignored if address
+                                                     translation is not required. Note that the XIP cache is
+                                                     fully virtually addressed, so a cache flush is required
+                                                     after changing the address translation.                                   */
+  __IOM uint32_t  ATRANS6;                      /*!< Configure address translation for XIP virtual addresses 0x1800000
+                                                     through 0x1bfffff (a 4 MiB window starting at +24 MiB).
+                                                     Address translation allows a program image to be executed
+                                                     in place at multiple physical flash addresses (for example,
+                                                     a double-buffered flash image for over-the-air updates),
+                                                     without the overhead of position-independent code. At reset,
+                                                     the address translation registers are initialised to an
+                                                     identity mapping, so that they can be ignored if address
+                                                     translation is not required. Note that the XIP cache is
+                                                     fully virtually addressed, so a cache flush is required
+                                                     after changing the address translation.                                   */
+  __IOM uint32_t  ATRANS7;                      /*!< Configure address translation for XIP virtual addresses 0x1c00000
+                                                     through 0x1ffffff (a 4 MiB window starting at +28 MiB).
+                                                     Address translation allows a program image to be executed
+                                                     in place at multiple physical flash addresses (for example,
+                                                     a double-buffered flash image for over-the-air updates),
+                                                     without the overhead of position-independent code. At reset,
+                                                     the address translation registers are initialised to an
+                                                     identity mapping, so that they can be ignored if address
+                                                     translation is not required. Note that the XIP cache is
+                                                     fully virtually addressed, so a cache flush is required
+                                                     after changing the address translation.                                   */
+} QMI_Type;                                     /*!< Size = 84 (0x54)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         XIP_CTRL                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief QSPI flash execute-in-place block (XIP_CTRL)
+  */
+
+typedef struct {                                /*!< XIP_CTRL Structure                                                        */
+  __IOM uint32_t  CTRL;                         /*!< Cache control register. Read-only from a Non-secure context.              */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  STAT;                         /*!< STAT                                                                      */
+  __IOM uint32_t  CTR_HIT;                      /*!< Cache Hit counter                                                         */
+  __IOM uint32_t  CTR_ACC;                      /*!< Cache Access counter                                                      */
+  __IOM uint32_t  STREAM_ADDR;                  /*!< FIFO stream address                                                       */
+  __IOM uint32_t  STREAM_CTR;                   /*!< FIFO stream control                                                       */
+  __IOM uint32_t  STREAM_FIFO;                  /*!< FIFO stream data                                                          */
+} XIP_CTRL_Type;                                /*!< Size = 32 (0x20)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          XIP_AUX                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Auxiliary DMA access to XIP FIFOs, via fast AHB bus access (XIP_AUX)
+  */
+
+typedef struct {                                /*!< XIP_AUX Structure                                                         */
+  __IOM uint32_t  STREAM;                       /*!< Read the XIP stream FIFO (fast bus access to XIP_CTRL_STREAM_FIFO)        */
+  __IOM uint32_t  QMI_DIRECT_TX;                /*!< Write to the QMI direct-mode TX FIFO (fast bus access to QMI_DIRECT_TX)   */
+  __IOM uint32_t  QMI_DIRECT_RX;                /*!< Read from the QMI direct-mode RX FIFO (fast bus access to QMI_DIRECT_RX)  */
+} XIP_AUX_Type;                                 /*!< Size = 12 (0xc)                                                           */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          SYSCFG                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Register block for various chip control signals (SYSCFG)
+  */
+
+typedef struct {                                /*!< SYSCFG Structure                                                          */
+  __IOM uint32_t  PROC_CONFIG;                  /*!< Configuration for processors                                              */
+  __IOM uint32_t  PROC_IN_SYNC_BYPASS;          /*!< For each bit, if 1, bypass the input synchronizer between that
+                                                     GPIO and the GPIO input register in the SIO. The input
+                                                     synchronizers should generally be unbypassed, to avoid
+                                                     injecting metastabilities into processors. If you're feeling
+                                                     brave, you can bypass to save two cycles of input latency.
+                                                     This register applies to GPIO 0...31.                                     */
+  __IOM uint32_t  PROC_IN_SYNC_BYPASS_HI;       /*!< For each bit, if 1, bypass the input synchronizer between that
+                                                     GPIO and the GPIO input register in the SIO. The input
+                                                     synchronizers should generally be unbypassed, to avoid
+                                                     injecting metastabilities into processors. If you're feeling
+                                                     brave, you can bypass to save two cycles of input latency.
+                                                     This register applies to GPIO 32...47. USB GPIO 56..57
+                                                     QSPI GPIO 58..63                                                          */
+  __IOM uint32_t  DBGFORCE;                     /*!< Directly control the chip SWD debug port                                  */
+  __IOM uint32_t  MEMPOWERDOWN;                 /*!< Control PD pins to memories. Set high to put memories to a low
+                                                     power state. In this state the memories will retain contents
+                                                     but not be accessible Use with caution                                    */
+  __IOM uint32_t  AUXCTRL;                      /*!< Auxiliary system control register                                         */
+} SYSCFG_Type;                                  /*!< Size = 24 (0x18)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           XOSC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Controls the crystal oscillator (XOSC)
+  */
+
+typedef struct {                                /*!< XOSC Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< Crystal Oscillator Control                                                */
+  __IOM uint32_t  STATUS;                       /*!< Crystal Oscillator Status                                                 */
+  __IOM uint32_t  DORMANT;                      /*!< Crystal Oscillator pause control                                          */
+  __IOM uint32_t  STARTUP;                      /*!< Controls the startup delay                                                */
+  __IOM uint32_t  COUNT;                        /*!< A down counter running at the xosc frequency which counts to
+                                                     zero and stops. Can be used for short software pauses when
+                                                     setting up time sensitive hardware. To start the counter,
+                                                     write a non-zero value. Reads will return 1 while the count
+                                                     is running and 0 when it has finished. Minimum count value
+                                                     is 4. Count values <4 will be treated as count value =4.
+                                                     Note that synchronisation to the register clock domain
+                                                     costs 2 register clock cycles and the counter cannot compensate
+                                                     for that.                                                                 */
+} XOSC_Type;                                    /*!< Size = 20 (0x14)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          PLL_SYS                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief PLL_SYS (PLL_SYS)
+  */
+
+typedef struct {                                /*!< PLL_SYS Structure                                                         */
+  __IOM uint32_t  CS;                           /*!< Control and Status GENERAL CONSTRAINTS: Reference clock frequency
+                                                     min=5MHz, max=800MHz Feedback divider min=16, max=320 VCO
+                                                     frequency min=750MHz, max=1600MHz                                         */
+  __IOM uint32_t  PWR;                          /*!< Controls the PLL power modes.                                             */
+  __IOM uint32_t  FBDIV_INT;                    /*!< Feedback divisor (note: this PLL does not support fractional
+                                                     division)                                                                 */
+  __IOM uint32_t  PRIM;                         /*!< Controls the PLL post dividers for the primary output (note:
+                                                     this PLL does not have a secondary output) the primary
+                                                     output is driven from VCO divided by postdiv1*postdiv2                    */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} PLL_SYS_Type;                                 /*!< Size = 32 (0x20)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                        ACCESSCTRL                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Hardware access control registers (ACCESSCTRL)
+  */
+
+typedef struct {                                /*!< ACCESSCTRL Structure                                                      */
+  __IOM uint32_t  LOCK;                         /*!< Once a LOCK bit is written to 1, ACCESSCTRL silently ignores
+                                                     writes from that master. LOCK is writable only by a Secure,
+                                                     Privileged processor or debugger. LOCK bits are only writable
+                                                     when their value is zero. Once set, they can never be cleared,
+                                                     except by a full reset of ACCESSCTRL Setting the LOCK bit
+                                                     does not affect whether an access raises a bus error. Unprivileged
+                                                     writes, or writes from the DMA, will continue to raise
+                                                     bus errors. All other accesses will continue not to.                      */
+  __IOM uint32_t  FORCE_CORE_NS;                /*!< Force core 1's bus accesses to always be Non-secure, no matter
+                                                     the core's internal state. Useful for schemes where one
+                                                     core is designated as the Non-secure core, since some peripherals
+                                                     may filter individual registers internally based on security
+                                                     state but not on master ID.                                               */
+  __IOM uint32_t  CFGRESET;                     /*!< Write 1 to reset all ACCESSCTRL configuration, except for the
+                                                     LOCK and FORCE_CORE_NS registers. This bit is used in the
+                                                     RP2350 bootrom to quickly restore ACCESSCTRL to a known
+                                                     state during the boot path. Note that, like all registers
+                                                     in ACCESSCTRL, this register is not writable when the writer's
+                                                     corresponding LOCK bit is set, therefore a master which
+                                                     has been locked out of ACCESSCTRL can not use the CFGRESET
+                                                     register to disturb its contents.                                         */
+  __IOM uint32_t  GPIO_NSMASK0;                 /*!< Control whether GPIO0...31 are accessible to Non-secure code.
+                                                     Writable only by a Secure, Privileged processor or debugger.
+                                                     0 -> Secure access only 1 -> Secure + Non-secure access                   */
+  __IOM uint32_t  GPIO_NSMASK1;                 /*!< Control whether GPIO32..47 are accessible to Non-secure code,
+                                                     and whether QSPI and USB bitbang are accessible through
+                                                     the Non-secure SIO. Writable only by a Secure, Privileged
+                                                     processor or debugger.                                                    */
+  __IOM uint32_t  ROM;                          /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     ROM, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  XIP_MAIN;                     /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     XIP_MAIN, and at what security/privilege levels they can
+                                                     do so. Defaults to fully open access. This register is
+                                                     writable only from a Secure, Privileged processor or debugger,
+                                                     with the exception of the NSU bit, which becomes Non-secure-Privileged-wr
+                                                     table when the NSP bit is set.                                            */
+  __IOM uint32_t  SRAM0;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM0, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM1;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM1, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM2;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM2, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM3;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM3, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM4;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM4, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM5;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM5, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM6;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM6, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM7;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM7, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM8;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM8, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SRAM9;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SRAM9, and at what security/privilege levels they can do
+                                                     so. Defaults to fully open access. This register is writable
+                                                     only from a Secure, Privileged processor or debugger, with
+                                                     the exception of the NSU bit, which becomes Non-secure-Privileged-writabl
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  DMA;                          /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     DMA, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  USBCTRL;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     USBCTRL, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PIO0;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PIO0, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PIO1;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PIO1, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PIO2;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PIO2, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  CORESIGHT_TRACE;              /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     CORESIGHT_TRACE, and at what security/privilege levels
+                                                     they can do so. Defaults to Secure, Privileged processor
+                                                     or debug access only. This register is writable only from
+                                                     a Secure, Privileged processor or debugger, with the exception
+                                                     of the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  CORESIGHT_PERIPH;             /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     CORESIGHT_PERIPH, and at what security/privilege levels
+                                                     they can do so. Defaults to Secure, Privileged processor
+                                                     or debug access only. This register is writable only from
+                                                     a Secure, Privileged processor or debugger, with the exception
+                                                     of the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  SYSINFO;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SYSINFO, and at what security/privilege levels they can
+                                                     do so. Defaults to fully open access. This register is
+                                                     writable only from a Secure, Privileged processor or debugger,
+                                                     with the exception of the NSU bit, which becomes Non-secure-Privileged-wr
+                                                     table when the NSP bit is set.                                            */
+  __IOM uint32_t  RESETS;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     RESETS, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  IO_BANK0;                     /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     IO_BANK0, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  IO_BANK1;                     /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     IO_BANK1, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PADS_BANK0;                   /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PADS_BANK0, and at what security/privilege levels they
+                                                     can do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PADS_QSPI;                    /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PADS_QSPI, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  BUSCTRL;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     BUSCTRL, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  ADC0;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     ADC0, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  HSTX;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     HSTX, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  I2C0;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     I2C0, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  I2C1;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     I2C1, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  PWM;                          /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PWM, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  SPI0;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SPI0, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  SPI1;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SPI1, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  TIMER0;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     TIMER0, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  TIMER1;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     TIMER1, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure access from any master. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  UART0;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     UART0, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  UART1;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     UART1, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  OTP;                          /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     OTP, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  TBMAN;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     TBMAN, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure access from any master. This register
+                                                     is writable only from a Secure, Privileged processor or
+                                                     debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  POWMAN;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     POWMAN, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  TRNG;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     TRNG, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure, Privileged processor or debug access
+                                                     only. This register is writable only from a Secure, Privileged
+                                                     processor or debugger, with the exception of the NSU bit,
+                                                     which becomes Non-secure-Privileged-writable when the NSP
+                                                     bit is set.                                                               */
+  __IOM uint32_t  SHA256;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SHA256, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged access only. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+  __IOM uint32_t  SYSCFG;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     SYSCFG, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  CLOCKS;                       /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     CLOCKS, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  XOSC;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     XOSC, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure, Privileged processor or debug access
+                                                     only. This register is writable only from a Secure, Privileged
+                                                     processor or debugger, with the exception of the NSU bit,
+                                                     which becomes Non-secure-Privileged-writable when the NSP
+                                                     bit is set.                                                               */
+  __IOM uint32_t  ROSC;                         /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     ROSC, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure, Privileged processor or debug access
+                                                     only. This register is writable only from a Secure, Privileged
+                                                     processor or debugger, with the exception of the NSU bit,
+                                                     which becomes Non-secure-Privileged-writable when the NSP
+                                                     bit is set.                                                               */
+  __IOM uint32_t  PLL_SYS;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PLL_SYS, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  PLL_USB;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     PLL_USB, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  TICKS;                        /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     TICKS, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure, Privileged processor or debug access
+                                                     only. This register is writable only from a Secure, Privileged
+                                                     processor or debugger, with the exception of the NSU bit,
+                                                     which becomes Non-secure-Privileged-writable when the NSP
+                                                     bit is set.                                                               */
+  __IOM uint32_t  WATCHDOG;                     /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     WATCHDOG, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  RSM;                          /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     RSM, and at what security/privilege levels they can do
+                                                     so. Defaults to Secure, Privileged processor or debug access
+                                                     only. This register is writable only from a Secure, Privileged
+                                                     processor or debugger, with the exception of the NSU bit,
+                                                     which becomes Non-secure-Privileged-writable when the NSP
+                                                     bit is set.                                                               */
+  __IOM uint32_t  XIP_CTRL;                     /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     XIP_CTRL, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  XIP_QMI;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     XIP_QMI, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged processor or debug
+                                                     access only. This register is writable only from a Secure,
+                                                     Privileged processor or debugger, with the exception of
+                                                     the NSU bit, which becomes Non-secure-Privileged-writable
+                                                     when the NSP bit is set.                                                  */
+  __IOM uint32_t  XIP_AUX;                      /*!< Control whether debugger, DMA, core 0 and core 1 can access
+                                                     XIP_AUX, and at what security/privilege levels they can
+                                                     do so. Defaults to Secure, Privileged access only. This
+                                                     register is writable only from a Secure, Privileged processor
+                                                     or debugger, with the exception of the NSU bit, which becomes
+                                                     Non-secure-Privileged-writable when the NSP bit is set.                   */
+} ACCESSCTRL_Type;                              /*!< Size = 236 (0xec)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           UART0                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief UART0 (UART0)
+  */
+
+typedef struct {                                /*!< UART0 Structure                                                           */
+  __IOM uint32_t  UARTDR;                       /*!< Data Register, UARTDR                                                     */
+  __IOM uint32_t  UARTRSR;                      /*!< Receive Status Register/Error Clear Register, UARTRSR/UARTECR             */
+  __IM  uint32_t  RESERVED[4];
+  __IOM uint32_t  UARTFR;                       /*!< Flag Register, UARTFR                                                     */
+  __IM  uint32_t  RESERVED1;
+  __IOM uint32_t  UARTILPR;                     /*!< IrDA Low-Power Counter Register, UARTILPR                                 */
+  __IOM uint32_t  UARTIBRD;                     /*!< Integer Baud Rate Register, UARTIBRD                                      */
+  __IOM uint32_t  UARTFBRD;                     /*!< Fractional Baud Rate Register, UARTFBRD                                   */
+  __IOM uint32_t  UARTLCR_H;                    /*!< Line Control Register, UARTLCR_H                                          */
+  __IOM uint32_t  UARTCR;                       /*!< Control Register, UARTCR                                                  */
+  __IOM uint32_t  UARTIFLS;                     /*!< Interrupt FIFO Level Select Register, UARTIFLS                            */
+  __IOM uint32_t  UARTIMSC;                     /*!< Interrupt Mask Set/Clear Register, UARTIMSC                               */
+  __IOM uint32_t  UARTRIS;                      /*!< Raw Interrupt Status Register, UARTRIS                                    */
+  __IOM uint32_t  UARTMIS;                      /*!< Masked Interrupt Status Register, UARTMIS                                 */
+  __IOM uint32_t  UARTICR;                      /*!< Interrupt Clear Register, UARTICR                                         */
+  __IOM uint32_t  UARTDMACR;                    /*!< DMA Control Register, UARTDMACR                                           */
+  __IM  uint32_t  RESERVED2[997];
+  __IOM uint32_t  UARTPERIPHID0;                /*!< UARTPeriphID0 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID1;                /*!< UARTPeriphID1 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID2;                /*!< UARTPeriphID2 Register                                                    */
+  __IOM uint32_t  UARTPERIPHID3;                /*!< UARTPeriphID3 Register                                                    */
+  __IOM uint32_t  UARTPCELLID0;                 /*!< UARTPCellID0 Register                                                     */
+  __IOM uint32_t  UARTPCELLID1;                 /*!< UARTPCellID1 Register                                                     */
+  __IOM uint32_t  UARTPCELLID2;                 /*!< UARTPCellID2 Register                                                     */
+  __IOM uint32_t  UARTPCELLID3;                 /*!< UARTPCellID3 Register                                                     */
+} UART0_Type;                                   /*!< Size = 4096 (0x1000)                                                      */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           ROSC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief ROSC (ROSC)
+  */
+
+typedef struct {                                /*!< ROSC Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< Ring Oscillator control                                                   */
+  __IOM uint32_t  FREQA;                        /*!< The FREQA & FREQB registers control the frequency by controlling
+                                                     the drive strength of each stage The drive strength has
+                                                     4 levels determined by the number of bits set Increasing
+                                                     the number of bits set increases the drive strength and
+                                                     increases the oscillation frequency 0 bits set is the default
+                                                     drive strength 1 bit set doubles the drive strength 2 bits
+                                                     set triples drive strength 3 bits set quadruples drive
+                                                     strength For frequency randomisation set both DS0_RANDOM=1
+                                                     & DS1_RANDOM=1                                                            */
+  __IOM uint32_t  FREQB;                        /*!< For a detailed description see freqa register                             */
+  __IOM uint32_t  RANDOM;                       /*!< Loads a value to the LFSR randomiser                                      */
+  __IOM uint32_t  DORMANT;                      /*!< Ring Oscillator pause control                                             */
+  __IOM uint32_t  DIV;                          /*!< Controls the output divider                                               */
+  __IOM uint32_t  PHASE;                        /*!< Controls the phase shifted output                                         */
+  __IOM uint32_t  STATUS;                       /*!< Ring Oscillator Status                                                    */
+  __IOM uint32_t  RANDOMBIT;                    /*!< This just reads the state of the oscillator output so randomness
+                                                     is compromised if the ring oscillator is stopped or run
+                                                     at a harmonic of the bus frequency                                        */
+  __IOM uint32_t  COUNT;                        /*!< A down counter running at the ROSC frequency which counts to
+                                                     zero and stops. To start the counter write a non-zero value.
+                                                     Can be used for short software pauses when setting up time
+                                                     sensitive hardware.                                                       */
+} ROSC_Type;                                    /*!< Size = 40 (0x28)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          POWMAN                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Controls vreg, bor, lposc, chip resets & xosc startup, powman and provides scratch register for general use and for bootcode use (POWMAN)
+  */
+
+typedef struct {                                /*!< POWMAN Structure                                                          */
+  __IOM uint32_t  BADPASSWD;                    /*!< Indicates a bad password has been used                                    */
+  __IOM uint32_t  VREG_CTRL;                    /*!< Voltage Regulator Control                                                 */
+  __IOM uint32_t  VREG_STS;                     /*!< Voltage Regulator Status                                                  */
+  __IOM uint32_t  VREG;                         /*!< Voltage Regulator Settings                                                */
+  __IOM uint32_t  VREG_LP_ENTRY;                /*!< Voltage Regulator Low Power Entry Settings                                */
+  __IOM uint32_t  VREG_LP_EXIT;                 /*!< Voltage Regulator Low Power Exit Settings                                 */
+  __IOM uint32_t  BOD_CTRL;                     /*!< Brown-out Detection Control                                               */
+  __IOM uint32_t  BOD;                          /*!< Brown-out Detection Settings                                              */
+  __IOM uint32_t  BOD_LP_ENTRY;                 /*!< Brown-out Detection Low Power Entry Settings                              */
+  __IOM uint32_t  BOD_LP_EXIT;                  /*!< Brown-out Detection Low Power Exit Settings                               */
+  __IOM uint32_t  LPOSC;                        /*!< Low power oscillator control register.                                    */
+  __IOM uint32_t  CHIP_RESET;                   /*!< Chip reset control and status                                             */
+  __IOM uint32_t  WDSEL;                        /*!< Allows a watchdog reset to reset the internal state of powman
+                                                     in addition to the power-on state machine (PSM). Note that
+                                                     powman ignores watchdog resets that do not select at least
+                                                     the CLOCKS stage or earlier stages in the PSM. If using
+                                                     these bits, it's recommended to set PSM_WDSEL to all-ones
+                                                     in addition to the desired bits in this register. Failing
+                                                     to select CLOCKS or earlier will result in the POWMAN_WDSEL
+                                                     register having no effect.                                                */
+  __IOM uint32_t  SEQ_CFG;                      /*!< For configuration of the power sequencer Writes are ignored
+                                                     while POWMAN_STATE_CHANGING=1                                             */
+  __IOM uint32_t  STATE;                        /*!< This register controls the power state of the 4 power domains.
+                                                     The current power state is indicated in POWMAN_STATE_CURRENT
+                                                     which is read-only. To change the state, write to POWMAN_STATE_REQ.
+                                                     The coding of POWMAN_STATE_CURRENT & POWMAN_STATE_REQ corresponds
+                                                     to the power states defined in the datasheet: bit 3 = SWCORE
+                                                     bit 2 = XIP cache bit 1 = SRAM0 bit 0 = SRAM1 0 = powered
+                                                     up 1 = powered down When POWMAN_STATE_REQ is written, the
+                                                     POWMAN_STATE_WAITING flag is set while the Power Manager
+                                                     determines what is required. If an invalid transition is
+                                                     requested the Power Manager will still register the request
+                                                     in POWMAN_STATE_REQ but will also set the POWMAN_BAD_REQ
+                                                     flag. It will then implement the power-up requests and
+                                                     ignore the power down requests. To do nothing would risk
+                                                     entering an unrecoverable lock-up state. Invalid requests
+                                                     are: any combination of power up and power down requests
+                                                     any request that results in swcore boing powered and xip
+                                                     unpowered If the request is to power down the switched-core
+                                                     domain then POWMAN_STATE_WAITING stays active until the
+                                                     processors halt. During this time the POWMAN_STATE_REQ
+                                                     field can be re-written to change or cancel the request.
+                                                     When the power state transition begins the POWMAN_STATE_WAITING_flag
+                                                     is cleared, the POWMAN_STATE_CHANGING flag is set and POWMAN
+                                                     register writes are ignored until the transition completes.               */
+  __IOM uint32_t  POW_FASTDIV;                  /*!< POW_FASTDIV                                                               */
+  __IOM uint32_t  POW_DELAY;                    /*!< power state machine delays                                                */
+  __IOM uint32_t  EXT_CTRL0;                    /*!< Configures a gpio as a power mode aware control output                    */
+  __IOM uint32_t  EXT_CTRL1;                    /*!< Configures a gpio as a power mode aware control output                    */
+  __IOM uint32_t  EXT_TIME_REF;                 /*!< Select a GPIO to use as a time reference, the source can be
+                                                     used to drive the low power clock at 32kHz, or to provide
+                                                     a 1ms tick to the timer, or provide a 1Hz tick to the timer.
+                                                     The tick selection is controlled by the POWMAN_TIMER register.            */
+  __IOM uint32_t  LPOSC_FREQ_KHZ_INT;           /*!< Informs the AON Timer of the integer component of the clock
+                                                     frequency when running off the LPOSC.                                     */
+  __IOM uint32_t  LPOSC_FREQ_KHZ_FRAC;          /*!< Informs the AON Timer of the fractional component of the clock
+                                                     frequency when running off the LPOSC.                                     */
+  __IOM uint32_t  XOSC_FREQ_KHZ_INT;            /*!< Informs the AON Timer of the integer component of the clock
+                                                     frequency when running off the XOSC.                                      */
+  __IOM uint32_t  XOSC_FREQ_KHZ_FRAC;           /*!< Informs the AON Timer of the fractional component of the clock
+                                                     frequency when running off the XOSC.                                      */
+  __IOM uint32_t  SET_TIME_63TO48;              /*!< SET_TIME_63TO48                                                           */
+  __IOM uint32_t  SET_TIME_47TO32;              /*!< SET_TIME_47TO32                                                           */
+  __IOM uint32_t  SET_TIME_31TO16;              /*!< SET_TIME_31TO16                                                           */
+  __IOM uint32_t  SET_TIME_15TO0;               /*!< SET_TIME_15TO0                                                            */
+  __IOM uint32_t  READ_TIME_UPPER;              /*!< READ_TIME_UPPER                                                           */
+  __IOM uint32_t  READ_TIME_LOWER;              /*!< READ_TIME_LOWER                                                           */
+  __IOM uint32_t  ALARM_TIME_63TO48;            /*!< ALARM_TIME_63TO48                                                         */
+  __IOM uint32_t  ALARM_TIME_47TO32;            /*!< ALARM_TIME_47TO32                                                         */
+  __IOM uint32_t  ALARM_TIME_31TO16;            /*!< ALARM_TIME_31TO16                                                         */
+  __IOM uint32_t  ALARM_TIME_15TO0;             /*!< ALARM_TIME_15TO0                                                          */
+  __IOM uint32_t  TIMER;                        /*!< TIMER                                                                     */
+  __IOM uint32_t  PWRUP0;                       /*!< 4 GPIO powerup events can be configured to wake the chip up
+                                                     from a low power state. The pwrups are level/edge sensitive
+                                                     and can be set to trigger on a high/rising or low/falling
+                                                     event The number of gpios available depends on the package
+                                                     option. An invalid selection will be ignored source = 0
+                                                     selects gpio0 . . source = 47 selects gpio47 source = 48
+                                                     selects qspi_ss source = 49 selects qspi_sd0 source = 50
+                                                     selects qspi_sd1 source = 51 selects qspi_sd2 source =
+                                                     52 selects qspi_sd3 source = 53 selects qspi_sclk level
+                                                     = 0 triggers the pwrup when the source is low level = 1
+                                                     triggers the pwrup when the source is high                                */
+  __IOM uint32_t  PWRUP1;                       /*!< 4 GPIO powerup events can be configured to wake the chip up
+                                                     from a low power state. The pwrups are level/edge sensitive
+                                                     and can be set to trigger on a high/rising or low/falling
+                                                     event The number of gpios available depends on the package
+                                                     option. An invalid selection will be ignored source = 0
+                                                     selects gpio0 . . source = 47 selects gpio47 source = 48
+                                                     selects qspi_ss source = 49 selects qspi_sd0 source = 50
+                                                     selects qspi_sd1 source = 51 selects qspi_sd2 source =
+                                                     52 selects qspi_sd3 source = 53 selects qspi_sclk level
+                                                     = 0 triggers the pwrup when the source is low level = 1
+                                                     triggers the pwrup when the source is high                                */
+  __IOM uint32_t  PWRUP2;                       /*!< 4 GPIO powerup events can be configured to wake the chip up
+                                                     from a low power state. The pwrups are level/edge sensitive
+                                                     and can be set to trigger on a high/rising or low/falling
+                                                     event The number of gpios available depends on the package
+                                                     option. An invalid selection will be ignored source = 0
+                                                     selects gpio0 . . source = 47 selects gpio47 source = 48
+                                                     selects qspi_ss source = 49 selects qspi_sd0 source = 50
+                                                     selects qspi_sd1 source = 51 selects qspi_sd2 source =
+                                                     52 selects qspi_sd3 source = 53 selects qspi_sclk level
+                                                     = 0 triggers the pwrup when the source is low level = 1
+                                                     triggers the pwrup when the source is high                                */
+  __IOM uint32_t  PWRUP3;                       /*!< 4 GPIO powerup events can be configured to wake the chip up
+                                                     from a low power state. The pwrups are level/edge sensitive
+                                                     and can be set to trigger on a high/rising or low/falling
+                                                     event The number of gpios available depends on the package
+                                                     option. An invalid selection will be ignored source = 0
+                                                     selects gpio0 . . source = 47 selects gpio47 source = 48
+                                                     selects qspi_ss source = 49 selects qspi_sd0 source = 50
+                                                     selects qspi_sd1 source = 51 selects qspi_sd2 source =
+                                                     52 selects qspi_sd3 source = 53 selects qspi_sclk level
+                                                     = 0 triggers the pwrup when the source is low level = 1
+                                                     triggers the pwrup when the source is high                                */
+  __IOM uint32_t  CURRENT_PWRUP_REQ;            /*!< Indicates current powerup request state pwrup events can be
+                                                     cleared by removing the enable from the pwrup register.
+                                                     The alarm pwrup req can be cleared by clearing timer.alarm_enab
+                                                     0 = chip reset, for the source of the last reset see POWMAN_CHIP_RESET
+                                                     1 = pwrup0 2 = pwrup1 3 = pwrup2 4 = pwrup3 5 = coresight_pwrup
+                                                     6 = alarm_pwrup                                                           */
+  __IOM uint32_t  LAST_SWCORE_PWRUP;            /*!< Indicates which pwrup source triggered the last switched-core
+                                                     power up 0 = chip reset, for the source of the last reset
+                                                     see POWMAN_CHIP_RESET 1 = pwrup0 2 = pwrup1 3 = pwrup2
+                                                     4 = pwrup3 5 = coresight_pwrup 6 = alarm_pwrup                            */
+  __IOM uint32_t  DBG_PWRCFG;                   /*!< DBG_PWRCFG                                                                */
+  __IOM uint32_t  BOOTDIS;                      /*!< Tell the bootrom to ignore the BOOT0..3 registers following
+                                                     the next RSM reset (e.g. the next core power down/up).
+                                                     If an early boot stage has soft-locked some OTP pages in
+                                                     order to protect their contents from later stages, there
+                                                     is a risk that Secure code running at a later stage can
+                                                     unlock the pages by powering the core up and down. This
+                                                     register can be used to ensure that the bootloader runs
+                                                     as normal on the next power up, preventing Secure code
+                                                     at a later stage from accessing OTP in its unlocked state.
+                                                     Should be used in conjunction with the OTP BOOTDIS register.              */
+  __IOM uint32_t  DBGCONFIG;                    /*!< DBGCONFIG                                                                 */
+  __IOM uint32_t  SCRATCH0;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH1;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH2;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH3;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH4;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH5;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH6;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  SCRATCH7;                     /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  BOOT0;                        /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  BOOT1;                        /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  BOOT2;                        /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  BOOT3;                        /*!< Scratch register. Information persists in low power mode                  */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} POWMAN_Type;                                  /*!< Size = 240 (0xf0)                                                         */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         WATCHDOG                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief WATCHDOG (WATCHDOG)
+  */
+
+typedef struct {                                /*!< WATCHDOG Structure                                                        */
+  __IOM uint32_t  CTRL;                         /*!< Watchdog control The rst_wdsel register determines which subsystems
+                                                     are reset when the watchdog is triggered. The watchdog
+                                                     can be triggered in software.                                             */
+  __IOM uint32_t  LOAD;                         /*!< Load the watchdog timer. The maximum setting is 0xffffff which
+                                                     corresponds to approximately 16 seconds.                                  */
+  __IOM uint32_t  REASON;                       /*!< Logs the reason for the last reset. Both bits are zero for the
+                                                     case of a hardware reset. Additionally, as of RP2350, a
+                                                     debugger warm reset of either core (SYSRESETREQ or hartreset)
+                                                     will also clear the watchdog reason register, so that software
+                                                     loaded under the debugger following a watchdog timeout
+                                                     will not continue to see the timeout condition.                           */
+  __IOM uint32_t  SCRATCH0;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH1;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH2;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH3;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH4;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH5;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH6;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+  __IOM uint32_t  SCRATCH7;                     /*!< Scratch register. Information persists through soft reset of
+                                                     the chip.                                                                 */
+} WATCHDOG_Type;                                /*!< Size = 44 (0x2c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            DMA                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DMA with separate read and write masters (DMA)
+  */
+
+typedef struct {                                /*!< DMA Structure                                                             */
+  __IOM uint32_t  CH0_READ_ADDR;                /*!< DMA Channel 0 Read Address pointer                                        */
+  __IOM uint32_t  CH0_WRITE_ADDR;               /*!< DMA Channel 0 Write Address pointer                                       */
+  __IOM uint32_t  CH0_TRANS_COUNT;              /*!< DMA Channel 0 Transfer Count                                              */
+  __IOM uint32_t  CH0_CTRL_TRIG;                /*!< DMA Channel 0 Control and Status                                          */
+  __IOM uint32_t  CH0_AL1_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL1_READ_ADDR;            /*!< Alias for channel 0 READ_ADDR register                                    */
+  __IOM uint32_t  CH0_AL1_WRITE_ADDR;           /*!< Alias for channel 0 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH0_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 0 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH0_AL2_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL2_TRANS_COUNT;          /*!< Alias for channel 0 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH0_AL2_READ_ADDR;            /*!< Alias for channel 0 READ_ADDR register                                    */
+  __IOM uint32_t  CH0_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 0 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH0_AL3_CTRL;                 /*!< Alias for channel 0 CTRL register                                         */
+  __IOM uint32_t  CH0_AL3_WRITE_ADDR;           /*!< Alias for channel 0 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH0_AL3_TRANS_COUNT;          /*!< Alias for channel 0 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH0_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 0 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_READ_ADDR;                /*!< DMA Channel 1 Read Address pointer                                        */
+  __IOM uint32_t  CH1_WRITE_ADDR;               /*!< DMA Channel 1 Write Address pointer                                       */
+  __IOM uint32_t  CH1_TRANS_COUNT;              /*!< DMA Channel 1 Transfer Count                                              */
+  __IOM uint32_t  CH1_CTRL_TRIG;                /*!< DMA Channel 1 Control and Status                                          */
+  __IOM uint32_t  CH1_AL1_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL1_READ_ADDR;            /*!< Alias for channel 1 READ_ADDR register                                    */
+  __IOM uint32_t  CH1_AL1_WRITE_ADDR;           /*!< Alias for channel 1 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH1_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 1 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_AL2_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL2_TRANS_COUNT;          /*!< Alias for channel 1 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH1_AL2_READ_ADDR;            /*!< Alias for channel 1 READ_ADDR register                                    */
+  __IOM uint32_t  CH1_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 1 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH1_AL3_CTRL;                 /*!< Alias for channel 1 CTRL register                                         */
+  __IOM uint32_t  CH1_AL3_WRITE_ADDR;           /*!< Alias for channel 1 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH1_AL3_TRANS_COUNT;          /*!< Alias for channel 1 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH1_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 1 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_READ_ADDR;                /*!< DMA Channel 2 Read Address pointer                                        */
+  __IOM uint32_t  CH2_WRITE_ADDR;               /*!< DMA Channel 2 Write Address pointer                                       */
+  __IOM uint32_t  CH2_TRANS_COUNT;              /*!< DMA Channel 2 Transfer Count                                              */
+  __IOM uint32_t  CH2_CTRL_TRIG;                /*!< DMA Channel 2 Control and Status                                          */
+  __IOM uint32_t  CH2_AL1_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL1_READ_ADDR;            /*!< Alias for channel 2 READ_ADDR register                                    */
+  __IOM uint32_t  CH2_AL1_WRITE_ADDR;           /*!< Alias for channel 2 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH2_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 2 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_AL2_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL2_TRANS_COUNT;          /*!< Alias for channel 2 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH2_AL2_READ_ADDR;            /*!< Alias for channel 2 READ_ADDR register                                    */
+  __IOM uint32_t  CH2_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 2 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH2_AL3_CTRL;                 /*!< Alias for channel 2 CTRL register                                         */
+  __IOM uint32_t  CH2_AL3_WRITE_ADDR;           /*!< Alias for channel 2 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH2_AL3_TRANS_COUNT;          /*!< Alias for channel 2 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH2_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 2 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_READ_ADDR;                /*!< DMA Channel 3 Read Address pointer                                        */
+  __IOM uint32_t  CH3_WRITE_ADDR;               /*!< DMA Channel 3 Write Address pointer                                       */
+  __IOM uint32_t  CH3_TRANS_COUNT;              /*!< DMA Channel 3 Transfer Count                                              */
+  __IOM uint32_t  CH3_CTRL_TRIG;                /*!< DMA Channel 3 Control and Status                                          */
+  __IOM uint32_t  CH3_AL1_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL1_READ_ADDR;            /*!< Alias for channel 3 READ_ADDR register                                    */
+  __IOM uint32_t  CH3_AL1_WRITE_ADDR;           /*!< Alias for channel 3 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH3_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 3 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_AL2_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL2_TRANS_COUNT;          /*!< Alias for channel 3 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH3_AL2_READ_ADDR;            /*!< Alias for channel 3 READ_ADDR register                                    */
+  __IOM uint32_t  CH3_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 3 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH3_AL3_CTRL;                 /*!< Alias for channel 3 CTRL register                                         */
+  __IOM uint32_t  CH3_AL3_WRITE_ADDR;           /*!< Alias for channel 3 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH3_AL3_TRANS_COUNT;          /*!< Alias for channel 3 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH3_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 3 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_READ_ADDR;                /*!< DMA Channel 4 Read Address pointer                                        */
+  __IOM uint32_t  CH4_WRITE_ADDR;               /*!< DMA Channel 4 Write Address pointer                                       */
+  __IOM uint32_t  CH4_TRANS_COUNT;              /*!< DMA Channel 4 Transfer Count                                              */
+  __IOM uint32_t  CH4_CTRL_TRIG;                /*!< DMA Channel 4 Control and Status                                          */
+  __IOM uint32_t  CH4_AL1_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL1_READ_ADDR;            /*!< Alias for channel 4 READ_ADDR register                                    */
+  __IOM uint32_t  CH4_AL1_WRITE_ADDR;           /*!< Alias for channel 4 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH4_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 4 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_AL2_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL2_TRANS_COUNT;          /*!< Alias for channel 4 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH4_AL2_READ_ADDR;            /*!< Alias for channel 4 READ_ADDR register                                    */
+  __IOM uint32_t  CH4_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 4 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH4_AL3_CTRL;                 /*!< Alias for channel 4 CTRL register                                         */
+  __IOM uint32_t  CH4_AL3_WRITE_ADDR;           /*!< Alias for channel 4 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH4_AL3_TRANS_COUNT;          /*!< Alias for channel 4 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH4_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 4 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_READ_ADDR;                /*!< DMA Channel 5 Read Address pointer                                        */
+  __IOM uint32_t  CH5_WRITE_ADDR;               /*!< DMA Channel 5 Write Address pointer                                       */
+  __IOM uint32_t  CH5_TRANS_COUNT;              /*!< DMA Channel 5 Transfer Count                                              */
+  __IOM uint32_t  CH5_CTRL_TRIG;                /*!< DMA Channel 5 Control and Status                                          */
+  __IOM uint32_t  CH5_AL1_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL1_READ_ADDR;            /*!< Alias for channel 5 READ_ADDR register                                    */
+  __IOM uint32_t  CH5_AL1_WRITE_ADDR;           /*!< Alias for channel 5 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH5_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 5 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_AL2_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL2_TRANS_COUNT;          /*!< Alias for channel 5 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH5_AL2_READ_ADDR;            /*!< Alias for channel 5 READ_ADDR register                                    */
+  __IOM uint32_t  CH5_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 5 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH5_AL3_CTRL;                 /*!< Alias for channel 5 CTRL register                                         */
+  __IOM uint32_t  CH5_AL3_WRITE_ADDR;           /*!< Alias for channel 5 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH5_AL3_TRANS_COUNT;          /*!< Alias for channel 5 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH5_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 5 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_READ_ADDR;                /*!< DMA Channel 6 Read Address pointer                                        */
+  __IOM uint32_t  CH6_WRITE_ADDR;               /*!< DMA Channel 6 Write Address pointer                                       */
+  __IOM uint32_t  CH6_TRANS_COUNT;              /*!< DMA Channel 6 Transfer Count                                              */
+  __IOM uint32_t  CH6_CTRL_TRIG;                /*!< DMA Channel 6 Control and Status                                          */
+  __IOM uint32_t  CH6_AL1_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL1_READ_ADDR;            /*!< Alias for channel 6 READ_ADDR register                                    */
+  __IOM uint32_t  CH6_AL1_WRITE_ADDR;           /*!< Alias for channel 6 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH6_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 6 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_AL2_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL2_TRANS_COUNT;          /*!< Alias for channel 6 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH6_AL2_READ_ADDR;            /*!< Alias for channel 6 READ_ADDR register                                    */
+  __IOM uint32_t  CH6_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 6 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH6_AL3_CTRL;                 /*!< Alias for channel 6 CTRL register                                         */
+  __IOM uint32_t  CH6_AL3_WRITE_ADDR;           /*!< Alias for channel 6 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH6_AL3_TRANS_COUNT;          /*!< Alias for channel 6 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH6_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 6 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_READ_ADDR;                /*!< DMA Channel 7 Read Address pointer                                        */
+  __IOM uint32_t  CH7_WRITE_ADDR;               /*!< DMA Channel 7 Write Address pointer                                       */
+  __IOM uint32_t  CH7_TRANS_COUNT;              /*!< DMA Channel 7 Transfer Count                                              */
+  __IOM uint32_t  CH7_CTRL_TRIG;                /*!< DMA Channel 7 Control and Status                                          */
+  __IOM uint32_t  CH7_AL1_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL1_READ_ADDR;            /*!< Alias for channel 7 READ_ADDR register                                    */
+  __IOM uint32_t  CH7_AL1_WRITE_ADDR;           /*!< Alias for channel 7 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH7_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 7 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_AL2_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL2_TRANS_COUNT;          /*!< Alias for channel 7 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH7_AL2_READ_ADDR;            /*!< Alias for channel 7 READ_ADDR register                                    */
+  __IOM uint32_t  CH7_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 7 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH7_AL3_CTRL;                 /*!< Alias for channel 7 CTRL register                                         */
+  __IOM uint32_t  CH7_AL3_WRITE_ADDR;           /*!< Alias for channel 7 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH7_AL3_TRANS_COUNT;          /*!< Alias for channel 7 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH7_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 7 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_READ_ADDR;                /*!< DMA Channel 8 Read Address pointer                                        */
+  __IOM uint32_t  CH8_WRITE_ADDR;               /*!< DMA Channel 8 Write Address pointer                                       */
+  __IOM uint32_t  CH8_TRANS_COUNT;              /*!< DMA Channel 8 Transfer Count                                              */
+  __IOM uint32_t  CH8_CTRL_TRIG;                /*!< DMA Channel 8 Control and Status                                          */
+  __IOM uint32_t  CH8_AL1_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL1_READ_ADDR;            /*!< Alias for channel 8 READ_ADDR register                                    */
+  __IOM uint32_t  CH8_AL1_WRITE_ADDR;           /*!< Alias for channel 8 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH8_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 8 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_AL2_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL2_TRANS_COUNT;          /*!< Alias for channel 8 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH8_AL2_READ_ADDR;            /*!< Alias for channel 8 READ_ADDR register                                    */
+  __IOM uint32_t  CH8_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 8 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH8_AL3_CTRL;                 /*!< Alias for channel 8 CTRL register                                         */
+  __IOM uint32_t  CH8_AL3_WRITE_ADDR;           /*!< Alias for channel 8 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH8_AL3_TRANS_COUNT;          /*!< Alias for channel 8 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH8_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 8 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_READ_ADDR;                /*!< DMA Channel 9 Read Address pointer                                        */
+  __IOM uint32_t  CH9_WRITE_ADDR;               /*!< DMA Channel 9 Write Address pointer                                       */
+  __IOM uint32_t  CH9_TRANS_COUNT;              /*!< DMA Channel 9 Transfer Count                                              */
+  __IOM uint32_t  CH9_CTRL_TRIG;                /*!< DMA Channel 9 Control and Status                                          */
+  __IOM uint32_t  CH9_AL1_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL1_READ_ADDR;            /*!< Alias for channel 9 READ_ADDR register                                    */
+  __IOM uint32_t  CH9_AL1_WRITE_ADDR;           /*!< Alias for channel 9 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH9_AL1_TRANS_COUNT_TRIG;     /*!< Alias for channel 9 TRANS_COUNT register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_AL2_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL2_TRANS_COUNT;          /*!< Alias for channel 9 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH9_AL2_READ_ADDR;            /*!< Alias for channel 9 READ_ADDR register                                    */
+  __IOM uint32_t  CH9_AL2_WRITE_ADDR_TRIG;      /*!< Alias for channel 9 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH9_AL3_CTRL;                 /*!< Alias for channel 9 CTRL register                                         */
+  __IOM uint32_t  CH9_AL3_WRITE_ADDR;           /*!< Alias for channel 9 WRITE_ADDR register                                   */
+  __IOM uint32_t  CH9_AL3_TRANS_COUNT;          /*!< Alias for channel 9 TRANS_COUNT register                                  */
+  __IOM uint32_t  CH9_AL3_READ_ADDR_TRIG;       /*!< Alias for channel 9 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH10_READ_ADDR;               /*!< DMA Channel 10 Read Address pointer                                       */
+  __IOM uint32_t  CH10_WRITE_ADDR;              /*!< DMA Channel 10 Write Address pointer                                      */
+  __IOM uint32_t  CH10_TRANS_COUNT;             /*!< DMA Channel 10 Transfer Count                                             */
+  __IOM uint32_t  CH10_CTRL_TRIG;               /*!< DMA Channel 10 Control and Status                                         */
+  __IOM uint32_t  CH10_AL1_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL1_READ_ADDR;           /*!< Alias for channel 10 READ_ADDR register                                   */
+  __IOM uint32_t  CH10_AL1_WRITE_ADDR;          /*!< Alias for channel 10 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH10_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 10 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH10_AL2_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL2_TRANS_COUNT;         /*!< Alias for channel 10 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH10_AL2_READ_ADDR;           /*!< Alias for channel 10 READ_ADDR register                                   */
+  __IOM uint32_t  CH10_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 10 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH10_AL3_CTRL;                /*!< Alias for channel 10 CTRL register                                        */
+  __IOM uint32_t  CH10_AL3_WRITE_ADDR;          /*!< Alias for channel 10 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH10_AL3_TRANS_COUNT;         /*!< Alias for channel 10 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH10_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 10 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH11_READ_ADDR;               /*!< DMA Channel 11 Read Address pointer                                       */
+  __IOM uint32_t  CH11_WRITE_ADDR;              /*!< DMA Channel 11 Write Address pointer                                      */
+  __IOM uint32_t  CH11_TRANS_COUNT;             /*!< DMA Channel 11 Transfer Count                                             */
+  __IOM uint32_t  CH11_CTRL_TRIG;               /*!< DMA Channel 11 Control and Status                                         */
+  __IOM uint32_t  CH11_AL1_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL1_READ_ADDR;           /*!< Alias for channel 11 READ_ADDR register                                   */
+  __IOM uint32_t  CH11_AL1_WRITE_ADDR;          /*!< Alias for channel 11 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH11_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 11 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH11_AL2_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL2_TRANS_COUNT;         /*!< Alias for channel 11 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH11_AL2_READ_ADDR;           /*!< Alias for channel 11 READ_ADDR register                                   */
+  __IOM uint32_t  CH11_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 11 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH11_AL3_CTRL;                /*!< Alias for channel 11 CTRL register                                        */
+  __IOM uint32_t  CH11_AL3_WRITE_ADDR;          /*!< Alias for channel 11 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH11_AL3_TRANS_COUNT;         /*!< Alias for channel 11 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH11_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 11 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH12_READ_ADDR;               /*!< DMA Channel 12 Read Address pointer                                       */
+  __IOM uint32_t  CH12_WRITE_ADDR;              /*!< DMA Channel 12 Write Address pointer                                      */
+  __IOM uint32_t  CH12_TRANS_COUNT;             /*!< DMA Channel 12 Transfer Count                                             */
+  __IOM uint32_t  CH12_CTRL_TRIG;               /*!< DMA Channel 12 Control and Status                                         */
+  __IOM uint32_t  CH12_AL1_CTRL;                /*!< Alias for channel 12 CTRL register                                        */
+  __IOM uint32_t  CH12_AL1_READ_ADDR;           /*!< Alias for channel 12 READ_ADDR register                                   */
+  __IOM uint32_t  CH12_AL1_WRITE_ADDR;          /*!< Alias for channel 12 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH12_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 12 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH12_AL2_CTRL;                /*!< Alias for channel 12 CTRL register                                        */
+  __IOM uint32_t  CH12_AL2_TRANS_COUNT;         /*!< Alias for channel 12 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH12_AL2_READ_ADDR;           /*!< Alias for channel 12 READ_ADDR register                                   */
+  __IOM uint32_t  CH12_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 12 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH12_AL3_CTRL;                /*!< Alias for channel 12 CTRL register                                        */
+  __IOM uint32_t  CH12_AL3_WRITE_ADDR;          /*!< Alias for channel 12 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH12_AL3_TRANS_COUNT;         /*!< Alias for channel 12 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH12_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 12 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH13_READ_ADDR;               /*!< DMA Channel 13 Read Address pointer                                       */
+  __IOM uint32_t  CH13_WRITE_ADDR;              /*!< DMA Channel 13 Write Address pointer                                      */
+  __IOM uint32_t  CH13_TRANS_COUNT;             /*!< DMA Channel 13 Transfer Count                                             */
+  __IOM uint32_t  CH13_CTRL_TRIG;               /*!< DMA Channel 13 Control and Status                                         */
+  __IOM uint32_t  CH13_AL1_CTRL;                /*!< Alias for channel 13 CTRL register                                        */
+  __IOM uint32_t  CH13_AL1_READ_ADDR;           /*!< Alias for channel 13 READ_ADDR register                                   */
+  __IOM uint32_t  CH13_AL1_WRITE_ADDR;          /*!< Alias for channel 13 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH13_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 13 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH13_AL2_CTRL;                /*!< Alias for channel 13 CTRL register                                        */
+  __IOM uint32_t  CH13_AL2_TRANS_COUNT;         /*!< Alias for channel 13 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH13_AL2_READ_ADDR;           /*!< Alias for channel 13 READ_ADDR register                                   */
+  __IOM uint32_t  CH13_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 13 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH13_AL3_CTRL;                /*!< Alias for channel 13 CTRL register                                        */
+  __IOM uint32_t  CH13_AL3_WRITE_ADDR;          /*!< Alias for channel 13 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH13_AL3_TRANS_COUNT;         /*!< Alias for channel 13 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH13_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 13 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH14_READ_ADDR;               /*!< DMA Channel 14 Read Address pointer                                       */
+  __IOM uint32_t  CH14_WRITE_ADDR;              /*!< DMA Channel 14 Write Address pointer                                      */
+  __IOM uint32_t  CH14_TRANS_COUNT;             /*!< DMA Channel 14 Transfer Count                                             */
+  __IOM uint32_t  CH14_CTRL_TRIG;               /*!< DMA Channel 14 Control and Status                                         */
+  __IOM uint32_t  CH14_AL1_CTRL;                /*!< Alias for channel 14 CTRL register                                        */
+  __IOM uint32_t  CH14_AL1_READ_ADDR;           /*!< Alias for channel 14 READ_ADDR register                                   */
+  __IOM uint32_t  CH14_AL1_WRITE_ADDR;          /*!< Alias for channel 14 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH14_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 14 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH14_AL2_CTRL;                /*!< Alias for channel 14 CTRL register                                        */
+  __IOM uint32_t  CH14_AL2_TRANS_COUNT;         /*!< Alias for channel 14 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH14_AL2_READ_ADDR;           /*!< Alias for channel 14 READ_ADDR register                                   */
+  __IOM uint32_t  CH14_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 14 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH14_AL3_CTRL;                /*!< Alias for channel 14 CTRL register                                        */
+  __IOM uint32_t  CH14_AL3_WRITE_ADDR;          /*!< Alias for channel 14 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH14_AL3_TRANS_COUNT;         /*!< Alias for channel 14 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH14_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 14 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH15_READ_ADDR;               /*!< DMA Channel 15 Read Address pointer                                       */
+  __IOM uint32_t  CH15_WRITE_ADDR;              /*!< DMA Channel 15 Write Address pointer                                      */
+  __IOM uint32_t  CH15_TRANS_COUNT;             /*!< DMA Channel 15 Transfer Count                                             */
+  __IOM uint32_t  CH15_CTRL_TRIG;               /*!< DMA Channel 15 Control and Status                                         */
+  __IOM uint32_t  CH15_AL1_CTRL;                /*!< Alias for channel 15 CTRL register                                        */
+  __IOM uint32_t  CH15_AL1_READ_ADDR;           /*!< Alias for channel 15 READ_ADDR register                                   */
+  __IOM uint32_t  CH15_AL1_WRITE_ADDR;          /*!< Alias for channel 15 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH15_AL1_TRANS_COUNT_TRIG;    /*!< Alias for channel 15 TRANS_COUNT register This is a trigger
+                                                     register (0xc). Writing a nonzero value will reload the
+                                                     channel counter and start the channel.                                    */
+  __IOM uint32_t  CH15_AL2_CTRL;                /*!< Alias for channel 15 CTRL register                                        */
+  __IOM uint32_t  CH15_AL2_TRANS_COUNT;         /*!< Alias for channel 15 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH15_AL2_READ_ADDR;           /*!< Alias for channel 15 READ_ADDR register                                   */
+  __IOM uint32_t  CH15_AL2_WRITE_ADDR_TRIG;     /*!< Alias for channel 15 WRITE_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  CH15_AL3_CTRL;                /*!< Alias for channel 15 CTRL register                                        */
+  __IOM uint32_t  CH15_AL3_WRITE_ADDR;          /*!< Alias for channel 15 WRITE_ADDR register                                  */
+  __IOM uint32_t  CH15_AL3_TRANS_COUNT;         /*!< Alias for channel 15 TRANS_COUNT register                                 */
+  __IOM uint32_t  CH15_AL3_READ_ADDR_TRIG;      /*!< Alias for channel 15 READ_ADDR register This is a trigger register
+                                                     (0xc). Writing a nonzero value will reload the channel
+                                                     counter and start the channel.                                            */
+  __IOM uint32_t  INTR;                         /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE0;                        /*!< Interrupt Enables for IRQ 0                                               */
+  __IOM uint32_t  INTF0;                        /*!< Force Interrupts                                                          */
+  __IOM uint32_t  INTS0;                        /*!< Interrupt Status for IRQ 0                                                */
+  __IOM uint32_t  INTR1;                        /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE1;                        /*!< Interrupt Enables for IRQ 1                                               */
+  __IOM uint32_t  INTF1;                        /*!< Force Interrupts                                                          */
+  __IOM uint32_t  INTS1;                        /*!< Interrupt Status for IRQ 1                                                */
+  __IOM uint32_t  INTR2;                        /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE2;                        /*!< Interrupt Enables for IRQ 2                                               */
+  __IOM uint32_t  INTF2;                        /*!< Force Interrupts                                                          */
+  __IOM uint32_t  INTS2;                        /*!< Interrupt Status for IRQ 2                                                */
+  __IOM uint32_t  INTR3;                        /*!< Interrupt Status (raw)                                                    */
+  __IOM uint32_t  INTE3;                        /*!< Interrupt Enables for IRQ 3                                               */
+  __IOM uint32_t  INTF3;                        /*!< Force Interrupts                                                          */
+  __IOM uint32_t  INTS3;                        /*!< Interrupt Status for IRQ 3                                                */
+  __IOM uint32_t  TIMER0;                       /*!< Pacing (X/Y) fractional timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER1;                       /*!< Pacing (X/Y) fractional timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER2;                       /*!< Pacing (X/Y) fractional timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  TIMER3;                       /*!< Pacing (X/Y) fractional timer The pacing timer produces TREQ
+                                                     assertions at a rate set by ((X/Y) * sys_clk). This equation
+                                                     is evaluated every sys_clk cycles and therefore can only
+                                                     generate TREQs at a rate of 1 per sys_clk (i.e. permanent
+                                                     TREQ) or less.                                                            */
+  __IOM uint32_t  MULTI_CHAN_TRIGGER;           /*!< Trigger one or more channels simultaneously                               */
+  __IOM uint32_t  SNIFF_CTRL;                   /*!< Sniffer Control                                                           */
+  __IOM uint32_t  SNIFF_DATA;                   /*!< Data accumulator for sniff hardware                                       */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  FIFO_LEVELS;                  /*!< Debug RAF, WAF, TDF levels                                                */
+  __IOM uint32_t  CHAN_ABORT;                   /*!< Abort an in-progress transfer sequence on one or more channels            */
+  __IOM uint32_t  N_CHANNELS;                   /*!< The number of channels this DMA instance is equipped with. This
+                                                     DMA supports up to 16 hardware channels, but can be configured
+                                                     with as few as one, to minimise silicon area.                             */
+  __IM  uint32_t  RESERVED1[5];
+  __IOM uint32_t  SECCFG_CH0;                   /*!< Security configuration for channel 0. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH1;                   /*!< Security configuration for channel 1. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH2;                   /*!< Security configuration for channel 2. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH3;                   /*!< Security configuration for channel 3. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH4;                   /*!< Security configuration for channel 4. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH5;                   /*!< Security configuration for channel 5. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH6;                   /*!< Security configuration for channel 6. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH7;                   /*!< Security configuration for channel 7. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH8;                   /*!< Security configuration for channel 8. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH9;                   /*!< Security configuration for channel 9. Control whether this channel
+                                                     performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH10;                  /*!< Security configuration for channel 10. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH11;                  /*!< Security configuration for channel 11. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH12;                  /*!< Security configuration for channel 12. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH13;                  /*!< Security configuration for channel 13. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH14;                  /*!< Security configuration for channel 14. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_CH15;                  /*!< Security configuration for channel 15. Control whether this
+                                                     channel performs Secure/Non-secure and Privileged/Unprivileged
+                                                     bus accesses. If this channel generates bus accesses of
+                                                     some security level, an access of at least that level (in
+                                                     the order S+P > S+U > NS+P > NS+U) is required to program,
+                                                     trigger, abort, check the status of, interrupt on or acknowledge
+                                                     the interrupt of this channel. This register automatically
+                                                     locks down (becomes read-only) once software starts to
+                                                     configure the channel. This register is world-readable,
+                                                     but is writable only from a Secure, Privileged context.                   */
+  __IOM uint32_t  SECCFG_IRQ0;                  /*!< Security configuration for IRQ 0. Control whether the IRQ permits
+                                                     configuration by Non-secure/Unprivileged contexts, and
+                                                     whether it can observe Secure/Privileged channel interrupt
+                                                     flags.                                                                    */
+  __IOM uint32_t  SECCFG_IRQ1;                  /*!< Security configuration for IRQ 1. Control whether the IRQ permits
+                                                     configuration by Non-secure/Unprivileged contexts, and
+                                                     whether it can observe Secure/Privileged channel interrupt
+                                                     flags.                                                                    */
+  __IOM uint32_t  SECCFG_IRQ2;                  /*!< Security configuration for IRQ 2. Control whether the IRQ permits
+                                                     configuration by Non-secure/Unprivileged contexts, and
+                                                     whether it can observe Secure/Privileged channel interrupt
+                                                     flags.                                                                    */
+  __IOM uint32_t  SECCFG_IRQ3;                  /*!< Security configuration for IRQ 3. Control whether the IRQ permits
+                                                     configuration by Non-secure/Unprivileged contexts, and
+                                                     whether it can observe Secure/Privileged channel interrupt
+                                                     flags.                                                                    */
+  __IOM uint32_t  SECCFG_MISC;                  /*!< Miscellaneous security configuration                                      */
+  __IM  uint32_t  RESERVED2[11];
+  __IOM uint32_t  MPU_CTRL;                     /*!< Control register for DMA MPU. Accessible only from a Privileged
+                                                     context.                                                                  */
+  __IOM uint32_t  MPU_BAR0;                     /*!< Base address register for MPU region 0. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR0;                     /*!< Limit address register for MPU region 0. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR1;                     /*!< Base address register for MPU region 1. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR1;                     /*!< Limit address register for MPU region 1. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR2;                     /*!< Base address register for MPU region 2. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR2;                     /*!< Limit address register for MPU region 2. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR3;                     /*!< Base address register for MPU region 3. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR3;                     /*!< Limit address register for MPU region 3. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR4;                     /*!< Base address register for MPU region 4. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR4;                     /*!< Limit address register for MPU region 4. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR5;                     /*!< Base address register for MPU region 5. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR5;                     /*!< Limit address register for MPU region 5. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR6;                     /*!< Base address register for MPU region 6. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR6;                     /*!< Limit address register for MPU region 6. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IOM uint32_t  MPU_BAR7;                     /*!< Base address register for MPU region 7. Writable only from a
+                                                     Secure, Privileged context.                                               */
+  __IOM uint32_t  MPU_LAR7;                     /*!< Limit address register for MPU region 7. Writable only from
+                                                     a Secure, Privileged context, with the exception of the
+                                                     P bit.                                                                    */
+  __IM  uint32_t  RESERVED3[175];
+  __IOM uint32_t  CH0_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH0_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED4[14];
+  __IOM uint32_t  CH1_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH1_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED5[14];
+  __IOM uint32_t  CH2_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH2_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED6[14];
+  __IOM uint32_t  CH3_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH3_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED7[14];
+  __IOM uint32_t  CH4_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH4_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED8[14];
+  __IOM uint32_t  CH5_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH5_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED9[14];
+  __IOM uint32_t  CH6_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH6_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED10[14];
+  __IOM uint32_t  CH7_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH7_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED11[14];
+  __IOM uint32_t  CH8_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH8_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED12[14];
+  __IOM uint32_t  CH9_DBG_CTDREQ;               /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH9_DBG_TCR;                  /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED13[14];
+  __IOM uint32_t  CH10_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH10_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED14[14];
+  __IOM uint32_t  CH11_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH11_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED15[14];
+  __IOM uint32_t  CH12_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH12_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED16[14];
+  __IOM uint32_t  CH13_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH13_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED17[14];
+  __IOM uint32_t  CH14_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH14_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+  __IM  uint32_t  RESERVED18[14];
+  __IOM uint32_t  CH15_DBG_CTDREQ;              /*!< Read: get channel DREQ counter (i.e. how many accesses the DMA
+                                                     expects it can perform on the peripheral without overflow/underflow.
+                                                     Write any value: clears the counter, and cause channel
+                                                     to re-initiate DREQ handshake.                                            */
+  __IOM uint32_t  CH15_DBG_TCR;                 /*!< Read to get channel TRANS_COUNT reload value, i.e. the length
+                                                     of the next transfer                                                      */
+} DMA_Type;                                     /*!< Size = 3016 (0xbc8)                                                       */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          TIMER0                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Controls time and alarms
+
+            time is a 64 bit value indicating the time since power-on
+
+            timeh is the top 32 bits of time & timel is the bottom 32 bits to change time write to timelw before timehw to read time read from timelr before timehr
+
+            An alarm is set by setting alarm_enable and writing to the corresponding alarm register When an alarm is pending, the corresponding alarm_running signal will be high An alarm can be cancelled before it has finished by clearing the alarm_enable When an alarm fires, the corresponding alarm_irq is set and alarm_running is cleared To clear the interrupt write a 1 to the corresponding alarm_irq The timer can be locked to prevent writing (TIMER0)
+  */
+
+typedef struct {                                /*!< TIMER0 Structure                                                          */
+  __IOM uint32_t  TIMEHW;                       /*!< Write to bits 63:32 of time always write timelw before timehw             */
+  __IOM uint32_t  TIMELW;                       /*!< Write to bits 31:0 of time writes do not get copied to time
+                                                     until timehw is written                                                   */
+  __IOM uint32_t  TIMEHR;                       /*!< Read from bits 63:32 of time always read timelr before timehr             */
+  __IOM uint32_t  TIMELR;                       /*!< Read from bits 31:0 of time                                               */
+  __IOM uint32_t  ALARM0;                       /*!< Arm alarm 0, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM0 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM1;                       /*!< Arm alarm 1, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM1 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM2;                       /*!< Arm alarm 2, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM2 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ALARM3;                       /*!< Arm alarm 3, and configure the time it will fire. Once armed,
+                                                     the alarm fires when TIMER_ALARM3 == TIMELR. The alarm
+                                                     will disarm itself once it fires, and can be disarmed early
+                                                     using the ARMED status register.                                          */
+  __IOM uint32_t  ARMED;                        /*!< Indicates the armed/disarmed status of each alarm. A write to
+                                                     the corresponding ALARMx register arms the alarm. Alarms
+                                                     automatically disarm upon firing, but writing ones here
+                                                     will disarm immediately without waiting to fire.                          */
+  __IOM uint32_t  TIMERAWH;                     /*!< Raw read from bits 63:32 of time (no side effects)                        */
+  __IOM uint32_t  TIMERAWL;                     /*!< Raw read from bits 31:0 of time (no side effects)                         */
+  __IOM uint32_t  DBGPAUSE;                     /*!< Set bits high to enable pause when the corresponding debug ports
+                                                     are active                                                                */
+  __IOM uint32_t  PAUSE;                        /*!< Set high to pause the timer                                               */
+  __IOM uint32_t  LOCKED;                       /*!< Set locked bit to disable write access to timer Once set, cannot
+                                                     be cleared (without a reset)                                              */
+  __IOM uint32_t  SOURCE;                       /*!< Selects the source for the timer. Defaults to the normal tick
+                                                     configured in the ticks block (typically configured to
+                                                     1 microsecond). Writing to 1 will ignore the tick and count
+                                                     clk_sys cycles instead.                                                   */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} TIMER0_Type;                                  /*!< Size = 76 (0x4c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            PWM                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Simple PWM (PWM)
+  */
+
+typedef struct {                                /*!< PWM Structure                                                             */
+  __IOM uint32_t  CH0_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH0_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH0_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH0_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH0_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH1_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH1_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH1_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH1_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH1_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH2_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH2_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH2_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH2_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH2_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH3_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH3_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH3_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH3_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH3_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH4_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH4_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH4_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH4_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH4_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH5_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH5_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH5_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH5_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH5_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH6_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH6_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH6_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH6_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH6_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH7_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH7_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH7_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH7_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH7_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH8_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH8_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH8_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH8_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH8_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH9_CSR;                      /*!< Control and status register                                               */
+  __IOM uint32_t  CH9_DIV;                      /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH9_CTR;                      /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH9_CC;                       /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH9_TOP;                      /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH10_CSR;                     /*!< Control and status register                                               */
+  __IOM uint32_t  CH10_DIV;                     /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH10_CTR;                     /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH10_CC;                      /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH10_TOP;                     /*!< Counter wrap value                                                        */
+  __IOM uint32_t  CH11_CSR;                     /*!< Control and status register                                               */
+  __IOM uint32_t  CH11_DIV;                     /*!< INT and FRAC form a fixed-point fractional number. Counting
+                                                     rate is system clock frequency divided by this number.
+                                                     Fractional division uses simple 1st-order sigma-delta.                    */
+  __IOM uint32_t  CH11_CTR;                     /*!< Direct access to the PWM counter                                          */
+  __IOM uint32_t  CH11_CC;                      /*!< Counter compare values                                                    */
+  __IOM uint32_t  CH11_TOP;                     /*!< Counter wrap value                                                        */
+  __IOM uint32_t  EN;                           /*!< This register aliases the CSR_EN bits for all channels. Writing
+                                                     to this register allows multiple channels to be enabled
+                                                     or disabled simultaneously, so they can run in perfect
+                                                     sync. For each channel, there is only one physical EN register
+                                                     bit, which can be accessed through here or CHx_CSR.                       */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  IRQ0_INTE;                    /*!< Interrupt Enable for irq0                                                 */
+  __IOM uint32_t  IRQ0_INTF;                    /*!< Interrupt Force for irq0                                                  */
+  __IOM uint32_t  IRQ0_INTS;                    /*!< Interrupt status after masking & forcing for irq0                         */
+  __IOM uint32_t  IRQ1_INTE;                    /*!< Interrupt Enable for irq1                                                 */
+  __IOM uint32_t  IRQ1_INTF;                    /*!< Interrupt Force for irq1                                                  */
+  __IOM uint32_t  IRQ1_INTS;                    /*!< Interrupt status after masking & forcing for irq1                         */
+} PWM_Type;                                     /*!< Size = 272 (0x110)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            ADC                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Control and data interface to SAR ADC (ADC)
+  */
+
+typedef struct {                                /*!< ADC Structure                                                             */
+  __IOM uint32_t  CS;                           /*!< ADC Control and Status                                                    */
+  __IOM uint32_t  RESULT;                       /*!< Result of most recent ADC conversion                                      */
+  __IOM uint32_t  FCS;                          /*!< FIFO control and status                                                   */
+  __IOM uint32_t  FIFO;                         /*!< Conversion result FIFO                                                    */
+  __IOM uint32_t  DIV;                          /*!< Clock divider. If non-zero, CS_START_MANY will start conversions
+                                                     at regular intervals rather than back-to-back. The divider
+                                                     is reset when either of these fields are written. Total
+                                                     period is 1 + INT + FRAC / 256                                            */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} ADC_Type;                                     /*!< Size = 36 (0x24)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           I2C0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DW_apb_i2c address block
+
+            List of configuration constants for the Synopsys I2C hardware (you may see references to these in I2C register header; these are *fixed* values, set at hardware design time):
+
+            IC_ULTRA_FAST_MODE ................ 0x0 
+            IC_UFM_TBUF_CNT_DEFAULT ........... 0x8 
+            IC_UFM_SCL_LOW_COUNT .............. 0x0008 
+            IC_UFM_SCL_HIGH_COUNT ............. 0x0006 
+            IC_TX_TL .......................... 0x0 
+            IC_TX_CMD_BLOCK ................... 0x1 
+            IC_HAS_DMA ........................ 0x1 
+            IC_HAS_ASYNC_FIFO ................. 0x0 
+            IC_SMBUS_ARP ...................... 0x0 
+            IC_FIRST_DATA_BYTE_STATUS ......... 0x1 
+            IC_INTR_IO ........................ 0x1 
+            IC_MASTER_MODE .................... 0x1 
+            IC_DEFAULT_ACK_GENERAL_CALL ....... 0x1 
+            IC_INTR_POL ....................... 0x1 
+            IC_OPTIONAL_SAR ................... 0x0 
+            IC_DEFAULT_TAR_SLAVE_ADDR ......... 0x055 
+            IC_DEFAULT_SLAVE_ADDR ............. 0x055 
+            IC_DEFAULT_HS_SPKLEN .............. 0x1 
+            IC_FS_SCL_HIGH_COUNT .............. 0x0006 
+            IC_HS_SCL_LOW_COUNT ............... 0x0008 
+            IC_DEVICE_ID_VALUE ................ 0x0 
+            IC_10BITADDR_MASTER ............... 0x0 
+            IC_CLK_FREQ_OPTIMIZATION .......... 0x0 
+            IC_DEFAULT_FS_SPKLEN .............. 0x7 
+            IC_ADD_ENCODED_PARAMS ............. 0x0 
+            IC_DEFAULT_SDA_HOLD ............... 0x000001 
+            IC_DEFAULT_SDA_SETUP .............. 0x64 
+            IC_AVOID_RX_FIFO_FLUSH_ON_TX_ABRT . 0x0 
+            IC_CLOCK_PERIOD ................... 100 
+            IC_EMPTYFIFO_HOLD_MASTER_EN ....... 1 
+            IC_RESTART_EN ..................... 0x1 
+            IC_TX_CMD_BLOCK_DEFAULT ........... 0x0 
+            IC_BUS_CLEAR_FEATURE .............. 0x0 
+            IC_CAP_LOADING .................... 100 
+            IC_FS_SCL_LOW_COUNT ............... 0x000d 
+            APB_DATA_WIDTH .................... 32 
+            IC_SDA_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff 
+            IC_SLV_DATA_NACK_ONLY ............. 0x1 
+            IC_10BITADDR_SLAVE ................ 0x0 
+            IC_CLK_TYPE ....................... 0x0 
+            IC_SMBUS_UDID_MSB ................. 0x0 
+            IC_SMBUS_SUSPEND_ALERT ............ 0x0 
+            IC_HS_SCL_HIGH_COUNT .............. 0x0006 
+            IC_SLV_RESTART_DET_EN ............. 0x1 
+            IC_SMBUS .......................... 0x0 
+            IC_OPTIONAL_SAR_DEFAULT ........... 0x0 
+            IC_PERSISTANT_SLV_ADDR_DEFAULT .... 0x0 
+            IC_USE_COUNTS ..................... 0x0 
+            IC_RX_BUFFER_DEPTH ................ 16 
+            IC_SCL_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff 
+            IC_RX_FULL_HLD_BUS_EN ............. 0x1 
+            IC_SLAVE_DISABLE .................. 0x1 
+            IC_RX_TL .......................... 0x0 
+            IC_DEVICE_ID ...................... 0x0 
+            IC_HC_COUNT_VALUES ................ 0x0 
+            I2C_DYNAMIC_TAR_UPDATE ............ 0 
+            IC_SMBUS_CLK_LOW_MEXT_DEFAULT ..... 0xffffffff 
+            IC_SMBUS_CLK_LOW_SEXT_DEFAULT ..... 0xffffffff 
+            IC_HS_MASTER_CODE ................. 0x1 
+            IC_SMBUS_RST_IDLE_CNT_DEFAULT ..... 0xffff 
+            IC_SMBUS_UDID_LSB_DEFAULT ......... 0xffffffff 
+            IC_SS_SCL_HIGH_COUNT .............. 0x0028 
+            IC_SS_SCL_LOW_COUNT ............... 0x002f 
+            IC_MAX_SPEED_MODE ................. 0x2 
+            IC_STAT_FOR_CLK_STRETCH ........... 0x0 
+            IC_STOP_DET_IF_MASTER_ACTIVE ...... 0x0 
+            IC_DEFAULT_UFM_SPKLEN ............. 0x1 
+            IC_TX_BUFFER_DEPTH ................ 16 (I2C0)
+  */
+
+typedef struct {                                /*!< I2C0 Structure                                                            */
+  __IOM uint32_t  IC_CON;                       /*!< I2C Control Register. This register can be written only when
+                                                     the DW_apb_i2c is disabled, which corresponds to the IC_ENABLE[0]
+                                                     register being set to 0. Writes at other times have no
+                                                     effect. Read/Write Access: - bit 10 is read only. - bit
+                                                     11 is read only - bit 16 is read only - bit 17 is read
+                                                     only - bits 18 and 19 are read only.                                      */
+  __IOM uint32_t  IC_TAR;                       /*!< I2C Target Address Register This register is 12 bits wide, and
+                                                     bits 31:12 are reserved. This register can be written to
+                                                     only when IC_ENABLE[0] is set to 0. Note: If the software
+                                                     or application is aware that the DW_apb_i2c is not using
+                                                     the TAR address for the pending commands in the Tx FIFO,
+                                                     then it is possible to update the TAR address even while
+                                                     the Tx FIFO has entries (IC_STATUS[2]= 0). - It is not
+                                                     necessary to perform any write to this register if DW_apb_i2c
+                                                     is enabled as an I2C slave only.                                          */
+  __IOM uint32_t  IC_SAR;                       /*!< I2C Slave Address Register                                                */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  IC_DATA_CMD;                  /*!< I2C Rx/Tx Data Buffer and Command Register; this is the register
+                                                     the CPU writes to when filling the TX FIFO and the CPU
+                                                     reads from when retrieving bytes from RX FIFO. The size
+                                                     of the register changes as follows: Write: - 11 bits when
+                                                     IC_EMPTYFIFO_HOLD_MASTER_EN=1 - 9 bits when IC_EMPTYFIFO_HOLD_MASTER_EN=0
+                                                     Read: - 12 bits when IC_FIRST_DATA_BYTE_STATUS = 1 - 8
+                                                     bits when IC_FIRST_DATA_BYTE_STATUS = 0 Note: In order
+                                                     for the DW_apb_i2c to continue acknowledging reads, a read
+                                                     command should be written for every byte that is to be
+                                                     received; otherwise the DW_apb_i2c will stop acknowledging.               */
+  __IOM uint32_t  IC_SS_SCL_HCNT;               /*!< Standard Speed I2C Clock SCL High Count Register                          */
+  __IOM uint32_t  IC_SS_SCL_LCNT;               /*!< Standard Speed I2C Clock SCL Low Count Register                           */
+  __IOM uint32_t  IC_FS_SCL_HCNT;               /*!< Fast Mode or Fast Mode Plus I2C Clock SCL High Count Register             */
+  __IOM uint32_t  IC_FS_SCL_LCNT;               /*!< Fast Mode or Fast Mode Plus I2C Clock SCL Low Count Register              */
+  __IM  uint32_t  RESERVED1[2];
+  __IOM uint32_t  IC_INTR_STAT;                 /*!< I2C Interrupt Status Register Each bit in this register has
+                                                     a corresponding mask bit in the IC_INTR_MASK register.
+                                                     These bits are cleared by reading the matching interrupt
+                                                     clear register. The unmasked raw versions of these bits
+                                                     are available in the IC_RAW_INTR_STAT register.                           */
+  __IOM uint32_t  IC_INTR_MASK;                 /*!< I2C Interrupt Mask Register. These bits mask their corresponding
+                                                     interrupt status bits. This register is active low; a value
+                                                     of 0 masks the interrupt, whereas a value of 1 unmasks
+                                                     the interrupt.                                                            */
+  __IOM uint32_t  IC_RAW_INTR_STAT;             /*!< I2C Raw Interrupt Status Register Unlike the IC_INTR_STAT register,
+                                                     these bits are not masked so they always show the true
+                                                     status of the DW_apb_i2c.                                                 */
+  __IOM uint32_t  IC_RX_TL;                     /*!< I2C Receive FIFO Threshold Register                                       */
+  __IOM uint32_t  IC_TX_TL;                     /*!< I2C Transmit FIFO Threshold Register                                      */
+  __IOM uint32_t  IC_CLR_INTR;                  /*!< Clear Combined and Individual Interrupt Register                          */
+  __IOM uint32_t  IC_CLR_RX_UNDER;              /*!< Clear RX_UNDER Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_RX_OVER;               /*!< Clear RX_OVER Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_TX_OVER;               /*!< Clear TX_OVER Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_RD_REQ;                /*!< Clear RD_REQ Interrupt Register                                           */
+  __IOM uint32_t  IC_CLR_TX_ABRT;               /*!< Clear TX_ABRT Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_RX_DONE;               /*!< Clear RX_DONE Interrupt Register                                          */
+  __IOM uint32_t  IC_CLR_ACTIVITY;              /*!< Clear ACTIVITY Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_STOP_DET;              /*!< Clear STOP_DET Interrupt Register                                         */
+  __IOM uint32_t  IC_CLR_START_DET;             /*!< Clear START_DET Interrupt Register                                        */
+  __IOM uint32_t  IC_CLR_GEN_CALL;              /*!< Clear GEN_CALL Interrupt Register                                         */
+  __IOM uint32_t  IC_ENABLE;                    /*!< I2C Enable Register                                                       */
+  __IOM uint32_t  IC_STATUS;                    /*!< I2C Status Register This is a read-only register used to indicate
+                                                     the current transfer status and FIFO status. The status
+                                                     register may be read at any time. None of the bits in this
+                                                     register request an interrupt. When the I2C is disabled
+                                                     by writing 0 in bit 0 of the IC_ENABLE register: - Bits
+                                                     1 and 2 are set to 1 - Bits 3 and 10 are set to 0 When
+                                                     the master or slave state machines goes to idle and ic_en=0:
+                                                     - Bits 5 and 6 are set to 0                                               */
+  __IOM uint32_t  IC_TXFLR;                     /*!< I2C Transmit FIFO Level Register This register contains the
+                                                     number of valid data entries in the transmit FIFO buffer.
+                                                     It is cleared whenever: - The I2C is disabled - There is
+                                                     a transmit abort - that is, TX_ABRT bit is set in the IC_RAW_INTR_STAT
+                                                     register - The slave bulk transmit mode is aborted The
+                                                     register increments whenever data is placed into the transmit
+                                                     FIFO and decrements when data is taken from the transmit
+                                                     FIFO.                                                                     */
+  __IOM uint32_t  IC_RXFLR;                     /*!< I2C Receive FIFO Level Register This register contains the number
+                                                     of valid data entries in the receive FIFO buffer. It is
+                                                     cleared whenever: - The I2C is disabled - Whenever there
+                                                     is a transmit abort caused by any of the events tracked
+                                                     in IC_TX_ABRT_SOURCE The register increments whenever data
+                                                     is placed into the receive FIFO and decrements when data
+                                                     is taken from the receive FIFO.                                           */
+  __IOM uint32_t  IC_SDA_HOLD;                  /*!< I2C SDA Hold Time Length Register The bits [15:0] of this register
+                                                     are used to control the hold time of SDA during transmit
+                                                     in both slave and master mode (after SCL goes from HIGH
+                                                     to LOW). The bits [23:16] of this register are used to
+                                                     extend the SDA transition (if any) whenever SCL is HIGH
+                                                     in the receiver in either master or slave mode. Writes
+                                                     to this register succeed only when IC_ENABLE[0]=0. The
+                                                     values in this register are in units of ic_clk period.
+                                                     The value programmed in IC_SDA_TX_HOLD must be greater
+                                                     than the minimum hold time in each mode (one cycle in master
+                                                     mode, seven cycles in slave mode) for the value to be implemented.
+                                                     The programmed SDA hold time during transmit (IC_SDA_TX_HOLD)
+                                                     cannot exceed at any time the duration of the low part
+                                                     of scl. Therefore the programmed value cannot be larger
+                                                     than N_SCL_LOW-2, where N_SCL_LOW is the duration of the
+                                                     low part of the scl period measured in ic_clk cycles.                     */
+  __IOM uint32_t  IC_TX_ABRT_SOURCE;            /*!< I2C Transmit Abort Source Register This register has 32 bits
+                                                     that indicate the source of the TX_ABRT bit. Except for
+                                                     Bit 9, this register is cleared whenever the IC_CLR_TX_ABRT
+                                                     register or the IC_CLR_INTR register is read. To clear
+                                                     Bit 9, the source of the ABRT_SBYTE_NORSTRT must be fixed
+                                                     first; RESTART must be enabled (IC_CON[5]=1), the SPECIAL
+                                                     bit must be cleared (IC_TAR[11]), or the GC_OR_START bit
+                                                     must be cleared (IC_TAR[10]). Once the source of the ABRT_SBYTE_NORSTRT
+                                                     is fixed, then this bit can be cleared in the same manner
+                                                     as other bits in this register. If the source of the ABRT_SBYTE_NORSTRT
+                                                     is not fixed before attempting to clear this bit, Bit 9
+                                                     clears for one cycle and is then re-asserted.                             */
+  __IOM uint32_t  IC_SLV_DATA_NACK_ONLY;        /*!< Generate Slave Data NACK Register The register is used to generate
+                                                     a NACK for the data part of a transfer when DW_apb_i2c
+                                                     is acting as a slave-receiver. This register only exists
+                                                     when the IC_SLV_DATA_NACK_ONLY parameter is set to 1. When
+                                                     this parameter disabled, this register does not exist and
+                                                     writing to the register's address has no effect. A write
+                                                     can occur on this register if both of the following conditions
+                                                     are met: - DW_apb_i2c is disabled (IC_ENABLE[0] = 0) -
+                                                     Slave part is inactive (IC_STATUS[6] = 0) Note: The IC_STATUS[6]
+                                                     is a register read-back location for the internal slv_activity
+                                                     signal; the user should poll this before writing the ic_slv_data_nack_onl
+                                                     bit.                                                                      */
+  __IOM uint32_t  IC_DMA_CR;                    /*!< DMA Control Register The register is used to enable the DMA
+                                                     Controller interface operation. There is a separate bit
+                                                     for transmit and receive. This can be programmed regardless
+                                                     of the state of IC_ENABLE.                                                */
+  __IOM uint32_t  IC_DMA_TDLR;                  /*!< DMA Transmit Data Level Register                                          */
+  __IOM uint32_t  IC_DMA_RDLR;                  /*!< I2C Receive Data Level Register                                           */
+  __IOM uint32_t  IC_SDA_SETUP;                 /*!< I2C SDA Setup Register This register controls the amount of
+                                                     time delay (in terms of number of ic_clk clock periods)
+                                                     introduced in the rising edge of SCL - relative to SDA
+                                                     changing - when DW_apb_i2c services a read request in a
+                                                     slave-transmitter operation. The relevant I2C requirement
+                                                     is tSU:DAT (note 4) as detailed in the I2C Bus Specification.
+                                                     This register must be programmed with a value equal to
+                                                     or greater than 2. Writes to this register succeed only
+                                                     when IC_ENABLE[0] = 0. Note: The length of setup time is
+                                                     calculated using [(IC_SDA_SETUP - 1) * (ic_clk_period)],
+                                                     so if the user requires 10 ic_clk periods of setup time,
+                                                     they should program a value of 11. The IC_SDA_SETUP register
+                                                     is only used by the DW_apb_i2c when operating as a slave
+                                                     transmitter.                                                              */
+  __IOM uint32_t  IC_ACK_GENERAL_CALL;          /*!< I2C ACK General Call Register The register controls whether
+                                                     DW_apb_i2c responds with a ACK or NACK when it receives
+                                                     an I2C General Call address. This register is applicable
+                                                     only when the DW_apb_i2c is in slave mode.                                */
+  __IOM uint32_t  IC_ENABLE_STATUS;             /*!< I2C Enable Status Register The register is used to report the
+                                                     DW_apb_i2c hardware status when the IC_ENABLE[0] register
+                                                     is set from 1 to 0; that is, when DW_apb_i2c is disabled.
+                                                     If IC_ENABLE[0] has been set to 1, bits 2:1 are forced
+                                                     to 0, and bit 0 is forced to 1. If IC_ENABLE[0] has been
+                                                     set to 0, bits 2:1 is only be valid as soon as bit 0 is
+                                                     read as '0'. Note: When IC_ENABLE[0] has been set to 0,
+                                                     a delay occurs for bit 0 to be read as 0 because disabling
+                                                     the DW_apb_i2c depends on I2C bus activities.                             */
+  __IOM uint32_t  IC_FS_SPKLEN;                 /*!< I2C SS, FS or FM+ spike suppression limit This register is used
+                                                     to store the duration, measured in ic_clk cycles, of the
+                                                     longest spike that is filtered out by the spike suppression
+                                                     logic when the component is operating in SS, FS or FM+
+                                                     modes. The relevant I2C requirement is tSP (table 4) as
+                                                     detailed in the I2C Bus Specification. This register must
+                                                     be programmed with a minimum value of 1.                                  */
+  __IM  uint32_t  RESERVED2;
+  __IOM uint32_t  IC_CLR_RESTART_DET;           /*!< Clear RESTART_DET Interrupt Register                                      */
+  __IM  uint32_t  RESERVED3[18];
+  __IOM uint32_t  IC_COMP_PARAM_1;              /*!< Component Parameter Register 1 Note This register is not implemented
+                                                     and therefore reads as 0. If it was implemented it would
+                                                     be a constant read-only register that contains encoded
+                                                     information about the component's parameter settings. Fields
+                                                     shown below are the settings for those parameters                         */
+  __IOM uint32_t  IC_COMP_VERSION;              /*!< I2C Component Version Register                                            */
+  __IOM uint32_t  IC_COMP_TYPE;                 /*!< I2C Component Type Register                                               */
+} I2C0_Type;                                    /*!< Size = 256 (0x100)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           SPI0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SPI0 (SPI0)
+  */
+
+typedef struct {                                /*!< SPI0 Structure                                                            */
+  __IOM uint32_t  SSPCR0;                       /*!< Control register 0, SSPCR0 on page 3-4                                    */
+  __IOM uint32_t  SSPCR1;                       /*!< Control register 1, SSPCR1 on page 3-5                                    */
+  __IOM uint32_t  SSPDR;                        /*!< Data register, SSPDR on page 3-6                                          */
+  __IOM uint32_t  SSPSR;                        /*!< Status register, SSPSR on page 3-7                                        */
+  __IOM uint32_t  SSPCPSR;                      /*!< Clock prescale register, SSPCPSR on page 3-8                              */
+  __IOM uint32_t  SSPIMSC;                      /*!< Interrupt mask set or clear register, SSPIMSC on page 3-9                 */
+  __IOM uint32_t  SSPRIS;                       /*!< Raw interrupt status register, SSPRIS on page 3-10                        */
+  __IOM uint32_t  SSPMIS;                       /*!< Masked interrupt status register, SSPMIS on page 3-11                     */
+  __IOM uint32_t  SSPICR;                       /*!< Interrupt clear register, SSPICR on page 3-11                             */
+  __IOM uint32_t  SSPDMACR;                     /*!< DMA control register, SSPDMACR on page 3-12                               */
+  __IM  uint32_t  RESERVED[1006];
+  __IOM uint32_t  SSPPERIPHID0;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID1;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID2;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPERIPHID3;                 /*!< Peripheral identification registers, SSPPeriphID0-3 on page
+                                                     3-13                                                                      */
+  __IOM uint32_t  SSPPCELLID0;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID1;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID2;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+  __IOM uint32_t  SSPPCELLID3;                  /*!< PrimeCell identification registers, SSPPCellID0-3 on page 3-16            */
+} SPI0_Type;                                    /*!< Size = 4096 (0x1000)                                                      */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           PIO0                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Programmable IO block (PIO0)
+  */
+
+typedef struct {                                /*!< PIO0 Structure                                                            */
+  __IOM uint32_t  CTRL;                         /*!< PIO control register                                                      */
+  __IOM uint32_t  FSTAT;                        /*!< FIFO status register                                                      */
+  __IOM uint32_t  FDEBUG;                       /*!< FIFO debug register                                                       */
+  __IOM uint32_t  FLEVEL;                       /*!< FIFO levels                                                               */
+  __IOM uint32_t  TXF0;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF1;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF2;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  TXF3;                         /*!< Direct write access to the TX FIFO for this state machine. Each
+                                                     write pushes one word to the FIFO. Attempting to write
+                                                     to a full FIFO has no effect on the FIFO state or contents,
+                                                     and sets the sticky FDEBUG_TXOVER error flag for this FIFO.               */
+  __IOM uint32_t  RXF0;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF1;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF2;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  RXF3;                         /*!< Direct read access to the RX FIFO for this state machine. Each
+                                                     read pops one word from the FIFO. Attempting to read from
+                                                     an empty FIFO has no effect on the FIFO state, and sets
+                                                     the sticky FDEBUG_RXUNDER error flag for this FIFO. The
+                                                     data returned to the system on a read from an empty FIFO
+                                                     is undefined.                                                             */
+  __IOM uint32_t  IRQ;                          /*!< State machine IRQ flags register. Write 1 to clear. There are
+                                                     eight state machine IRQ flags, which can be set, cleared,
+                                                     and waited on by the state machines. There's no fixed association
+                                                     between flags and state machines -- any state machine can
+                                                     use any flag. Any of the eight flags can be used for timing
+                                                     synchronisation between state machines, using IRQ and WAIT
+                                                     instructions. Any combination of the eight flags can also
+                                                     routed out to either of the two system-level interrupt
+                                                     requests, alongside FIFO status interrupts -- see e.g.
+                                                     IRQ0_INTE.                                                                */
+  __IOM uint32_t  IRQ_FORCE;                    /*!< Writing a 1 to each of these bits will forcibly assert the corresponding
+                                                     IRQ. Note this is different to the INTF register: writing
+                                                     here affects PIO internal state. INTF just asserts the
+                                                     processor-facing IRQ signal for testing ISRs, and is not
+                                                     visible to the state machines.                                            */
+  __IOM uint32_t  INPUT_SYNC_BYPASS;            /*!< There is a 2-flipflop synchronizer on each GPIO input, which
+                                                     protects PIO logic from metastabilities. This increases
+                                                     input delay, and for fast synchronous IO (e.g. SPI) these
+                                                     synchronizers may need to be bypassed. Each bit in this
+                                                     register corresponds to one GPIO. 0 -> input is synchronized
+                                                     (default) 1 -> synchronizer is bypassed If in doubt, leave
+                                                     this register as all zeroes.                                              */
+  __IOM uint32_t  DBG_PADOUT;                   /*!< Read to sample the pad output values PIO is currently driving
+                                                     to the GPIOs. On RP2040 there are 30 GPIOs, so the two
+                                                     most significant bits are hardwired to 0.                                 */
+  __IOM uint32_t  DBG_PADOE;                    /*!< Read to sample the pad output enables (direction) PIO is currently
+                                                     driving to the GPIOs. On RP2040 there are 30 GPIOs, so
+                                                     the two most significant bits are hardwired to 0.                         */
+  __IOM uint32_t  DBG_CFGINFO;                  /*!< The PIO hardware has some free parameters that may vary between
+                                                     chip products. These should be provided in the chip datasheet,
+                                                     but are also exposed here.                                                */
+  __IOM uint32_t  INSTR_MEM0;                   /*!< Write-only access to instruction memory location 0                        */
+  __IOM uint32_t  INSTR_MEM1;                   /*!< Write-only access to instruction memory location 1                        */
+  __IOM uint32_t  INSTR_MEM2;                   /*!< Write-only access to instruction memory location 2                        */
+  __IOM uint32_t  INSTR_MEM3;                   /*!< Write-only access to instruction memory location 3                        */
+  __IOM uint32_t  INSTR_MEM4;                   /*!< Write-only access to instruction memory location 4                        */
+  __IOM uint32_t  INSTR_MEM5;                   /*!< Write-only access to instruction memory location 5                        */
+  __IOM uint32_t  INSTR_MEM6;                   /*!< Write-only access to instruction memory location 6                        */
+  __IOM uint32_t  INSTR_MEM7;                   /*!< Write-only access to instruction memory location 7                        */
+  __IOM uint32_t  INSTR_MEM8;                   /*!< Write-only access to instruction memory location 8                        */
+  __IOM uint32_t  INSTR_MEM9;                   /*!< Write-only access to instruction memory location 9                        */
+  __IOM uint32_t  INSTR_MEM10;                  /*!< Write-only access to instruction memory location 10                       */
+  __IOM uint32_t  INSTR_MEM11;                  /*!< Write-only access to instruction memory location 11                       */
+  __IOM uint32_t  INSTR_MEM12;                  /*!< Write-only access to instruction memory location 12                       */
+  __IOM uint32_t  INSTR_MEM13;                  /*!< Write-only access to instruction memory location 13                       */
+  __IOM uint32_t  INSTR_MEM14;                  /*!< Write-only access to instruction memory location 14                       */
+  __IOM uint32_t  INSTR_MEM15;                  /*!< Write-only access to instruction memory location 15                       */
+  __IOM uint32_t  INSTR_MEM16;                  /*!< Write-only access to instruction memory location 16                       */
+  __IOM uint32_t  INSTR_MEM17;                  /*!< Write-only access to instruction memory location 17                       */
+  __IOM uint32_t  INSTR_MEM18;                  /*!< Write-only access to instruction memory location 18                       */
+  __IOM uint32_t  INSTR_MEM19;                  /*!< Write-only access to instruction memory location 19                       */
+  __IOM uint32_t  INSTR_MEM20;                  /*!< Write-only access to instruction memory location 20                       */
+  __IOM uint32_t  INSTR_MEM21;                  /*!< Write-only access to instruction memory location 21                       */
+  __IOM uint32_t  INSTR_MEM22;                  /*!< Write-only access to instruction memory location 22                       */
+  __IOM uint32_t  INSTR_MEM23;                  /*!< Write-only access to instruction memory location 23                       */
+  __IOM uint32_t  INSTR_MEM24;                  /*!< Write-only access to instruction memory location 24                       */
+  __IOM uint32_t  INSTR_MEM25;                  /*!< Write-only access to instruction memory location 25                       */
+  __IOM uint32_t  INSTR_MEM26;                  /*!< Write-only access to instruction memory location 26                       */
+  __IOM uint32_t  INSTR_MEM27;                  /*!< Write-only access to instruction memory location 27                       */
+  __IOM uint32_t  INSTR_MEM28;                  /*!< Write-only access to instruction memory location 28                       */
+  __IOM uint32_t  INSTR_MEM29;                  /*!< Write-only access to instruction memory location 29                       */
+  __IOM uint32_t  INSTR_MEM30;                  /*!< Write-only access to instruction memory location 30                       */
+  __IOM uint32_t  INSTR_MEM31;                  /*!< Write-only access to instruction memory location 31                       */
+  __IOM uint32_t  SM0_CLKDIV;                   /*!< Clock divisor register for state machine 0 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM0_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 0                        */
+  __IOM uint32_t  SM0_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 0                                                                 */
+  __IOM uint32_t  SM0_ADDR;                     /*!< Current instruction address of state machine 0                            */
+  __IOM uint32_t  SM0_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     0's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM0_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM1_CLKDIV;                   /*!< Clock divisor register for state machine 1 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM1_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 1                        */
+  __IOM uint32_t  SM1_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 1                                                                 */
+  __IOM uint32_t  SM1_ADDR;                     /*!< Current instruction address of state machine 1                            */
+  __IOM uint32_t  SM1_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     1's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM1_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM2_CLKDIV;                   /*!< Clock divisor register for state machine 2 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM2_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 2                        */
+  __IOM uint32_t  SM2_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 2                                                                 */
+  __IOM uint32_t  SM2_ADDR;                     /*!< Current instruction address of state machine 2                            */
+  __IOM uint32_t  SM2_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     2's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM2_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  SM3_CLKDIV;                   /*!< Clock divisor register for state machine 3 Frequency = clock
+                                                     freq / (CLKDIV_INT + CLKDIV_FRAC / 256)                                   */
+  __IOM uint32_t  SM3_EXECCTRL;                 /*!< Execution/behavioural settings for state machine 3                        */
+  __IOM uint32_t  SM3_SHIFTCTRL;                /*!< Control behaviour of the input/output shift registers for state
+                                                     machine 3                                                                 */
+  __IOM uint32_t  SM3_ADDR;                     /*!< Current instruction address of state machine 3                            */
+  __IOM uint32_t  SM3_INSTR;                    /*!< Read to see the instruction currently addressed by state machine
+                                                     3's program counter Write to execute an instruction immediately
+                                                     (including jumps) and then resume execution.                              */
+  __IOM uint32_t  SM3_PINCTRL;                  /*!< State machine pin control                                                 */
+  __IOM uint32_t  RXF0_PUTGET0;                 /*!< Direct read/write access to entry 0 of SM0's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF0_PUTGET1;                 /*!< Direct read/write access to entry 1 of SM0's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF0_PUTGET2;                 /*!< Direct read/write access to entry 2 of SM0's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF0_PUTGET3;                 /*!< Direct read/write access to entry 3 of SM0's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF1_PUTGET0;                 /*!< Direct read/write access to entry 0 of SM1's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF1_PUTGET1;                 /*!< Direct read/write access to entry 1 of SM1's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF1_PUTGET2;                 /*!< Direct read/write access to entry 2 of SM1's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF1_PUTGET3;                 /*!< Direct read/write access to entry 3 of SM1's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF2_PUTGET0;                 /*!< Direct read/write access to entry 0 of SM2's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF2_PUTGET1;                 /*!< Direct read/write access to entry 1 of SM2's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF2_PUTGET2;                 /*!< Direct read/write access to entry 2 of SM2's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF2_PUTGET3;                 /*!< Direct read/write access to entry 3 of SM2's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF3_PUTGET0;                 /*!< Direct read/write access to entry 0 of SM3's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF3_PUTGET1;                 /*!< Direct read/write access to entry 1 of SM3's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF3_PUTGET2;                 /*!< Direct read/write access to entry 2 of SM3's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  RXF3_PUTGET3;                 /*!< Direct read/write access to entry 3 of SM3's RX FIFO, if SHIFTCTRL_FJOIN_RX_PU
+                                                     xor SHIFTCTRL_FJOIN_RX_GET is set.                                        */
+  __IOM uint32_t  GPIOBASE;                     /*!< Relocate GPIO 0 (from PIO's point of view) in the system GPIO
+                                                     numbering, to access more than 32 GPIOs from PIO. Only
+                                                     the values 0 and 16 are supported (only bit 4 is writable).               */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  IRQ0_INTE;                    /*!< Interrupt Enable for irq0                                                 */
+  __IOM uint32_t  IRQ0_INTF;                    /*!< Interrupt Force for irq0                                                  */
+  __IOM uint32_t  IRQ0_INTS;                    /*!< Interrupt status after masking & forcing for irq0                         */
+  __IOM uint32_t  IRQ1_INTE;                    /*!< Interrupt Enable for irq1                                                 */
+  __IOM uint32_t  IRQ1_INTF;                    /*!< Interrupt Force for irq1                                                  */
+  __IOM uint32_t  IRQ1_INTS;                    /*!< Interrupt status after masking & forcing for irq1                         */
+} PIO0_Type;                                    /*!< Size = 392 (0x188)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          BUSCTRL                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Register block for busfabric control signals and performance counters (BUSCTRL)
+  */
+
+typedef struct {                                /*!< BUSCTRL Structure                                                         */
+  __IOM uint32_t  BUS_PRIORITY;                 /*!< Set the priority of each master for bus arbitration.                      */
+  __IOM uint32_t  BUS_PRIORITY_ACK;             /*!< Bus priority acknowledge                                                  */
+  __IOM uint32_t  PERFCTR_EN;                   /*!< Enable the performance counters. If 0, the performance counters
+                                                     do not increment. This can be used to precisely start/stop
+                                                     event sampling around the profiled section of code. The
+                                                     performance counters are initially disabled, to save energy.              */
+  __IOM uint32_t  PERFCTR0;                     /*!< Bus fabric performance counter 0                                          */
+  __IOM uint32_t  PERFSEL0;                     /*!< Bus fabric performance event select for PERFCTR0                          */
+  __IOM uint32_t  PERFCTR1;                     /*!< Bus fabric performance counter 1                                          */
+  __IOM uint32_t  PERFSEL1;                     /*!< Bus fabric performance event select for PERFCTR1                          */
+  __IOM uint32_t  PERFCTR2;                     /*!< Bus fabric performance counter 2                                          */
+  __IOM uint32_t  PERFSEL2;                     /*!< Bus fabric performance event select for PERFCTR2                          */
+  __IOM uint32_t  PERFCTR3;                     /*!< Bus fabric performance counter 3                                          */
+  __IOM uint32_t  PERFSEL3;                     /*!< Bus fabric performance event select for PERFCTR3                          */
+} BUSCTRL_Type;                                 /*!< Size = 44 (0x2c)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            SIO                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Single-cycle IO block 
+            Provides core-local and inter-core hardware for the two processors, with single-cycle access. (SIO)
+  */
+
+typedef struct {                                /*!< SIO Structure                                                             */
+  __IOM uint32_t  CPUID;                        /*!< Processor core identifier                                                 */
+  __IOM uint32_t  GPIO_IN;                      /*!< Input value for GPIO0...31. In the Non-secure SIO, Secure-only
+                                                     GPIOs (as per ACCESSCTRL) appear as zero.                                 */
+  __IOM uint32_t  GPIO_HI_IN;                   /*!< Input value on GPIO32...47, QSPI IOs and USB pins In the Non-secure
+                                                     SIO, Secure-only GPIOs (as per ACCESSCTRL) appear as zero.                */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  GPIO_OUT;                     /*!< GPIO0...31 output value                                                   */
+  __IOM uint32_t  GPIO_HI_OUT;                  /*!< Output value for GPIO32...47, QSPI IOs and USB pins. Write to
+                                                     set output level (1/0 -> high/low). Reading back gives
+                                                     the last value written, NOT the input value from the pins.
+                                                     If core 0 and core 1 both write to GPIO_HI_OUT simultaneously
+                                                     (or to a SET/CLR/XOR alias), the result is as though the
+                                                     write from core 0 took place first, and the write from
+                                                     core 1 was then applied to that intermediate result. In
+                                                     the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+                                                     ignore writes, and their output status reads back as zero.
+                                                     This is also true for SET/CLR/XOR aliases of this register.               */
+  __IOM uint32_t  GPIO_OUT_SET;                 /*!< GPIO0...31 output value set                                               */
+  __IOM uint32_t  GPIO_HI_OUT_SET;              /*!< Output value set for GPIO32..47, QSPI IOs and USB pins. Perform
+                                                     an atomic bit-set on GPIO_HI_OUT, i.e. `GPIO_HI_OUT |=
+                                                     wdata`                                                                    */
+  __IOM uint32_t  GPIO_OUT_CLR;                 /*!< GPIO0...31 output value clear                                             */
+  __IOM uint32_t  GPIO_HI_OUT_CLR;              /*!< Output value clear for GPIO32..47, QSPI IOs and USB pins. Perform
+                                                     an atomic bit-clear on GPIO_HI_OUT, i.e. `GPIO_HI_OUT &=
+                                                     ~wdata`                                                                   */
+  __IOM uint32_t  GPIO_OUT_XOR;                 /*!< GPIO0...31 output value XOR                                               */
+  __IOM uint32_t  GPIO_HI_OUT_XOR;              /*!< Output value XOR for GPIO32..47, QSPI IOs and USB pins. Perform
+                                                     an atomic bitwise XOR on GPIO_HI_OUT, i.e. `GPIO_HI_OUT
+                                                     ^= wdata`                                                                 */
+  __IOM uint32_t  GPIO_OE;                      /*!< GPIO0...31 output enable                                                  */
+  __IOM uint32_t  GPIO_HI_OE;                   /*!< Output enable value for GPIO32...47, QSPI IOs and USB pins.
+                                                     Write output enable (1/0 -> output/input). Reading back
+                                                     gives the last value written. If core 0 and core 1 both
+                                                     write to GPIO_HI_OE simultaneously (or to a SET/CLR/XOR
+                                                     alias), the result is as though the write from core 0 took
+                                                     place first, and the write from core 1 was then applied
+                                                     to that intermediate result. In the Non-secure SIO, Secure-only
+                                                     GPIOs (as per ACCESSCTRL) ignore writes, and their output
+                                                     status reads back as zero. This is also true for SET/CLR/XOR
+                                                     aliases of this register.                                                 */
+  __IOM uint32_t  GPIO_OE_SET;                  /*!< GPIO0...31 output enable set                                              */
+  __IOM uint32_t  GPIO_HI_OE_SET;               /*!< Output enable set for GPIO32...47, QSPI IOs and USB pins. Perform
+                                                     an atomic bit-set on GPIO_HI_OE, i.e. `GPIO_HI_OE |= wdata`               */
+  __IOM uint32_t  GPIO_OE_CLR;                  /*!< GPIO0...31 output enable clear                                            */
+  __IOM uint32_t  GPIO_HI_OE_CLR;               /*!< Output enable clear for GPIO32...47, QSPI IOs and USB pins.
+                                                     Perform an atomic bit-clear on GPIO_HI_OE, i.e. `GPIO_HI_OE
+                                                     &= ~wdata`                                                                */
+  __IOM uint32_t  GPIO_OE_XOR;                  /*!< GPIO0...31 output enable XOR                                              */
+  __IOM uint32_t  GPIO_HI_OE_XOR;               /*!< Output enable XOR for GPIO32...47, QSPI IOs and USB pins. Perform
+                                                     an atomic bitwise XOR on GPIO_HI_OE, i.e. `GPIO_HI_OE ^=
+                                                     wdata`                                                                    */
+  __IOM uint32_t  FIFO_ST;                      /*!< Status register for inter-core FIFOs (mailboxes). There is one
+                                                     FIFO in the core 0 -> core 1 direction, and one core 1
+                                                     -> core 0. Both are 32 bits wide and 8 words deep. Core
+                                                     0 can see the read side of the 1->0 FIFO (RX), and the
+                                                     write side of 0->1 FIFO (TX). Core 1 can see the read side
+                                                     of the 0->1 FIFO (RX), and the write side of 1->0 FIFO
+                                                     (TX). The SIO IRQ for each core is the logical OR of the
+                                                     VLD, WOF and ROE fields of its FIFO_ST register.                          */
+  __IOM uint32_t  FIFO_WR;                      /*!< Write access to this core's TX FIFO                                       */
+  __IOM uint32_t  FIFO_RD;                      /*!< Read access to this core's RX FIFO                                        */
+  __IOM uint32_t  SPINLOCK_ST;                  /*!< Spinlock state A bitmap containing the state of all 32 spinlocks
+                                                     (1=locked). Mainly intended for debugging.                                */
+  __IM  uint32_t  RESERVED1[8];
+  __IOM uint32_t  INTERP0_ACCUM0;               /*!< Read/write access to accumulator 0                                        */
+  __IOM uint32_t  INTERP0_ACCUM1;               /*!< Read/write access to accumulator 1                                        */
+  __IOM uint32_t  INTERP0_BASE0;                /*!< Read/write access to BASE0 register.                                      */
+  __IOM uint32_t  INTERP0_BASE1;                /*!< Read/write access to BASE1 register.                                      */
+  __IOM uint32_t  INTERP0_BASE2;                /*!< Read/write access to BASE2 register.                                      */
+  __IOM uint32_t  INTERP0_POP_LANE0;            /*!< Read LANE0 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP0_POP_LANE1;            /*!< Read LANE1 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP0_POP_FULL;             /*!< Read FULL result, and simultaneously write lane results to both
+                                                     accumulators (POP).                                                       */
+  __IOM uint32_t  INTERP0_PEEK_LANE0;           /*!< Read LANE0 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP0_PEEK_LANE1;           /*!< Read LANE1 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP0_PEEK_FULL;            /*!< Read FULL result, without altering any internal state (PEEK).             */
+  __IOM uint32_t  INTERP0_CTRL_LANE0;           /*!< Control register for lane 0                                               */
+  __IOM uint32_t  INTERP0_CTRL_LANE1;           /*!< Control register for lane 1                                               */
+  __IOM uint32_t  INTERP0_ACCUM0_ADD;           /*!< Values written here are atomically added to ACCUM0 Reading yields
+                                                     lane 0's raw shift and mask value (BASE0 not added).                      */
+  __IOM uint32_t  INTERP0_ACCUM1_ADD;           /*!< Values written here are atomically added to ACCUM1 Reading yields
+                                                     lane 1's raw shift and mask value (BASE1 not added).                      */
+  __IOM uint32_t  INTERP0_BASE_1AND0;           /*!< On write, the lower 16 bits go to BASE0, upper bits to BASE1
+                                                     simultaneously. Each half is sign-extended to 32 bits if
+                                                     that lane's SIGNED flag is set.                                           */
+  __IOM uint32_t  INTERP1_ACCUM0;               /*!< Read/write access to accumulator 0                                        */
+  __IOM uint32_t  INTERP1_ACCUM1;               /*!< Read/write access to accumulator 1                                        */
+  __IOM uint32_t  INTERP1_BASE0;                /*!< Read/write access to BASE0 register.                                      */
+  __IOM uint32_t  INTERP1_BASE1;                /*!< Read/write access to BASE1 register.                                      */
+  __IOM uint32_t  INTERP1_BASE2;                /*!< Read/write access to BASE2 register.                                      */
+  __IOM uint32_t  INTERP1_POP_LANE0;            /*!< Read LANE0 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP1_POP_LANE1;            /*!< Read LANE1 result, and simultaneously write lane results to
+                                                     both accumulators (POP).                                                  */
+  __IOM uint32_t  INTERP1_POP_FULL;             /*!< Read FULL result, and simultaneously write lane results to both
+                                                     accumulators (POP).                                                       */
+  __IOM uint32_t  INTERP1_PEEK_LANE0;           /*!< Read LANE0 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP1_PEEK_LANE1;           /*!< Read LANE1 result, without altering any internal state (PEEK).            */
+  __IOM uint32_t  INTERP1_PEEK_FULL;            /*!< Read FULL result, without altering any internal state (PEEK).             */
+  __IOM uint32_t  INTERP1_CTRL_LANE0;           /*!< Control register for lane 0                                               */
+  __IOM uint32_t  INTERP1_CTRL_LANE1;           /*!< Control register for lane 1                                               */
+  __IOM uint32_t  INTERP1_ACCUM0_ADD;           /*!< Values written here are atomically added to ACCUM0 Reading yields
+                                                     lane 0's raw shift and mask value (BASE0 not added).                      */
+  __IOM uint32_t  INTERP1_ACCUM1_ADD;           /*!< Values written here are atomically added to ACCUM1 Reading yields
+                                                     lane 1's raw shift and mask value (BASE1 not added).                      */
+  __IOM uint32_t  INTERP1_BASE_1AND0;           /*!< On write, the lower 16 bits go to BASE0, upper bits to BASE1
+                                                     simultaneously. Each half is sign-extended to 32 bits if
+                                                     that lane's SIGNED flag is set.                                           */
+  __IOM uint32_t  SPINLOCK0;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK1;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK2;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK3;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK4;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK5;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK6;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK7;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK8;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK9;                    /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK10;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK11;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK12;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK13;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK14;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK15;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK16;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK17;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK18;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK19;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK20;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK21;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK22;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK23;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK24;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK25;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK26;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK27;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK28;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK29;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK30;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  SPINLOCK31;                   /*!< Reading from a spinlock address will: - Return 0 if lock is
+                                                     already locked - Otherwise return nonzero, and simultaneously
+                                                     claim the lock Writing (any value) releases the lock. If
+                                                     core 0 and core 1 attempt to claim the same lock simultaneously,
+                                                     core 0 wins. The value returned on success is 0x1 << lock
+                                                     number.                                                                   */
+  __IOM uint32_t  DOORBELL_OUT_SET;             /*!< Trigger a doorbell interrupt on the opposite core. Write 1 to
+                                                     a bit to set the corresponding bit in DOORBELL_IN on the
+                                                     opposite core. This raises the opposite core's doorbell
+                                                     interrupt. Read to get the status of the doorbells currently
+                                                     asserted on the opposite core. This is equivalent to that
+                                                     core reading its own DOORBELL_IN status.                                  */
+  __IOM uint32_t  DOORBELL_OUT_CLR;             /*!< Clear doorbells which have been posted to the opposite core.
+                                                     This register is intended for debugging and initialisation
+                                                     purposes. Writing 1 to a bit in DOORBELL_OUT_CLR clears
+                                                     the corresponding bit in DOORBELL_IN on the opposite core.
+                                                     Clearing all bits will cause that core's doorbell interrupt
+                                                     to deassert. Since the usual order of events is for software
+                                                     to send events using DOORBELL_OUT_SET, and acknowledge
+                                                     incoming events by writing to DOORBELL_IN_CLR, this register
+                                                     should be used with caution to avoid race conditions. Reading
+                                                     returns the status of the doorbells currently asserted
+                                                     on the other core, i.e. is equivalent to that core reading
+                                                     its own DOORBELL_IN status.                                               */
+  __IOM uint32_t  DOORBELL_IN_SET;              /*!< Write 1s to trigger doorbell interrupts on this core. Read to
+                                                     get status of doorbells currently asserted on this core.                  */
+  __IOM uint32_t  DOORBELL_IN_CLR;              /*!< Check and acknowledge doorbells posted to this core. This core's
+                                                     doorbell interrupt is asserted when any bit in this register
+                                                     is 1. Write 1 to each bit to clear that bit. The doorbell
+                                                     interrupt deasserts once all bits are cleared. Read to
+                                                     get status of doorbells currently asserted on this core.                  */
+  __IOM uint32_t  PERI_NONSEC;                  /*!< Detach certain core-local peripherals from Secure SIO, and attach
+                                                     them to Non-secure SIO, so that Non-secure software can
+                                                     use them. Attempting to access one of these peripherals
+                                                     from the Secure SIO when it is attached to the Non-secure
+                                                     SIO, or vice versa, will generate a bus error. This register
+                                                     is per-core, and is only present on the Secure SIO. Most
+                                                     SIO hardware is duplicated across the Secure and Non-secure
+                                                     SIO, so is not listed in this register.                                   */
+  __IM  uint32_t  RESERVED2[3];
+  __IOM uint32_t  RISCV_SOFTIRQ;                /*!< Control the assertion of the standard software interrupt (MIP.MSIP)
+                                                     on the RISC-V cores. Unlike the RISC-V timer, this interrupt
+                                                     is not routed to a normal system-level interrupt line,
+                                                     so can not be used by the Arm cores. It is safe for both
+                                                     cores to write to this register on the same cycle. The
+                                                     set/clear effect is accumulated across both cores, and
+                                                     then applied. If a flag is both set and cleared on the
+                                                     same cycle, only the set takes effect.                                    */
+  __IOM uint32_t  MTIME_CTRL;                   /*!< Control register for the RISC-V 64-bit Machine-mode timer. This
+                                                     timer is only present in the Secure SIO, so is only accessible
+                                                     to an Arm core in Secure mode or a RISC-V core in Machine
+                                                     mode. Note whilst this timer follows the RISC-V privileged
+                                                     specification, it is equally usable by the Arm cores. The
+                                                     interrupts are routed to normal system-level interrupt
+                                                     lines as well as to the MIP.MTIP inputs on the RISC-V cores.              */
+  __IM  uint32_t  RESERVED3[2];
+  __IOM uint32_t  MTIME;                        /*!< Read/write access to the high half of RISC-V Machine-mode timer.
+                                                     This register is shared between both cores. If both cores
+                                                     write on the same cycle, core 1 takes precedence.                         */
+  __IOM uint32_t  MTIMEH;                       /*!< Read/write access to the high half of RISC-V Machine-mode timer.
+                                                     This register is shared between both cores. If both cores
+                                                     write on the same cycle, core 1 takes precedence.                         */
+  __IOM uint32_t  MTIMECMP;                     /*!< Low half of RISC-V Machine-mode timer comparator. This register
+                                                     is core-local, i.e., each core gets a copy of this register,
+                                                     with the comparison result routed to its own interrupt
+                                                     line. The timer interrupt is asserted whenever MTIME is
+                                                     greater than or equal to MTIMECMP. This comparison is unsigned,
+                                                     and performed on the full 64-bit values.                                  */
+  __IOM uint32_t  MTIMECMPH;                    /*!< High half of RISC-V Machine-mode timer comparator. This register
+                                                     is core-local. The timer interrupt is asserted whenever
+                                                     MTIME is greater than or equal to MTIMECMP. This comparison
+                                                     is unsigned, and performed on the full 64-bit values.                     */
+  __IOM uint32_t  TMDS_CTRL;                    /*!< Control register for TMDS encoder.                                        */
+  __IOM uint32_t  TMDS_WDATA;                   /*!< Write-only access to the TMDS colour data register.                       */
+  __IOM uint32_t  TMDS_PEEK_SINGLE;             /*!< Get the encoding of one pixel's worth of colour data, packed
+                                                     into a 32-bit value (3x10-bit symbols). The PEEK alias
+                                                     does not shift the colour register when read, but still
+                                                     advances the running DC balance state of each encoder.
+                                                     This is useful for pixel doubling.                                        */
+  __IOM uint32_t  TMDS_POP_SINGLE;              /*!< Get the encoding of one pixel's worth of colour data, packed
+                                                     into a 32-bit value. The packing is 5 chunks of 3 lanes
+                                                     times 2 bits (30 bits total). Each chunk contains two bits
+                                                     of a TMDS symbol per lane. This format is intended for
+                                                     shifting out with the HSTX peripheral on RP2350. The POP
+                                                     alias shifts the colour register when read, as well as
+                                                     advancing the running DC balance state of each encoder.                   */
+  __IOM uint32_t  TMDS_PEEK_DOUBLE_L0;          /*!< Get lane 0 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The PEEK alias does not shift the colour register
+                                                     when read, but still advances the lane 0 DC balance state.
+                                                     This is useful if all 3 lanes' worth of encode are to be
+                                                     read at once, rather than processing the entire scanline
+                                                     for one lane before moving to the next lane.                              */
+  __IOM uint32_t  TMDS_POP_DOUBLE_L0;           /*!< Get lane 0 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The POP alias shifts the colour register when read,
+                                                     according to the values of PIX_SHIFT and PIX2_NOSHIFT.                    */
+  __IOM uint32_t  TMDS_PEEK_DOUBLE_L1;          /*!< Get lane 1 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The PEEK alias does not shift the colour register
+                                                     when read, but still advances the lane 1 DC balance state.
+                                                     This is useful if all 3 lanes' worth of encode are to be
+                                                     read at once, rather than processing the entire scanline
+                                                     for one lane before moving to the next lane.                              */
+  __IOM uint32_t  TMDS_POP_DOUBLE_L1;           /*!< Get lane 1 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The POP alias shifts the colour register when read,
+                                                     according to the values of PIX_SHIFT and PIX2_NOSHIFT.                    */
+  __IOM uint32_t  TMDS_PEEK_DOUBLE_L2;          /*!< Get lane 2 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The PEEK alias does not shift the colour register
+                                                     when read, but still advances the lane 2 DC balance state.
+                                                     This is useful if all 3 lanes' worth of encode are to be
+                                                     read at once, rather than processing the entire scanline
+                                                     for one lane before moving to the next lane.                              */
+  __IOM uint32_t  TMDS_POP_DOUBLE_L2;           /*!< Get lane 2 of the encoding of two pixels' worth of colour data.
+                                                     Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+                                                     word. The POP alias shifts the colour register when read,
+                                                     according to the values of PIX_SHIFT and PIX2_NOSHIFT.                    */
+} SIO_Type;                                     /*!< Size = 488 (0x1e8)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                          BOOTRAM                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Additional registers mapped adjacent to the bootram, for use by the bootrom. (BOOTRAM)
+  */
+
+typedef struct {                                /*!< BOOTRAM Structure                                                         */
+  __IM  uint32_t  RESERVED[512];
+  __IOM uint32_t  WRITE_ONCE0;                  /*!< This registers always ORs writes into its current contents.
+                                                     Once a bit is set, it can only be cleared by a reset.                     */
+  __IOM uint32_t  WRITE_ONCE1;                  /*!< This registers always ORs writes into its current contents.
+                                                     Once a bit is set, it can only be cleared by a reset.                     */
+  __IOM uint32_t  BOOTLOCK_STAT;                /*!< Bootlock status register. 1=unclaimed, 0=claimed. These locks
+                                                     function identically to the SIO spinlocks, but are reserved
+                                                     for bootrom use.                                                          */
+  __IOM uint32_t  BOOTLOCK0;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK1;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK2;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK3;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK4;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK5;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK6;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+  __IOM uint32_t  BOOTLOCK7;                    /*!< Read to claim and check. Write to unclaim. The value returned
+                                                     on successful claim is 1 << n, and on failed claim is zero.               */
+} BOOTRAM_Type;                                 /*!< Size = 2092 (0x82c)                                                       */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                      CORESIGHT_TRACE                                      ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Coresight block - RP specific registers (CORESIGHT_TRACE)
+  */
+
+typedef struct {                                /*!< CORESIGHT_TRACE Structure                                                 */
+  __IOM uint32_t  CTRL_STATUS;                  /*!< Control and status register                                               */
+  __IOM uint32_t  TRACE_CAPTURE_FIFO;           /*!< FIFO for trace data captured from the TPIU                                */
+} CORESIGHT_TRACE_Type;                         /*!< Size = 8 (0x8)                                                            */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            USB                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief USB FS/LS controller device registers (USB)
+  */
+
+typedef struct {                                /*!< USB Structure                                                             */
+  __IOM uint32_t  ADDR_ENDP;                    /*!< Device address and endpoint control                                       */
+  __IOM uint32_t  ADDR_ENDP1;                   /*!< Interrupt endpoint 1. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP2;                   /*!< Interrupt endpoint 2. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP3;                   /*!< Interrupt endpoint 3. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP4;                   /*!< Interrupt endpoint 4. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP5;                   /*!< Interrupt endpoint 5. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP6;                   /*!< Interrupt endpoint 6. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP7;                   /*!< Interrupt endpoint 7. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP8;                   /*!< Interrupt endpoint 8. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP9;                   /*!< Interrupt endpoint 9. Only valid for HOST mode.                           */
+  __IOM uint32_t  ADDR_ENDP10;                  /*!< Interrupt endpoint 10. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP11;                  /*!< Interrupt endpoint 11. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP12;                  /*!< Interrupt endpoint 12. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP13;                  /*!< Interrupt endpoint 13. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP14;                  /*!< Interrupt endpoint 14. Only valid for HOST mode.                          */
+  __IOM uint32_t  ADDR_ENDP15;                  /*!< Interrupt endpoint 15. Only valid for HOST mode.                          */
+  __IOM uint32_t  MAIN_CTRL;                    /*!< Main control register                                                     */
+  __IOM uint32_t  SOF_WR;                       /*!< Set the SOF (Start of Frame) frame number in the host controller.
+                                                     The SOF packet is sent every 1ms and the host will increment
+                                                     the frame number by 1 each time.                                          */
+  __IOM uint32_t  SOF_RD;                       /*!< Read the last SOF (Start of Frame) frame number seen. In device
+                                                     mode the last SOF received from the host. In host mode
+                                                     the last SOF sent by the host.                                            */
+  __IOM uint32_t  SIE_CTRL;                     /*!< SIE control register                                                      */
+  __IOM uint32_t  SIE_STATUS;                   /*!< SIE status register                                                       */
+  __IOM uint32_t  INT_EP_CTRL;                  /*!< interrupt endpoint control register                                       */
+  __IOM uint32_t  BUFF_STATUS;                  /*!< Buffer status register. A bit set here indicates that a buffer
+                                                     has completed on the endpoint (if the buffer interrupt
+                                                     is enabled). It is possible for 2 buffers to be completed,
+                                                     so clearing the buffer status bit may instantly re set
+                                                     it on the next clock cycle.                                               */
+  __IOM uint32_t  BUFF_CPU_SHOULD_HANDLE;       /*!< Which of the double buffers should be handled. Only valid if
+                                                     using an interrupt per buffer (i.e. not per 2 buffers).
+                                                     Not valid for host interrupt endpoint polling because they
+                                                     are only single buffered.                                                 */
+  __IOM uint32_t  EP_ABORT;                     /*!< Device only: Can be set to ignore the buffer control register
+                                                     for this endpoint in case you would like to revoke a buffer.
+                                                     A NAK will be sent for every access to the endpoint until
+                                                     this bit is cleared. A corresponding bit in `EP_ABORT_DONE`
+                                                     is set when it is safe to modify the buffer control register.             */
+  __IOM uint32_t  EP_ABORT_DONE;                /*!< Device only: Used in conjunction with `EP_ABORT`. Set once an
+                                                     endpoint is idle so the programmer knows it is safe to
+                                                     modify the buffer control register.                                       */
+  __IOM uint32_t  EP_STALL_ARM;                 /*!< Device: this bit must be set in conjunction with the `STALL`
+                                                     bit in the buffer control register to send a STALL on EP0.
+                                                     The device controller clears these bits when a SETUP packet
+                                                     is received because the USB spec requires that a STALL
+                                                     condition is cleared when a SETUP packet is received.                     */
+  __IOM uint32_t  NAK_POLL;                     /*!< Used by the host controller. Sets the wait time in microseconds
+                                                     before trying again if the device replies with a NAK.                     */
+  __IOM uint32_t  EP_STATUS_STALL_NAK;          /*!< Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL`
+                                                     bits are set. For EP0 this comes from `SIE_CTRL`. For all
+                                                     other endpoints it comes from the endpoint control register.              */
+  __IOM uint32_t  USB_MUXING;                   /*!< Where to connect the USB controller. Should be to_phy by default.         */
+  __IOM uint32_t  USB_PWR;                      /*!< Overrides for the power signals in the event that the VBUS signals
+                                                     are not hooked up to GPIO. Set the value of the override
+                                                     and then the override enable to switch over to the override
+                                                     value.                                                                    */
+  __IOM uint32_t  USBPHY_DIRECT;                /*!< This register allows for direct control of the USB phy. Use
+                                                     in conjunction with usbphy_direct_override register to
+                                                     enable each override bit.                                                 */
+  __IOM uint32_t  USBPHY_DIRECT_OVERRIDE;       /*!< Override enable for each control in usbphy_direct                         */
+  __IOM uint32_t  USBPHY_TRIM;                  /*!< Used to adjust trim values of USB phy pull down resistors.                */
+  __IOM uint32_t  LINESTATE_TUNING;             /*!< Used for debug only.                                                      */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+  __IM  uint32_t  RESERVED[25];
+  __IOM uint32_t  SOF_TIMESTAMP_RAW;            /*!< Device only. Raw value of free-running PHY clock counter @48MHz.
+                                                     Used to calculate time between SOF events.                                */
+  __IOM uint32_t  SOF_TIMESTAMP_LAST;           /*!< Device only. Value of free-running PHY clock counter @48MHz
+                                                     when last SOF event occurred.                                             */
+  __IOM uint32_t  SM_STATE;                     /*!< SM_STATE                                                                  */
+  __IOM uint32_t  EP_TX_ERROR;                  /*!< TX error count for each endpoint. Write to each field to reset
+                                                     the counter to 0.                                                         */
+  __IOM uint32_t  EP_RX_ERROR;                  /*!< RX error count for each endpoint. Write to each field to reset
+                                                     the counter to 0.                                                         */
+  __IOM uint32_t  DEV_SM_WATCHDOG;              /*!< Watchdog that forces the device state machine to idle and raises
+                                                     an interrupt if the device stays in a state that isn't
+                                                     idle for the configured limit. The counter is reset on
+                                                     every state transition. Set limit while enable is low and
+                                                     then set the enable.                                                      */
+} USB_Type;                                     /*!< Size = 280 (0x118)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           TRNG                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief ARM TrustZone RNG register block (TRNG)
+  */
+
+typedef struct {                                /*!< TRNG Structure                                                            */
+  __IM  uint32_t  RESERVED[64];
+  __IOM uint32_t  RNG_IMR;                      /*!< Interrupt masking.                                                        */
+  __IOM uint32_t  RNG_ISR;                      /*!< RNG status register. If corresponding RNG_IMR bit is unmasked,
+                                                     an interrupt will be generated.                                           */
+  __IOM uint32_t  RNG_ICR;                      /*!< Interrupt/status bit clear Register.                                      */
+  __IOM uint32_t  TRNG_CONFIG;                  /*!< Selecting the inverter-chain length.                                      */
+  __IOM uint32_t  TRNG_VALID;                   /*!< 192 bit collection indication.                                            */
+  __IOM uint32_t  EHR_DATA0;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  EHR_DATA1;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  EHR_DATA2;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  EHR_DATA3;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  EHR_DATA4;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  EHR_DATA5;                    /*!< RNG collected bits.                                                       */
+  __IOM uint32_t  RND_SOURCE_ENABLE;            /*!< Enable signal for the random source.                                      */
+  __IOM uint32_t  SAMPLE_CNT1;                  /*!< Counts clocks between sampling of random bit.                             */
+  __IOM uint32_t  AUTOCORR_STATISTIC;           /*!< Statistic about Autocorrelation test activations.                         */
+  __IOM uint32_t  TRNG_DEBUG_CONTROL;           /*!< Debug register.                                                           */
+  __IM  uint32_t  RESERVED1;
+  __IOM uint32_t  TRNG_SW_RESET;                /*!< Generate internal SW reset within the RNG block.                          */
+  __IM  uint32_t  RESERVED2[28];
+  __IOM uint32_t  RNG_DEBUG_EN_INPUT;           /*!< Enable the RNG debug mode                                                 */
+  __IOM uint32_t  TRNG_BUSY;                    /*!< RNG Busy indication.                                                      */
+  __IOM uint32_t  RST_BITS_COUNTER;             /*!< Reset the counter of collected bits in the RNG.                           */
+  __IOM uint32_t  RNG_VERSION;                  /*!< Displays the version settings of the TRNG.                                */
+  __IM  uint32_t  RESERVED3[7];
+  __IOM uint32_t  RNG_BIST_CNTR_0;              /*!< Collected BIST results.                                                   */
+  __IOM uint32_t  RNG_BIST_CNTR_1;              /*!< Collected BIST results.                                                   */
+  __IOM uint32_t  RNG_BIST_CNTR_2;              /*!< Collected BIST results.                                                   */
+} TRNG_Type;                                    /*!< Size = 492 (0x1ec)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                      GLITCH_DETECTOR                                      ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Glitch detector controls (GLITCH_DETECTOR)
+  */
+
+typedef struct {                                /*!< GLITCH_DETECTOR Structure                                                 */
+  __IOM uint32_t  ARM;                          /*!< Forcibly arm the glitch detectors, if they are not already armed
+                                                     by OTP. When armed, any individual detector trigger will
+                                                     cause a restart of the switched core power domain's power-on
+                                                     reset state machine. Glitch detector triggers are recorded
+                                                     accumulatively in TRIG_STATUS. If the system is reset by
+                                                     a glitch detector trigger, this is recorded in POWMAN_CHIP_RESET.
+                                                     This register is Secure read/write only.                                  */
+  __IOM uint32_t  DISARM;                       /*!< DISARM                                                                    */
+  __IOM uint32_t  SENSITIVITY;                  /*!< Adjust the sensitivity of glitch detectors to values other than
+                                                     their OTP-provided defaults. This register is Secure read/write
+                                                     only.                                                                     */
+  __IOM uint32_t  LOCK;                         /*!< LOCK                                                                      */
+  __IOM uint32_t  TRIG_STATUS;                  /*!< Set when a detector output triggers. Write-1-clear. (May immediately
+                                                     return high if the detector remains in a failed state.
+                                                     Detectors can only be cleared by a full reset of the switched
+                                                     core power domain.) This register is Secure read/write
+                                                     only.                                                                     */
+  __IOM uint32_t  TRIG_FORCE;                   /*!< Simulate the firing of one or more detectors. Writing ones to
+                                                     this register will set the matching bits in STATUS_TRIG.
+                                                     If the glitch detectors are currently armed, writing ones
+                                                     will also immediately reset the switched core power domain,
+                                                     and set the reset reason latches in POWMAN_CHIP_RESET to
+                                                     indicate a glitch detector resets. This register is Secure
+                                                     read/write only.                                                          */
+} GLITCH_DETECTOR_Type;                         /*!< Size = 24 (0x18)                                                          */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                            OTP                                            ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief SNPS OTP control IF (SBPI and RPi wrapper control) (OTP)
+  */
+
+typedef struct {                                /*!< OTP Structure                                                             */
+  __IOM uint32_t  SW_LOCK0;                     /*!< Software lock register for page 0. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK1;                     /*!< Software lock register for page 1. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK2;                     /*!< Software lock register for page 2. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK3;                     /*!< Software lock register for page 3. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK4;                     /*!< Software lock register for page 4. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK5;                     /*!< Software lock register for page 5. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK6;                     /*!< Software lock register for page 6. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK7;                     /*!< Software lock register for page 7. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK8;                     /*!< Software lock register for page 8. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK9;                     /*!< Software lock register for page 9. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK10;                    /*!< Software lock register for page 10. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK11;                    /*!< Software lock register for page 11. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK12;                    /*!< Software lock register for page 12. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK13;                    /*!< Software lock register for page 13. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK14;                    /*!< Software lock register for page 14. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK15;                    /*!< Software lock register for page 15. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK16;                    /*!< Software lock register for page 16. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK17;                    /*!< Software lock register for page 17. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK18;                    /*!< Software lock register for page 18. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK19;                    /*!< Software lock register for page 19. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK20;                    /*!< Software lock register for page 20. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK21;                    /*!< Software lock register for page 21. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK22;                    /*!< Software lock register for page 22. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK23;                    /*!< Software lock register for page 23. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK24;                    /*!< Software lock register for page 24. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK25;                    /*!< Software lock register for page 25. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK26;                    /*!< Software lock register for page 26. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK27;                    /*!< Software lock register for page 27. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK28;                    /*!< Software lock register for page 28. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK29;                    /*!< Software lock register for page 29. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK30;                    /*!< Software lock register for page 30. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK31;                    /*!< Software lock register for page 31. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK32;                    /*!< Software lock register for page 32. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK33;                    /*!< Software lock register for page 33. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK34;                    /*!< Software lock register for page 34. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK35;                    /*!< Software lock register for page 35. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK36;                    /*!< Software lock register for page 36. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK37;                    /*!< Software lock register for page 37. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK38;                    /*!< Software lock register for page 38. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK39;                    /*!< Software lock register for page 39. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK40;                    /*!< Software lock register for page 40. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK41;                    /*!< Software lock register for page 41. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK42;                    /*!< Software lock register for page 42. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK43;                    /*!< Software lock register for page 43. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK44;                    /*!< Software lock register for page 44. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK45;                    /*!< Software lock register for page 45. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK46;                    /*!< Software lock register for page 46. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK47;                    /*!< Software lock register for page 47. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK48;                    /*!< Software lock register for page 48. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK49;                    /*!< Software lock register for page 49. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK50;                    /*!< Software lock register for page 50. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK51;                    /*!< Software lock register for page 51. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK52;                    /*!< Software lock register for page 52. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK53;                    /*!< Software lock register for page 53. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK54;                    /*!< Software lock register for page 54. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK55;                    /*!< Software lock register for page 55. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK56;                    /*!< Software lock register for page 56. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK57;                    /*!< Software lock register for page 57. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK58;                    /*!< Software lock register for page 58. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK59;                    /*!< Software lock register for page 59. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK60;                    /*!< Software lock register for page 60. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK61;                    /*!< Software lock register for page 61. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK62;                    /*!< Software lock register for page 62. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SW_LOCK63;                    /*!< Software lock register for page 63. Locks are initialised from
+                                                     the OTP lock pages at reset. This register can be written
+                                                     to further advance the lock state of each page (until next
+                                                     reset), and read to check the current lock state of a page.               */
+  __IOM uint32_t  SBPI_INSTR;                   /*!< Dispatch instructions to the SBPI interface, used for programming
+                                                     the OTP fuses.                                                            */
+  __IOM uint32_t  SBPI_WDATA_0;                 /*!< SBPI write payload bytes 3..0                                             */
+  __IOM uint32_t  SBPI_WDATA_1;                 /*!< SBPI write payload bytes 7..4                                             */
+  __IOM uint32_t  SBPI_WDATA_2;                 /*!< SBPI write payload bytes 11..8                                            */
+  __IOM uint32_t  SBPI_WDATA_3;                 /*!< SBPI write payload bytes 15..12                                           */
+  __IOM uint32_t  SBPI_RDATA_0;                 /*!< Read payload bytes 3..0. Once read, the data in the register
+                                                     will automatically clear to 0.                                            */
+  __IOM uint32_t  SBPI_RDATA_1;                 /*!< Read payload bytes 7..4. Once read, the data in the register
+                                                     will automatically clear to 0.                                            */
+  __IOM uint32_t  SBPI_RDATA_2;                 /*!< Read payload bytes 11..8. Once read, the data in the register
+                                                     will automatically clear to 0.                                            */
+  __IOM uint32_t  SBPI_RDATA_3;                 /*!< Read payload bytes 15..12. Once read, the data in the register
+                                                     will automatically clear to 0.                                            */
+  __IOM uint32_t  SBPI_STATUS;                  /*!< SBPI_STATUS                                                               */
+  __IOM uint32_t  USR;                          /*!< Controls for APB data read interface (USER interface)                     */
+  __IOM uint32_t  DBG;                          /*!< Debug for OTP power-on state machine                                      */
+  __IM  uint32_t  RESERVED;
+  __IOM uint32_t  BIST;                         /*!< During BIST, count address locations that have at least one
+                                                     leaky bit                                                                 */
+  __IOM uint32_t  CRT_KEY_W0;                   /*!< Word 0 (bits 31..0) of the key. Write only, read returns 0x0              */
+  __IOM uint32_t  CRT_KEY_W1;                   /*!< Word 1 (bits 63..32) of the key. Write only, read returns 0x0             */
+  __IOM uint32_t  CRT_KEY_W2;                   /*!< Word 2 (bits 95..64) of the key. Write only, read returns 0x0             */
+  __IOM uint32_t  CRT_KEY_W3;                   /*!< Word 3 (bits 127..96) of the key. Write only, read returns 0x0            */
+  __IOM uint32_t  CRITICAL;                     /*!< Quickly check values of critical flags read during boot up                */
+  __IOM uint32_t  KEY_VALID;                    /*!< Which keys were valid (enrolled) at boot time                             */
+  __IOM uint32_t  DEBUGEN;                      /*!< Enable a debug feature that has been disabled. Debug features
+                                                     are disabled if one of the relevant critical boot flags
+                                                     is set in OTP (DEBUG_DISABLE or SECURE_DEBUG_DISABLE),
+                                                     OR if a debug key is marked valid in OTP, and the matching
+                                                     key value has not been supplied over SWD. Specifically:
+                                                     - The DEBUG_DISABLE flag disables all debug features. This
+                                                     can be fully overridden by setting all bits of this register.
+                                                     - The SECURE_DEBUG_DISABLE flag disables secure processor
+                                                     debug. This can be fully overridden by setting the PROC0_SECURE
+                                                     and PROC1_SECURE bits of this register. - If a single debug
+                                                     key has been registered, and no matching key value has
+                                                     been supplied over SWD, then all debug features are disabled.
+                                                     This can be fully overridden by setting all bits of this
+                                                     register. - If both debug keys have been registered, and
+                                                     the Non-secure key's value (key 6) has been supplied over
+                                                     SWD, secure processor debug is disabled. This can be fully
+                                                     overridden by setting the PROC0_SECURE and PROC1_SECURE
+                                                     bits of this register. - If both debug keys have been registered,
+                                                     and the Secure key's value (key 5) has been supplied over
+                                                     SWD, then no debug features are disabled by the key mechanism.
+                                                     However, note that in this case debug features may still
+                                                     be disabled by the critical boot flags.                                   */
+  __IOM uint32_t  DEBUGEN_LOCK;                 /*!< Write 1s to lock corresponding bits in DEBUGEN. This register
+                                                     is reset by the processor cold reset.                                     */
+  __IOM uint32_t  ARCHSEL;                      /*!< Architecture select (Arm/RISC-V). The default and allowable
+                                                     values of this register are constrained by the critical
+                                                     boot flags. This register is reset by the earliest reset
+                                                     in the switched core power domain (before a processor cold
+                                                     reset). Cores sample their architecture select signal on
+                                                     a warm reset. The source of the warm reset could be the
+                                                     system power-up state machine, the watchdog timer, Arm
+                                                     SYSRESETREQ or from RISC-V hartresetreq. Note that when
+                                                     an Arm core is deselected, its cold reset domain is also
+                                                     held in reset, since in particular the SYSRESETREQ bit
+                                                     becomes inaccessible once the core is deselected. Note
+                                                     also the RISC-V cores do not have a cold reset domain,
+                                                     since their corresponding controls are located in the Debug
+                                                     Module.                                                                   */
+  __IOM uint32_t  ARCHSEL_STATUS;               /*!< Get the current architecture select state of each core. Cores
+                                                     sample the current value of the ARCHSEL register when their
+                                                     warm reset is released, at which point the corresponding
+                                                     bit in this register will also update.                                    */
+  __IOM uint32_t  BOOTDIS;                      /*!< Tell the bootrom to ignore scratch register boot vectors (both
+                                                     power manager and watchdog) on the next power up. If an
+                                                     early boot stage has soft-locked some OTP pages in order
+                                                     to protect their contents from later stages, there is a
+                                                     risk that Secure code running at a later stage can unlock
+                                                     the pages by performing a watchdog reset that resets the
+                                                     OTP. This register can be used to ensure that the bootloader
+                                                     runs as normal on the next power up, preventing Secure
+                                                     code at a later stage from accessing OTP in its unlocked
+                                                     state. Should be used in conjunction with the power manager
+                                                     BOOTDIS register.                                                         */
+  __IOM uint32_t  INTR;                         /*!< Raw Interrupts                                                            */
+  __IOM uint32_t  INTE;                         /*!< Interrupt Enable                                                          */
+  __IOM uint32_t  INTF;                         /*!< Interrupt Force                                                           */
+  __IOM uint32_t  INTS;                         /*!< Interrupt status after masking & forcing                                  */
+} OTP_Type;                                     /*!< Size = 372 (0x174)                                                        */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         OTP_DATA                                          ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Predefined OTP data layout for RP2350 (OTP_DATA)
+  */
+
+typedef struct {                                /*!< OTP_DATA Structure                                                        */
+  __IOM uint16_t  CHIPID0;                      /*!< Bits 15:0 of public device ID. (ECC) The CHIPID0..3 rows contain
+                                                     a 64-bit random identifier for this chip, which can be
+                                                     read from the USB bootloader PICOBOOT interface or from
+                                                     the get_sys_info ROM API. The number of random bits makes
+                                                     the occurrence of twins exceedingly unlikely: for example,
+                                                     a fleet of a hundred million devices has a 99.97% probability
+                                                     of no twinned IDs. This is estimated to be lower than the
+                                                     occurrence of process errors in the assignment of sequential
+                                                     random IDs, and for practical purposes CHIPID may be treated
+                                                     as unique.                                                                */
+  __IOM uint16_t  CHIPID1;                      /*!< Bits 31:16 of public device ID (ECC)                                      */
+  __IOM uint16_t  CHIPID2;                      /*!< Bits 47:32 of public device ID (ECC)                                      */
+  __IOM uint16_t  CHIPID3;                      /*!< Bits 63:48 of public device ID (ECC)                                      */
+  __IOM uint16_t  RANDID0;                      /*!< Bits 15:0 of private per-device random number (ECC) The RANDID0..7
+                                                     rows form a 128-bit random number generated during device
+                                                     test. This ID is not exposed through the USB PICOBOOT GET_INFO
+                                                     command or the ROM `get_sys_info()` API. However note that
+                                                     the USB PICOBOOT OTP access point can read the entirety
+                                                     of page 0, so this value is not meaningfully private unless
+                                                     the USB PICOBOOT interface is disabled via the DISABLE_BOOTSEL_USB_PICOBO
+                                                     T_IFC flag in BOOT_FLAGS0.                                                */
+  __IOM uint16_t  RANDID1;                      /*!< Bits 31:16 of private per-device random number (ECC)                      */
+  __IOM uint16_t  RANDID2;                      /*!< Bits 47:32 of private per-device random number (ECC)                      */
+  __IOM uint16_t  RANDID3;                      /*!< Bits 63:48 of private per-device random number (ECC)                      */
+  __IOM uint16_t  RANDID4;                      /*!< Bits 79:64 of private per-device random number (ECC)                      */
+  __IOM uint16_t  RANDID5;                      /*!< Bits 95:80 of private per-device random number (ECC)                      */
+  __IOM uint16_t  RANDID6;                      /*!< Bits 111:96 of private per-device random number (ECC)                     */
+  __IOM uint16_t  RANDID7;                      /*!< Bits 127:112 of private per-device random number (ECC)                    */
+  __IM  uint16_t  RESERVED[4];
+  __IOM uint16_t  ROSC_CALIB;                   /*!< Ring oscillator frequency in kHz, measured during manufacturing
+                                                     (ECC) This is measured at 1.1 V, at room temperature, with
+                                                     the ROSC configuration registers in their reset state.                    */
+  __IOM uint16_t  LPOSC_CALIB;                  /*!< Low-power oscillator frequency in Hz, measured during manufacturing
+                                                     (ECC) This is measured at 1.1V, at room temperature, with
+                                                     the LPOSC trim register in its reset state.                               */
+  __IM  uint16_t  RESERVED1[6];
+  __IOM uint16_t  NUM_GPIOS;                    /*!< The number of main user GPIOs (bank 0). Should read 48 in the
+                                                     QFN80 package, and 30 in the QFN60 package. (ECC)                         */
+  __IM  uint16_t  RESERVED2[29];
+  __IOM uint16_t  INFO_CRC0;                    /*!< Lower 16 bits of CRC32 of OTP addresses 0x00 through 0x6b (polynomial
+                                                     0x4c11db7, input reflected, output reflected, seed all-ones,
+                                                     final XOR all-ones) (ECC)                                                 */
+  __IOM uint16_t  INFO_CRC1;                    /*!< Upper 16 bits of CRC32 of OTP addresses 0x00 through 0x6b (ECC)           */
+  __IM  uint16_t  RESERVED3[28];
+  __IOM uint16_t  FLASH_DEVINFO;                /*!< Stores information about external flash device(s). (ECC) Assumed
+                                                     to be valid if BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is set.                   */
+  __IOM uint16_t  FLASH_PARTITION_SLOT_SIZE;    /*!< Gap between partition table slot 0 and slot 1 at the start of
+                                                     flash (the default size is 4096 bytes) (ECC) Enabled by
+                                                     the OVERRIDE_FLASH_PARTITION_SLOT_SIZE bit in BOOT_FLAGS,
+                                                     the size is 4096 * (value + 1)                                            */
+  __IOM uint16_t  BOOTSEL_LED_CFG;              /*!< Pin configuration for LED status, used by USB bootloader. (ECC)
+                                                     Must be valid if BOOT_FLAGS0_ENABLE_BOOTSEL_LED is set.                   */
+  __IOM uint16_t  BOOTSEL_PLL_CFG;              /*!< Optional PLL configuration for BOOTSEL mode. (ECC) This should
+                                                     be configured to produce an exact 48 MHz based on the crystal
+                                                     oscillator frequency. User mode software may also use this
+                                                     value to calculate the expected crystal frequency based
+                                                     on an assumed 48 MHz PLL output. If no configuration is
+                                                     given, the crystal is assumed to be 12 MHz. The PLL frequency
+                                                     can be calculated as: PLL out = (XOSC frequency / (REFDIV+1))
+                                                     x FBDIV / (POSTDIV1 x POSTDIV2) Conversely the crystal
+                                                     frequency can be calculated as: XOSC frequency = 48 MHz
+                                                     x (REFDIV+1) x (POSTDIV1 x POSTDIV2) / FBDIV (Note the
+                                                     +1 on REFDIV is because the value stored in this OTP location
+                                                     is the actual divisor value minus one.) Used if and only
+                                                     if ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG is set in BOOT_FLAGS0.
+                                                     That bit should be set only after this row and BOOTSEL_XOSC_CFG
+                                                     are both correctly programmed.                                            */
+  __IOM uint16_t  BOOTSEL_XOSC_CFG;             /*!< Non-default crystal oscillator configuration for the USB bootloader.
+                                                     (ECC) These values may also be used by user code configuring
+                                                     the crystal oscillator. Used if and only if ENABLE_BOOTSEL_NON_DEFAULT_PL
+                                                     _XOSC_CFG is set in BOOT_FLAGS0. That bit should be set
+                                                     only after this row and BOOTSEL_PLL_CFG are both correctly
+                                                     programmed.                                                               */
+  __IM  uint16_t  RESERVED4[3];
+  __IOM uint16_t  USB_WHITE_LABEL_ADDR;         /*!< Row index of the USB_WHITE_LABEL structure within OTP (ECC)
+                                                     The table has 16 rows, each of which are also ECC and marked
+                                                     valid by the corresponding valid bit in USB_BOOT_FLAGS
+                                                     (ECC). The entries are either _VALUEs where the 16 bit
+                                                     value is used as is, or _STRDEFs which acts as a pointers
+                                                     to a string value. The value stored in a _STRDEF is two
+                                                     separate bytes: The low seven bits of the first (LSB) byte
+                                                     indicates the number of characters in the string, and the
+                                                     top bit of the first (LSB) byte if set to indicate that
+                                                     each character in the string is two bytes (Unicode) versus
+                                                     one byte if unset. The second (MSB) byte represents the
+                                                     location of the string data, and is encoded as the number
+                                                     of rows from this USB_WHITE_LABEL_ADDR; i.e. the row of
+                                                     the start of the string is USB_WHITE_LABEL_ADDR value +
+                                                     msb_byte. In each case, the corresponding valid bit enables
+                                                     replacing the default value for the corresponding item
+                                                     provided by the boot rom. Note that Unicode _STRDEFs are
+                                                     only supported for USB_DEVICE_PRODUCT_STRDEF, USB_DEVICE_SERIAL_NUMBER_ST
+                                                     DEF and USB_DEVICE_MANUFACTURER_STRDEF. Unicode values
+                                                     will be ignored if specified for other fields, and non-unicode
+                                                     values for these three items will be converted to Unicode
+                                                     characters by setting the upper 8 bits to zero. Note that
+                                                     if the USB_WHITE_LABEL structure or the corresponding strings
+                                                     are not readable by BOOTSEL mode based on OTP permissions,
+                                                     or if alignment requirements are not met, then the corresponding
+                                                     default values are used. The index values indicate where
+                                                     each field is located (row USB_WHITE_LABEL_ADDR value +
+                                                     index):                                                                   */
+  __IM  uint16_t  RESERVED5;
+  __IOM uint16_t  OTPBOOT_SRC;                  /*!< OTP start row for the OTP boot image. (ECC) If OTP boot is enabled,
+                                                     the bootrom will load from this location into SRAM and
+                                                     then directly enter the loaded image. Note that the image
+                                                     must be signed if SECURE_BOOT_ENABLE is set. The image
+                                                     itself is assumed to be ECC-protected. This must be an
+                                                     even number. Equivalently, the OTP boot image must start
+                                                     at a word-aligned location in the ECC read data address
+                                                     window.                                                                   */
+  __IOM uint16_t  OTPBOOT_LEN;                  /*!< Length in rows of the OTP boot image. (ECC) OTPBOOT_LEN must
+                                                     be even. The total image size must be a multiple of 4 bytes
+                                                     (32 bits).                                                                */
+  __IOM uint16_t  OTPBOOT_DST0;                 /*!< Bits 15:0 of the OTP boot image load destination (and entry
+                                                     point). (ECC) This must be a location in main SRAM (main
+                                                     SRAM is addresses 0x20000000 through 0x20082000) and must
+                                                     be word-aligned.                                                          */
+  __IOM uint16_t  OTPBOOT_DST1;                 /*!< Bits 31:16 of the OTP boot image load destination (and entry
+                                                     point). (ECC) This must be a location in main SRAM (main
+                                                     SRAM is addresses 0x20000000 through 0x20082000) and must
+                                                     be word-aligned.                                                          */
+  __IM  uint16_t  RESERVED6[30];
+  __IOM uint16_t  BOOTKEY0_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 0 (ECC)                             */
+  __IOM uint16_t  BOOTKEY0_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint16_t  BOOTKEY0_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint16_t  BOOTKEY0_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint16_t  BOOTKEY0_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint16_t  BOOTKEY0_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint16_t  BOOTKEY0_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 0 (ECC)                           */
+  __IOM uint16_t  BOOTKEY0_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY0_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 1 (ECC)                             */
+  __IOM uint16_t  BOOTKEY1_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint16_t  BOOTKEY1_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint16_t  BOOTKEY1_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint16_t  BOOTKEY1_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint16_t  BOOTKEY1_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint16_t  BOOTKEY1_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 1 (ECC)                           */
+  __IOM uint16_t  BOOTKEY1_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY1_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 2 (ECC)                             */
+  __IOM uint16_t  BOOTKEY2_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint16_t  BOOTKEY2_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint16_t  BOOTKEY2_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint16_t  BOOTKEY2_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint16_t  BOOTKEY2_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint16_t  BOOTKEY2_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 2 (ECC)                           */
+  __IOM uint16_t  BOOTKEY2_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY2_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 3 (ECC)                             */
+  __IOM uint16_t  BOOTKEY3_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint16_t  BOOTKEY3_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint16_t  BOOTKEY3_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint16_t  BOOTKEY3_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint16_t  BOOTKEY3_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint16_t  BOOTKEY3_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 3 (ECC)                           */
+  __IOM uint16_t  BOOTKEY3_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint16_t  BOOTKEY3_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IM  uint16_t  RESERVED7[3720];
+  __IOM uint16_t  KEY1_0;                       /*!< Bits 15:0 of OTP access key 1 (ECC)                                       */
+  __IOM uint16_t  KEY1_1;                       /*!< Bits 31:16 of OTP access key 1 (ECC)                                      */
+  __IOM uint16_t  KEY1_2;                       /*!< Bits 47:32 of OTP access key 1 (ECC)                                      */
+  __IOM uint16_t  KEY1_3;                       /*!< Bits 63:48 of OTP access key 1 (ECC)                                      */
+  __IOM uint16_t  KEY1_4;                       /*!< Bits 79:64 of OTP access key 1 (ECC)                                      */
+  __IOM uint16_t  KEY1_5;                       /*!< Bits 95:80 of OTP access key 1 (ECC)                                      */
+  __IOM uint16_t  KEY1_6;                       /*!< Bits 111:96 of OTP access key 1 (ECC)                                     */
+  __IOM uint16_t  KEY1_7;                       /*!< Bits 127:112 of OTP access key 1 (ECC)                                    */
+  __IOM uint16_t  KEY2_0;                       /*!< Bits 15:0 of OTP access key 2 (ECC)                                       */
+  __IOM uint16_t  KEY2_1;                       /*!< Bits 31:16 of OTP access key 2 (ECC)                                      */
+  __IOM uint16_t  KEY2_2;                       /*!< Bits 47:32 of OTP access key 2 (ECC)                                      */
+  __IOM uint16_t  KEY2_3;                       /*!< Bits 63:48 of OTP access key 2 (ECC)                                      */
+  __IOM uint16_t  KEY2_4;                       /*!< Bits 79:64 of OTP access key 2 (ECC)                                      */
+  __IOM uint16_t  KEY2_5;                       /*!< Bits 95:80 of OTP access key 2 (ECC)                                      */
+  __IOM uint16_t  KEY2_6;                       /*!< Bits 111:96 of OTP access key 2 (ECC)                                     */
+  __IOM uint16_t  KEY2_7;                       /*!< Bits 127:112 of OTP access key 2 (ECC)                                    */
+  __IOM uint16_t  KEY3_0;                       /*!< Bits 15:0 of OTP access key 3 (ECC)                                       */
+  __IOM uint16_t  KEY3_1;                       /*!< Bits 31:16 of OTP access key 3 (ECC)                                      */
+  __IOM uint16_t  KEY3_2;                       /*!< Bits 47:32 of OTP access key 3 (ECC)                                      */
+  __IOM uint16_t  KEY3_3;                       /*!< Bits 63:48 of OTP access key 3 (ECC)                                      */
+  __IOM uint16_t  KEY3_4;                       /*!< Bits 79:64 of OTP access key 3 (ECC)                                      */
+  __IOM uint16_t  KEY3_5;                       /*!< Bits 95:80 of OTP access key 3 (ECC)                                      */
+  __IOM uint16_t  KEY3_6;                       /*!< Bits 111:96 of OTP access key 3 (ECC)                                     */
+  __IOM uint16_t  KEY3_7;                       /*!< Bits 127:112 of OTP access key 3 (ECC)                                    */
+  __IOM uint16_t  KEY4_0;                       /*!< Bits 15:0 of OTP access key 4 (ECC)                                       */
+  __IOM uint16_t  KEY4_1;                       /*!< Bits 31:16 of OTP access key 4 (ECC)                                      */
+  __IOM uint16_t  KEY4_2;                       /*!< Bits 47:32 of OTP access key 4 (ECC)                                      */
+  __IOM uint16_t  KEY4_3;                       /*!< Bits 63:48 of OTP access key 4 (ECC)                                      */
+  __IOM uint16_t  KEY4_4;                       /*!< Bits 79:64 of OTP access key 4 (ECC)                                      */
+  __IOM uint16_t  KEY4_5;                       /*!< Bits 95:80 of OTP access key 4 (ECC)                                      */
+  __IOM uint16_t  KEY4_6;                       /*!< Bits 111:96 of OTP access key 4 (ECC)                                     */
+  __IOM uint16_t  KEY4_7;                       /*!< Bits 127:112 of OTP access key 4 (ECC)                                    */
+  __IOM uint16_t  KEY5_0;                       /*!< Bits 15:0 of OTP access key 5 (ECC)                                       */
+  __IOM uint16_t  KEY5_1;                       /*!< Bits 31:16 of OTP access key 5 (ECC)                                      */
+  __IOM uint16_t  KEY5_2;                       /*!< Bits 47:32 of OTP access key 5 (ECC)                                      */
+  __IOM uint16_t  KEY5_3;                       /*!< Bits 63:48 of OTP access key 5 (ECC)                                      */
+  __IOM uint16_t  KEY5_4;                       /*!< Bits 79:64 of OTP access key 5 (ECC)                                      */
+  __IOM uint16_t  KEY5_5;                       /*!< Bits 95:80 of OTP access key 5 (ECC)                                      */
+  __IOM uint16_t  KEY5_6;                       /*!< Bits 111:96 of OTP access key 5 (ECC)                                     */
+  __IOM uint16_t  KEY5_7;                       /*!< Bits 127:112 of OTP access key 5 (ECC)                                    */
+  __IOM uint16_t  KEY6_0;                       /*!< Bits 15:0 of OTP access key 6 (ECC)                                       */
+  __IOM uint16_t  KEY6_1;                       /*!< Bits 31:16 of OTP access key 6 (ECC)                                      */
+  __IOM uint16_t  KEY6_2;                       /*!< Bits 47:32 of OTP access key 6 (ECC)                                      */
+  __IOM uint16_t  KEY6_3;                       /*!< Bits 63:48 of OTP access key 6 (ECC)                                      */
+  __IOM uint16_t  KEY6_4;                       /*!< Bits 79:64 of OTP access key 6 (ECC)                                      */
+  __IOM uint16_t  KEY6_5;                       /*!< Bits 95:80 of OTP access key 6 (ECC)                                      */
+  __IOM uint16_t  KEY6_6;                       /*!< Bits 111:96 of OTP access key 6 (ECC)                                     */
+  __IOM uint16_t  KEY6_7;                       /*!< Bits 127:112 of OTP access key 6 (ECC)                                    */
+} OTP_DATA_Type;                                /*!< Size = 7920 (0x1ef0)                                                      */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                       OTP_DATA_RAW                                        ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief Predefined OTP data layout for RP2350 (OTP_DATA_RAW)
+  */
+
+typedef struct {                                /*!< OTP_DATA_RAW Structure                                                    */
+  __IOM uint32_t  CHIPID0;                      /*!< Bits 15:0 of public device ID. (ECC) The CHIPID0..3 rows contain
+                                                     a 64-bit random identifier for this chip, which can be
+                                                     read from the USB bootloader PICOBOOT interface or from
+                                                     the get_sys_info ROM API. The number of random bits makes
+                                                     the occurrence of twins exceedingly unlikely: for example,
+                                                     a fleet of a hundred million devices has a 99.97% probability
+                                                     of no twinned IDs. This is estimated to be lower than the
+                                                     occurrence of process errors in the assignment of sequential
+                                                     random IDs, and for practical purposes CHIPID may be treated
+                                                     as unique.                                                                */
+  __IOM uint32_t  CHIPID1;                      /*!< Bits 31:16 of public device ID (ECC)                                      */
+  __IOM uint32_t  CHIPID2;                      /*!< Bits 47:32 of public device ID (ECC)                                      */
+  __IOM uint32_t  CHIPID3;                      /*!< Bits 63:48 of public device ID (ECC)                                      */
+  __IOM uint32_t  RANDID0;                      /*!< Bits 15:0 of private per-device random number (ECC) The RANDID0..7
+                                                     rows form a 128-bit random number generated during device
+                                                     test. This ID is not exposed through the USB PICOBOOT GET_INFO
+                                                     command or the ROM `get_sys_info()` API. However note that
+                                                     the USB PICOBOOT OTP access point can read the entirety
+                                                     of page 0, so this value is not meaningfully private unless
+                                                     the USB PICOBOOT interface is disabled via the DISABLE_BOOTSEL_USB_PICOBO
+                                                     T_IFC flag in BOOT_FLAGS0.                                                */
+  __IOM uint32_t  RANDID1;                      /*!< Bits 31:16 of private per-device random number (ECC)                      */
+  __IOM uint32_t  RANDID2;                      /*!< Bits 47:32 of private per-device random number (ECC)                      */
+  __IOM uint32_t  RANDID3;                      /*!< Bits 63:48 of private per-device random number (ECC)                      */
+  __IOM uint32_t  RANDID4;                      /*!< Bits 79:64 of private per-device random number (ECC)                      */
+  __IOM uint32_t  RANDID5;                      /*!< Bits 95:80 of private per-device random number (ECC)                      */
+  __IOM uint32_t  RANDID6;                      /*!< Bits 111:96 of private per-device random number (ECC)                     */
+  __IOM uint32_t  RANDID7;                      /*!< Bits 127:112 of private per-device random number (ECC)                    */
+  __IM  uint32_t  RESERVED[4];
+  __IOM uint32_t  ROSC_CALIB;                   /*!< Ring oscillator frequency in kHz, measured during manufacturing
+                                                     (ECC) This is measured at 1.1 V, at room temperature, with
+                                                     the ROSC configuration registers in their reset state.                    */
+  __IOM uint32_t  LPOSC_CALIB;                  /*!< Low-power oscillator frequency in Hz, measured during manufacturing
+                                                     (ECC) This is measured at 1.1V, at room temperature, with
+                                                     the LPOSC trim register in its reset state.                               */
+  __IM  uint32_t  RESERVED1[6];
+  __IOM uint32_t  NUM_GPIOS;                    /*!< The number of main user GPIOs (bank 0). Should read 48 in the
+                                                     QFN80 package, and 30 in the QFN60 package. (ECC)                         */
+  __IM  uint32_t  RESERVED2[29];
+  __IOM uint32_t  INFO_CRC0;                    /*!< Lower 16 bits of CRC32 of OTP addresses 0x00 through 0x6b (polynomial
+                                                     0x4c11db7, input reflected, output reflected, seed all-ones,
+                                                     final XOR all-ones) (ECC)                                                 */
+  __IOM uint32_t  INFO_CRC1;                    /*!< Upper 16 bits of CRC32 of OTP addresses 0x00 through 0x6b (ECC)           */
+  __IOM uint32_t  CRIT0;                        /*!< Page 0 critical boot flags (RBIT-8)                                       */
+  __IOM uint32_t  CRIT0_R1;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R2;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R3;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R4;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R5;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R6;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT0_R7;                     /*!< Redundant copy of CRIT0                                                   */
+  __IOM uint32_t  CRIT1;                        /*!< Page 1 critical boot flags (RBIT-8)                                       */
+  __IOM uint32_t  CRIT1_R1;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R2;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R3;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R4;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R5;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R6;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  CRIT1_R7;                     /*!< Redundant copy of CRIT1                                                   */
+  __IOM uint32_t  BOOT_FLAGS0;                  /*!< Disable/Enable boot paths/features in the RP2350 mask ROM. Disables
+                                                     always supersede enables. Enables are provided where there
+                                                     are other configurations in OTP that must be valid. (RBIT-3)              */
+  __IOM uint32_t  BOOT_FLAGS0_R1;               /*!< Redundant copy of BOOT_FLAGS0                                             */
+  __IOM uint32_t  BOOT_FLAGS0_R2;               /*!< Redundant copy of BOOT_FLAGS0                                             */
+  __IOM uint32_t  BOOT_FLAGS1;                  /*!< Disable/Enable boot paths/features in the RP2350 mask ROM. Disables
+                                                     always supersede enables. Enables are provided where there
+                                                     are other configurations in OTP that must be valid. (RBIT-3)              */
+  __IOM uint32_t  BOOT_FLAGS1_R1;               /*!< Redundant copy of BOOT_FLAGS1                                             */
+  __IOM uint32_t  BOOT_FLAGS1_R2;               /*!< Redundant copy of BOOT_FLAGS1                                             */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION0;        /*!< Default boot version thermometer counter, bits 23:0 (RBIT-3)              */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION0_R1;     /*!< Redundant copy of DEFAULT_BOOT_VERSION0                                   */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION0_R2;     /*!< Redundant copy of DEFAULT_BOOT_VERSION0                                   */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION1;        /*!< Default boot version thermometer counter, bits 47:24 (RBIT-3)             */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION1_R1;     /*!< Redundant copy of DEFAULT_BOOT_VERSION1                                   */
+  __IOM uint32_t  DEFAULT_BOOT_VERSION1_R2;     /*!< Redundant copy of DEFAULT_BOOT_VERSION1                                   */
+  __IOM uint32_t  FLASH_DEVINFO;                /*!< Stores information about external flash device(s). (ECC) Assumed
+                                                     to be valid if BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is set.                   */
+  __IOM uint32_t  FLASH_PARTITION_SLOT_SIZE;    /*!< Gap between partition table slot 0 and slot 1 at the start of
+                                                     flash (the default size is 4096 bytes) (ECC) Enabled by
+                                                     the OVERRIDE_FLASH_PARTITION_SLOT_SIZE bit in BOOT_FLAGS,
+                                                     the size is 4096 * (value + 1)                                            */
+  __IOM uint32_t  BOOTSEL_LED_CFG;              /*!< Pin configuration for LED status, used by USB bootloader. (ECC)
+                                                     Must be valid if BOOT_FLAGS0_ENABLE_BOOTSEL_LED is set.                   */
+  __IOM uint32_t  BOOTSEL_PLL_CFG;              /*!< Optional PLL configuration for BOOTSEL mode. (ECC) This should
+                                                     be configured to produce an exact 48 MHz based on the crystal
+                                                     oscillator frequency. User mode software may also use this
+                                                     value to calculate the expected crystal frequency based
+                                                     on an assumed 48 MHz PLL output. If no configuration is
+                                                     given, the crystal is assumed to be 12 MHz. The PLL frequency
+                                                     can be calculated as: PLL out = (XOSC frequency / (REFDIV+1))
+                                                     x FBDIV / (POSTDIV1 x POSTDIV2) Conversely the crystal
+                                                     frequency can be calculated as: XOSC frequency = 48 MHz
+                                                     x (REFDIV+1) x (POSTDIV1 x POSTDIV2) / FBDIV (Note the
+                                                     +1 on REFDIV is because the value stored in this OTP location
+                                                     is the actual divisor value minus one.) Used if and only
+                                                     if ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG is set in BOOT_FLAGS0.
+                                                     That bit should be set only after this row and BOOTSEL_XOSC_CFG
+                                                     are both correctly programmed.                                            */
+  __IOM uint32_t  BOOTSEL_XOSC_CFG;             /*!< Non-default crystal oscillator configuration for the USB bootloader.
+                                                     (ECC) These values may also be used by user code configuring
+                                                     the crystal oscillator. Used if and only if ENABLE_BOOTSEL_NON_DEFAULT_PL
+                                                     _XOSC_CFG is set in BOOT_FLAGS0. That bit should be set
+                                                     only after this row and BOOTSEL_PLL_CFG are both correctly
+                                                     programmed.                                                               */
+  __IOM uint32_t  USB_BOOT_FLAGS;               /*!< USB boot specific feature flags (RBIT-3)                                  */
+  __IOM uint32_t  USB_BOOT_FLAGS_R1;            /*!< Redundant copy of USB_BOOT_FLAGS                                          */
+  __IOM uint32_t  USB_BOOT_FLAGS_R2;            /*!< Redundant copy of USB_BOOT_FLAGS                                          */
+  __IOM uint32_t  USB_WHITE_LABEL_ADDR;         /*!< Row index of the USB_WHITE_LABEL structure within OTP (ECC)
+                                                     The table has 16 rows, each of which are also ECC and marked
+                                                     valid by the corresponding valid bit in USB_BOOT_FLAGS
+                                                     (ECC). The entries are either _VALUEs where the 16 bit
+                                                     value is used as is, or _STRDEFs which acts as a pointers
+                                                     to a string value. The value stored in a _STRDEF is two
+                                                     separate bytes: The low seven bits of the first (LSB) byte
+                                                     indicates the number of characters in the string, and the
+                                                     top bit of the first (LSB) byte if set to indicate that
+                                                     each character in the string is two bytes (Unicode) versus
+                                                     one byte if unset. The second (MSB) byte represents the
+                                                     location of the string data, and is encoded as the number
+                                                     of rows from this USB_WHITE_LABEL_ADDR; i.e. the row of
+                                                     the start of the string is USB_WHITE_LABEL_ADDR value +
+                                                     msb_byte. In each case, the corresponding valid bit enables
+                                                     replacing the default value for the corresponding item
+                                                     provided by the boot rom. Note that Unicode _STRDEFs are
+                                                     only supported for USB_DEVICE_PRODUCT_STRDEF, USB_DEVICE_SERIAL_NUMBER_ST
+                                                     DEF and USB_DEVICE_MANUFACTURER_STRDEF. Unicode values
+                                                     will be ignored if specified for other fields, and non-unicode
+                                                     values for these three items will be converted to Unicode
+                                                     characters by setting the upper 8 bits to zero. Note that
+                                                     if the USB_WHITE_LABEL structure or the corresponding strings
+                                                     are not readable by BOOTSEL mode based on OTP permissions,
+                                                     or if alignment requirements are not met, then the corresponding
+                                                     default values are used. The index values indicate where
+                                                     each field is located (row USB_WHITE_LABEL_ADDR value +
+                                                     index):                                                                   */
+  __IM  uint32_t  RESERVED3;
+  __IOM uint32_t  OTPBOOT_SRC;                  /*!< OTP start row for the OTP boot image. (ECC) If OTP boot is enabled,
+                                                     the bootrom will load from this location into SRAM and
+                                                     then directly enter the loaded image. Note that the image
+                                                     must be signed if SECURE_BOOT_ENABLE is set. The image
+                                                     itself is assumed to be ECC-protected. This must be an
+                                                     even number. Equivalently, the OTP boot image must start
+                                                     at a word-aligned location in the ECC read data address
+                                                     window.                                                                   */
+  __IOM uint32_t  OTPBOOT_LEN;                  /*!< Length in rows of the OTP boot image. (ECC) OTPBOOT_LEN must
+                                                     be even. The total image size must be a multiple of 4 bytes
+                                                     (32 bits).                                                                */
+  __IOM uint32_t  OTPBOOT_DST0;                 /*!< Bits 15:0 of the OTP boot image load destination (and entry
+                                                     point). (ECC) This must be a location in main SRAM (main
+                                                     SRAM is addresses 0x20000000 through 0x20082000) and must
+                                                     be word-aligned.                                                          */
+  __IOM uint32_t  OTPBOOT_DST1;                 /*!< Bits 31:16 of the OTP boot image load destination (and entry
+                                                     point). (ECC) This must be a location in main SRAM (main
+                                                     SRAM is addresses 0x20000000 through 0x20082000) and must
+                                                     be word-aligned.                                                          */
+  __IM  uint32_t  RESERVED4[30];
+  __IOM uint32_t  BOOTKEY0_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 0 (ECC)                             */
+  __IOM uint32_t  BOOTKEY0_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint32_t  BOOTKEY0_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint32_t  BOOTKEY0_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint32_t  BOOTKEY0_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint32_t  BOOTKEY0_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 0 (ECC)                            */
+  __IOM uint32_t  BOOTKEY0_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 0 (ECC)                           */
+  __IOM uint32_t  BOOTKEY0_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY0_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 0 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 1 (ECC)                             */
+  __IOM uint32_t  BOOTKEY1_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint32_t  BOOTKEY1_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint32_t  BOOTKEY1_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint32_t  BOOTKEY1_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint32_t  BOOTKEY1_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 1 (ECC)                            */
+  __IOM uint32_t  BOOTKEY1_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 1 (ECC)                           */
+  __IOM uint32_t  BOOTKEY1_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY1_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 1 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 2 (ECC)                             */
+  __IOM uint32_t  BOOTKEY2_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint32_t  BOOTKEY2_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint32_t  BOOTKEY2_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint32_t  BOOTKEY2_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint32_t  BOOTKEY2_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 2 (ECC)                            */
+  __IOM uint32_t  BOOTKEY2_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 2 (ECC)                           */
+  __IOM uint32_t  BOOTKEY2_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY2_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 2 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_0;                   /*!< Bits 15:0 of SHA-256 hash of boot key 3 (ECC)                             */
+  __IOM uint32_t  BOOTKEY3_1;                   /*!< Bits 31:16 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint32_t  BOOTKEY3_2;                   /*!< Bits 47:32 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint32_t  BOOTKEY3_3;                   /*!< Bits 63:48 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint32_t  BOOTKEY3_4;                   /*!< Bits 79:64 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint32_t  BOOTKEY3_5;                   /*!< Bits 95:80 of SHA-256 hash of boot key 3 (ECC)                            */
+  __IOM uint32_t  BOOTKEY3_6;                   /*!< Bits 111:96 of SHA-256 hash of boot key 3 (ECC)                           */
+  __IOM uint32_t  BOOTKEY3_7;                   /*!< Bits 127:112 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_8;                   /*!< Bits 143:128 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_9;                   /*!< Bits 159:144 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_10;                  /*!< Bits 175:160 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_11;                  /*!< Bits 191:176 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_12;                  /*!< Bits 207:192 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_13;                  /*!< Bits 223:208 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_14;                  /*!< Bits 239:224 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IOM uint32_t  BOOTKEY3_15;                  /*!< Bits 255:240 of SHA-256 hash of boot key 3 (ECC)                          */
+  __IM  uint32_t  RESERVED5[3720];
+  __IOM uint32_t  KEY1_0;                       /*!< Bits 15:0 of OTP access key 1 (ECC)                                       */
+  __IOM uint32_t  KEY1_1;                       /*!< Bits 31:16 of OTP access key 1 (ECC)                                      */
+  __IOM uint32_t  KEY1_2;                       /*!< Bits 47:32 of OTP access key 1 (ECC)                                      */
+  __IOM uint32_t  KEY1_3;                       /*!< Bits 63:48 of OTP access key 1 (ECC)                                      */
+  __IOM uint32_t  KEY1_4;                       /*!< Bits 79:64 of OTP access key 1 (ECC)                                      */
+  __IOM uint32_t  KEY1_5;                       /*!< Bits 95:80 of OTP access key 1 (ECC)                                      */
+  __IOM uint32_t  KEY1_6;                       /*!< Bits 111:96 of OTP access key 1 (ECC)                                     */
+  __IOM uint32_t  KEY1_7;                       /*!< Bits 127:112 of OTP access key 1 (ECC)                                    */
+  __IOM uint32_t  KEY2_0;                       /*!< Bits 15:0 of OTP access key 2 (ECC)                                       */
+  __IOM uint32_t  KEY2_1;                       /*!< Bits 31:16 of OTP access key 2 (ECC)                                      */
+  __IOM uint32_t  KEY2_2;                       /*!< Bits 47:32 of OTP access key 2 (ECC)                                      */
+  __IOM uint32_t  KEY2_3;                       /*!< Bits 63:48 of OTP access key 2 (ECC)                                      */
+  __IOM uint32_t  KEY2_4;                       /*!< Bits 79:64 of OTP access key 2 (ECC)                                      */
+  __IOM uint32_t  KEY2_5;                       /*!< Bits 95:80 of OTP access key 2 (ECC)                                      */
+  __IOM uint32_t  KEY2_6;                       /*!< Bits 111:96 of OTP access key 2 (ECC)                                     */
+  __IOM uint32_t  KEY2_7;                       /*!< Bits 127:112 of OTP access key 2 (ECC)                                    */
+  __IOM uint32_t  KEY3_0;                       /*!< Bits 15:0 of OTP access key 3 (ECC)                                       */
+  __IOM uint32_t  KEY3_1;                       /*!< Bits 31:16 of OTP access key 3 (ECC)                                      */
+  __IOM uint32_t  KEY3_2;                       /*!< Bits 47:32 of OTP access key 3 (ECC)                                      */
+  __IOM uint32_t  KEY3_3;                       /*!< Bits 63:48 of OTP access key 3 (ECC)                                      */
+  __IOM uint32_t  KEY3_4;                       /*!< Bits 79:64 of OTP access key 3 (ECC)                                      */
+  __IOM uint32_t  KEY3_5;                       /*!< Bits 95:80 of OTP access key 3 (ECC)                                      */
+  __IOM uint32_t  KEY3_6;                       /*!< Bits 111:96 of OTP access key 3 (ECC)                                     */
+  __IOM uint32_t  KEY3_7;                       /*!< Bits 127:112 of OTP access key 3 (ECC)                                    */
+  __IOM uint32_t  KEY4_0;                       /*!< Bits 15:0 of OTP access key 4 (ECC)                                       */
+  __IOM uint32_t  KEY4_1;                       /*!< Bits 31:16 of OTP access key 4 (ECC)                                      */
+  __IOM uint32_t  KEY4_2;                       /*!< Bits 47:32 of OTP access key 4 (ECC)                                      */
+  __IOM uint32_t  KEY4_3;                       /*!< Bits 63:48 of OTP access key 4 (ECC)                                      */
+  __IOM uint32_t  KEY4_4;                       /*!< Bits 79:64 of OTP access key 4 (ECC)                                      */
+  __IOM uint32_t  KEY4_5;                       /*!< Bits 95:80 of OTP access key 4 (ECC)                                      */
+  __IOM uint32_t  KEY4_6;                       /*!< Bits 111:96 of OTP access key 4 (ECC)                                     */
+  __IOM uint32_t  KEY4_7;                       /*!< Bits 127:112 of OTP access key 4 (ECC)                                    */
+  __IOM uint32_t  KEY5_0;                       /*!< Bits 15:0 of OTP access key 5 (ECC)                                       */
+  __IOM uint32_t  KEY5_1;                       /*!< Bits 31:16 of OTP access key 5 (ECC)                                      */
+  __IOM uint32_t  KEY5_2;                       /*!< Bits 47:32 of OTP access key 5 (ECC)                                      */
+  __IOM uint32_t  KEY5_3;                       /*!< Bits 63:48 of OTP access key 5 (ECC)                                      */
+  __IOM uint32_t  KEY5_4;                       /*!< Bits 79:64 of OTP access key 5 (ECC)                                      */
+  __IOM uint32_t  KEY5_5;                       /*!< Bits 95:80 of OTP access key 5 (ECC)                                      */
+  __IOM uint32_t  KEY5_6;                       /*!< Bits 111:96 of OTP access key 5 (ECC)                                     */
+  __IOM uint32_t  KEY5_7;                       /*!< Bits 127:112 of OTP access key 5 (ECC)                                    */
+  __IOM uint32_t  KEY6_0;                       /*!< Bits 15:0 of OTP access key 6 (ECC)                                       */
+  __IOM uint32_t  KEY6_1;                       /*!< Bits 31:16 of OTP access key 6 (ECC)                                      */
+  __IOM uint32_t  KEY6_2;                       /*!< Bits 47:32 of OTP access key 6 (ECC)                                      */
+  __IOM uint32_t  KEY6_3;                       /*!< Bits 63:48 of OTP access key 6 (ECC)                                      */
+  __IOM uint32_t  KEY6_4;                       /*!< Bits 79:64 of OTP access key 6 (ECC)                                      */
+  __IOM uint32_t  KEY6_5;                       /*!< Bits 95:80 of OTP access key 6 (ECC)                                      */
+  __IOM uint32_t  KEY6_6;                       /*!< Bits 111:96 of OTP access key 6 (ECC)                                     */
+  __IOM uint32_t  KEY6_7;                       /*!< Bits 127:112 of OTP access key 6 (ECC)                                    */
+  __IM  uint32_t  RESERVED6;
+  __IOM uint32_t  KEY1_VALID;                   /*!< Valid flag for key 1. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IOM uint32_t  KEY2_VALID;                   /*!< Valid flag for key 2. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IOM uint32_t  KEY3_VALID;                   /*!< Valid flag for key 3. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IOM uint32_t  KEY4_VALID;                   /*!< Valid flag for key 4. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IOM uint32_t  KEY5_VALID;                   /*!< Valid flag for key 5. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IOM uint32_t  KEY6_VALID;                   /*!< Valid flag for key 6. Once the valid flag is set, the key can
+                                                     no longer be read or written, and becomes a valid fixed
+                                                     key for protecting OTP pages.                                             */
+  __IM  uint32_t  RESERVED7;
+  __IOM uint32_t  PAGE0_LOCK0;                  /*!< Lock configuration LSBs for page 0 (rows 0x0 through 0x3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE0_LOCK1;                  /*!< Lock configuration MSBs for page 0 (rows 0x0 through 0x3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE1_LOCK0;                  /*!< Lock configuration LSBs for page 1 (rows 0x40 through 0x7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE1_LOCK1;                  /*!< Lock configuration MSBs for page 1 (rows 0x40 through 0x7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE2_LOCK0;                  /*!< Lock configuration LSBs for page 2 (rows 0x80 through 0xbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE2_LOCK1;                  /*!< Lock configuration MSBs for page 2 (rows 0x80 through 0xbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE3_LOCK0;                  /*!< Lock configuration LSBs for page 3 (rows 0xc0 through 0xff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE3_LOCK1;                  /*!< Lock configuration MSBs for page 3 (rows 0xc0 through 0xff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE4_LOCK0;                  /*!< Lock configuration LSBs for page 4 (rows 0x100 through 0x13f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE4_LOCK1;                  /*!< Lock configuration MSBs for page 4 (rows 0x100 through 0x13f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE5_LOCK0;                  /*!< Lock configuration LSBs for page 5 (rows 0x140 through 0x17f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE5_LOCK1;                  /*!< Lock configuration MSBs for page 5 (rows 0x140 through 0x17f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE6_LOCK0;                  /*!< Lock configuration LSBs for page 6 (rows 0x180 through 0x1bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE6_LOCK1;                  /*!< Lock configuration MSBs for page 6 (rows 0x180 through 0x1bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE7_LOCK0;                  /*!< Lock configuration LSBs for page 7 (rows 0x1c0 through 0x1ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE7_LOCK1;                  /*!< Lock configuration MSBs for page 7 (rows 0x1c0 through 0x1ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE8_LOCK0;                  /*!< Lock configuration LSBs for page 8 (rows 0x200 through 0x23f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE8_LOCK1;                  /*!< Lock configuration MSBs for page 8 (rows 0x200 through 0x23f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE9_LOCK0;                  /*!< Lock configuration LSBs for page 9 (rows 0x240 through 0x27f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE9_LOCK1;                  /*!< Lock configuration MSBs for page 9 (rows 0x240 through 0x27f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE10_LOCK0;                 /*!< Lock configuration LSBs for page 10 (rows 0x280 through 0x2bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE10_LOCK1;                 /*!< Lock configuration MSBs for page 10 (rows 0x280 through 0x2bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE11_LOCK0;                 /*!< Lock configuration LSBs for page 11 (rows 0x2c0 through 0x2ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE11_LOCK1;                 /*!< Lock configuration MSBs for page 11 (rows 0x2c0 through 0x2ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE12_LOCK0;                 /*!< Lock configuration LSBs for page 12 (rows 0x300 through 0x33f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE12_LOCK1;                 /*!< Lock configuration MSBs for page 12 (rows 0x300 through 0x33f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE13_LOCK0;                 /*!< Lock configuration LSBs for page 13 (rows 0x340 through 0x37f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE13_LOCK1;                 /*!< Lock configuration MSBs for page 13 (rows 0x340 through 0x37f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE14_LOCK0;                 /*!< Lock configuration LSBs for page 14 (rows 0x380 through 0x3bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE14_LOCK1;                 /*!< Lock configuration MSBs for page 14 (rows 0x380 through 0x3bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE15_LOCK0;                 /*!< Lock configuration LSBs for page 15 (rows 0x3c0 through 0x3ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE15_LOCK1;                 /*!< Lock configuration MSBs for page 15 (rows 0x3c0 through 0x3ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE16_LOCK0;                 /*!< Lock configuration LSBs for page 16 (rows 0x400 through 0x43f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE16_LOCK1;                 /*!< Lock configuration MSBs for page 16 (rows 0x400 through 0x43f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE17_LOCK0;                 /*!< Lock configuration LSBs for page 17 (rows 0x440 through 0x47f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE17_LOCK1;                 /*!< Lock configuration MSBs for page 17 (rows 0x440 through 0x47f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE18_LOCK0;                 /*!< Lock configuration LSBs for page 18 (rows 0x480 through 0x4bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE18_LOCK1;                 /*!< Lock configuration MSBs for page 18 (rows 0x480 through 0x4bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE19_LOCK0;                 /*!< Lock configuration LSBs for page 19 (rows 0x4c0 through 0x4ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE19_LOCK1;                 /*!< Lock configuration MSBs for page 19 (rows 0x4c0 through 0x4ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE20_LOCK0;                 /*!< Lock configuration LSBs for page 20 (rows 0x500 through 0x53f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE20_LOCK1;                 /*!< Lock configuration MSBs for page 20 (rows 0x500 through 0x53f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE21_LOCK0;                 /*!< Lock configuration LSBs for page 21 (rows 0x540 through 0x57f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE21_LOCK1;                 /*!< Lock configuration MSBs for page 21 (rows 0x540 through 0x57f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE22_LOCK0;                 /*!< Lock configuration LSBs for page 22 (rows 0x580 through 0x5bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE22_LOCK1;                 /*!< Lock configuration MSBs for page 22 (rows 0x580 through 0x5bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE23_LOCK0;                 /*!< Lock configuration LSBs for page 23 (rows 0x5c0 through 0x5ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE23_LOCK1;                 /*!< Lock configuration MSBs for page 23 (rows 0x5c0 through 0x5ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE24_LOCK0;                 /*!< Lock configuration LSBs for page 24 (rows 0x600 through 0x63f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE24_LOCK1;                 /*!< Lock configuration MSBs for page 24 (rows 0x600 through 0x63f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE25_LOCK0;                 /*!< Lock configuration LSBs for page 25 (rows 0x640 through 0x67f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE25_LOCK1;                 /*!< Lock configuration MSBs for page 25 (rows 0x640 through 0x67f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE26_LOCK0;                 /*!< Lock configuration LSBs for page 26 (rows 0x680 through 0x6bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE26_LOCK1;                 /*!< Lock configuration MSBs for page 26 (rows 0x680 through 0x6bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE27_LOCK0;                 /*!< Lock configuration LSBs for page 27 (rows 0x6c0 through 0x6ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE27_LOCK1;                 /*!< Lock configuration MSBs for page 27 (rows 0x6c0 through 0x6ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE28_LOCK0;                 /*!< Lock configuration LSBs for page 28 (rows 0x700 through 0x73f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE28_LOCK1;                 /*!< Lock configuration MSBs for page 28 (rows 0x700 through 0x73f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE29_LOCK0;                 /*!< Lock configuration LSBs for page 29 (rows 0x740 through 0x77f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE29_LOCK1;                 /*!< Lock configuration MSBs for page 29 (rows 0x740 through 0x77f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE30_LOCK0;                 /*!< Lock configuration LSBs for page 30 (rows 0x780 through 0x7bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE30_LOCK1;                 /*!< Lock configuration MSBs for page 30 (rows 0x780 through 0x7bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE31_LOCK0;                 /*!< Lock configuration LSBs for page 31 (rows 0x7c0 through 0x7ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE31_LOCK1;                 /*!< Lock configuration MSBs for page 31 (rows 0x7c0 through 0x7ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE32_LOCK0;                 /*!< Lock configuration LSBs for page 32 (rows 0x800 through 0x83f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE32_LOCK1;                 /*!< Lock configuration MSBs for page 32 (rows 0x800 through 0x83f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE33_LOCK0;                 /*!< Lock configuration LSBs for page 33 (rows 0x840 through 0x87f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE33_LOCK1;                 /*!< Lock configuration MSBs for page 33 (rows 0x840 through 0x87f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE34_LOCK0;                 /*!< Lock configuration LSBs for page 34 (rows 0x880 through 0x8bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE34_LOCK1;                 /*!< Lock configuration MSBs for page 34 (rows 0x880 through 0x8bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE35_LOCK0;                 /*!< Lock configuration LSBs for page 35 (rows 0x8c0 through 0x8ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE35_LOCK1;                 /*!< Lock configuration MSBs for page 35 (rows 0x8c0 through 0x8ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE36_LOCK0;                 /*!< Lock configuration LSBs for page 36 (rows 0x900 through 0x93f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE36_LOCK1;                 /*!< Lock configuration MSBs for page 36 (rows 0x900 through 0x93f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE37_LOCK0;                 /*!< Lock configuration LSBs for page 37 (rows 0x940 through 0x97f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE37_LOCK1;                 /*!< Lock configuration MSBs for page 37 (rows 0x940 through 0x97f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE38_LOCK0;                 /*!< Lock configuration LSBs for page 38 (rows 0x980 through 0x9bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE38_LOCK1;                 /*!< Lock configuration MSBs for page 38 (rows 0x980 through 0x9bf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE39_LOCK0;                 /*!< Lock configuration LSBs for page 39 (rows 0x9c0 through 0x9ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE39_LOCK1;                 /*!< Lock configuration MSBs for page 39 (rows 0x9c0 through 0x9ff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE40_LOCK0;                 /*!< Lock configuration LSBs for page 40 (rows 0xa00 through 0xa3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE40_LOCK1;                 /*!< Lock configuration MSBs for page 40 (rows 0xa00 through 0xa3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE41_LOCK0;                 /*!< Lock configuration LSBs for page 41 (rows 0xa40 through 0xa7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE41_LOCK1;                 /*!< Lock configuration MSBs for page 41 (rows 0xa40 through 0xa7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE42_LOCK0;                 /*!< Lock configuration LSBs for page 42 (rows 0xa80 through 0xabf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE42_LOCK1;                 /*!< Lock configuration MSBs for page 42 (rows 0xa80 through 0xabf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE43_LOCK0;                 /*!< Lock configuration LSBs for page 43 (rows 0xac0 through 0xaff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE43_LOCK1;                 /*!< Lock configuration MSBs for page 43 (rows 0xac0 through 0xaff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE44_LOCK0;                 /*!< Lock configuration LSBs for page 44 (rows 0xb00 through 0xb3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE44_LOCK1;                 /*!< Lock configuration MSBs for page 44 (rows 0xb00 through 0xb3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE45_LOCK0;                 /*!< Lock configuration LSBs for page 45 (rows 0xb40 through 0xb7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE45_LOCK1;                 /*!< Lock configuration MSBs for page 45 (rows 0xb40 through 0xb7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE46_LOCK0;                 /*!< Lock configuration LSBs for page 46 (rows 0xb80 through 0xbbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE46_LOCK1;                 /*!< Lock configuration MSBs for page 46 (rows 0xb80 through 0xbbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE47_LOCK0;                 /*!< Lock configuration LSBs for page 47 (rows 0xbc0 through 0xbff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE47_LOCK1;                 /*!< Lock configuration MSBs for page 47 (rows 0xbc0 through 0xbff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE48_LOCK0;                 /*!< Lock configuration LSBs for page 48 (rows 0xc00 through 0xc3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE48_LOCK1;                 /*!< Lock configuration MSBs for page 48 (rows 0xc00 through 0xc3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE49_LOCK0;                 /*!< Lock configuration LSBs for page 49 (rows 0xc40 through 0xc7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE49_LOCK1;                 /*!< Lock configuration MSBs for page 49 (rows 0xc40 through 0xc7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE50_LOCK0;                 /*!< Lock configuration LSBs for page 50 (rows 0xc80 through 0xcbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE50_LOCK1;                 /*!< Lock configuration MSBs for page 50 (rows 0xc80 through 0xcbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE51_LOCK0;                 /*!< Lock configuration LSBs for page 51 (rows 0xcc0 through 0xcff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE51_LOCK1;                 /*!< Lock configuration MSBs for page 51 (rows 0xcc0 through 0xcff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE52_LOCK0;                 /*!< Lock configuration LSBs for page 52 (rows 0xd00 through 0xd3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE52_LOCK1;                 /*!< Lock configuration MSBs for page 52 (rows 0xd00 through 0xd3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE53_LOCK0;                 /*!< Lock configuration LSBs for page 53 (rows 0xd40 through 0xd7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE53_LOCK1;                 /*!< Lock configuration MSBs for page 53 (rows 0xd40 through 0xd7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE54_LOCK0;                 /*!< Lock configuration LSBs for page 54 (rows 0xd80 through 0xdbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE54_LOCK1;                 /*!< Lock configuration MSBs for page 54 (rows 0xd80 through 0xdbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE55_LOCK0;                 /*!< Lock configuration LSBs for page 55 (rows 0xdc0 through 0xdff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE55_LOCK1;                 /*!< Lock configuration MSBs for page 55 (rows 0xdc0 through 0xdff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE56_LOCK0;                 /*!< Lock configuration LSBs for page 56 (rows 0xe00 through 0xe3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE56_LOCK1;                 /*!< Lock configuration MSBs for page 56 (rows 0xe00 through 0xe3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE57_LOCK0;                 /*!< Lock configuration LSBs for page 57 (rows 0xe40 through 0xe7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE57_LOCK1;                 /*!< Lock configuration MSBs for page 57 (rows 0xe40 through 0xe7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE58_LOCK0;                 /*!< Lock configuration LSBs for page 58 (rows 0xe80 through 0xebf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE58_LOCK1;                 /*!< Lock configuration MSBs for page 58 (rows 0xe80 through 0xebf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE59_LOCK0;                 /*!< Lock configuration LSBs for page 59 (rows 0xec0 through 0xeff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE59_LOCK1;                 /*!< Lock configuration MSBs for page 59 (rows 0xec0 through 0xeff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE60_LOCK0;                 /*!< Lock configuration LSBs for page 60 (rows 0xf00 through 0xf3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE60_LOCK1;                 /*!< Lock configuration MSBs for page 60 (rows 0xf00 through 0xf3f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE61_LOCK0;                 /*!< Lock configuration LSBs for page 61 (rows 0xf40 through 0xf7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE61_LOCK1;                 /*!< Lock configuration MSBs for page 61 (rows 0xf40 through 0xf7f).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE62_LOCK0;                 /*!< Lock configuration LSBs for page 62 (rows 0xf80 through 0xfbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE62_LOCK1;                 /*!< Lock configuration MSBs for page 62 (rows 0xf80 through 0xfbf).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE63_LOCK0;                 /*!< Lock configuration LSBs for page 63 (rows 0xfc0 through 0xfff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+  __IOM uint32_t  PAGE63_LOCK1;                 /*!< Lock configuration MSBs for page 63 (rows 0xfc0 through 0xfff).
+                                                     Locks are stored with 3-way majority vote encoding, so
+                                                     that bits can be set independently. This OTP location is
+                                                     always readable, and is write-protected by its own permissions.           */
+} OTP_DATA_RAW_Type;                            /*!< Size = 16384 (0x4000)                                                     */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                           TBMAN                                           ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief For managing simulation testbenches (TBMAN)
+  */
+
+typedef struct {                                /*!< TBMAN Structure                                                           */
+  __IOM uint32_t  PLATFORM;                     /*!< Indicates the type of platform in use                                     */
+} TBMAN_Type;                                   /*!< Size = 4 (0x4)                                                            */
+
+
+
+/* =========================================================================================================================== */
+/* ================                                         USB_DPRAM                                         ================ */
+/* =========================================================================================================================== */
+
+
+/**
+  * @brief DPRAM layout for USB device. (USB_DPRAM)
+  */
+
+typedef struct {                                /*!< USB_DPRAM Structure                                                       */
+  __IOM uint32_t  SETUP_PACKET_LOW;             /*!< Bytes 0-3 of the SETUP packet from the host.                              */
+  __IOM uint32_t  SETUP_PACKET_HIGH;            /*!< Bytes 4-7 of the setup packet from the host.                              */
+  __IOM uint32_t  EP1_IN_CONTROL;               /*!< EP1_IN_CONTROL                                                            */
+  __IOM uint32_t  EP1_OUT_CONTROL;              /*!< EP1_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP2_IN_CONTROL;               /*!< EP2_IN_CONTROL                                                            */
+  __IOM uint32_t  EP2_OUT_CONTROL;              /*!< EP2_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP3_IN_CONTROL;               /*!< EP3_IN_CONTROL                                                            */
+  __IOM uint32_t  EP3_OUT_CONTROL;              /*!< EP3_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP4_IN_CONTROL;               /*!< EP4_IN_CONTROL                                                            */
+  __IOM uint32_t  EP4_OUT_CONTROL;              /*!< EP4_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP5_IN_CONTROL;               /*!< EP5_IN_CONTROL                                                            */
+  __IOM uint32_t  EP5_OUT_CONTROL;              /*!< EP5_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP6_IN_CONTROL;               /*!< EP6_IN_CONTROL                                                            */
+  __IOM uint32_t  EP6_OUT_CONTROL;              /*!< EP6_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP7_IN_CONTROL;               /*!< EP7_IN_CONTROL                                                            */
+  __IOM uint32_t  EP7_OUT_CONTROL;              /*!< EP7_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP8_IN_CONTROL;               /*!< EP8_IN_CONTROL                                                            */
+  __IOM uint32_t  EP8_OUT_CONTROL;              /*!< EP8_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP9_IN_CONTROL;               /*!< EP9_IN_CONTROL                                                            */
+  __IOM uint32_t  EP9_OUT_CONTROL;              /*!< EP9_OUT_CONTROL                                                           */
+  __IOM uint32_t  EP10_IN_CONTROL;              /*!< EP10_IN_CONTROL                                                           */
+  __IOM uint32_t  EP10_OUT_CONTROL;             /*!< EP10_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP11_IN_CONTROL;              /*!< EP11_IN_CONTROL                                                           */
+  __IOM uint32_t  EP11_OUT_CONTROL;             /*!< EP11_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP12_IN_CONTROL;              /*!< EP12_IN_CONTROL                                                           */
+  __IOM uint32_t  EP12_OUT_CONTROL;             /*!< EP12_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP13_IN_CONTROL;              /*!< EP13_IN_CONTROL                                                           */
+  __IOM uint32_t  EP13_OUT_CONTROL;             /*!< EP13_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP14_IN_CONTROL;              /*!< EP14_IN_CONTROL                                                           */
+  __IOM uint32_t  EP14_OUT_CONTROL;             /*!< EP14_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP15_IN_CONTROL;              /*!< EP15_IN_CONTROL                                                           */
+  __IOM uint32_t  EP15_OUT_CONTROL;             /*!< EP15_OUT_CONTROL                                                          */
+  __IOM uint32_t  EP0_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP0_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP1_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP1_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP2_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP2_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP3_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP3_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP4_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP4_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP5_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP5_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP6_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP6_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP7_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP7_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP8_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP8_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP9_IN_BUFFER_CONTROL;        /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP9_OUT_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP10_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP10_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP11_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP11_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP12_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP12_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP13_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP13_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP14_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP14_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP15_IN_BUFFER_CONTROL;       /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+  __IOM uint32_t  EP15_OUT_BUFFER_CONTROL;      /*!< Buffer control for both buffers of an endpoint. Fields ending
+                                                     in a _1 are for buffer 1. Fields ending in a _0 are for
+                                                     buffer 0. Buffer 1 controls are only valid if the endpoint
+                                                     is in double buffered mode.                                               */
+} USB_DPRAM_Type;                               /*!< Size = 256 (0x100)                                                        */
+
+
+/** @} */ /* End of group Device_Peripheral_peripherals */
+
+
+/* =========================================================================================================================== */
+/* ================                          Device Specific Peripheral Address Map                           ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_peripheralAddr
+  * @{
+  */
+
+#if 0
+#define RESETS_BASE                 0x40020000UL
+#define PSM_BASE                    0x40018000UL
+#define CLOCKS_BASE                 0x40010000UL
+#define TICKS_BASE                  0x40108000UL
+#define PADS_BANK0_BASE             0x40038000UL
+#define PADS_QSPI_BASE              0x40040000UL
+#define IO_QSPI_BASE                0x40030000UL
+#define IO_BANK0_BASE               0x40028000UL
+#define SYSINFO_BASE                0x40000000UL
+#define SHA256_BASE                 0x400F8000UL
+#define HSTX_FIFO_BASE              0x50600000UL
+#define HSTX_CTRL_BASE              0x400C0000UL
+#define EPPB_BASE                   0xE0080000UL
+#define PPB_BASE                    0xE0000000UL
+#define PPB_NS_BASE                 0xE0020000UL
+#define QMI_BASE                    0x400D0000UL
+#define XIP_CTRL_BASE               0x400C8000UL
+#define XIP_AUX_BASE                0x50500000UL
+#define SYSCFG_BASE                 0x40008000UL
+#define XOSC_BASE                   0x40048000UL
+#define PLL_SYS_BASE                0x40050000UL
+#define PLL_USB_BASE                0x40058000UL
+#define ACCESSCTRL_BASE             0x40060000UL
+#define UART0_BASE                  0x40070000UL
+#define UART1_BASE                  0x40078000UL
+#define ROSC_BASE                   0x400E8000UL
+#define POWMAN_BASE                 0x40100000UL
+#define WATCHDOG_BASE               0x400D8000UL
+#define DMA_BASE                    0x50000000UL
+#define TIMER0_BASE                 0x400B0000UL
+#define TIMER1_BASE                 0x400B8000UL
+#define PWM_BASE                    0x400A8000UL
+#define ADC_BASE                    0x400A0000UL
+#define I2C0_BASE                   0x40090000UL
+#define I2C1_BASE                   0x40098000UL
+#define SPI0_BASE                   0x40080000UL
+#define SPI1_BASE                   0x40088000UL
+#define PIO0_BASE                   0x50200000UL
+#define PIO1_BASE                   0x50300000UL
+#define PIO2_BASE                   0x50400000UL
+#define BUSCTRL_BASE                0x40068000UL
+#define SIO_BASE                    0xD0000000UL
+#define SIO_NS_BASE                 0xD0020000UL
+#define BOOTRAM_BASE                0x400E0000UL
+#define CORESIGHT_TRACE_BASE        0x50700000UL
+#define USB_BASE                    0x50110000UL
+#define TRNG_BASE                   0x400F0000UL
+#define GLITCH_DETECTOR_BASE        0x40158000UL
+#define OTP_BASE                    0x40120000UL
+#define OTP_DATA_BASE               0x40130000UL
+#define OTP_DATA_RAW_BASE           0x40134000UL
+#define TBMAN_BASE                  0x40160000UL
+#define USB_DPRAM_BASE              0x50100000UL
+#endif
+
+/** @} */ /* End of group Device_Peripheral_peripheralAddr */
+
+
+/* =========================================================================================================================== */
+/* ================                                  Peripheral declaration                                   ================ */
+/* =========================================================================================================================== */
+
+
+/** @addtogroup Device_Peripheral_declaration
+  * @{
+  */
+
+#define RESETS                      ((RESETS_Type*)            RESETS_BASE)
+#define PSM                         ((PSM_Type*)               PSM_BASE)
+#define CLOCKS                      ((CLOCKS_Type*)            CLOCKS_BASE)
+#define TICKS                       ((TICKS_Type*)             TICKS_BASE)
+#define PADS_BANK0                  ((PADS_BANK0_Type*)        PADS_BANK0_BASE)
+#define PADS_QSPI                   ((PADS_QSPI_Type*)         PADS_QSPI_BASE)
+#define IO_QSPI                     ((IO_QSPI_Type*)           IO_QSPI_BASE)
+#define IO_BANK0                    ((IO_BANK0_Type*)          IO_BANK0_BASE)
+#define SYSINFO                     ((SYSINFO_Type*)           SYSINFO_BASE)
+#define SHA256                      ((SHA256_Type*)            SHA256_BASE)
+#define HSTX_FIFO                   ((HSTX_FIFO_Type*)         HSTX_FIFO_BASE)
+#define HSTX_CTRL                   ((HSTX_CTRL_Type*)         HSTX_CTRL_BASE)
+#define EPPB                        ((EPPB_Type*)              EPPB_BASE)
+#define PPB                         ((PPB_Type*)               PPB_BASE)
+#define PPB_NS                      ((PPB_Type*)               PPB_NS_BASE)
+#define QMI                         ((QMI_Type*)               QMI_BASE)
+#define XIP_CTRL                    ((XIP_CTRL_Type*)          XIP_CTRL_BASE)
+#define XIP_AUX                     ((XIP_AUX_Type*)           XIP_AUX_BASE)
+#define SYSCFG                      ((SYSCFG_Type*)            SYSCFG_BASE)
+#define XOSC                        ((XOSC_Type*)              XOSC_BASE)
+#define PLL_SYS                     ((PLL_SYS_Type*)           PLL_SYS_BASE)
+#define PLL_USB                     ((PLL_SYS_Type*)           PLL_USB_BASE)
+#define ACCESSCTRL                  ((ACCESSCTRL_Type*)        ACCESSCTRL_BASE)
+#define UART0                       ((UART0_Type*)             UART0_BASE)
+#define UART1                       ((UART0_Type*)             UART1_BASE)
+#define ROSC                        ((ROSC_Type*)              ROSC_BASE)
+#define POWMAN                      ((POWMAN_Type*)            POWMAN_BASE)
+#define WATCHDOG                    ((WATCHDOG_Type*)          WATCHDOG_BASE)
+#define DMA                         ((DMA_Type*)               DMA_BASE)
+#define TIMER0                      ((TIMER0_Type*)            TIMER0_BASE)
+#define TIMER1                      ((TIMER0_Type*)            TIMER1_BASE)
+#define PWM                         ((PWM_Type*)               PWM_BASE)
+#define ADC                         ((ADC_Type*)               ADC_BASE)
+#define I2C0                        ((I2C0_Type*)              I2C0_BASE)
+#define I2C1                        ((I2C0_Type*)              I2C1_BASE)
+#define SPI0                        ((SPI0_Type*)              SPI0_BASE)
+#define SPI1                        ((SPI0_Type*)              SPI1_BASE)
+#define PIO0                        ((PIO0_Type*)              PIO0_BASE)
+#define PIO1                        ((PIO0_Type*)              PIO1_BASE)
+#define PIO2                        ((PIO0_Type*)              PIO2_BASE)
+#define BUSCTRL                     ((BUSCTRL_Type*)           BUSCTRL_BASE)
+#define SIO                         ((SIO_Type*)               SIO_BASE)
+#define SIO_NS                      ((SIO_Type*)               SIO_NS_BASE)
+#define BOOTRAM                     ((BOOTRAM_Type*)           BOOTRAM_BASE)
+#define CORESIGHT_TRACE             ((CORESIGHT_TRACE_Type*)   CORESIGHT_TRACE_BASE)
+#define USB                         ((USB_Type*)               USB_BASE)
+#define TRNG                        ((TRNG_Type*)              TRNG_BASE)
+#define GLITCH_DETECTOR             ((GLITCH_DETECTOR_Type*)   GLITCH_DETECTOR_BASE)
+#define OTP                         ((OTP_Type*)               OTP_BASE)
+#define OTP_DATA                    ((OTP_DATA_Type*)          OTP_DATA_BASE)
+#define OTP_DATA_RAW                ((OTP_DATA_RAW_Type*)      OTP_DATA_RAW_BASE)
+#define TBMAN                       ((TBMAN_Type*)             TBMAN_BASE)
+#define USB_DPRAM                   ((USB_DPRAM_Type*)         USB_DPRAM_BASE)
+
+/** @} */ /* End of group Device_Peripheral_declaration */
+
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* RP2350_H */
+
+
+/** @} */ /* End of group RP2350 */
+
+/** @} */ /* End of group Raspberry Pi */
diff --git a/lib/pico-sdk/rp2350/cmsis_include/system_RP2350.h b/lib/pico-sdk/rp2350/cmsis_include/system_RP2350.h
new file mode 100644
index 0000000..30881cc
--- /dev/null
+++ b/lib/pico-sdk/rp2350/cmsis_include/system_RP2350.h
@@ -0,0 +1,65 @@
+/*************************************************************************//**
+ * @file     system_RP2040.h
+ * @brief    CMSIS-Core(M) Device Peripheral Access Layer Header File for
+ *           Device RP2040
+ * @version  V1.0.0
+ * @date     5. May 2021
+ *****************************************************************************/
+/*
+ * Copyright (c) 2009-2021 Arm Limited. All rights reserved.
+ * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: Apache-2.0
+ *
+ * Licensed under the Apache License, Version 2.0 (the License); you may
+ * not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an AS IS BASIS, WITHOUT
+ * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _CMSIS_SYSTEM_RP2040_H
+#define _CMSIS_SYSTEM_RP2040_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/**
+  \brief Exception / Interrupt Handler Function Prototype
+*/
+typedef void(*VECTOR_TABLE_Type)(void);
+
+/**
+  \brief System Clock Frequency (Core Clock)
+*/
+extern uint32_t SystemCoreClock;
+
+/**
+  \brief Setup the microcontroller system.
+
+   Initialize the System and update the SystemCoreClock variable.
+ */
+extern void SystemInit (void);
+
+
+/**
+  \brief  Update SystemCoreClock variable.
+
+   Updates the SystemCoreClock with current core Clock retrieved from cpu registers.
+ */
+extern void SystemCoreClockUpdate (void);
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* _CMSIS_SYSTEM_RP2040_H */
diff --git a/lib/pico-sdk/rp2350/hardware/regs/accessctrl.h b/lib/pico-sdk/rp2350/hardware/regs/accessctrl.h
new file mode 100644
index 0000000..2b8c4ca
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/accessctrl.h
@@ -0,0 +1,4953 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : ACCESSCTRL
+// Version        : 1
+// Bus type       : apb
+// Description    : Hardware access control registers
+// =============================================================================
+#ifndef _HARDWARE_REGS_ACCESSCTRL_H
+#define _HARDWARE_REGS_ACCESSCTRL_H
+// =============================================================================
+// Register    : ACCESSCTRL_LOCK
+// Description : Once a LOCK bit is written to 1, ACCESSCTRL silently ignores
+//               writes from that master. LOCK is writable only by a Secure,
+//               Privileged processor or debugger.
+//
+//               LOCK bits are only writable when their value is zero. Once set,
+//               they can never be cleared, except by a full reset of ACCESSCTRL
+//
+//               Setting the LOCK bit does not affect whether an access raises a
+//               bus error. Unprivileged writes, or writes from the DMA, will
+//               continue to raise bus errors. All other accesses will continue
+//               not to.
+#define ACCESSCTRL_LOCK_OFFSET _u(0x00000000)
+#define ACCESSCTRL_LOCK_BITS   _u(0x0000000f)
+#define ACCESSCTRL_LOCK_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_LOCK_DEBUG
+#define ACCESSCTRL_LOCK_DEBUG_RESET  _u(0x0)
+#define ACCESSCTRL_LOCK_DEBUG_BITS   _u(0x00000008)
+#define ACCESSCTRL_LOCK_DEBUG_MSB    _u(3)
+#define ACCESSCTRL_LOCK_DEBUG_LSB    _u(3)
+#define ACCESSCTRL_LOCK_DEBUG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_LOCK_DMA
+#define ACCESSCTRL_LOCK_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_LOCK_DMA_BITS   _u(0x00000004)
+#define ACCESSCTRL_LOCK_DMA_MSB    _u(2)
+#define ACCESSCTRL_LOCK_DMA_LSB    _u(2)
+#define ACCESSCTRL_LOCK_DMA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_LOCK_CORE1
+#define ACCESSCTRL_LOCK_CORE1_RESET  _u(0x0)
+#define ACCESSCTRL_LOCK_CORE1_BITS   _u(0x00000002)
+#define ACCESSCTRL_LOCK_CORE1_MSB    _u(1)
+#define ACCESSCTRL_LOCK_CORE1_LSB    _u(1)
+#define ACCESSCTRL_LOCK_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_LOCK_CORE0
+#define ACCESSCTRL_LOCK_CORE0_RESET  _u(0x0)
+#define ACCESSCTRL_LOCK_CORE0_BITS   _u(0x00000001)
+#define ACCESSCTRL_LOCK_CORE0_MSB    _u(0)
+#define ACCESSCTRL_LOCK_CORE0_LSB    _u(0)
+#define ACCESSCTRL_LOCK_CORE0_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_FORCE_CORE_NS
+// Description : Force core 1's bus accesses to always be Non-secure, no matter
+//               the core's internal state.
+//
+//               Useful for schemes where one core is designated as the Non-
+//               secure core, since some peripherals may filter individual
+//               registers internally based on security state but not on master
+//               ID.
+#define ACCESSCTRL_FORCE_CORE_NS_OFFSET _u(0x00000004)
+#define ACCESSCTRL_FORCE_CORE_NS_BITS   _u(0x00000002)
+#define ACCESSCTRL_FORCE_CORE_NS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_FORCE_CORE_NS_CORE1
+#define ACCESSCTRL_FORCE_CORE_NS_CORE1_RESET  _u(0x0)
+#define ACCESSCTRL_FORCE_CORE_NS_CORE1_BITS   _u(0x00000002)
+#define ACCESSCTRL_FORCE_CORE_NS_CORE1_MSB    _u(1)
+#define ACCESSCTRL_FORCE_CORE_NS_CORE1_LSB    _u(1)
+#define ACCESSCTRL_FORCE_CORE_NS_CORE1_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_CFGRESET
+// Description : Write 1 to reset all ACCESSCTRL configuration, except for the
+//               LOCK and FORCE_CORE_NS registers.
+//
+//               This bit is used in the RP2350 bootrom to quickly restore
+//               ACCESSCTRL to a known state during the boot path.
+//
+//               Note that, like all registers in ACCESSCTRL, this register is
+//               not writable when the writer's corresponding LOCK bit is set,
+//               therefore a master which has been locked out of ACCESSCTRL can
+//               not use the CFGRESET register to disturb its contents.
+#define ACCESSCTRL_CFGRESET_OFFSET _u(0x00000008)
+#define ACCESSCTRL_CFGRESET_BITS   _u(0x00000001)
+#define ACCESSCTRL_CFGRESET_RESET  _u(0x00000000)
+#define ACCESSCTRL_CFGRESET_MSB    _u(0)
+#define ACCESSCTRL_CFGRESET_LSB    _u(0)
+#define ACCESSCTRL_CFGRESET_ACCESS "SC"
+// =============================================================================
+// Register    : ACCESSCTRL_GPIO_NSMASK0
+// Description : Control whether GPIO0...31 are accessible to Non-secure code.
+//               Writable only by a Secure, Privileged processor or debugger.
+//
+//               0 -> Secure access only
+//
+//               1 -> Secure + Non-secure access
+#define ACCESSCTRL_GPIO_NSMASK0_OFFSET _u(0x0000000c)
+#define ACCESSCTRL_GPIO_NSMASK0_BITS   _u(0xffffffff)
+#define ACCESSCTRL_GPIO_NSMASK0_RESET  _u(0x00000000)
+#define ACCESSCTRL_GPIO_NSMASK0_MSB    _u(31)
+#define ACCESSCTRL_GPIO_NSMASK0_LSB    _u(0)
+#define ACCESSCTRL_GPIO_NSMASK0_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_GPIO_NSMASK1
+// Description : Control whether GPIO32..47 are accessible to Non-secure code,
+//               and whether QSPI and USB bitbang are accessible through the
+//               Non-secure SIO. Writable only by a Secure, Privileged processor
+//               or debugger.
+#define ACCESSCTRL_GPIO_NSMASK1_OFFSET _u(0x00000010)
+#define ACCESSCTRL_GPIO_NSMASK1_BITS   _u(0xff00ffff)
+#define ACCESSCTRL_GPIO_NSMASK1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_QSPI_SD
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SD_RESET  _u(0x0)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SD_BITS   _u(0xf0000000)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SD_MSB    _u(31)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SD_LSB    _u(28)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN_RESET  _u(0x0)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN_BITS   _u(0x08000000)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN_MSB    _u(27)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN_LSB    _u(27)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_CSN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK_RESET  _u(0x0)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK_BITS   _u(0x04000000)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK_MSB    _u(26)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK_LSB    _u(26)
+#define ACCESSCTRL_GPIO_NSMASK1_QSPI_SCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_USB_DM
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DM_RESET  _u(0x0)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DM_BITS   _u(0x02000000)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DM_MSB    _u(25)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DM_LSB    _u(25)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_USB_DP
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DP_RESET  _u(0x0)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DP_BITS   _u(0x01000000)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DP_MSB    _u(24)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DP_LSB    _u(24)
+#define ACCESSCTRL_GPIO_NSMASK1_USB_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_GPIO_NSMASK1_GPIO
+#define ACCESSCTRL_GPIO_NSMASK1_GPIO_RESET  _u(0x0000)
+#define ACCESSCTRL_GPIO_NSMASK1_GPIO_BITS   _u(0x0000ffff)
+#define ACCESSCTRL_GPIO_NSMASK1_GPIO_MSB    _u(15)
+#define ACCESSCTRL_GPIO_NSMASK1_GPIO_LSB    _u(0)
+#define ACCESSCTRL_GPIO_NSMASK1_GPIO_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_ROM
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               ROM, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_ROM_OFFSET _u(0x00000014)
+#define ACCESSCTRL_ROM_BITS   _u(0x000000ff)
+#define ACCESSCTRL_ROM_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_DBG
+// Description : If 1, ROM can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_ROM_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_ROM_DBG_MSB    _u(7)
+#define ACCESSCTRL_ROM_DBG_LSB    _u(7)
+#define ACCESSCTRL_ROM_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_DMA
+// Description : If 1, ROM can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROM_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_ROM_DMA_MSB    _u(6)
+#define ACCESSCTRL_ROM_DMA_LSB    _u(6)
+#define ACCESSCTRL_ROM_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_CORE1
+// Description : If 1, ROM can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROM_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_ROM_CORE1_MSB    _u(5)
+#define ACCESSCTRL_ROM_CORE1_LSB    _u(5)
+#define ACCESSCTRL_ROM_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_CORE0
+// Description : If 1, ROM can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROM_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_ROM_CORE0_MSB    _u(4)
+#define ACCESSCTRL_ROM_CORE0_LSB    _u(4)
+#define ACCESSCTRL_ROM_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_SP
+// Description : If 1, ROM can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_ROM_SP_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_ROM_SP_MSB    _u(3)
+#define ACCESSCTRL_ROM_SP_LSB    _u(3)
+#define ACCESSCTRL_ROM_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_SU
+// Description : If 1, and SP is also set, ROM can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_ROM_SU_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_ROM_SU_MSB    _u(2)
+#define ACCESSCTRL_ROM_SU_LSB    _u(2)
+#define ACCESSCTRL_ROM_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_NSP
+// Description : If 1, ROM can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_ROM_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_ROM_NSP_MSB    _u(1)
+#define ACCESSCTRL_ROM_NSP_LSB    _u(1)
+#define ACCESSCTRL_ROM_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROM_NSU
+// Description : If 1, and NSP is also set, ROM can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_ROM_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_ROM_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_ROM_NSU_MSB    _u(0)
+#define ACCESSCTRL_ROM_NSU_LSB    _u(0)
+#define ACCESSCTRL_ROM_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_XIP_MAIN
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               XIP_MAIN, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_XIP_MAIN_OFFSET _u(0x00000018)
+#define ACCESSCTRL_XIP_MAIN_BITS   _u(0x000000ff)
+#define ACCESSCTRL_XIP_MAIN_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_DBG
+// Description : If 1, XIP_MAIN can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_MAIN_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_XIP_MAIN_DBG_MSB    _u(7)
+#define ACCESSCTRL_XIP_MAIN_DBG_LSB    _u(7)
+#define ACCESSCTRL_XIP_MAIN_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_DMA
+// Description : If 1, XIP_MAIN can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_MAIN_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_XIP_MAIN_DMA_MSB    _u(6)
+#define ACCESSCTRL_XIP_MAIN_DMA_LSB    _u(6)
+#define ACCESSCTRL_XIP_MAIN_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_CORE1
+// Description : If 1, XIP_MAIN can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_MAIN_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_XIP_MAIN_CORE1_MSB    _u(5)
+#define ACCESSCTRL_XIP_MAIN_CORE1_LSB    _u(5)
+#define ACCESSCTRL_XIP_MAIN_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_CORE0
+// Description : If 1, XIP_MAIN can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_MAIN_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_XIP_MAIN_CORE0_MSB    _u(4)
+#define ACCESSCTRL_XIP_MAIN_CORE0_LSB    _u(4)
+#define ACCESSCTRL_XIP_MAIN_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_SP
+// Description : If 1, XIP_MAIN can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_MAIN_SP_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_XIP_MAIN_SP_MSB    _u(3)
+#define ACCESSCTRL_XIP_MAIN_SP_LSB    _u(3)
+#define ACCESSCTRL_XIP_MAIN_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_SU
+// Description : If 1, and SP is also set, XIP_MAIN can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_XIP_MAIN_SU_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_XIP_MAIN_SU_MSB    _u(2)
+#define ACCESSCTRL_XIP_MAIN_SU_LSB    _u(2)
+#define ACCESSCTRL_XIP_MAIN_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_NSP
+// Description : If 1, XIP_MAIN can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_MAIN_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_XIP_MAIN_NSP_MSB    _u(1)
+#define ACCESSCTRL_XIP_MAIN_NSP_LSB    _u(1)
+#define ACCESSCTRL_XIP_MAIN_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_MAIN_NSU
+// Description : If 1, and NSP is also set, XIP_MAIN can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_XIP_MAIN_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_MAIN_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_XIP_MAIN_NSU_MSB    _u(0)
+#define ACCESSCTRL_XIP_MAIN_NSU_LSB    _u(0)
+#define ACCESSCTRL_XIP_MAIN_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM0, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM0_OFFSET _u(0x0000001c)
+#define ACCESSCTRL_SRAM0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM0_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_DBG
+// Description : If 1, SRAM0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM0_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM0_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_DMA
+// Description : If 1, SRAM0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM0_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM0_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_CORE1
+// Description : If 1, SRAM0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_CORE0
+// Description : If 1, SRAM0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_SP
+// Description : If 1, SRAM0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM0_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM0_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_SU
+// Description : If 1, and SP is also set, SRAM0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM0_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM0_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_NSP
+// Description : If 1, SRAM0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM0_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM0_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM0_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM0_NSU
+// Description : If 1, and NSP is also set, SRAM0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM0_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM0_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM0_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM1, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM1_OFFSET _u(0x00000020)
+#define ACCESSCTRL_SRAM1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM1_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_DBG
+// Description : If 1, SRAM1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM1_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM1_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_DMA
+// Description : If 1, SRAM1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM1_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM1_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_CORE1
+// Description : If 1, SRAM1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_CORE0
+// Description : If 1, SRAM1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_SP
+// Description : If 1, SRAM1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM1_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM1_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_SU
+// Description : If 1, and SP is also set, SRAM1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM1_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM1_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_NSP
+// Description : If 1, SRAM1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM1_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM1_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM1_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM1_NSU
+// Description : If 1, and NSP is also set, SRAM1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM1_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM1_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM1_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM2
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM2, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM2_OFFSET _u(0x00000024)
+#define ACCESSCTRL_SRAM2_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM2_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_DBG
+// Description : If 1, SRAM2 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM2_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM2_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM2_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM2_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_DMA
+// Description : If 1, SRAM2 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM2_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM2_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM2_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM2_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_CORE1
+// Description : If 1, SRAM2 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM2_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM2_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM2_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM2_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_CORE0
+// Description : If 1, SRAM2 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM2_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM2_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM2_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM2_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_SP
+// Description : If 1, SRAM2 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM2_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM2_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM2_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM2_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_SU
+// Description : If 1, and SP is also set, SRAM2 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM2_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM2_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM2_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM2_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_NSP
+// Description : If 1, SRAM2 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM2_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM2_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM2_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM2_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM2_NSU
+// Description : If 1, and NSP is also set, SRAM2 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM2_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM2_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM2_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM2_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM2_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM3
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM3, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM3_OFFSET _u(0x00000028)
+#define ACCESSCTRL_SRAM3_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM3_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_DBG
+// Description : If 1, SRAM3 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM3_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM3_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM3_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM3_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_DMA
+// Description : If 1, SRAM3 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM3_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM3_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM3_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM3_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_CORE1
+// Description : If 1, SRAM3 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM3_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM3_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM3_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM3_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_CORE0
+// Description : If 1, SRAM3 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM3_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM3_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM3_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM3_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_SP
+// Description : If 1, SRAM3 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM3_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM3_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM3_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM3_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_SU
+// Description : If 1, and SP is also set, SRAM3 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM3_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM3_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM3_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM3_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_NSP
+// Description : If 1, SRAM3 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM3_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM3_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM3_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM3_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM3_NSU
+// Description : If 1, and NSP is also set, SRAM3 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM3_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM3_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM3_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM3_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM3_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM4
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM4, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM4_OFFSET _u(0x0000002c)
+#define ACCESSCTRL_SRAM4_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM4_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_DBG
+// Description : If 1, SRAM4 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM4_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM4_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM4_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM4_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_DMA
+// Description : If 1, SRAM4 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM4_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM4_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM4_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM4_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_CORE1
+// Description : If 1, SRAM4 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM4_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM4_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM4_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM4_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_CORE0
+// Description : If 1, SRAM4 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM4_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM4_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM4_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM4_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_SP
+// Description : If 1, SRAM4 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM4_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM4_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM4_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM4_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_SU
+// Description : If 1, and SP is also set, SRAM4 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM4_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM4_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM4_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM4_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_NSP
+// Description : If 1, SRAM4 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM4_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM4_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM4_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM4_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM4_NSU
+// Description : If 1, and NSP is also set, SRAM4 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM4_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM4_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM4_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM4_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM4_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM5
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM5, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM5_OFFSET _u(0x00000030)
+#define ACCESSCTRL_SRAM5_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM5_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_DBG
+// Description : If 1, SRAM5 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM5_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM5_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM5_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM5_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_DMA
+// Description : If 1, SRAM5 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM5_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM5_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM5_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM5_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_CORE1
+// Description : If 1, SRAM5 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM5_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM5_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM5_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM5_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_CORE0
+// Description : If 1, SRAM5 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM5_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM5_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM5_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM5_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_SP
+// Description : If 1, SRAM5 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM5_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM5_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM5_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM5_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_SU
+// Description : If 1, and SP is also set, SRAM5 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM5_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM5_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM5_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM5_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_NSP
+// Description : If 1, SRAM5 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM5_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM5_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM5_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM5_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM5_NSU
+// Description : If 1, and NSP is also set, SRAM5 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM5_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM5_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM5_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM5_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM5_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM6
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM6, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM6_OFFSET _u(0x00000034)
+#define ACCESSCTRL_SRAM6_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM6_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_DBG
+// Description : If 1, SRAM6 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM6_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM6_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM6_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM6_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_DMA
+// Description : If 1, SRAM6 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM6_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM6_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM6_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM6_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_CORE1
+// Description : If 1, SRAM6 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM6_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM6_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM6_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM6_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_CORE0
+// Description : If 1, SRAM6 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM6_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM6_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM6_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM6_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_SP
+// Description : If 1, SRAM6 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM6_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM6_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM6_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM6_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_SU
+// Description : If 1, and SP is also set, SRAM6 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM6_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM6_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM6_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM6_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_NSP
+// Description : If 1, SRAM6 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM6_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM6_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM6_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM6_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM6_NSU
+// Description : If 1, and NSP is also set, SRAM6 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM6_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM6_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM6_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM6_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM6_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM7
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM7, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM7_OFFSET _u(0x00000038)
+#define ACCESSCTRL_SRAM7_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM7_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_DBG
+// Description : If 1, SRAM7 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM7_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM7_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM7_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM7_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_DMA
+// Description : If 1, SRAM7 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM7_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM7_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM7_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM7_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_CORE1
+// Description : If 1, SRAM7 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM7_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM7_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM7_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM7_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_CORE0
+// Description : If 1, SRAM7 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM7_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM7_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM7_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM7_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_SP
+// Description : If 1, SRAM7 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM7_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM7_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM7_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM7_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_SU
+// Description : If 1, and SP is also set, SRAM7 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM7_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM7_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM7_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM7_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_NSP
+// Description : If 1, SRAM7 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM7_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM7_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM7_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM7_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM7_NSU
+// Description : If 1, and NSP is also set, SRAM7 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM7_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM7_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM7_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM7_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM7_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM8
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM8, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM8_OFFSET _u(0x0000003c)
+#define ACCESSCTRL_SRAM8_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM8_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_DBG
+// Description : If 1, SRAM8 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM8_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM8_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM8_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM8_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_DMA
+// Description : If 1, SRAM8 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM8_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM8_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM8_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM8_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_CORE1
+// Description : If 1, SRAM8 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM8_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM8_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM8_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM8_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_CORE0
+// Description : If 1, SRAM8 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM8_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM8_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM8_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM8_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_SP
+// Description : If 1, SRAM8 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM8_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM8_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM8_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM8_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_SU
+// Description : If 1, and SP is also set, SRAM8 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM8_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM8_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM8_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM8_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_NSP
+// Description : If 1, SRAM8 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM8_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM8_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM8_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM8_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM8_NSU
+// Description : If 1, and NSP is also set, SRAM8 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM8_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM8_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM8_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM8_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM8_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SRAM9
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SRAM9, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SRAM9_OFFSET _u(0x00000040)
+#define ACCESSCTRL_SRAM9_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SRAM9_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_DBG
+// Description : If 1, SRAM9 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SRAM9_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SRAM9_DBG_MSB    _u(7)
+#define ACCESSCTRL_SRAM9_DBG_LSB    _u(7)
+#define ACCESSCTRL_SRAM9_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_DMA
+// Description : If 1, SRAM9 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM9_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SRAM9_DMA_MSB    _u(6)
+#define ACCESSCTRL_SRAM9_DMA_LSB    _u(6)
+#define ACCESSCTRL_SRAM9_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_CORE1
+// Description : If 1, SRAM9 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM9_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SRAM9_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SRAM9_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SRAM9_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_CORE0
+// Description : If 1, SRAM9 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SRAM9_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SRAM9_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SRAM9_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SRAM9_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_SP
+// Description : If 1, SRAM9 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SRAM9_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SRAM9_SP_MSB    _u(3)
+#define ACCESSCTRL_SRAM9_SP_LSB    _u(3)
+#define ACCESSCTRL_SRAM9_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_SU
+// Description : If 1, and SP is also set, SRAM9 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SRAM9_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SRAM9_SU_MSB    _u(2)
+#define ACCESSCTRL_SRAM9_SU_LSB    _u(2)
+#define ACCESSCTRL_SRAM9_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_NSP
+// Description : If 1, SRAM9 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SRAM9_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SRAM9_NSP_MSB    _u(1)
+#define ACCESSCTRL_SRAM9_NSP_LSB    _u(1)
+#define ACCESSCTRL_SRAM9_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SRAM9_NSU
+// Description : If 1, and NSP is also set, SRAM9 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SRAM9_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SRAM9_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SRAM9_NSU_MSB    _u(0)
+#define ACCESSCTRL_SRAM9_NSU_LSB    _u(0)
+#define ACCESSCTRL_SRAM9_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_DMA
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               DMA, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_DMA_OFFSET _u(0x00000044)
+#define ACCESSCTRL_DMA_BITS   _u(0x000000ff)
+#define ACCESSCTRL_DMA_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_DBG
+// Description : If 1, DMA can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_DMA_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_DMA_DBG_MSB    _u(7)
+#define ACCESSCTRL_DMA_DBG_LSB    _u(7)
+#define ACCESSCTRL_DMA_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_DMA
+// Description : If 1, DMA can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_DMA_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_DMA_DMA_MSB    _u(6)
+#define ACCESSCTRL_DMA_DMA_LSB    _u(6)
+#define ACCESSCTRL_DMA_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_CORE1
+// Description : If 1, DMA can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_DMA_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_DMA_CORE1_MSB    _u(5)
+#define ACCESSCTRL_DMA_CORE1_LSB    _u(5)
+#define ACCESSCTRL_DMA_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_CORE0
+// Description : If 1, DMA can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_DMA_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_DMA_CORE0_MSB    _u(4)
+#define ACCESSCTRL_DMA_CORE0_LSB    _u(4)
+#define ACCESSCTRL_DMA_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_SP
+// Description : If 1, DMA can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_DMA_SP_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_DMA_SP_MSB    _u(3)
+#define ACCESSCTRL_DMA_SP_LSB    _u(3)
+#define ACCESSCTRL_DMA_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_SU
+// Description : If 1, and SP is also set, DMA can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_DMA_SU_RESET  _u(0x1)
+#define ACCESSCTRL_DMA_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_DMA_SU_MSB    _u(2)
+#define ACCESSCTRL_DMA_SU_LSB    _u(2)
+#define ACCESSCTRL_DMA_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_NSP
+// Description : If 1, DMA can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_DMA_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_DMA_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_DMA_NSP_MSB    _u(1)
+#define ACCESSCTRL_DMA_NSP_LSB    _u(1)
+#define ACCESSCTRL_DMA_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_DMA_NSU
+// Description : If 1, and NSP is also set, DMA can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_DMA_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_DMA_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_DMA_NSU_MSB    _u(0)
+#define ACCESSCTRL_DMA_NSU_LSB    _u(0)
+#define ACCESSCTRL_DMA_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_USBCTRL
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               USBCTRL, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_USBCTRL_OFFSET _u(0x00000048)
+#define ACCESSCTRL_USBCTRL_BITS   _u(0x000000ff)
+#define ACCESSCTRL_USBCTRL_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_DBG
+// Description : If 1, USBCTRL can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_USBCTRL_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_USBCTRL_DBG_MSB    _u(7)
+#define ACCESSCTRL_USBCTRL_DBG_LSB    _u(7)
+#define ACCESSCTRL_USBCTRL_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_DMA
+// Description : If 1, USBCTRL can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_USBCTRL_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_USBCTRL_DMA_MSB    _u(6)
+#define ACCESSCTRL_USBCTRL_DMA_LSB    _u(6)
+#define ACCESSCTRL_USBCTRL_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_CORE1
+// Description : If 1, USBCTRL can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_USBCTRL_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_USBCTRL_CORE1_MSB    _u(5)
+#define ACCESSCTRL_USBCTRL_CORE1_LSB    _u(5)
+#define ACCESSCTRL_USBCTRL_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_CORE0
+// Description : If 1, USBCTRL can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_USBCTRL_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_USBCTRL_CORE0_MSB    _u(4)
+#define ACCESSCTRL_USBCTRL_CORE0_LSB    _u(4)
+#define ACCESSCTRL_USBCTRL_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_SP
+// Description : If 1, USBCTRL can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_USBCTRL_SP_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_USBCTRL_SP_MSB    _u(3)
+#define ACCESSCTRL_USBCTRL_SP_LSB    _u(3)
+#define ACCESSCTRL_USBCTRL_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_SU
+// Description : If 1, and SP is also set, USBCTRL can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_USBCTRL_SU_RESET  _u(0x1)
+#define ACCESSCTRL_USBCTRL_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_USBCTRL_SU_MSB    _u(2)
+#define ACCESSCTRL_USBCTRL_SU_LSB    _u(2)
+#define ACCESSCTRL_USBCTRL_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_NSP
+// Description : If 1, USBCTRL can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_USBCTRL_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_USBCTRL_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_USBCTRL_NSP_MSB    _u(1)
+#define ACCESSCTRL_USBCTRL_NSP_LSB    _u(1)
+#define ACCESSCTRL_USBCTRL_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_USBCTRL_NSU
+// Description : If 1, and NSP is also set, USBCTRL can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_USBCTRL_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_USBCTRL_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_USBCTRL_NSU_MSB    _u(0)
+#define ACCESSCTRL_USBCTRL_NSU_LSB    _u(0)
+#define ACCESSCTRL_USBCTRL_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PIO0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PIO0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PIO0_OFFSET _u(0x0000004c)
+#define ACCESSCTRL_PIO0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PIO0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_DBG
+// Description : If 1, PIO0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PIO0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PIO0_DBG_MSB    _u(7)
+#define ACCESSCTRL_PIO0_DBG_LSB    _u(7)
+#define ACCESSCTRL_PIO0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_DMA
+// Description : If 1, PIO0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PIO0_DMA_MSB    _u(6)
+#define ACCESSCTRL_PIO0_DMA_LSB    _u(6)
+#define ACCESSCTRL_PIO0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_CORE1
+// Description : If 1, PIO0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PIO0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PIO0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PIO0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_CORE0
+// Description : If 1, PIO0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PIO0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PIO0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PIO0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_SP
+// Description : If 1, PIO0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_PIO0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PIO0_SP_MSB    _u(3)
+#define ACCESSCTRL_PIO0_SP_LSB    _u(3)
+#define ACCESSCTRL_PIO0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_SU
+// Description : If 1, and SP is also set, PIO0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_PIO0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PIO0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PIO0_SU_MSB    _u(2)
+#define ACCESSCTRL_PIO0_SU_LSB    _u(2)
+#define ACCESSCTRL_PIO0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_NSP
+// Description : If 1, PIO0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PIO0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PIO0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PIO0_NSP_MSB    _u(1)
+#define ACCESSCTRL_PIO0_NSP_LSB    _u(1)
+#define ACCESSCTRL_PIO0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO0_NSU
+// Description : If 1, and NSP is also set, PIO0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PIO0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PIO0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PIO0_NSU_MSB    _u(0)
+#define ACCESSCTRL_PIO0_NSU_LSB    _u(0)
+#define ACCESSCTRL_PIO0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PIO1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PIO1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PIO1_OFFSET _u(0x00000050)
+#define ACCESSCTRL_PIO1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PIO1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_DBG
+// Description : If 1, PIO1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PIO1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PIO1_DBG_MSB    _u(7)
+#define ACCESSCTRL_PIO1_DBG_LSB    _u(7)
+#define ACCESSCTRL_PIO1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_DMA
+// Description : If 1, PIO1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PIO1_DMA_MSB    _u(6)
+#define ACCESSCTRL_PIO1_DMA_LSB    _u(6)
+#define ACCESSCTRL_PIO1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_CORE1
+// Description : If 1, PIO1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PIO1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PIO1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PIO1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_CORE0
+// Description : If 1, PIO1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PIO1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PIO1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PIO1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_SP
+// Description : If 1, PIO1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_PIO1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PIO1_SP_MSB    _u(3)
+#define ACCESSCTRL_PIO1_SP_LSB    _u(3)
+#define ACCESSCTRL_PIO1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_SU
+// Description : If 1, and SP is also set, PIO1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_PIO1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PIO1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PIO1_SU_MSB    _u(2)
+#define ACCESSCTRL_PIO1_SU_LSB    _u(2)
+#define ACCESSCTRL_PIO1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_NSP
+// Description : If 1, PIO1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PIO1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PIO1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PIO1_NSP_MSB    _u(1)
+#define ACCESSCTRL_PIO1_NSP_LSB    _u(1)
+#define ACCESSCTRL_PIO1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO1_NSU
+// Description : If 1, and NSP is also set, PIO1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PIO1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PIO1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PIO1_NSU_MSB    _u(0)
+#define ACCESSCTRL_PIO1_NSU_LSB    _u(0)
+#define ACCESSCTRL_PIO1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PIO2
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PIO2, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PIO2_OFFSET _u(0x00000054)
+#define ACCESSCTRL_PIO2_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PIO2_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_DBG
+// Description : If 1, PIO2 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PIO2_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PIO2_DBG_MSB    _u(7)
+#define ACCESSCTRL_PIO2_DBG_LSB    _u(7)
+#define ACCESSCTRL_PIO2_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_DMA
+// Description : If 1, PIO2 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO2_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PIO2_DMA_MSB    _u(6)
+#define ACCESSCTRL_PIO2_DMA_LSB    _u(6)
+#define ACCESSCTRL_PIO2_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_CORE1
+// Description : If 1, PIO2 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO2_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PIO2_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PIO2_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PIO2_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_CORE0
+// Description : If 1, PIO2 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PIO2_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PIO2_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PIO2_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PIO2_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_SP
+// Description : If 1, PIO2 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_PIO2_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PIO2_SP_MSB    _u(3)
+#define ACCESSCTRL_PIO2_SP_LSB    _u(3)
+#define ACCESSCTRL_PIO2_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_SU
+// Description : If 1, and SP is also set, PIO2 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_PIO2_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PIO2_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PIO2_SU_MSB    _u(2)
+#define ACCESSCTRL_PIO2_SU_LSB    _u(2)
+#define ACCESSCTRL_PIO2_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_NSP
+// Description : If 1, PIO2 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PIO2_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PIO2_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PIO2_NSP_MSB    _u(1)
+#define ACCESSCTRL_PIO2_NSP_LSB    _u(1)
+#define ACCESSCTRL_PIO2_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PIO2_NSU
+// Description : If 1, and NSP is also set, PIO2 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PIO2_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PIO2_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PIO2_NSU_MSB    _u(0)
+#define ACCESSCTRL_PIO2_NSU_LSB    _u(0)
+#define ACCESSCTRL_PIO2_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_CORESIGHT_TRACE
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               CORESIGHT_TRACE, and at what security/privilege levels they can
+//               do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_CORESIGHT_TRACE_OFFSET _u(0x00000058)
+#define ACCESSCTRL_CORESIGHT_TRACE_BITS   _u(0x000000ff)
+#define ACCESSCTRL_CORESIGHT_TRACE_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_DBG
+// Description : If 1, CORESIGHT_TRACE can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_TRACE_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_TRACE_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_CORESIGHT_TRACE_DBG_MSB    _u(7)
+#define ACCESSCTRL_CORESIGHT_TRACE_DBG_LSB    _u(7)
+#define ACCESSCTRL_CORESIGHT_TRACE_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_DMA
+// Description : If 1, CORESIGHT_TRACE can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_TRACE_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_TRACE_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_CORESIGHT_TRACE_DMA_MSB    _u(6)
+#define ACCESSCTRL_CORESIGHT_TRACE_DMA_LSB    _u(6)
+#define ACCESSCTRL_CORESIGHT_TRACE_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_CORE1
+// Description : If 1, CORESIGHT_TRACE can be accessed by core 1, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE1_MSB    _u(5)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE1_LSB    _u(5)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_CORE0
+// Description : If 1, CORESIGHT_TRACE can be accessed by core 0, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE0_MSB    _u(4)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE0_LSB    _u(4)
+#define ACCESSCTRL_CORESIGHT_TRACE_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_SP
+// Description : If 1, CORESIGHT_TRACE can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_CORESIGHT_TRACE_SP_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_TRACE_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_CORESIGHT_TRACE_SP_MSB    _u(3)
+#define ACCESSCTRL_CORESIGHT_TRACE_SP_LSB    _u(3)
+#define ACCESSCTRL_CORESIGHT_TRACE_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_SU
+// Description : If 1, and SP is also set, CORESIGHT_TRACE can be accessed from
+//               a Secure, Unprivileged context.
+#define ACCESSCTRL_CORESIGHT_TRACE_SU_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_TRACE_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_CORESIGHT_TRACE_SU_MSB    _u(2)
+#define ACCESSCTRL_CORESIGHT_TRACE_SU_LSB    _u(2)
+#define ACCESSCTRL_CORESIGHT_TRACE_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_NSP
+// Description : If 1, CORESIGHT_TRACE can be accessed from a Non-secure,
+//               Privileged context.
+#define ACCESSCTRL_CORESIGHT_TRACE_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSP_MSB    _u(1)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSP_LSB    _u(1)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_TRACE_NSU
+// Description : If 1, and NSP is also set, CORESIGHT_TRACE can be accessed from
+//               a Non-secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_CORESIGHT_TRACE_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSU_MSB    _u(0)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSU_LSB    _u(0)
+#define ACCESSCTRL_CORESIGHT_TRACE_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_CORESIGHT_PERIPH
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               CORESIGHT_PERIPH, and at what security/privilege levels they
+//               can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_CORESIGHT_PERIPH_OFFSET _u(0x0000005c)
+#define ACCESSCTRL_CORESIGHT_PERIPH_BITS   _u(0x000000ff)
+#define ACCESSCTRL_CORESIGHT_PERIPH_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_DBG
+// Description : If 1, CORESIGHT_PERIPH can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_PERIPH_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DBG_MSB    _u(7)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DBG_LSB    _u(7)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_DMA
+// Description : If 1, CORESIGHT_PERIPH can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_PERIPH_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DMA_MSB    _u(6)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DMA_LSB    _u(6)
+#define ACCESSCTRL_CORESIGHT_PERIPH_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_CORE1
+// Description : If 1, CORESIGHT_PERIPH can be accessed by core 1, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE1_MSB    _u(5)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE1_LSB    _u(5)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_CORE0
+// Description : If 1, CORESIGHT_PERIPH can be accessed by core 0, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE0_MSB    _u(4)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE0_LSB    _u(4)
+#define ACCESSCTRL_CORESIGHT_PERIPH_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_SP
+// Description : If 1, CORESIGHT_PERIPH can be accessed from a Secure,
+//               Privileged context.
+#define ACCESSCTRL_CORESIGHT_PERIPH_SP_RESET  _u(0x1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SP_MSB    _u(3)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SP_LSB    _u(3)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_SU
+// Description : If 1, and SP is also set, CORESIGHT_PERIPH can be accessed from
+//               a Secure, Unprivileged context.
+#define ACCESSCTRL_CORESIGHT_PERIPH_SU_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SU_MSB    _u(2)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SU_LSB    _u(2)
+#define ACCESSCTRL_CORESIGHT_PERIPH_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_NSP
+// Description : If 1, CORESIGHT_PERIPH can be accessed from a Non-secure,
+//               Privileged context.
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSP_MSB    _u(1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSP_LSB    _u(1)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CORESIGHT_PERIPH_NSU
+// Description : If 1, and NSP is also set, CORESIGHT_PERIPH can be accessed
+//               from a Non-secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSU_MSB    _u(0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSU_LSB    _u(0)
+#define ACCESSCTRL_CORESIGHT_PERIPH_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SYSINFO
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SYSINFO, and at what security/privilege levels they can do so.
+//
+//               Defaults to fully open access.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SYSINFO_OFFSET _u(0x00000060)
+#define ACCESSCTRL_SYSINFO_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SYSINFO_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_DBG
+// Description : If 1, SYSINFO can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SYSINFO_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SYSINFO_DBG_MSB    _u(7)
+#define ACCESSCTRL_SYSINFO_DBG_LSB    _u(7)
+#define ACCESSCTRL_SYSINFO_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_DMA
+// Description : If 1, SYSINFO can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSINFO_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SYSINFO_DMA_MSB    _u(6)
+#define ACCESSCTRL_SYSINFO_DMA_LSB    _u(6)
+#define ACCESSCTRL_SYSINFO_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_CORE1
+// Description : If 1, SYSINFO can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSINFO_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SYSINFO_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SYSINFO_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SYSINFO_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_CORE0
+// Description : If 1, SYSINFO can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSINFO_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SYSINFO_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SYSINFO_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SYSINFO_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_SP
+// Description : If 1, SYSINFO can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_SYSINFO_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SYSINFO_SP_MSB    _u(3)
+#define ACCESSCTRL_SYSINFO_SP_LSB    _u(3)
+#define ACCESSCTRL_SYSINFO_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_SU
+// Description : If 1, and SP is also set, SYSINFO can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_SYSINFO_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SYSINFO_SU_MSB    _u(2)
+#define ACCESSCTRL_SYSINFO_SU_LSB    _u(2)
+#define ACCESSCTRL_SYSINFO_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_NSP
+// Description : If 1, SYSINFO can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SYSINFO_NSP_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SYSINFO_NSP_MSB    _u(1)
+#define ACCESSCTRL_SYSINFO_NSP_LSB    _u(1)
+#define ACCESSCTRL_SYSINFO_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSINFO_NSU
+// Description : If 1, and NSP is also set, SYSINFO can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SYSINFO_NSU_RESET  _u(0x1)
+#define ACCESSCTRL_SYSINFO_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SYSINFO_NSU_MSB    _u(0)
+#define ACCESSCTRL_SYSINFO_NSU_LSB    _u(0)
+#define ACCESSCTRL_SYSINFO_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_RESETS
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               RESETS, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_RESETS_OFFSET _u(0x00000064)
+#define ACCESSCTRL_RESETS_BITS   _u(0x000000ff)
+#define ACCESSCTRL_RESETS_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_DBG
+// Description : If 1, RESETS can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_RESETS_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_RESETS_DBG_MSB    _u(7)
+#define ACCESSCTRL_RESETS_DBG_LSB    _u(7)
+#define ACCESSCTRL_RESETS_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_DMA
+// Description : If 1, RESETS can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RESETS_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_RESETS_DMA_MSB    _u(6)
+#define ACCESSCTRL_RESETS_DMA_LSB    _u(6)
+#define ACCESSCTRL_RESETS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_CORE1
+// Description : If 1, RESETS can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RESETS_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_RESETS_CORE1_MSB    _u(5)
+#define ACCESSCTRL_RESETS_CORE1_LSB    _u(5)
+#define ACCESSCTRL_RESETS_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_CORE0
+// Description : If 1, RESETS can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RESETS_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_RESETS_CORE0_MSB    _u(4)
+#define ACCESSCTRL_RESETS_CORE0_LSB    _u(4)
+#define ACCESSCTRL_RESETS_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_SP
+// Description : If 1, RESETS can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_RESETS_SP_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_RESETS_SP_MSB    _u(3)
+#define ACCESSCTRL_RESETS_SP_LSB    _u(3)
+#define ACCESSCTRL_RESETS_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_SU
+// Description : If 1, and SP is also set, RESETS can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_RESETS_SU_RESET  _u(0x1)
+#define ACCESSCTRL_RESETS_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_RESETS_SU_MSB    _u(2)
+#define ACCESSCTRL_RESETS_SU_LSB    _u(2)
+#define ACCESSCTRL_RESETS_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_NSP
+// Description : If 1, RESETS can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_RESETS_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_RESETS_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_RESETS_NSP_MSB    _u(1)
+#define ACCESSCTRL_RESETS_NSP_LSB    _u(1)
+#define ACCESSCTRL_RESETS_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RESETS_NSU
+// Description : If 1, and NSP is also set, RESETS can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_RESETS_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_RESETS_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_RESETS_NSU_MSB    _u(0)
+#define ACCESSCTRL_RESETS_NSU_LSB    _u(0)
+#define ACCESSCTRL_RESETS_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_IO_BANK0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               IO_BANK0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_IO_BANK0_OFFSET _u(0x00000068)
+#define ACCESSCTRL_IO_BANK0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_IO_BANK0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_DBG
+// Description : If 1, IO_BANK0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_IO_BANK0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_IO_BANK0_DBG_MSB    _u(7)
+#define ACCESSCTRL_IO_BANK0_DBG_LSB    _u(7)
+#define ACCESSCTRL_IO_BANK0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_DMA
+// Description : If 1, IO_BANK0 can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_IO_BANK0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_IO_BANK0_DMA_MSB    _u(6)
+#define ACCESSCTRL_IO_BANK0_DMA_LSB    _u(6)
+#define ACCESSCTRL_IO_BANK0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_CORE1
+// Description : If 1, IO_BANK0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_IO_BANK0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_IO_BANK0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_IO_BANK0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_IO_BANK0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_CORE0
+// Description : If 1, IO_BANK0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_IO_BANK0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_IO_BANK0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_IO_BANK0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_IO_BANK0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_SP
+// Description : If 1, IO_BANK0 can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_IO_BANK0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_IO_BANK0_SP_MSB    _u(3)
+#define ACCESSCTRL_IO_BANK0_SP_LSB    _u(3)
+#define ACCESSCTRL_IO_BANK0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_SU
+// Description : If 1, and SP is also set, IO_BANK0 can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_IO_BANK0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_IO_BANK0_SU_MSB    _u(2)
+#define ACCESSCTRL_IO_BANK0_SU_LSB    _u(2)
+#define ACCESSCTRL_IO_BANK0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_NSP
+// Description : If 1, IO_BANK0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_IO_BANK0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_IO_BANK0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_IO_BANK0_NSP_MSB    _u(1)
+#define ACCESSCTRL_IO_BANK0_NSP_LSB    _u(1)
+#define ACCESSCTRL_IO_BANK0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK0_NSU
+// Description : If 1, and NSP is also set, IO_BANK0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_IO_BANK0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_IO_BANK0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_IO_BANK0_NSU_MSB    _u(0)
+#define ACCESSCTRL_IO_BANK0_NSU_LSB    _u(0)
+#define ACCESSCTRL_IO_BANK0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_IO_BANK1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               IO_BANK1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_IO_BANK1_OFFSET _u(0x0000006c)
+#define ACCESSCTRL_IO_BANK1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_IO_BANK1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_DBG
+// Description : If 1, IO_BANK1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_IO_BANK1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_IO_BANK1_DBG_MSB    _u(7)
+#define ACCESSCTRL_IO_BANK1_DBG_LSB    _u(7)
+#define ACCESSCTRL_IO_BANK1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_DMA
+// Description : If 1, IO_BANK1 can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_IO_BANK1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_IO_BANK1_DMA_MSB    _u(6)
+#define ACCESSCTRL_IO_BANK1_DMA_LSB    _u(6)
+#define ACCESSCTRL_IO_BANK1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_CORE1
+// Description : If 1, IO_BANK1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_IO_BANK1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_IO_BANK1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_IO_BANK1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_IO_BANK1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_CORE0
+// Description : If 1, IO_BANK1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_IO_BANK1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_IO_BANK1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_IO_BANK1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_IO_BANK1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_SP
+// Description : If 1, IO_BANK1 can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_IO_BANK1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_IO_BANK1_SP_MSB    _u(3)
+#define ACCESSCTRL_IO_BANK1_SP_LSB    _u(3)
+#define ACCESSCTRL_IO_BANK1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_SU
+// Description : If 1, and SP is also set, IO_BANK1 can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_IO_BANK1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_IO_BANK1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_IO_BANK1_SU_MSB    _u(2)
+#define ACCESSCTRL_IO_BANK1_SU_LSB    _u(2)
+#define ACCESSCTRL_IO_BANK1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_NSP
+// Description : If 1, IO_BANK1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_IO_BANK1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_IO_BANK1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_IO_BANK1_NSP_MSB    _u(1)
+#define ACCESSCTRL_IO_BANK1_NSP_LSB    _u(1)
+#define ACCESSCTRL_IO_BANK1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_IO_BANK1_NSU
+// Description : If 1, and NSP is also set, IO_BANK1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_IO_BANK1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_IO_BANK1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_IO_BANK1_NSU_MSB    _u(0)
+#define ACCESSCTRL_IO_BANK1_NSU_LSB    _u(0)
+#define ACCESSCTRL_IO_BANK1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PADS_BANK0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PADS_BANK0, and at what security/privilege levels they can do
+//               so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PADS_BANK0_OFFSET _u(0x00000070)
+#define ACCESSCTRL_PADS_BANK0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PADS_BANK0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_DBG
+// Description : If 1, PADS_BANK0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_BANK0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PADS_BANK0_DBG_MSB    _u(7)
+#define ACCESSCTRL_PADS_BANK0_DBG_LSB    _u(7)
+#define ACCESSCTRL_PADS_BANK0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_DMA
+// Description : If 1, PADS_BANK0 can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_BANK0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PADS_BANK0_DMA_MSB    _u(6)
+#define ACCESSCTRL_PADS_BANK0_DMA_LSB    _u(6)
+#define ACCESSCTRL_PADS_BANK0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_CORE1
+// Description : If 1, PADS_BANK0 can be accessed by core 1, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_BANK0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PADS_BANK0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PADS_BANK0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PADS_BANK0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_CORE0
+// Description : If 1, PADS_BANK0 can be accessed by core 0, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_BANK0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PADS_BANK0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PADS_BANK0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PADS_BANK0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_SP
+// Description : If 1, PADS_BANK0 can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_PADS_BANK0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PADS_BANK0_SP_MSB    _u(3)
+#define ACCESSCTRL_PADS_BANK0_SP_LSB    _u(3)
+#define ACCESSCTRL_PADS_BANK0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_SU
+// Description : If 1, and SP is also set, PADS_BANK0 can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_PADS_BANK0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_BANK0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PADS_BANK0_SU_MSB    _u(2)
+#define ACCESSCTRL_PADS_BANK0_SU_LSB    _u(2)
+#define ACCESSCTRL_PADS_BANK0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_NSP
+// Description : If 1, PADS_BANK0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PADS_BANK0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PADS_BANK0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PADS_BANK0_NSP_MSB    _u(1)
+#define ACCESSCTRL_PADS_BANK0_NSP_LSB    _u(1)
+#define ACCESSCTRL_PADS_BANK0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_BANK0_NSU
+// Description : If 1, and NSP is also set, PADS_BANK0 can be accessed from a
+//               Non-secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PADS_BANK0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PADS_BANK0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PADS_BANK0_NSU_MSB    _u(0)
+#define ACCESSCTRL_PADS_BANK0_NSU_LSB    _u(0)
+#define ACCESSCTRL_PADS_BANK0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PADS_QSPI
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PADS_QSPI, and at what security/privilege levels they can do
+//               so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PADS_QSPI_OFFSET _u(0x00000074)
+#define ACCESSCTRL_PADS_QSPI_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PADS_QSPI_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_DBG
+// Description : If 1, PADS_QSPI can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_QSPI_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PADS_QSPI_DBG_MSB    _u(7)
+#define ACCESSCTRL_PADS_QSPI_DBG_LSB    _u(7)
+#define ACCESSCTRL_PADS_QSPI_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_DMA
+// Description : If 1, PADS_QSPI can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_QSPI_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PADS_QSPI_DMA_MSB    _u(6)
+#define ACCESSCTRL_PADS_QSPI_DMA_LSB    _u(6)
+#define ACCESSCTRL_PADS_QSPI_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_CORE1
+// Description : If 1, PADS_QSPI can be accessed by core 1, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_QSPI_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PADS_QSPI_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PADS_QSPI_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PADS_QSPI_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_CORE0
+// Description : If 1, PADS_QSPI can be accessed by core 0, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PADS_QSPI_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PADS_QSPI_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PADS_QSPI_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PADS_QSPI_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_SP
+// Description : If 1, PADS_QSPI can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_PADS_QSPI_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PADS_QSPI_SP_MSB    _u(3)
+#define ACCESSCTRL_PADS_QSPI_SP_LSB    _u(3)
+#define ACCESSCTRL_PADS_QSPI_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_SU
+// Description : If 1, and SP is also set, PADS_QSPI can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_PADS_QSPI_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PADS_QSPI_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PADS_QSPI_SU_MSB    _u(2)
+#define ACCESSCTRL_PADS_QSPI_SU_LSB    _u(2)
+#define ACCESSCTRL_PADS_QSPI_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_NSP
+// Description : If 1, PADS_QSPI can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PADS_QSPI_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PADS_QSPI_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PADS_QSPI_NSP_MSB    _u(1)
+#define ACCESSCTRL_PADS_QSPI_NSP_LSB    _u(1)
+#define ACCESSCTRL_PADS_QSPI_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PADS_QSPI_NSU
+// Description : If 1, and NSP is also set, PADS_QSPI can be accessed from a
+//               Non-secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PADS_QSPI_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PADS_QSPI_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PADS_QSPI_NSU_MSB    _u(0)
+#define ACCESSCTRL_PADS_QSPI_NSU_LSB    _u(0)
+#define ACCESSCTRL_PADS_QSPI_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_BUSCTRL
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               BUSCTRL, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_BUSCTRL_OFFSET _u(0x00000078)
+#define ACCESSCTRL_BUSCTRL_BITS   _u(0x000000ff)
+#define ACCESSCTRL_BUSCTRL_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_DBG
+// Description : If 1, BUSCTRL can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_BUSCTRL_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_BUSCTRL_DBG_MSB    _u(7)
+#define ACCESSCTRL_BUSCTRL_DBG_LSB    _u(7)
+#define ACCESSCTRL_BUSCTRL_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_DMA
+// Description : If 1, BUSCTRL can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_BUSCTRL_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_BUSCTRL_DMA_MSB    _u(6)
+#define ACCESSCTRL_BUSCTRL_DMA_LSB    _u(6)
+#define ACCESSCTRL_BUSCTRL_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_CORE1
+// Description : If 1, BUSCTRL can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_BUSCTRL_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_BUSCTRL_CORE1_MSB    _u(5)
+#define ACCESSCTRL_BUSCTRL_CORE1_LSB    _u(5)
+#define ACCESSCTRL_BUSCTRL_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_CORE0
+// Description : If 1, BUSCTRL can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_BUSCTRL_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_BUSCTRL_CORE0_MSB    _u(4)
+#define ACCESSCTRL_BUSCTRL_CORE0_LSB    _u(4)
+#define ACCESSCTRL_BUSCTRL_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_SP
+// Description : If 1, BUSCTRL can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_BUSCTRL_SP_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_BUSCTRL_SP_MSB    _u(3)
+#define ACCESSCTRL_BUSCTRL_SP_LSB    _u(3)
+#define ACCESSCTRL_BUSCTRL_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_SU
+// Description : If 1, and SP is also set, BUSCTRL can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_BUSCTRL_SU_RESET  _u(0x1)
+#define ACCESSCTRL_BUSCTRL_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_BUSCTRL_SU_MSB    _u(2)
+#define ACCESSCTRL_BUSCTRL_SU_LSB    _u(2)
+#define ACCESSCTRL_BUSCTRL_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_NSP
+// Description : If 1, BUSCTRL can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_BUSCTRL_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_BUSCTRL_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_BUSCTRL_NSP_MSB    _u(1)
+#define ACCESSCTRL_BUSCTRL_NSP_LSB    _u(1)
+#define ACCESSCTRL_BUSCTRL_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_BUSCTRL_NSU
+// Description : If 1, and NSP is also set, BUSCTRL can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_BUSCTRL_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_BUSCTRL_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_BUSCTRL_NSU_MSB    _u(0)
+#define ACCESSCTRL_BUSCTRL_NSU_LSB    _u(0)
+#define ACCESSCTRL_BUSCTRL_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_ADC0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               ADC0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_ADC0_OFFSET _u(0x0000007c)
+#define ACCESSCTRL_ADC0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_ADC0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_DBG
+// Description : If 1, ADC0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_ADC0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_ADC0_DBG_MSB    _u(7)
+#define ACCESSCTRL_ADC0_DBG_LSB    _u(7)
+#define ACCESSCTRL_ADC0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_DMA
+// Description : If 1, ADC0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ADC0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_ADC0_DMA_MSB    _u(6)
+#define ACCESSCTRL_ADC0_DMA_LSB    _u(6)
+#define ACCESSCTRL_ADC0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_CORE1
+// Description : If 1, ADC0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ADC0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_ADC0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_ADC0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_ADC0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_CORE0
+// Description : If 1, ADC0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ADC0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_ADC0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_ADC0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_ADC0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_SP
+// Description : If 1, ADC0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_ADC0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_ADC0_SP_MSB    _u(3)
+#define ACCESSCTRL_ADC0_SP_LSB    _u(3)
+#define ACCESSCTRL_ADC0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_SU
+// Description : If 1, and SP is also set, ADC0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_ADC0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_ADC0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_ADC0_SU_MSB    _u(2)
+#define ACCESSCTRL_ADC0_SU_LSB    _u(2)
+#define ACCESSCTRL_ADC0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_NSP
+// Description : If 1, ADC0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_ADC0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_ADC0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_ADC0_NSP_MSB    _u(1)
+#define ACCESSCTRL_ADC0_NSP_LSB    _u(1)
+#define ACCESSCTRL_ADC0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ADC0_NSU
+// Description : If 1, and NSP is also set, ADC0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_ADC0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_ADC0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_ADC0_NSU_MSB    _u(0)
+#define ACCESSCTRL_ADC0_NSU_LSB    _u(0)
+#define ACCESSCTRL_ADC0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_HSTX
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               HSTX, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_HSTX_OFFSET _u(0x00000080)
+#define ACCESSCTRL_HSTX_BITS   _u(0x000000ff)
+#define ACCESSCTRL_HSTX_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_DBG
+// Description : If 1, HSTX can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_HSTX_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_HSTX_DBG_MSB    _u(7)
+#define ACCESSCTRL_HSTX_DBG_LSB    _u(7)
+#define ACCESSCTRL_HSTX_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_DMA
+// Description : If 1, HSTX can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_HSTX_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_HSTX_DMA_MSB    _u(6)
+#define ACCESSCTRL_HSTX_DMA_LSB    _u(6)
+#define ACCESSCTRL_HSTX_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_CORE1
+// Description : If 1, HSTX can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_HSTX_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_HSTX_CORE1_MSB    _u(5)
+#define ACCESSCTRL_HSTX_CORE1_LSB    _u(5)
+#define ACCESSCTRL_HSTX_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_CORE0
+// Description : If 1, HSTX can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_HSTX_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_HSTX_CORE0_MSB    _u(4)
+#define ACCESSCTRL_HSTX_CORE0_LSB    _u(4)
+#define ACCESSCTRL_HSTX_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_SP
+// Description : If 1, HSTX can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_HSTX_SP_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_HSTX_SP_MSB    _u(3)
+#define ACCESSCTRL_HSTX_SP_LSB    _u(3)
+#define ACCESSCTRL_HSTX_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_SU
+// Description : If 1, and SP is also set, HSTX can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_HSTX_SU_RESET  _u(0x1)
+#define ACCESSCTRL_HSTX_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_HSTX_SU_MSB    _u(2)
+#define ACCESSCTRL_HSTX_SU_LSB    _u(2)
+#define ACCESSCTRL_HSTX_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_NSP
+// Description : If 1, HSTX can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_HSTX_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_HSTX_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_HSTX_NSP_MSB    _u(1)
+#define ACCESSCTRL_HSTX_NSP_LSB    _u(1)
+#define ACCESSCTRL_HSTX_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_HSTX_NSU
+// Description : If 1, and NSP is also set, HSTX can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_HSTX_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_HSTX_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_HSTX_NSU_MSB    _u(0)
+#define ACCESSCTRL_HSTX_NSU_LSB    _u(0)
+#define ACCESSCTRL_HSTX_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_I2C0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               I2C0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_I2C0_OFFSET _u(0x00000084)
+#define ACCESSCTRL_I2C0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_I2C0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_DBG
+// Description : If 1, I2C0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_I2C0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_I2C0_DBG_MSB    _u(7)
+#define ACCESSCTRL_I2C0_DBG_LSB    _u(7)
+#define ACCESSCTRL_I2C0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_DMA
+// Description : If 1, I2C0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_I2C0_DMA_MSB    _u(6)
+#define ACCESSCTRL_I2C0_DMA_LSB    _u(6)
+#define ACCESSCTRL_I2C0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_CORE1
+// Description : If 1, I2C0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_I2C0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_I2C0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_I2C0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_CORE0
+// Description : If 1, I2C0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_I2C0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_I2C0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_I2C0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_SP
+// Description : If 1, I2C0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_I2C0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_I2C0_SP_MSB    _u(3)
+#define ACCESSCTRL_I2C0_SP_LSB    _u(3)
+#define ACCESSCTRL_I2C0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_SU
+// Description : If 1, and SP is also set, I2C0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_I2C0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_I2C0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_I2C0_SU_MSB    _u(2)
+#define ACCESSCTRL_I2C0_SU_LSB    _u(2)
+#define ACCESSCTRL_I2C0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_NSP
+// Description : If 1, I2C0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_I2C0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_I2C0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_I2C0_NSP_MSB    _u(1)
+#define ACCESSCTRL_I2C0_NSP_LSB    _u(1)
+#define ACCESSCTRL_I2C0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C0_NSU
+// Description : If 1, and NSP is also set, I2C0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_I2C0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_I2C0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_I2C0_NSU_MSB    _u(0)
+#define ACCESSCTRL_I2C0_NSU_LSB    _u(0)
+#define ACCESSCTRL_I2C0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_I2C1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               I2C1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_I2C1_OFFSET _u(0x00000088)
+#define ACCESSCTRL_I2C1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_I2C1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_DBG
+// Description : If 1, I2C1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_I2C1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_I2C1_DBG_MSB    _u(7)
+#define ACCESSCTRL_I2C1_DBG_LSB    _u(7)
+#define ACCESSCTRL_I2C1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_DMA
+// Description : If 1, I2C1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_I2C1_DMA_MSB    _u(6)
+#define ACCESSCTRL_I2C1_DMA_LSB    _u(6)
+#define ACCESSCTRL_I2C1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_CORE1
+// Description : If 1, I2C1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_I2C1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_I2C1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_I2C1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_CORE0
+// Description : If 1, I2C1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_I2C1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_I2C1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_I2C1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_I2C1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_SP
+// Description : If 1, I2C1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_I2C1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_I2C1_SP_MSB    _u(3)
+#define ACCESSCTRL_I2C1_SP_LSB    _u(3)
+#define ACCESSCTRL_I2C1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_SU
+// Description : If 1, and SP is also set, I2C1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_I2C1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_I2C1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_I2C1_SU_MSB    _u(2)
+#define ACCESSCTRL_I2C1_SU_LSB    _u(2)
+#define ACCESSCTRL_I2C1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_NSP
+// Description : If 1, I2C1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_I2C1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_I2C1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_I2C1_NSP_MSB    _u(1)
+#define ACCESSCTRL_I2C1_NSP_LSB    _u(1)
+#define ACCESSCTRL_I2C1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_I2C1_NSU
+// Description : If 1, and NSP is also set, I2C1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_I2C1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_I2C1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_I2C1_NSU_MSB    _u(0)
+#define ACCESSCTRL_I2C1_NSU_LSB    _u(0)
+#define ACCESSCTRL_I2C1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PWM
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PWM, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PWM_OFFSET _u(0x0000008c)
+#define ACCESSCTRL_PWM_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PWM_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_DBG
+// Description : If 1, PWM can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PWM_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PWM_DBG_MSB    _u(7)
+#define ACCESSCTRL_PWM_DBG_LSB    _u(7)
+#define ACCESSCTRL_PWM_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_DMA
+// Description : If 1, PWM can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PWM_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PWM_DMA_MSB    _u(6)
+#define ACCESSCTRL_PWM_DMA_LSB    _u(6)
+#define ACCESSCTRL_PWM_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_CORE1
+// Description : If 1, PWM can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PWM_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PWM_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PWM_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PWM_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_CORE0
+// Description : If 1, PWM can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PWM_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PWM_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PWM_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PWM_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_SP
+// Description : If 1, PWM can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_PWM_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PWM_SP_MSB    _u(3)
+#define ACCESSCTRL_PWM_SP_LSB    _u(3)
+#define ACCESSCTRL_PWM_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_SU
+// Description : If 1, and SP is also set, PWM can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_PWM_SU_RESET  _u(0x1)
+#define ACCESSCTRL_PWM_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PWM_SU_MSB    _u(2)
+#define ACCESSCTRL_PWM_SU_LSB    _u(2)
+#define ACCESSCTRL_PWM_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_NSP
+// Description : If 1, PWM can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PWM_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PWM_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PWM_NSP_MSB    _u(1)
+#define ACCESSCTRL_PWM_NSP_LSB    _u(1)
+#define ACCESSCTRL_PWM_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PWM_NSU
+// Description : If 1, and NSP is also set, PWM can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PWM_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PWM_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PWM_NSU_MSB    _u(0)
+#define ACCESSCTRL_PWM_NSU_LSB    _u(0)
+#define ACCESSCTRL_PWM_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SPI0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SPI0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SPI0_OFFSET _u(0x00000090)
+#define ACCESSCTRL_SPI0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SPI0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_DBG
+// Description : If 1, SPI0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SPI0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SPI0_DBG_MSB    _u(7)
+#define ACCESSCTRL_SPI0_DBG_LSB    _u(7)
+#define ACCESSCTRL_SPI0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_DMA
+// Description : If 1, SPI0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SPI0_DMA_MSB    _u(6)
+#define ACCESSCTRL_SPI0_DMA_LSB    _u(6)
+#define ACCESSCTRL_SPI0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_CORE1
+// Description : If 1, SPI0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SPI0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SPI0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SPI0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_CORE0
+// Description : If 1, SPI0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SPI0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SPI0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SPI0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_SP
+// Description : If 1, SPI0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SPI0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SPI0_SP_MSB    _u(3)
+#define ACCESSCTRL_SPI0_SP_LSB    _u(3)
+#define ACCESSCTRL_SPI0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_SU
+// Description : If 1, and SP is also set, SPI0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SPI0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SPI0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SPI0_SU_MSB    _u(2)
+#define ACCESSCTRL_SPI0_SU_LSB    _u(2)
+#define ACCESSCTRL_SPI0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_NSP
+// Description : If 1, SPI0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SPI0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_SPI0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SPI0_NSP_MSB    _u(1)
+#define ACCESSCTRL_SPI0_NSP_LSB    _u(1)
+#define ACCESSCTRL_SPI0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI0_NSU
+// Description : If 1, and NSP is also set, SPI0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SPI0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_SPI0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SPI0_NSU_MSB    _u(0)
+#define ACCESSCTRL_SPI0_NSU_LSB    _u(0)
+#define ACCESSCTRL_SPI0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SPI1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SPI1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SPI1_OFFSET _u(0x00000094)
+#define ACCESSCTRL_SPI1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SPI1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_DBG
+// Description : If 1, SPI1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SPI1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SPI1_DBG_MSB    _u(7)
+#define ACCESSCTRL_SPI1_DBG_LSB    _u(7)
+#define ACCESSCTRL_SPI1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_DMA
+// Description : If 1, SPI1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SPI1_DMA_MSB    _u(6)
+#define ACCESSCTRL_SPI1_DMA_LSB    _u(6)
+#define ACCESSCTRL_SPI1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_CORE1
+// Description : If 1, SPI1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SPI1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SPI1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SPI1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_CORE0
+// Description : If 1, SPI1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SPI1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SPI1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SPI1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SPI1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_SP
+// Description : If 1, SPI1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SPI1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SPI1_SP_MSB    _u(3)
+#define ACCESSCTRL_SPI1_SP_LSB    _u(3)
+#define ACCESSCTRL_SPI1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_SU
+// Description : If 1, and SP is also set, SPI1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SPI1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_SPI1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SPI1_SU_MSB    _u(2)
+#define ACCESSCTRL_SPI1_SU_LSB    _u(2)
+#define ACCESSCTRL_SPI1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_NSP
+// Description : If 1, SPI1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SPI1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_SPI1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SPI1_NSP_MSB    _u(1)
+#define ACCESSCTRL_SPI1_NSP_LSB    _u(1)
+#define ACCESSCTRL_SPI1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SPI1_NSU
+// Description : If 1, and NSP is also set, SPI1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SPI1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_SPI1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SPI1_NSU_MSB    _u(0)
+#define ACCESSCTRL_SPI1_NSU_LSB    _u(0)
+#define ACCESSCTRL_SPI1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_TIMER0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               TIMER0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_TIMER0_OFFSET _u(0x00000098)
+#define ACCESSCTRL_TIMER0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_TIMER0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_DBG
+// Description : If 1, TIMER0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_TIMER0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_TIMER0_DBG_MSB    _u(7)
+#define ACCESSCTRL_TIMER0_DBG_LSB    _u(7)
+#define ACCESSCTRL_TIMER0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_DMA
+// Description : If 1, TIMER0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_TIMER0_DMA_MSB    _u(6)
+#define ACCESSCTRL_TIMER0_DMA_LSB    _u(6)
+#define ACCESSCTRL_TIMER0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_CORE1
+// Description : If 1, TIMER0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_TIMER0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_TIMER0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_TIMER0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_CORE0
+// Description : If 1, TIMER0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_TIMER0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_TIMER0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_TIMER0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_SP
+// Description : If 1, TIMER0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_TIMER0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_TIMER0_SP_MSB    _u(3)
+#define ACCESSCTRL_TIMER0_SP_LSB    _u(3)
+#define ACCESSCTRL_TIMER0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_SU
+// Description : If 1, and SP is also set, TIMER0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_TIMER0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_TIMER0_SU_MSB    _u(2)
+#define ACCESSCTRL_TIMER0_SU_LSB    _u(2)
+#define ACCESSCTRL_TIMER0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_NSP
+// Description : If 1, TIMER0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_TIMER0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_TIMER0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_TIMER0_NSP_MSB    _u(1)
+#define ACCESSCTRL_TIMER0_NSP_LSB    _u(1)
+#define ACCESSCTRL_TIMER0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER0_NSU
+// Description : If 1, and NSP is also set, TIMER0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_TIMER0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_TIMER0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_TIMER0_NSU_MSB    _u(0)
+#define ACCESSCTRL_TIMER0_NSU_LSB    _u(0)
+#define ACCESSCTRL_TIMER0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_TIMER1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               TIMER1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_TIMER1_OFFSET _u(0x0000009c)
+#define ACCESSCTRL_TIMER1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_TIMER1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_DBG
+// Description : If 1, TIMER1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_TIMER1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_TIMER1_DBG_MSB    _u(7)
+#define ACCESSCTRL_TIMER1_DBG_LSB    _u(7)
+#define ACCESSCTRL_TIMER1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_DMA
+// Description : If 1, TIMER1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_TIMER1_DMA_MSB    _u(6)
+#define ACCESSCTRL_TIMER1_DMA_LSB    _u(6)
+#define ACCESSCTRL_TIMER1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_CORE1
+// Description : If 1, TIMER1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_TIMER1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_TIMER1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_TIMER1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_CORE0
+// Description : If 1, TIMER1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TIMER1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_TIMER1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_TIMER1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_TIMER1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_SP
+// Description : If 1, TIMER1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_TIMER1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_TIMER1_SP_MSB    _u(3)
+#define ACCESSCTRL_TIMER1_SP_LSB    _u(3)
+#define ACCESSCTRL_TIMER1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_SU
+// Description : If 1, and SP is also set, TIMER1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_TIMER1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_TIMER1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_TIMER1_SU_MSB    _u(2)
+#define ACCESSCTRL_TIMER1_SU_LSB    _u(2)
+#define ACCESSCTRL_TIMER1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_NSP
+// Description : If 1, TIMER1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_TIMER1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_TIMER1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_TIMER1_NSP_MSB    _u(1)
+#define ACCESSCTRL_TIMER1_NSP_LSB    _u(1)
+#define ACCESSCTRL_TIMER1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TIMER1_NSU
+// Description : If 1, and NSP is also set, TIMER1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_TIMER1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_TIMER1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_TIMER1_NSU_MSB    _u(0)
+#define ACCESSCTRL_TIMER1_NSU_LSB    _u(0)
+#define ACCESSCTRL_TIMER1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_UART0
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               UART0, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_UART0_OFFSET _u(0x000000a0)
+#define ACCESSCTRL_UART0_BITS   _u(0x000000ff)
+#define ACCESSCTRL_UART0_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_DBG
+// Description : If 1, UART0 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_UART0_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_UART0_DBG_MSB    _u(7)
+#define ACCESSCTRL_UART0_DBG_LSB    _u(7)
+#define ACCESSCTRL_UART0_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_DMA
+// Description : If 1, UART0 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART0_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_UART0_DMA_MSB    _u(6)
+#define ACCESSCTRL_UART0_DMA_LSB    _u(6)
+#define ACCESSCTRL_UART0_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_CORE1
+// Description : If 1, UART0 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART0_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_UART0_CORE1_MSB    _u(5)
+#define ACCESSCTRL_UART0_CORE1_LSB    _u(5)
+#define ACCESSCTRL_UART0_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_CORE0
+// Description : If 1, UART0 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART0_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_UART0_CORE0_MSB    _u(4)
+#define ACCESSCTRL_UART0_CORE0_LSB    _u(4)
+#define ACCESSCTRL_UART0_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_SP
+// Description : If 1, UART0 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_UART0_SP_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_UART0_SP_MSB    _u(3)
+#define ACCESSCTRL_UART0_SP_LSB    _u(3)
+#define ACCESSCTRL_UART0_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_SU
+// Description : If 1, and SP is also set, UART0 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_UART0_SU_RESET  _u(0x1)
+#define ACCESSCTRL_UART0_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_UART0_SU_MSB    _u(2)
+#define ACCESSCTRL_UART0_SU_LSB    _u(2)
+#define ACCESSCTRL_UART0_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_NSP
+// Description : If 1, UART0 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_UART0_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_UART0_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_UART0_NSP_MSB    _u(1)
+#define ACCESSCTRL_UART0_NSP_LSB    _u(1)
+#define ACCESSCTRL_UART0_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART0_NSU
+// Description : If 1, and NSP is also set, UART0 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_UART0_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_UART0_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_UART0_NSU_MSB    _u(0)
+#define ACCESSCTRL_UART0_NSU_LSB    _u(0)
+#define ACCESSCTRL_UART0_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_UART1
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               UART1, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_UART1_OFFSET _u(0x000000a4)
+#define ACCESSCTRL_UART1_BITS   _u(0x000000ff)
+#define ACCESSCTRL_UART1_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_DBG
+// Description : If 1, UART1 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_UART1_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_UART1_DBG_MSB    _u(7)
+#define ACCESSCTRL_UART1_DBG_LSB    _u(7)
+#define ACCESSCTRL_UART1_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_DMA
+// Description : If 1, UART1 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART1_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_UART1_DMA_MSB    _u(6)
+#define ACCESSCTRL_UART1_DMA_LSB    _u(6)
+#define ACCESSCTRL_UART1_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_CORE1
+// Description : If 1, UART1 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART1_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_UART1_CORE1_MSB    _u(5)
+#define ACCESSCTRL_UART1_CORE1_LSB    _u(5)
+#define ACCESSCTRL_UART1_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_CORE0
+// Description : If 1, UART1 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_UART1_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_UART1_CORE0_MSB    _u(4)
+#define ACCESSCTRL_UART1_CORE0_LSB    _u(4)
+#define ACCESSCTRL_UART1_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_SP
+// Description : If 1, UART1 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_UART1_SP_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_UART1_SP_MSB    _u(3)
+#define ACCESSCTRL_UART1_SP_LSB    _u(3)
+#define ACCESSCTRL_UART1_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_SU
+// Description : If 1, and SP is also set, UART1 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_UART1_SU_RESET  _u(0x1)
+#define ACCESSCTRL_UART1_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_UART1_SU_MSB    _u(2)
+#define ACCESSCTRL_UART1_SU_LSB    _u(2)
+#define ACCESSCTRL_UART1_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_NSP
+// Description : If 1, UART1 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_UART1_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_UART1_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_UART1_NSP_MSB    _u(1)
+#define ACCESSCTRL_UART1_NSP_LSB    _u(1)
+#define ACCESSCTRL_UART1_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_UART1_NSU
+// Description : If 1, and NSP is also set, UART1 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_UART1_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_UART1_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_UART1_NSU_MSB    _u(0)
+#define ACCESSCTRL_UART1_NSU_LSB    _u(0)
+#define ACCESSCTRL_UART1_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_OTP
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               OTP, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_OTP_OFFSET _u(0x000000a8)
+#define ACCESSCTRL_OTP_BITS   _u(0x000000ff)
+#define ACCESSCTRL_OTP_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_DBG
+// Description : If 1, OTP can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_OTP_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_OTP_DBG_MSB    _u(7)
+#define ACCESSCTRL_OTP_DBG_LSB    _u(7)
+#define ACCESSCTRL_OTP_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_DMA
+// Description : If 1, OTP can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_OTP_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_OTP_DMA_MSB    _u(6)
+#define ACCESSCTRL_OTP_DMA_LSB    _u(6)
+#define ACCESSCTRL_OTP_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_CORE1
+// Description : If 1, OTP can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_OTP_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_OTP_CORE1_MSB    _u(5)
+#define ACCESSCTRL_OTP_CORE1_LSB    _u(5)
+#define ACCESSCTRL_OTP_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_CORE0
+// Description : If 1, OTP can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_OTP_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_OTP_CORE0_MSB    _u(4)
+#define ACCESSCTRL_OTP_CORE0_LSB    _u(4)
+#define ACCESSCTRL_OTP_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_SP
+// Description : If 1, OTP can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_OTP_SP_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_OTP_SP_MSB    _u(3)
+#define ACCESSCTRL_OTP_SP_LSB    _u(3)
+#define ACCESSCTRL_OTP_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_SU
+// Description : If 1, and SP is also set, OTP can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_OTP_SU_RESET  _u(0x1)
+#define ACCESSCTRL_OTP_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_OTP_SU_MSB    _u(2)
+#define ACCESSCTRL_OTP_SU_LSB    _u(2)
+#define ACCESSCTRL_OTP_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_NSP
+// Description : If 1, OTP can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_OTP_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_OTP_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_OTP_NSP_MSB    _u(1)
+#define ACCESSCTRL_OTP_NSP_LSB    _u(1)
+#define ACCESSCTRL_OTP_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_OTP_NSU
+// Description : If 1, and NSP is also set, OTP can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_OTP_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_OTP_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_OTP_NSU_MSB    _u(0)
+#define ACCESSCTRL_OTP_NSU_LSB    _u(0)
+#define ACCESSCTRL_OTP_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_TBMAN
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               TBMAN, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure access from any master.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_TBMAN_OFFSET _u(0x000000ac)
+#define ACCESSCTRL_TBMAN_BITS   _u(0x000000ff)
+#define ACCESSCTRL_TBMAN_RESET  _u(0x000000fc)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_DBG
+// Description : If 1, TBMAN can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_TBMAN_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_TBMAN_DBG_MSB    _u(7)
+#define ACCESSCTRL_TBMAN_DBG_LSB    _u(7)
+#define ACCESSCTRL_TBMAN_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_DMA
+// Description : If 1, TBMAN can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TBMAN_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_TBMAN_DMA_MSB    _u(6)
+#define ACCESSCTRL_TBMAN_DMA_LSB    _u(6)
+#define ACCESSCTRL_TBMAN_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_CORE1
+// Description : If 1, TBMAN can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TBMAN_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_TBMAN_CORE1_MSB    _u(5)
+#define ACCESSCTRL_TBMAN_CORE1_LSB    _u(5)
+#define ACCESSCTRL_TBMAN_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_CORE0
+// Description : If 1, TBMAN can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TBMAN_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_TBMAN_CORE0_MSB    _u(4)
+#define ACCESSCTRL_TBMAN_CORE0_LSB    _u(4)
+#define ACCESSCTRL_TBMAN_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_SP
+// Description : If 1, TBMAN can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_TBMAN_SP_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_TBMAN_SP_MSB    _u(3)
+#define ACCESSCTRL_TBMAN_SP_LSB    _u(3)
+#define ACCESSCTRL_TBMAN_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_SU
+// Description : If 1, and SP is also set, TBMAN can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_TBMAN_SU_RESET  _u(0x1)
+#define ACCESSCTRL_TBMAN_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_TBMAN_SU_MSB    _u(2)
+#define ACCESSCTRL_TBMAN_SU_LSB    _u(2)
+#define ACCESSCTRL_TBMAN_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_NSP
+// Description : If 1, TBMAN can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_TBMAN_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_TBMAN_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_TBMAN_NSP_MSB    _u(1)
+#define ACCESSCTRL_TBMAN_NSP_LSB    _u(1)
+#define ACCESSCTRL_TBMAN_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TBMAN_NSU
+// Description : If 1, and NSP is also set, TBMAN can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_TBMAN_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_TBMAN_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_TBMAN_NSU_MSB    _u(0)
+#define ACCESSCTRL_TBMAN_NSU_LSB    _u(0)
+#define ACCESSCTRL_TBMAN_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_POWMAN
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               POWMAN, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_POWMAN_OFFSET _u(0x000000b0)
+#define ACCESSCTRL_POWMAN_BITS   _u(0x000000ff)
+#define ACCESSCTRL_POWMAN_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_DBG
+// Description : If 1, POWMAN can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_POWMAN_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_POWMAN_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_POWMAN_DBG_MSB    _u(7)
+#define ACCESSCTRL_POWMAN_DBG_LSB    _u(7)
+#define ACCESSCTRL_POWMAN_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_DMA
+// Description : If 1, POWMAN can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_POWMAN_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_POWMAN_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_POWMAN_DMA_MSB    _u(6)
+#define ACCESSCTRL_POWMAN_DMA_LSB    _u(6)
+#define ACCESSCTRL_POWMAN_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_CORE1
+// Description : If 1, POWMAN can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_POWMAN_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_POWMAN_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_POWMAN_CORE1_MSB    _u(5)
+#define ACCESSCTRL_POWMAN_CORE1_LSB    _u(5)
+#define ACCESSCTRL_POWMAN_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_CORE0
+// Description : If 1, POWMAN can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_POWMAN_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_POWMAN_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_POWMAN_CORE0_MSB    _u(4)
+#define ACCESSCTRL_POWMAN_CORE0_LSB    _u(4)
+#define ACCESSCTRL_POWMAN_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_SP
+// Description : If 1, POWMAN can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_POWMAN_SP_RESET  _u(0x1)
+#define ACCESSCTRL_POWMAN_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_POWMAN_SP_MSB    _u(3)
+#define ACCESSCTRL_POWMAN_SP_LSB    _u(3)
+#define ACCESSCTRL_POWMAN_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_SU
+// Description : If 1, and SP is also set, POWMAN can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_POWMAN_SU_RESET  _u(0x0)
+#define ACCESSCTRL_POWMAN_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_POWMAN_SU_MSB    _u(2)
+#define ACCESSCTRL_POWMAN_SU_LSB    _u(2)
+#define ACCESSCTRL_POWMAN_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_NSP
+// Description : If 1, POWMAN can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_POWMAN_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_POWMAN_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_POWMAN_NSP_MSB    _u(1)
+#define ACCESSCTRL_POWMAN_NSP_LSB    _u(1)
+#define ACCESSCTRL_POWMAN_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_POWMAN_NSU
+// Description : If 1, and NSP is also set, POWMAN can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_POWMAN_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_POWMAN_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_POWMAN_NSU_MSB    _u(0)
+#define ACCESSCTRL_POWMAN_NSU_LSB    _u(0)
+#define ACCESSCTRL_POWMAN_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_TRNG
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               TRNG, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_TRNG_OFFSET _u(0x000000b4)
+#define ACCESSCTRL_TRNG_BITS   _u(0x000000ff)
+#define ACCESSCTRL_TRNG_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_DBG
+// Description : If 1, TRNG can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_TRNG_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_TRNG_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_TRNG_DBG_MSB    _u(7)
+#define ACCESSCTRL_TRNG_DBG_LSB    _u(7)
+#define ACCESSCTRL_TRNG_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_DMA
+// Description : If 1, TRNG can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TRNG_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_TRNG_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_TRNG_DMA_MSB    _u(6)
+#define ACCESSCTRL_TRNG_DMA_LSB    _u(6)
+#define ACCESSCTRL_TRNG_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_CORE1
+// Description : If 1, TRNG can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TRNG_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_TRNG_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_TRNG_CORE1_MSB    _u(5)
+#define ACCESSCTRL_TRNG_CORE1_LSB    _u(5)
+#define ACCESSCTRL_TRNG_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_CORE0
+// Description : If 1, TRNG can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TRNG_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_TRNG_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_TRNG_CORE0_MSB    _u(4)
+#define ACCESSCTRL_TRNG_CORE0_LSB    _u(4)
+#define ACCESSCTRL_TRNG_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_SP
+// Description : If 1, TRNG can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_TRNG_SP_RESET  _u(0x1)
+#define ACCESSCTRL_TRNG_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_TRNG_SP_MSB    _u(3)
+#define ACCESSCTRL_TRNG_SP_LSB    _u(3)
+#define ACCESSCTRL_TRNG_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_SU
+// Description : If 1, and SP is also set, TRNG can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_TRNG_SU_RESET  _u(0x0)
+#define ACCESSCTRL_TRNG_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_TRNG_SU_MSB    _u(2)
+#define ACCESSCTRL_TRNG_SU_LSB    _u(2)
+#define ACCESSCTRL_TRNG_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_NSP
+// Description : If 1, TRNG can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_TRNG_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_TRNG_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_TRNG_NSP_MSB    _u(1)
+#define ACCESSCTRL_TRNG_NSP_LSB    _u(1)
+#define ACCESSCTRL_TRNG_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TRNG_NSU
+// Description : If 1, and NSP is also set, TRNG can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_TRNG_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_TRNG_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_TRNG_NSU_MSB    _u(0)
+#define ACCESSCTRL_TRNG_NSU_LSB    _u(0)
+#define ACCESSCTRL_TRNG_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SHA256
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SHA256, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SHA256_OFFSET _u(0x000000b8)
+#define ACCESSCTRL_SHA256_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SHA256_RESET  _u(0x000000f8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_DBG
+// Description : If 1, SHA256 can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SHA256_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SHA256_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SHA256_DBG_MSB    _u(7)
+#define ACCESSCTRL_SHA256_DBG_LSB    _u(7)
+#define ACCESSCTRL_SHA256_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_DMA
+// Description : If 1, SHA256 can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SHA256_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_SHA256_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SHA256_DMA_MSB    _u(6)
+#define ACCESSCTRL_SHA256_DMA_LSB    _u(6)
+#define ACCESSCTRL_SHA256_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_CORE1
+// Description : If 1, SHA256 can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SHA256_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SHA256_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SHA256_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SHA256_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SHA256_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_CORE0
+// Description : If 1, SHA256 can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SHA256_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SHA256_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SHA256_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SHA256_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SHA256_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_SP
+// Description : If 1, SHA256 can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SHA256_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SHA256_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SHA256_SP_MSB    _u(3)
+#define ACCESSCTRL_SHA256_SP_LSB    _u(3)
+#define ACCESSCTRL_SHA256_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_SU
+// Description : If 1, and SP is also set, SHA256 can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SHA256_SU_RESET  _u(0x0)
+#define ACCESSCTRL_SHA256_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SHA256_SU_MSB    _u(2)
+#define ACCESSCTRL_SHA256_SU_LSB    _u(2)
+#define ACCESSCTRL_SHA256_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_NSP
+// Description : If 1, SHA256 can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SHA256_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_SHA256_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SHA256_NSP_MSB    _u(1)
+#define ACCESSCTRL_SHA256_NSP_LSB    _u(1)
+#define ACCESSCTRL_SHA256_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SHA256_NSU
+// Description : If 1, and NSP is also set, SHA256 can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SHA256_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_SHA256_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SHA256_NSU_MSB    _u(0)
+#define ACCESSCTRL_SHA256_NSU_LSB    _u(0)
+#define ACCESSCTRL_SHA256_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_SYSCFG
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               SYSCFG, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_SYSCFG_OFFSET _u(0x000000bc)
+#define ACCESSCTRL_SYSCFG_BITS   _u(0x000000ff)
+#define ACCESSCTRL_SYSCFG_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_DBG
+// Description : If 1, SYSCFG can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_SYSCFG_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_SYSCFG_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_SYSCFG_DBG_MSB    _u(7)
+#define ACCESSCTRL_SYSCFG_DBG_LSB    _u(7)
+#define ACCESSCTRL_SYSCFG_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_DMA
+// Description : If 1, SYSCFG can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSCFG_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_SYSCFG_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_SYSCFG_DMA_MSB    _u(6)
+#define ACCESSCTRL_SYSCFG_DMA_LSB    _u(6)
+#define ACCESSCTRL_SYSCFG_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_CORE1
+// Description : If 1, SYSCFG can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSCFG_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_SYSCFG_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_SYSCFG_CORE1_MSB    _u(5)
+#define ACCESSCTRL_SYSCFG_CORE1_LSB    _u(5)
+#define ACCESSCTRL_SYSCFG_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_CORE0
+// Description : If 1, SYSCFG can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_SYSCFG_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_SYSCFG_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_SYSCFG_CORE0_MSB    _u(4)
+#define ACCESSCTRL_SYSCFG_CORE0_LSB    _u(4)
+#define ACCESSCTRL_SYSCFG_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_SP
+// Description : If 1, SYSCFG can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_SYSCFG_SP_RESET  _u(0x1)
+#define ACCESSCTRL_SYSCFG_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_SYSCFG_SP_MSB    _u(3)
+#define ACCESSCTRL_SYSCFG_SP_LSB    _u(3)
+#define ACCESSCTRL_SYSCFG_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_SU
+// Description : If 1, and SP is also set, SYSCFG can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_SYSCFG_SU_RESET  _u(0x0)
+#define ACCESSCTRL_SYSCFG_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_SYSCFG_SU_MSB    _u(2)
+#define ACCESSCTRL_SYSCFG_SU_LSB    _u(2)
+#define ACCESSCTRL_SYSCFG_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_NSP
+// Description : If 1, SYSCFG can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_SYSCFG_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_SYSCFG_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_SYSCFG_NSP_MSB    _u(1)
+#define ACCESSCTRL_SYSCFG_NSP_LSB    _u(1)
+#define ACCESSCTRL_SYSCFG_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_SYSCFG_NSU
+// Description : If 1, and NSP is also set, SYSCFG can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_SYSCFG_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_SYSCFG_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_SYSCFG_NSU_MSB    _u(0)
+#define ACCESSCTRL_SYSCFG_NSU_LSB    _u(0)
+#define ACCESSCTRL_SYSCFG_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_CLOCKS
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               CLOCKS, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_CLOCKS_OFFSET _u(0x000000c0)
+#define ACCESSCTRL_CLOCKS_BITS   _u(0x000000ff)
+#define ACCESSCTRL_CLOCKS_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_DBG
+// Description : If 1, CLOCKS can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_CLOCKS_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_CLOCKS_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_CLOCKS_DBG_MSB    _u(7)
+#define ACCESSCTRL_CLOCKS_DBG_LSB    _u(7)
+#define ACCESSCTRL_CLOCKS_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_DMA
+// Description : If 1, CLOCKS can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_CLOCKS_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_CLOCKS_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_CLOCKS_DMA_MSB    _u(6)
+#define ACCESSCTRL_CLOCKS_DMA_LSB    _u(6)
+#define ACCESSCTRL_CLOCKS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_CORE1
+// Description : If 1, CLOCKS can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_CLOCKS_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_CLOCKS_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_CLOCKS_CORE1_MSB    _u(5)
+#define ACCESSCTRL_CLOCKS_CORE1_LSB    _u(5)
+#define ACCESSCTRL_CLOCKS_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_CORE0
+// Description : If 1, CLOCKS can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_CLOCKS_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_CLOCKS_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_CLOCKS_CORE0_MSB    _u(4)
+#define ACCESSCTRL_CLOCKS_CORE0_LSB    _u(4)
+#define ACCESSCTRL_CLOCKS_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_SP
+// Description : If 1, CLOCKS can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_CLOCKS_SP_RESET  _u(0x1)
+#define ACCESSCTRL_CLOCKS_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_CLOCKS_SP_MSB    _u(3)
+#define ACCESSCTRL_CLOCKS_SP_LSB    _u(3)
+#define ACCESSCTRL_CLOCKS_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_SU
+// Description : If 1, and SP is also set, CLOCKS can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_CLOCKS_SU_RESET  _u(0x0)
+#define ACCESSCTRL_CLOCKS_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_CLOCKS_SU_MSB    _u(2)
+#define ACCESSCTRL_CLOCKS_SU_LSB    _u(2)
+#define ACCESSCTRL_CLOCKS_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_NSP
+// Description : If 1, CLOCKS can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_CLOCKS_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_CLOCKS_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_CLOCKS_NSP_MSB    _u(1)
+#define ACCESSCTRL_CLOCKS_NSP_LSB    _u(1)
+#define ACCESSCTRL_CLOCKS_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_CLOCKS_NSU
+// Description : If 1, and NSP is also set, CLOCKS can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_CLOCKS_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_CLOCKS_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_CLOCKS_NSU_MSB    _u(0)
+#define ACCESSCTRL_CLOCKS_NSU_LSB    _u(0)
+#define ACCESSCTRL_CLOCKS_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_XOSC
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               XOSC, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_XOSC_OFFSET _u(0x000000c4)
+#define ACCESSCTRL_XOSC_BITS   _u(0x000000ff)
+#define ACCESSCTRL_XOSC_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_DBG
+// Description : If 1, XOSC can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XOSC_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_XOSC_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_XOSC_DBG_MSB    _u(7)
+#define ACCESSCTRL_XOSC_DBG_LSB    _u(7)
+#define ACCESSCTRL_XOSC_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_DMA
+// Description : If 1, XOSC can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XOSC_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_XOSC_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_XOSC_DMA_MSB    _u(6)
+#define ACCESSCTRL_XOSC_DMA_LSB    _u(6)
+#define ACCESSCTRL_XOSC_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_CORE1
+// Description : If 1, XOSC can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XOSC_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_XOSC_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_XOSC_CORE1_MSB    _u(5)
+#define ACCESSCTRL_XOSC_CORE1_LSB    _u(5)
+#define ACCESSCTRL_XOSC_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_CORE0
+// Description : If 1, XOSC can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XOSC_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_XOSC_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_XOSC_CORE0_MSB    _u(4)
+#define ACCESSCTRL_XOSC_CORE0_LSB    _u(4)
+#define ACCESSCTRL_XOSC_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_SP
+// Description : If 1, XOSC can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_XOSC_SP_RESET  _u(0x1)
+#define ACCESSCTRL_XOSC_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_XOSC_SP_MSB    _u(3)
+#define ACCESSCTRL_XOSC_SP_LSB    _u(3)
+#define ACCESSCTRL_XOSC_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_SU
+// Description : If 1, and SP is also set, XOSC can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_XOSC_SU_RESET  _u(0x0)
+#define ACCESSCTRL_XOSC_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_XOSC_SU_MSB    _u(2)
+#define ACCESSCTRL_XOSC_SU_LSB    _u(2)
+#define ACCESSCTRL_XOSC_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_NSP
+// Description : If 1, XOSC can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_XOSC_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_XOSC_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_XOSC_NSP_MSB    _u(1)
+#define ACCESSCTRL_XOSC_NSP_LSB    _u(1)
+#define ACCESSCTRL_XOSC_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XOSC_NSU
+// Description : If 1, and NSP is also set, XOSC can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_XOSC_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_XOSC_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_XOSC_NSU_MSB    _u(0)
+#define ACCESSCTRL_XOSC_NSU_LSB    _u(0)
+#define ACCESSCTRL_XOSC_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_ROSC
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               ROSC, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_ROSC_OFFSET _u(0x000000c8)
+#define ACCESSCTRL_ROSC_BITS   _u(0x000000ff)
+#define ACCESSCTRL_ROSC_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_DBG
+// Description : If 1, ROSC can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_ROSC_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_ROSC_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_ROSC_DBG_MSB    _u(7)
+#define ACCESSCTRL_ROSC_DBG_LSB    _u(7)
+#define ACCESSCTRL_ROSC_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_DMA
+// Description : If 1, ROSC can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROSC_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_ROSC_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_ROSC_DMA_MSB    _u(6)
+#define ACCESSCTRL_ROSC_DMA_LSB    _u(6)
+#define ACCESSCTRL_ROSC_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_CORE1
+// Description : If 1, ROSC can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROSC_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_ROSC_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_ROSC_CORE1_MSB    _u(5)
+#define ACCESSCTRL_ROSC_CORE1_LSB    _u(5)
+#define ACCESSCTRL_ROSC_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_CORE0
+// Description : If 1, ROSC can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_ROSC_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_ROSC_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_ROSC_CORE0_MSB    _u(4)
+#define ACCESSCTRL_ROSC_CORE0_LSB    _u(4)
+#define ACCESSCTRL_ROSC_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_SP
+// Description : If 1, ROSC can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_ROSC_SP_RESET  _u(0x1)
+#define ACCESSCTRL_ROSC_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_ROSC_SP_MSB    _u(3)
+#define ACCESSCTRL_ROSC_SP_LSB    _u(3)
+#define ACCESSCTRL_ROSC_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_SU
+// Description : If 1, and SP is also set, ROSC can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_ROSC_SU_RESET  _u(0x0)
+#define ACCESSCTRL_ROSC_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_ROSC_SU_MSB    _u(2)
+#define ACCESSCTRL_ROSC_SU_LSB    _u(2)
+#define ACCESSCTRL_ROSC_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_NSP
+// Description : If 1, ROSC can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_ROSC_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_ROSC_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_ROSC_NSP_MSB    _u(1)
+#define ACCESSCTRL_ROSC_NSP_LSB    _u(1)
+#define ACCESSCTRL_ROSC_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_ROSC_NSU
+// Description : If 1, and NSP is also set, ROSC can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_ROSC_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_ROSC_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_ROSC_NSU_MSB    _u(0)
+#define ACCESSCTRL_ROSC_NSU_LSB    _u(0)
+#define ACCESSCTRL_ROSC_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PLL_SYS
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PLL_SYS, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PLL_SYS_OFFSET _u(0x000000cc)
+#define ACCESSCTRL_PLL_SYS_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PLL_SYS_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_DBG
+// Description : If 1, PLL_SYS can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PLL_SYS_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_SYS_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PLL_SYS_DBG_MSB    _u(7)
+#define ACCESSCTRL_PLL_SYS_DBG_LSB    _u(7)
+#define ACCESSCTRL_PLL_SYS_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_DMA
+// Description : If 1, PLL_SYS can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_SYS_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_SYS_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PLL_SYS_DMA_MSB    _u(6)
+#define ACCESSCTRL_PLL_SYS_DMA_LSB    _u(6)
+#define ACCESSCTRL_PLL_SYS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_CORE1
+// Description : If 1, PLL_SYS can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_SYS_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_SYS_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PLL_SYS_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PLL_SYS_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PLL_SYS_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_CORE0
+// Description : If 1, PLL_SYS can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_SYS_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_SYS_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PLL_SYS_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PLL_SYS_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PLL_SYS_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_SP
+// Description : If 1, PLL_SYS can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_PLL_SYS_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_SYS_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PLL_SYS_SP_MSB    _u(3)
+#define ACCESSCTRL_PLL_SYS_SP_LSB    _u(3)
+#define ACCESSCTRL_PLL_SYS_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_SU
+// Description : If 1, and SP is also set, PLL_SYS can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_PLL_SYS_SU_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_SYS_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PLL_SYS_SU_MSB    _u(2)
+#define ACCESSCTRL_PLL_SYS_SU_LSB    _u(2)
+#define ACCESSCTRL_PLL_SYS_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_NSP
+// Description : If 1, PLL_SYS can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PLL_SYS_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_SYS_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PLL_SYS_NSP_MSB    _u(1)
+#define ACCESSCTRL_PLL_SYS_NSP_LSB    _u(1)
+#define ACCESSCTRL_PLL_SYS_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_SYS_NSU
+// Description : If 1, and NSP is also set, PLL_SYS can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PLL_SYS_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_SYS_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PLL_SYS_NSU_MSB    _u(0)
+#define ACCESSCTRL_PLL_SYS_NSU_LSB    _u(0)
+#define ACCESSCTRL_PLL_SYS_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_PLL_USB
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               PLL_USB, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_PLL_USB_OFFSET _u(0x000000d0)
+#define ACCESSCTRL_PLL_USB_BITS   _u(0x000000ff)
+#define ACCESSCTRL_PLL_USB_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_DBG
+// Description : If 1, PLL_USB can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_PLL_USB_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_USB_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_PLL_USB_DBG_MSB    _u(7)
+#define ACCESSCTRL_PLL_USB_DBG_LSB    _u(7)
+#define ACCESSCTRL_PLL_USB_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_DMA
+// Description : If 1, PLL_USB can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_USB_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_USB_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_PLL_USB_DMA_MSB    _u(6)
+#define ACCESSCTRL_PLL_USB_DMA_LSB    _u(6)
+#define ACCESSCTRL_PLL_USB_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_CORE1
+// Description : If 1, PLL_USB can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_USB_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_USB_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_PLL_USB_CORE1_MSB    _u(5)
+#define ACCESSCTRL_PLL_USB_CORE1_LSB    _u(5)
+#define ACCESSCTRL_PLL_USB_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_CORE0
+// Description : If 1, PLL_USB can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_PLL_USB_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_USB_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_PLL_USB_CORE0_MSB    _u(4)
+#define ACCESSCTRL_PLL_USB_CORE0_LSB    _u(4)
+#define ACCESSCTRL_PLL_USB_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_SP
+// Description : If 1, PLL_USB can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_PLL_USB_SP_RESET  _u(0x1)
+#define ACCESSCTRL_PLL_USB_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_PLL_USB_SP_MSB    _u(3)
+#define ACCESSCTRL_PLL_USB_SP_LSB    _u(3)
+#define ACCESSCTRL_PLL_USB_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_SU
+// Description : If 1, and SP is also set, PLL_USB can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_PLL_USB_SU_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_USB_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_PLL_USB_SU_MSB    _u(2)
+#define ACCESSCTRL_PLL_USB_SU_LSB    _u(2)
+#define ACCESSCTRL_PLL_USB_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_NSP
+// Description : If 1, PLL_USB can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_PLL_USB_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_USB_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_PLL_USB_NSP_MSB    _u(1)
+#define ACCESSCTRL_PLL_USB_NSP_LSB    _u(1)
+#define ACCESSCTRL_PLL_USB_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_PLL_USB_NSU
+// Description : If 1, and NSP is also set, PLL_USB can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_PLL_USB_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_PLL_USB_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_PLL_USB_NSU_MSB    _u(0)
+#define ACCESSCTRL_PLL_USB_NSU_LSB    _u(0)
+#define ACCESSCTRL_PLL_USB_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_TICKS
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               TICKS, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_TICKS_OFFSET _u(0x000000d4)
+#define ACCESSCTRL_TICKS_BITS   _u(0x000000ff)
+#define ACCESSCTRL_TICKS_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_DBG
+// Description : If 1, TICKS can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_TICKS_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_TICKS_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_TICKS_DBG_MSB    _u(7)
+#define ACCESSCTRL_TICKS_DBG_LSB    _u(7)
+#define ACCESSCTRL_TICKS_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_DMA
+// Description : If 1, TICKS can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TICKS_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_TICKS_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_TICKS_DMA_MSB    _u(6)
+#define ACCESSCTRL_TICKS_DMA_LSB    _u(6)
+#define ACCESSCTRL_TICKS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_CORE1
+// Description : If 1, TICKS can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TICKS_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_TICKS_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_TICKS_CORE1_MSB    _u(5)
+#define ACCESSCTRL_TICKS_CORE1_LSB    _u(5)
+#define ACCESSCTRL_TICKS_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_CORE0
+// Description : If 1, TICKS can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_TICKS_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_TICKS_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_TICKS_CORE0_MSB    _u(4)
+#define ACCESSCTRL_TICKS_CORE0_LSB    _u(4)
+#define ACCESSCTRL_TICKS_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_SP
+// Description : If 1, TICKS can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_TICKS_SP_RESET  _u(0x1)
+#define ACCESSCTRL_TICKS_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_TICKS_SP_MSB    _u(3)
+#define ACCESSCTRL_TICKS_SP_LSB    _u(3)
+#define ACCESSCTRL_TICKS_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_SU
+// Description : If 1, and SP is also set, TICKS can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_TICKS_SU_RESET  _u(0x0)
+#define ACCESSCTRL_TICKS_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_TICKS_SU_MSB    _u(2)
+#define ACCESSCTRL_TICKS_SU_LSB    _u(2)
+#define ACCESSCTRL_TICKS_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_NSP
+// Description : If 1, TICKS can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_TICKS_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_TICKS_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_TICKS_NSP_MSB    _u(1)
+#define ACCESSCTRL_TICKS_NSP_LSB    _u(1)
+#define ACCESSCTRL_TICKS_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_TICKS_NSU
+// Description : If 1, and NSP is also set, TICKS can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_TICKS_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_TICKS_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_TICKS_NSU_MSB    _u(0)
+#define ACCESSCTRL_TICKS_NSU_LSB    _u(0)
+#define ACCESSCTRL_TICKS_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_WATCHDOG
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               WATCHDOG, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_WATCHDOG_OFFSET _u(0x000000d8)
+#define ACCESSCTRL_WATCHDOG_BITS   _u(0x000000ff)
+#define ACCESSCTRL_WATCHDOG_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_DBG
+// Description : If 1, WATCHDOG can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_WATCHDOG_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_WATCHDOG_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_WATCHDOG_DBG_MSB    _u(7)
+#define ACCESSCTRL_WATCHDOG_DBG_LSB    _u(7)
+#define ACCESSCTRL_WATCHDOG_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_DMA
+// Description : If 1, WATCHDOG can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_WATCHDOG_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_WATCHDOG_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_WATCHDOG_DMA_MSB    _u(6)
+#define ACCESSCTRL_WATCHDOG_DMA_LSB    _u(6)
+#define ACCESSCTRL_WATCHDOG_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_CORE1
+// Description : If 1, WATCHDOG can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_WATCHDOG_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_WATCHDOG_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_WATCHDOG_CORE1_MSB    _u(5)
+#define ACCESSCTRL_WATCHDOG_CORE1_LSB    _u(5)
+#define ACCESSCTRL_WATCHDOG_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_CORE0
+// Description : If 1, WATCHDOG can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_WATCHDOG_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_WATCHDOG_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_WATCHDOG_CORE0_MSB    _u(4)
+#define ACCESSCTRL_WATCHDOG_CORE0_LSB    _u(4)
+#define ACCESSCTRL_WATCHDOG_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_SP
+// Description : If 1, WATCHDOG can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_WATCHDOG_SP_RESET  _u(0x1)
+#define ACCESSCTRL_WATCHDOG_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_WATCHDOG_SP_MSB    _u(3)
+#define ACCESSCTRL_WATCHDOG_SP_LSB    _u(3)
+#define ACCESSCTRL_WATCHDOG_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_SU
+// Description : If 1, and SP is also set, WATCHDOG can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_WATCHDOG_SU_RESET  _u(0x0)
+#define ACCESSCTRL_WATCHDOG_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_WATCHDOG_SU_MSB    _u(2)
+#define ACCESSCTRL_WATCHDOG_SU_LSB    _u(2)
+#define ACCESSCTRL_WATCHDOG_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_NSP
+// Description : If 1, WATCHDOG can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_WATCHDOG_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_WATCHDOG_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_WATCHDOG_NSP_MSB    _u(1)
+#define ACCESSCTRL_WATCHDOG_NSP_LSB    _u(1)
+#define ACCESSCTRL_WATCHDOG_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_WATCHDOG_NSU
+// Description : If 1, and NSP is also set, WATCHDOG can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_WATCHDOG_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_WATCHDOG_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_WATCHDOG_NSU_MSB    _u(0)
+#define ACCESSCTRL_WATCHDOG_NSU_LSB    _u(0)
+#define ACCESSCTRL_WATCHDOG_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_RSM
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               RSM, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_RSM_OFFSET _u(0x000000dc)
+#define ACCESSCTRL_RSM_BITS   _u(0x000000ff)
+#define ACCESSCTRL_RSM_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_DBG
+// Description : If 1, RSM can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_RSM_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_RSM_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_RSM_DBG_MSB    _u(7)
+#define ACCESSCTRL_RSM_DBG_LSB    _u(7)
+#define ACCESSCTRL_RSM_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_DMA
+// Description : If 1, RSM can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RSM_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_RSM_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_RSM_DMA_MSB    _u(6)
+#define ACCESSCTRL_RSM_DMA_LSB    _u(6)
+#define ACCESSCTRL_RSM_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_CORE1
+// Description : If 1, RSM can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RSM_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_RSM_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_RSM_CORE1_MSB    _u(5)
+#define ACCESSCTRL_RSM_CORE1_LSB    _u(5)
+#define ACCESSCTRL_RSM_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_CORE0
+// Description : If 1, RSM can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_RSM_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_RSM_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_RSM_CORE0_MSB    _u(4)
+#define ACCESSCTRL_RSM_CORE0_LSB    _u(4)
+#define ACCESSCTRL_RSM_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_SP
+// Description : If 1, RSM can be accessed from a Secure, Privileged context.
+#define ACCESSCTRL_RSM_SP_RESET  _u(0x1)
+#define ACCESSCTRL_RSM_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_RSM_SP_MSB    _u(3)
+#define ACCESSCTRL_RSM_SP_LSB    _u(3)
+#define ACCESSCTRL_RSM_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_SU
+// Description : If 1, and SP is also set, RSM can be accessed from a Secure,
+//               Unprivileged context.
+#define ACCESSCTRL_RSM_SU_RESET  _u(0x0)
+#define ACCESSCTRL_RSM_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_RSM_SU_MSB    _u(2)
+#define ACCESSCTRL_RSM_SU_LSB    _u(2)
+#define ACCESSCTRL_RSM_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_NSP
+// Description : If 1, RSM can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_RSM_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_RSM_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_RSM_NSP_MSB    _u(1)
+#define ACCESSCTRL_RSM_NSP_LSB    _u(1)
+#define ACCESSCTRL_RSM_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_RSM_NSU
+// Description : If 1, and NSP is also set, RSM can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_RSM_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_RSM_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_RSM_NSU_MSB    _u(0)
+#define ACCESSCTRL_RSM_NSU_LSB    _u(0)
+#define ACCESSCTRL_RSM_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_XIP_CTRL
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               XIP_CTRL, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_XIP_CTRL_OFFSET _u(0x000000e0)
+#define ACCESSCTRL_XIP_CTRL_BITS   _u(0x000000ff)
+#define ACCESSCTRL_XIP_CTRL_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_DBG
+// Description : If 1, XIP_CTRL can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_CTRL_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_CTRL_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_XIP_CTRL_DBG_MSB    _u(7)
+#define ACCESSCTRL_XIP_CTRL_DBG_LSB    _u(7)
+#define ACCESSCTRL_XIP_CTRL_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_DMA
+// Description : If 1, XIP_CTRL can be accessed by the DMA, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_CTRL_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_CTRL_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_XIP_CTRL_DMA_MSB    _u(6)
+#define ACCESSCTRL_XIP_CTRL_DMA_LSB    _u(6)
+#define ACCESSCTRL_XIP_CTRL_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_CORE1
+// Description : If 1, XIP_CTRL can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_CTRL_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_CTRL_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_XIP_CTRL_CORE1_MSB    _u(5)
+#define ACCESSCTRL_XIP_CTRL_CORE1_LSB    _u(5)
+#define ACCESSCTRL_XIP_CTRL_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_CORE0
+// Description : If 1, XIP_CTRL can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_CTRL_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_CTRL_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_XIP_CTRL_CORE0_MSB    _u(4)
+#define ACCESSCTRL_XIP_CTRL_CORE0_LSB    _u(4)
+#define ACCESSCTRL_XIP_CTRL_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_SP
+// Description : If 1, XIP_CTRL can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_CTRL_SP_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_CTRL_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_XIP_CTRL_SP_MSB    _u(3)
+#define ACCESSCTRL_XIP_CTRL_SP_LSB    _u(3)
+#define ACCESSCTRL_XIP_CTRL_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_SU
+// Description : If 1, and SP is also set, XIP_CTRL can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_XIP_CTRL_SU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_CTRL_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_XIP_CTRL_SU_MSB    _u(2)
+#define ACCESSCTRL_XIP_CTRL_SU_LSB    _u(2)
+#define ACCESSCTRL_XIP_CTRL_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_NSP
+// Description : If 1, XIP_CTRL can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_CTRL_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_CTRL_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_XIP_CTRL_NSP_MSB    _u(1)
+#define ACCESSCTRL_XIP_CTRL_NSP_LSB    _u(1)
+#define ACCESSCTRL_XIP_CTRL_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_CTRL_NSU
+// Description : If 1, and NSP is also set, XIP_CTRL can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_XIP_CTRL_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_CTRL_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_XIP_CTRL_NSU_MSB    _u(0)
+#define ACCESSCTRL_XIP_CTRL_NSU_LSB    _u(0)
+#define ACCESSCTRL_XIP_CTRL_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_XIP_QMI
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               XIP_QMI, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged processor or debug access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_XIP_QMI_OFFSET _u(0x000000e4)
+#define ACCESSCTRL_XIP_QMI_BITS   _u(0x000000ff)
+#define ACCESSCTRL_XIP_QMI_RESET  _u(0x000000b8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_DBG
+// Description : If 1, XIP_QMI can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_QMI_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_QMI_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_XIP_QMI_DBG_MSB    _u(7)
+#define ACCESSCTRL_XIP_QMI_DBG_LSB    _u(7)
+#define ACCESSCTRL_XIP_QMI_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_DMA
+// Description : If 1, XIP_QMI can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_QMI_DMA_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_QMI_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_XIP_QMI_DMA_MSB    _u(6)
+#define ACCESSCTRL_XIP_QMI_DMA_LSB    _u(6)
+#define ACCESSCTRL_XIP_QMI_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_CORE1
+// Description : If 1, XIP_QMI can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_QMI_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_QMI_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_XIP_QMI_CORE1_MSB    _u(5)
+#define ACCESSCTRL_XIP_QMI_CORE1_LSB    _u(5)
+#define ACCESSCTRL_XIP_QMI_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_CORE0
+// Description : If 1, XIP_QMI can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_QMI_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_QMI_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_XIP_QMI_CORE0_MSB    _u(4)
+#define ACCESSCTRL_XIP_QMI_CORE0_LSB    _u(4)
+#define ACCESSCTRL_XIP_QMI_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_SP
+// Description : If 1, XIP_QMI can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_QMI_SP_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_QMI_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_XIP_QMI_SP_MSB    _u(3)
+#define ACCESSCTRL_XIP_QMI_SP_LSB    _u(3)
+#define ACCESSCTRL_XIP_QMI_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_SU
+// Description : If 1, and SP is also set, XIP_QMI can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_XIP_QMI_SU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_QMI_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_XIP_QMI_SU_MSB    _u(2)
+#define ACCESSCTRL_XIP_QMI_SU_LSB    _u(2)
+#define ACCESSCTRL_XIP_QMI_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_NSP
+// Description : If 1, XIP_QMI can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_QMI_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_QMI_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_XIP_QMI_NSP_MSB    _u(1)
+#define ACCESSCTRL_XIP_QMI_NSP_LSB    _u(1)
+#define ACCESSCTRL_XIP_QMI_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_QMI_NSU
+// Description : If 1, and NSP is also set, XIP_QMI can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_XIP_QMI_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_QMI_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_XIP_QMI_NSU_MSB    _u(0)
+#define ACCESSCTRL_XIP_QMI_NSU_LSB    _u(0)
+#define ACCESSCTRL_XIP_QMI_NSU_ACCESS "RW"
+// =============================================================================
+// Register    : ACCESSCTRL_XIP_AUX
+// Description : Control whether debugger, DMA, core 0 and core 1 can access
+//               XIP_AUX, and at what security/privilege levels they can do so.
+//
+//               Defaults to Secure, Privileged access only.
+//
+//               This register is writable only from a Secure, Privileged
+//               processor or debugger, with the exception of the NSU bit, which
+//               becomes Non-secure-Privileged-writable when the NSP bit is set.
+#define ACCESSCTRL_XIP_AUX_OFFSET _u(0x000000e8)
+#define ACCESSCTRL_XIP_AUX_BITS   _u(0x000000ff)
+#define ACCESSCTRL_XIP_AUX_RESET  _u(0x000000f8)
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_DBG
+// Description : If 1, XIP_AUX can be accessed by the debugger, at
+//               security/privilege levels permitted by SP/NSP/SU/NSU in this
+//               register.
+#define ACCESSCTRL_XIP_AUX_DBG_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_AUX_DBG_BITS   _u(0x00000080)
+#define ACCESSCTRL_XIP_AUX_DBG_MSB    _u(7)
+#define ACCESSCTRL_XIP_AUX_DBG_LSB    _u(7)
+#define ACCESSCTRL_XIP_AUX_DBG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_DMA
+// Description : If 1, XIP_AUX can be accessed by the DMA, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_AUX_DMA_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_AUX_DMA_BITS   _u(0x00000040)
+#define ACCESSCTRL_XIP_AUX_DMA_MSB    _u(6)
+#define ACCESSCTRL_XIP_AUX_DMA_LSB    _u(6)
+#define ACCESSCTRL_XIP_AUX_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_CORE1
+// Description : If 1, XIP_AUX can be accessed by core 1, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_AUX_CORE1_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_AUX_CORE1_BITS   _u(0x00000020)
+#define ACCESSCTRL_XIP_AUX_CORE1_MSB    _u(5)
+#define ACCESSCTRL_XIP_AUX_CORE1_LSB    _u(5)
+#define ACCESSCTRL_XIP_AUX_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_CORE0
+// Description : If 1, XIP_AUX can be accessed by core 0, at security/privilege
+//               levels permitted by SP/NSP/SU/NSU in this register.
+#define ACCESSCTRL_XIP_AUX_CORE0_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_AUX_CORE0_BITS   _u(0x00000010)
+#define ACCESSCTRL_XIP_AUX_CORE0_MSB    _u(4)
+#define ACCESSCTRL_XIP_AUX_CORE0_LSB    _u(4)
+#define ACCESSCTRL_XIP_AUX_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_SP
+// Description : If 1, XIP_AUX can be accessed from a Secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_AUX_SP_RESET  _u(0x1)
+#define ACCESSCTRL_XIP_AUX_SP_BITS   _u(0x00000008)
+#define ACCESSCTRL_XIP_AUX_SP_MSB    _u(3)
+#define ACCESSCTRL_XIP_AUX_SP_LSB    _u(3)
+#define ACCESSCTRL_XIP_AUX_SP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_SU
+// Description : If 1, and SP is also set, XIP_AUX can be accessed from a
+//               Secure, Unprivileged context.
+#define ACCESSCTRL_XIP_AUX_SU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_AUX_SU_BITS   _u(0x00000004)
+#define ACCESSCTRL_XIP_AUX_SU_MSB    _u(2)
+#define ACCESSCTRL_XIP_AUX_SU_LSB    _u(2)
+#define ACCESSCTRL_XIP_AUX_SU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_NSP
+// Description : If 1, XIP_AUX can be accessed from a Non-secure, Privileged
+//               context.
+#define ACCESSCTRL_XIP_AUX_NSP_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_AUX_NSP_BITS   _u(0x00000002)
+#define ACCESSCTRL_XIP_AUX_NSP_MSB    _u(1)
+#define ACCESSCTRL_XIP_AUX_NSP_LSB    _u(1)
+#define ACCESSCTRL_XIP_AUX_NSP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ACCESSCTRL_XIP_AUX_NSU
+// Description : If 1, and NSP is also set, XIP_AUX can be accessed from a Non-
+//               secure, Unprivileged context.
+//
+//               This bit is writable from a Non-secure, Privileged context, if
+//               and only if the NSP bit is set.
+#define ACCESSCTRL_XIP_AUX_NSU_RESET  _u(0x0)
+#define ACCESSCTRL_XIP_AUX_NSU_BITS   _u(0x00000001)
+#define ACCESSCTRL_XIP_AUX_NSU_MSB    _u(0)
+#define ACCESSCTRL_XIP_AUX_NSU_LSB    _u(0)
+#define ACCESSCTRL_XIP_AUX_NSU_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_ACCESSCTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/adc.h b/lib/pico-sdk/rp2350/hardware/regs/adc.h
new file mode 100644
index 0000000..1778d50
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/adc.h
@@ -0,0 +1,316 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : ADC
+// Version        : 2
+// Bus type       : apb
+// Description    : Control and data interface to SAR ADC
+// =============================================================================
+#ifndef _HARDWARE_REGS_ADC_H
+#define _HARDWARE_REGS_ADC_H
+// =============================================================================
+// Register    : ADC_CS
+// Description : ADC Control and Status
+#define ADC_CS_OFFSET _u(0x00000000)
+#define ADC_CS_BITS   _u(0x01fff70f)
+#define ADC_CS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_RROBIN
+// Description : Round-robin sampling. 1 bit per channel. Set all bits to 0 to
+//               disable.
+//               Otherwise, the ADC will cycle through each enabled channel in a
+//               round-robin fashion.
+//               The first channel to be sampled will be the one currently
+//               indicated by AINSEL.
+//               AINSEL will be updated after each conversion with the newly-
+//               selected channel.
+#define ADC_CS_RROBIN_RESET  _u(0x000)
+#define ADC_CS_RROBIN_BITS   _u(0x01ff0000)
+#define ADC_CS_RROBIN_MSB    _u(24)
+#define ADC_CS_RROBIN_LSB    _u(16)
+#define ADC_CS_RROBIN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_AINSEL
+// Description : Select analog mux input. Updated automatically in round-robin
+//               mode.
+//               This is corrected for the package option so only ADC channels
+//               which are bonded are available, and in the correct order
+#define ADC_CS_AINSEL_RESET  _u(0x0)
+#define ADC_CS_AINSEL_BITS   _u(0x0000f000)
+#define ADC_CS_AINSEL_MSB    _u(15)
+#define ADC_CS_AINSEL_LSB    _u(12)
+#define ADC_CS_AINSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_ERR_STICKY
+// Description : Some past ADC conversion encountered an error. Write 1 to
+//               clear.
+#define ADC_CS_ERR_STICKY_RESET  _u(0x0)
+#define ADC_CS_ERR_STICKY_BITS   _u(0x00000400)
+#define ADC_CS_ERR_STICKY_MSB    _u(10)
+#define ADC_CS_ERR_STICKY_LSB    _u(10)
+#define ADC_CS_ERR_STICKY_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_ERR
+// Description : The most recent ADC conversion encountered an error; result is
+//               undefined or noisy.
+#define ADC_CS_ERR_RESET  _u(0x0)
+#define ADC_CS_ERR_BITS   _u(0x00000200)
+#define ADC_CS_ERR_MSB    _u(9)
+#define ADC_CS_ERR_LSB    _u(9)
+#define ADC_CS_ERR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_READY
+// Description : 1 if the ADC is ready to start a new conversion. Implies any
+//               previous conversion has completed.
+//               0 whilst conversion in progress.
+#define ADC_CS_READY_RESET  _u(0x0)
+#define ADC_CS_READY_BITS   _u(0x00000100)
+#define ADC_CS_READY_MSB    _u(8)
+#define ADC_CS_READY_LSB    _u(8)
+#define ADC_CS_READY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_START_MANY
+// Description : Continuously perform conversions whilst this bit is 1. A new
+//               conversion will start immediately after the previous finishes.
+#define ADC_CS_START_MANY_RESET  _u(0x0)
+#define ADC_CS_START_MANY_BITS   _u(0x00000008)
+#define ADC_CS_START_MANY_MSB    _u(3)
+#define ADC_CS_START_MANY_LSB    _u(3)
+#define ADC_CS_START_MANY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_START_ONCE
+// Description : Start a single conversion. Self-clearing. Ignored if start_many
+//               is asserted.
+#define ADC_CS_START_ONCE_RESET  _u(0x0)
+#define ADC_CS_START_ONCE_BITS   _u(0x00000004)
+#define ADC_CS_START_ONCE_MSB    _u(2)
+#define ADC_CS_START_ONCE_LSB    _u(2)
+#define ADC_CS_START_ONCE_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_TS_EN
+// Description : Power on temperature sensor. 1 - enabled. 0 - disabled.
+#define ADC_CS_TS_EN_RESET  _u(0x0)
+#define ADC_CS_TS_EN_BITS   _u(0x00000002)
+#define ADC_CS_TS_EN_MSB    _u(1)
+#define ADC_CS_TS_EN_LSB    _u(1)
+#define ADC_CS_TS_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_CS_EN
+// Description : Power on ADC and enable its clock.
+//               1 - enabled. 0 - disabled.
+#define ADC_CS_EN_RESET  _u(0x0)
+#define ADC_CS_EN_BITS   _u(0x00000001)
+#define ADC_CS_EN_MSB    _u(0)
+#define ADC_CS_EN_LSB    _u(0)
+#define ADC_CS_EN_ACCESS "RW"
+// =============================================================================
+// Register    : ADC_RESULT
+// Description : Result of most recent ADC conversion
+#define ADC_RESULT_OFFSET _u(0x00000004)
+#define ADC_RESULT_BITS   _u(0x00000fff)
+#define ADC_RESULT_RESET  _u(0x00000000)
+#define ADC_RESULT_MSB    _u(11)
+#define ADC_RESULT_LSB    _u(0)
+#define ADC_RESULT_ACCESS "RO"
+// =============================================================================
+// Register    : ADC_FCS
+// Description : FIFO control and status
+#define ADC_FCS_OFFSET _u(0x00000008)
+#define ADC_FCS_BITS   _u(0x0f0f0f0f)
+#define ADC_FCS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_THRESH
+// Description : DREQ/IRQ asserted when level >= threshold
+#define ADC_FCS_THRESH_RESET  _u(0x0)
+#define ADC_FCS_THRESH_BITS   _u(0x0f000000)
+#define ADC_FCS_THRESH_MSB    _u(27)
+#define ADC_FCS_THRESH_LSB    _u(24)
+#define ADC_FCS_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_LEVEL
+// Description : The number of conversion results currently waiting in the FIFO
+#define ADC_FCS_LEVEL_RESET  _u(0x0)
+#define ADC_FCS_LEVEL_BITS   _u(0x000f0000)
+#define ADC_FCS_LEVEL_MSB    _u(19)
+#define ADC_FCS_LEVEL_LSB    _u(16)
+#define ADC_FCS_LEVEL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_OVER
+// Description : 1 if the FIFO has been overflowed. Write 1 to clear.
+#define ADC_FCS_OVER_RESET  _u(0x0)
+#define ADC_FCS_OVER_BITS   _u(0x00000800)
+#define ADC_FCS_OVER_MSB    _u(11)
+#define ADC_FCS_OVER_LSB    _u(11)
+#define ADC_FCS_OVER_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_UNDER
+// Description : 1 if the FIFO has been underflowed. Write 1 to clear.
+#define ADC_FCS_UNDER_RESET  _u(0x0)
+#define ADC_FCS_UNDER_BITS   _u(0x00000400)
+#define ADC_FCS_UNDER_MSB    _u(10)
+#define ADC_FCS_UNDER_LSB    _u(10)
+#define ADC_FCS_UNDER_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_FULL
+#define ADC_FCS_FULL_RESET  _u(0x0)
+#define ADC_FCS_FULL_BITS   _u(0x00000200)
+#define ADC_FCS_FULL_MSB    _u(9)
+#define ADC_FCS_FULL_LSB    _u(9)
+#define ADC_FCS_FULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_EMPTY
+#define ADC_FCS_EMPTY_RESET  _u(0x0)
+#define ADC_FCS_EMPTY_BITS   _u(0x00000100)
+#define ADC_FCS_EMPTY_MSB    _u(8)
+#define ADC_FCS_EMPTY_LSB    _u(8)
+#define ADC_FCS_EMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_DREQ_EN
+// Description : If 1: assert DMA requests when FIFO contains data
+#define ADC_FCS_DREQ_EN_RESET  _u(0x0)
+#define ADC_FCS_DREQ_EN_BITS   _u(0x00000008)
+#define ADC_FCS_DREQ_EN_MSB    _u(3)
+#define ADC_FCS_DREQ_EN_LSB    _u(3)
+#define ADC_FCS_DREQ_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_ERR
+// Description : If 1: conversion error bit appears in the FIFO alongside the
+//               result
+#define ADC_FCS_ERR_RESET  _u(0x0)
+#define ADC_FCS_ERR_BITS   _u(0x00000004)
+#define ADC_FCS_ERR_MSB    _u(2)
+#define ADC_FCS_ERR_LSB    _u(2)
+#define ADC_FCS_ERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_SHIFT
+// Description : If 1: FIFO results are right-shifted to be one byte in size.
+//               Enables DMA to byte buffers.
+#define ADC_FCS_SHIFT_RESET  _u(0x0)
+#define ADC_FCS_SHIFT_BITS   _u(0x00000002)
+#define ADC_FCS_SHIFT_MSB    _u(1)
+#define ADC_FCS_SHIFT_LSB    _u(1)
+#define ADC_FCS_SHIFT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FCS_EN
+// Description : If 1: write result to the FIFO after each conversion.
+#define ADC_FCS_EN_RESET  _u(0x0)
+#define ADC_FCS_EN_BITS   _u(0x00000001)
+#define ADC_FCS_EN_MSB    _u(0)
+#define ADC_FCS_EN_LSB    _u(0)
+#define ADC_FCS_EN_ACCESS "RW"
+// =============================================================================
+// Register    : ADC_FIFO
+// Description : Conversion result FIFO
+#define ADC_FIFO_OFFSET _u(0x0000000c)
+#define ADC_FIFO_BITS   _u(0x00008fff)
+#define ADC_FIFO_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_FIFO_ERR
+// Description : 1 if this particular sample experienced a conversion error.
+//               Remains in the same location if the sample is shifted.
+#define ADC_FIFO_ERR_RESET  "-"
+#define ADC_FIFO_ERR_BITS   _u(0x00008000)
+#define ADC_FIFO_ERR_MSB    _u(15)
+#define ADC_FIFO_ERR_LSB    _u(15)
+#define ADC_FIFO_ERR_ACCESS "RF"
+// -----------------------------------------------------------------------------
+// Field       : ADC_FIFO_VAL
+#define ADC_FIFO_VAL_RESET  "-"
+#define ADC_FIFO_VAL_BITS   _u(0x00000fff)
+#define ADC_FIFO_VAL_MSB    _u(11)
+#define ADC_FIFO_VAL_LSB    _u(0)
+#define ADC_FIFO_VAL_ACCESS "RF"
+// =============================================================================
+// Register    : ADC_DIV
+// Description : Clock divider. If non-zero, CS_START_MANY will start
+//               conversions
+//               at regular intervals rather than back-to-back.
+//               The divider is reset when either of these fields are written.
+//               Total period is 1 + INT + FRAC / 256
+#define ADC_DIV_OFFSET _u(0x00000010)
+#define ADC_DIV_BITS   _u(0x00ffffff)
+#define ADC_DIV_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_DIV_INT
+// Description : Integer part of clock divisor.
+#define ADC_DIV_INT_RESET  _u(0x0000)
+#define ADC_DIV_INT_BITS   _u(0x00ffff00)
+#define ADC_DIV_INT_MSB    _u(23)
+#define ADC_DIV_INT_LSB    _u(8)
+#define ADC_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ADC_DIV_FRAC
+// Description : Fractional part of clock divisor. First-order delta-sigma.
+#define ADC_DIV_FRAC_RESET  _u(0x00)
+#define ADC_DIV_FRAC_BITS   _u(0x000000ff)
+#define ADC_DIV_FRAC_MSB    _u(7)
+#define ADC_DIV_FRAC_LSB    _u(0)
+#define ADC_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : ADC_INTR
+// Description : Raw Interrupts
+#define ADC_INTR_OFFSET _u(0x00000014)
+#define ADC_INTR_BITS   _u(0x00000001)
+#define ADC_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_INTR_FIFO
+// Description : Triggered when the sample FIFO reaches a certain level.
+//               This level can be programmed via the FCS_THRESH field.
+#define ADC_INTR_FIFO_RESET  _u(0x0)
+#define ADC_INTR_FIFO_BITS   _u(0x00000001)
+#define ADC_INTR_FIFO_MSB    _u(0)
+#define ADC_INTR_FIFO_LSB    _u(0)
+#define ADC_INTR_FIFO_ACCESS "RO"
+// =============================================================================
+// Register    : ADC_INTE
+// Description : Interrupt Enable
+#define ADC_INTE_OFFSET _u(0x00000018)
+#define ADC_INTE_BITS   _u(0x00000001)
+#define ADC_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_INTE_FIFO
+// Description : Triggered when the sample FIFO reaches a certain level.
+//               This level can be programmed via the FCS_THRESH field.
+#define ADC_INTE_FIFO_RESET  _u(0x0)
+#define ADC_INTE_FIFO_BITS   _u(0x00000001)
+#define ADC_INTE_FIFO_MSB    _u(0)
+#define ADC_INTE_FIFO_LSB    _u(0)
+#define ADC_INTE_FIFO_ACCESS "RW"
+// =============================================================================
+// Register    : ADC_INTF
+// Description : Interrupt Force
+#define ADC_INTF_OFFSET _u(0x0000001c)
+#define ADC_INTF_BITS   _u(0x00000001)
+#define ADC_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_INTF_FIFO
+// Description : Triggered when the sample FIFO reaches a certain level.
+//               This level can be programmed via the FCS_THRESH field.
+#define ADC_INTF_FIFO_RESET  _u(0x0)
+#define ADC_INTF_FIFO_BITS   _u(0x00000001)
+#define ADC_INTF_FIFO_MSB    _u(0)
+#define ADC_INTF_FIFO_LSB    _u(0)
+#define ADC_INTF_FIFO_ACCESS "RW"
+// =============================================================================
+// Register    : ADC_INTS
+// Description : Interrupt status after masking & forcing
+#define ADC_INTS_OFFSET _u(0x00000020)
+#define ADC_INTS_BITS   _u(0x00000001)
+#define ADC_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ADC_INTS_FIFO
+// Description : Triggered when the sample FIFO reaches a certain level.
+//               This level can be programmed via the FCS_THRESH field.
+#define ADC_INTS_FIFO_RESET  _u(0x0)
+#define ADC_INTS_FIFO_BITS   _u(0x00000001)
+#define ADC_INTS_FIFO_MSB    _u(0)
+#define ADC_INTS_FIFO_LSB    _u(0)
+#define ADC_INTS_FIFO_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_ADC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/addressmap.h b/lib/pico-sdk/rp2350/hardware/regs/addressmap.h
new file mode 100644
index 0000000..0e8df52
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/addressmap.h
@@ -0,0 +1,112 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _ADDRESSMAP_H
+#define _ADDRESSMAP_H
+
+/**
+ * \file rp2350/addressmap.h
+ */
+
+#include "hardware/platform_defs.h"
+
+// Register address offsets for atomic RMW aliases
+#define REG_ALIAS_RW_BITS  (_u(0x0) << _u(12))
+#define REG_ALIAS_XOR_BITS (_u(0x1) << _u(12))
+#define REG_ALIAS_SET_BITS (_u(0x2) << _u(12))
+#define REG_ALIAS_CLR_BITS (_u(0x3) << _u(12))
+
+#define ROM_BASE _u(0x00000000)
+#define XIP_BASE _u(0x10000000)
+#define XIP_SRAM_BASE _u(0x13ffc000)
+#define XIP_END _u(0x14000000)
+#define XIP_NOCACHE_NOALLOC_BASE _u(0x14000000)
+#define XIP_SRAM_END _u(0x14000000)
+#define XIP_NOCACHE_NOALLOC_END _u(0x18000000)
+#define XIP_MAINTENANCE_BASE _u(0x18000000)
+#define XIP_NOCACHE_NOALLOC_NOTRANSLATE_BASE _u(0x1c000000)
+#define SRAM0_BASE _u(0x20000000)
+#define XIP_NOCACHE_NOALLOC_NOTRANSLATE_END _u(0x20000000)
+#define SRAM_BASE _u(0x20000000)
+#define SRAM_STRIPED_BASE _u(0x20000000)
+#define SRAM4_BASE _u(0x20040000)
+#define SRAM8_BASE _u(0x20080000)
+#define SRAM_STRIPED_END _u(0x20080000)
+#define SRAM_SCRATCH_X_BASE _u(0x20080000)
+#define SRAM9_BASE _u(0x20081000)
+#define SRAM_SCRATCH_Y_BASE _u(0x20081000)
+#define SRAM_END _u(0x20082000)
+#define SYSINFO_BASE _u(0x40000000)
+#define SYSCFG_BASE _u(0x40008000)
+#define CLOCKS_BASE _u(0x40010000)
+#define PSM_BASE _u(0x40018000)
+#define RESETS_BASE _u(0x40020000)
+#define IO_BANK0_BASE _u(0x40028000)
+#define IO_QSPI_BASE _u(0x40030000)
+#define PADS_BANK0_BASE _u(0x40038000)
+#define PADS_QSPI_BASE _u(0x40040000)
+#define XOSC_BASE _u(0x40048000)
+#define PLL_SYS_BASE _u(0x40050000)
+#define PLL_USB_BASE _u(0x40058000)
+#define ACCESSCTRL_BASE _u(0x40060000)
+#define BUSCTRL_BASE _u(0x40068000)
+#define UART0_BASE _u(0x40070000)
+#define UART1_BASE _u(0x40078000)
+#define SPI0_BASE _u(0x40080000)
+#define SPI1_BASE _u(0x40088000)
+#define I2C0_BASE _u(0x40090000)
+#define I2C1_BASE _u(0x40098000)
+#define ADC_BASE _u(0x400a0000)
+#define PWM_BASE _u(0x400a8000)
+#define TIMER0_BASE _u(0x400b0000)
+#define TIMER1_BASE _u(0x400b8000)
+#define HSTX_CTRL_BASE _u(0x400c0000)
+#define XIP_CTRL_BASE _u(0x400c8000)
+#define XIP_QMI_BASE _u(0x400d0000)
+#define WATCHDOG_BASE _u(0x400d8000)
+#define BOOTRAM_BASE _u(0x400e0000)
+#define BOOTRAM_END _u(0x400e0400)
+#define ROSC_BASE _u(0x400e8000)
+#define TRNG_BASE _u(0x400f0000)
+#define SHA256_BASE _u(0x400f8000)
+#define POWMAN_BASE _u(0x40100000)
+#define TICKS_BASE _u(0x40108000)
+#define OTP_BASE _u(0x40120000)
+#define OTP_DATA_BASE _u(0x40130000)
+#define OTP_DATA_RAW_BASE _u(0x40134000)
+#define OTP_DATA_GUARDED_BASE _u(0x40138000)
+#define OTP_DATA_RAW_GUARDED_BASE _u(0x4013c000)
+#define CORESIGHT_PERIPH_BASE _u(0x40140000)
+#define CORESIGHT_ROMTABLE_BASE _u(0x40140000)
+#define CORESIGHT_AHB_AP_CORE0_BASE _u(0x40142000)
+#define CORESIGHT_AHB_AP_CORE1_BASE _u(0x40144000)
+#define CORESIGHT_TIMESTAMP_GEN_BASE _u(0x40146000)
+#define CORESIGHT_ATB_FUNNEL_BASE _u(0x40147000)
+#define CORESIGHT_TPIU_BASE _u(0x40148000)
+#define CORESIGHT_CTI_BASE _u(0x40149000)
+#define CORESIGHT_APB_AP_RISCV_BASE _u(0x4014a000)
+#define DFT_BASE _u(0x40150000)
+#define GLITCH_DETECTOR_BASE _u(0x40158000)
+#define TBMAN_BASE _u(0x40160000)
+#define DMA_BASE _u(0x50000000)
+#define USBCTRL_BASE _u(0x50100000)
+#define USBCTRL_DPRAM_BASE _u(0x50100000)
+#define USBCTRL_REGS_BASE _u(0x50110000)
+#define PIO0_BASE _u(0x50200000)
+#define PIO1_BASE _u(0x50300000)
+#define PIO2_BASE _u(0x50400000)
+#define XIP_AUX_BASE _u(0x50500000)
+#define HSTX_FIFO_BASE _u(0x50600000)
+#define CORESIGHT_TRACE_BASE _u(0x50700000)
+#define SIO_BASE _u(0xd0000000)
+#define SIO_NONSEC_BASE _u(0xd0020000)
+#define PPB_BASE _u(0xe0000000)
+#define PPB_NONSEC_BASE _u(0xe0020000)
+#define EPPB_BASE _u(0xe0080000)
+
+#endif // _ADDRESSMAP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/bootram.h b/lib/pico-sdk/rp2350/hardware/regs/bootram.h
new file mode 100644
index 0000000..0d8695c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/bootram.h
@@ -0,0 +1,130 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : BOOTRAM
+// Version        : 1
+// Bus type       : apb
+// Description    : Additional registers mapped adjacent to the bootram, for use
+//                  by the bootrom.
+// =============================================================================
+#ifndef _HARDWARE_REGS_BOOTRAM_H
+#define _HARDWARE_REGS_BOOTRAM_H
+// =============================================================================
+// Register    : BOOTRAM_WRITE_ONCE0
+// Description : This registers always ORs writes into its current contents.
+//               Once a bit is set, it can only be cleared by a reset.
+#define BOOTRAM_WRITE_ONCE0_OFFSET _u(0x00000800)
+#define BOOTRAM_WRITE_ONCE0_BITS   _u(0xffffffff)
+#define BOOTRAM_WRITE_ONCE0_RESET  _u(0x00000000)
+#define BOOTRAM_WRITE_ONCE0_MSB    _u(31)
+#define BOOTRAM_WRITE_ONCE0_LSB    _u(0)
+#define BOOTRAM_WRITE_ONCE0_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_WRITE_ONCE1
+// Description : This registers always ORs writes into its current contents.
+//               Once a bit is set, it can only be cleared by a reset.
+#define BOOTRAM_WRITE_ONCE1_OFFSET _u(0x00000804)
+#define BOOTRAM_WRITE_ONCE1_BITS   _u(0xffffffff)
+#define BOOTRAM_WRITE_ONCE1_RESET  _u(0x00000000)
+#define BOOTRAM_WRITE_ONCE1_MSB    _u(31)
+#define BOOTRAM_WRITE_ONCE1_LSB    _u(0)
+#define BOOTRAM_WRITE_ONCE1_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK_STAT
+// Description : Bootlock status register. 1=unclaimed, 0=claimed. These locks
+//               function identically to the SIO spinlocks, but are reserved for
+//               bootrom use.
+#define BOOTRAM_BOOTLOCK_STAT_OFFSET _u(0x00000808)
+#define BOOTRAM_BOOTLOCK_STAT_BITS   _u(0x000000ff)
+#define BOOTRAM_BOOTLOCK_STAT_RESET  _u(0x000000ff)
+#define BOOTRAM_BOOTLOCK_STAT_MSB    _u(7)
+#define BOOTRAM_BOOTLOCK_STAT_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK_STAT_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK0
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK0_OFFSET _u(0x0000080c)
+#define BOOTRAM_BOOTLOCK0_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK0_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK0_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK0_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK0_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK1
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK1_OFFSET _u(0x00000810)
+#define BOOTRAM_BOOTLOCK1_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK1_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK1_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK1_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK1_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK2
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK2_OFFSET _u(0x00000814)
+#define BOOTRAM_BOOTLOCK2_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK2_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK2_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK2_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK2_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK3
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK3_OFFSET _u(0x00000818)
+#define BOOTRAM_BOOTLOCK3_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK3_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK3_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK3_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK3_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK4
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK4_OFFSET _u(0x0000081c)
+#define BOOTRAM_BOOTLOCK4_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK4_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK4_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK4_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK4_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK5
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK5_OFFSET _u(0x00000820)
+#define BOOTRAM_BOOTLOCK5_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK5_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK5_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK5_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK5_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK6
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK6_OFFSET _u(0x00000824)
+#define BOOTRAM_BOOTLOCK6_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK6_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK6_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK6_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK6_ACCESS "RW"
+// =============================================================================
+// Register    : BOOTRAM_BOOTLOCK7
+// Description : Read to claim and check. Write to unclaim. The value returned
+//               on successful claim is 1 << n, and on failed claim is zero.
+#define BOOTRAM_BOOTLOCK7_OFFSET _u(0x00000828)
+#define BOOTRAM_BOOTLOCK7_BITS   _u(0xffffffff)
+#define BOOTRAM_BOOTLOCK7_RESET  _u(0x00000000)
+#define BOOTRAM_BOOTLOCK7_MSB    _u(31)
+#define BOOTRAM_BOOTLOCK7_LSB    _u(0)
+#define BOOTRAM_BOOTLOCK7_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_BOOTRAM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/busctrl.h b/lib/pico-sdk/rp2350/hardware/regs/busctrl.h
new file mode 100644
index 0000000..c3bf3e1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/busctrl.h
@@ -0,0 +1,753 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : BUSCTRL
+// Version        : 1
+// Bus type       : apb
+// Description    : Register block for busfabric control signals and performance
+//                  counters
+// =============================================================================
+#ifndef _HARDWARE_REGS_BUSCTRL_H
+#define _HARDWARE_REGS_BUSCTRL_H
+// =============================================================================
+// Register    : BUSCTRL_BUS_PRIORITY
+// Description : Set the priority of each master for bus arbitration.
+#define BUSCTRL_BUS_PRIORITY_OFFSET _u(0x00000000)
+#define BUSCTRL_BUS_PRIORITY_BITS   _u(0x00001111)
+#define BUSCTRL_BUS_PRIORITY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : BUSCTRL_BUS_PRIORITY_DMA_W
+// Description : 0 - low priority, 1 - high priority
+#define BUSCTRL_BUS_PRIORITY_DMA_W_RESET  _u(0x0)
+#define BUSCTRL_BUS_PRIORITY_DMA_W_BITS   _u(0x00001000)
+#define BUSCTRL_BUS_PRIORITY_DMA_W_MSB    _u(12)
+#define BUSCTRL_BUS_PRIORITY_DMA_W_LSB    _u(12)
+#define BUSCTRL_BUS_PRIORITY_DMA_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : BUSCTRL_BUS_PRIORITY_DMA_R
+// Description : 0 - low priority, 1 - high priority
+#define BUSCTRL_BUS_PRIORITY_DMA_R_RESET  _u(0x0)
+#define BUSCTRL_BUS_PRIORITY_DMA_R_BITS   _u(0x00000100)
+#define BUSCTRL_BUS_PRIORITY_DMA_R_MSB    _u(8)
+#define BUSCTRL_BUS_PRIORITY_DMA_R_LSB    _u(8)
+#define BUSCTRL_BUS_PRIORITY_DMA_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : BUSCTRL_BUS_PRIORITY_PROC1
+// Description : 0 - low priority, 1 - high priority
+#define BUSCTRL_BUS_PRIORITY_PROC1_RESET  _u(0x0)
+#define BUSCTRL_BUS_PRIORITY_PROC1_BITS   _u(0x00000010)
+#define BUSCTRL_BUS_PRIORITY_PROC1_MSB    _u(4)
+#define BUSCTRL_BUS_PRIORITY_PROC1_LSB    _u(4)
+#define BUSCTRL_BUS_PRIORITY_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : BUSCTRL_BUS_PRIORITY_PROC0
+// Description : 0 - low priority, 1 - high priority
+#define BUSCTRL_BUS_PRIORITY_PROC0_RESET  _u(0x0)
+#define BUSCTRL_BUS_PRIORITY_PROC0_BITS   _u(0x00000001)
+#define BUSCTRL_BUS_PRIORITY_PROC0_MSB    _u(0)
+#define BUSCTRL_BUS_PRIORITY_PROC0_LSB    _u(0)
+#define BUSCTRL_BUS_PRIORITY_PROC0_ACCESS "RW"
+// =============================================================================
+// Register    : BUSCTRL_BUS_PRIORITY_ACK
+// Description : Bus priority acknowledge
+//               Goes to 1 once all arbiters have registered the new global
+//               priority levels.
+//               Arbiters update their local priority when servicing a new
+//               nonsequential access.
+//               In normal circumstances this will happen almost immediately.
+#define BUSCTRL_BUS_PRIORITY_ACK_OFFSET _u(0x00000004)
+#define BUSCTRL_BUS_PRIORITY_ACK_BITS   _u(0x00000001)
+#define BUSCTRL_BUS_PRIORITY_ACK_RESET  _u(0x00000000)
+#define BUSCTRL_BUS_PRIORITY_ACK_MSB    _u(0)
+#define BUSCTRL_BUS_PRIORITY_ACK_LSB    _u(0)
+#define BUSCTRL_BUS_PRIORITY_ACK_ACCESS "RO"
+// =============================================================================
+// Register    : BUSCTRL_PERFCTR_EN
+// Description : Enable the performance counters. If 0, the performance counters
+//               do not increment. This can be used to precisely start/stop
+//               event sampling around the profiled section of code.
+//
+//               The performance counters are initially disabled, to save
+//               energy.
+#define BUSCTRL_PERFCTR_EN_OFFSET _u(0x00000008)
+#define BUSCTRL_PERFCTR_EN_BITS   _u(0x00000001)
+#define BUSCTRL_PERFCTR_EN_RESET  _u(0x00000000)
+#define BUSCTRL_PERFCTR_EN_MSB    _u(0)
+#define BUSCTRL_PERFCTR_EN_LSB    _u(0)
+#define BUSCTRL_PERFCTR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : BUSCTRL_PERFCTR0
+// Description : Bus fabric performance counter 0
+//               Busfabric saturating performance counter 0
+//               Count some event signal from the busfabric arbiters, if
+//               PERFCTR_EN is set.
+//               Write any value to clear. Select an event to count using
+//               PERFSEL0
+#define BUSCTRL_PERFCTR0_OFFSET _u(0x0000000c)
+#define BUSCTRL_PERFCTR0_BITS   _u(0x00ffffff)
+#define BUSCTRL_PERFCTR0_RESET  _u(0x00000000)
+#define BUSCTRL_PERFCTR0_MSB    _u(23)
+#define BUSCTRL_PERFCTR0_LSB    _u(0)
+#define BUSCTRL_PERFCTR0_ACCESS "WC"
+// =============================================================================
+// Register    : BUSCTRL_PERFSEL0
+// Description : Bus fabric performance event select for PERFCTR0
+//               Select an event for PERFCTR0. For each downstream port of the
+//               main crossbar, four events are available: ACCESS, an access
+//               took place; ACCESS_CONTESTED, an access took place that
+//               previously stalled due to contention from other masters;
+//               STALL_DOWNSTREAM, count cycles where any master stalled due to
+//               a stall on the downstream bus; STALL_UPSTREAM, count cycles
+//               where any master stalled for any reason, including contention
+//               from other masters.
+//               0x00 -> siob_proc1_stall_upstream
+//               0x01 -> siob_proc1_stall_downstream
+//               0x02 -> siob_proc1_access_contested
+//               0x03 -> siob_proc1_access
+//               0x04 -> siob_proc0_stall_upstream
+//               0x05 -> siob_proc0_stall_downstream
+//               0x06 -> siob_proc0_access_contested
+//               0x07 -> siob_proc0_access
+//               0x08 -> apb_stall_upstream
+//               0x09 -> apb_stall_downstream
+//               0x0a -> apb_access_contested
+//               0x0b -> apb_access
+//               0x0c -> fastperi_stall_upstream
+//               0x0d -> fastperi_stall_downstream
+//               0x0e -> fastperi_access_contested
+//               0x0f -> fastperi_access
+//               0x10 -> sram9_stall_upstream
+//               0x11 -> sram9_stall_downstream
+//               0x12 -> sram9_access_contested
+//               0x13 -> sram9_access
+//               0x14 -> sram8_stall_upstream
+//               0x15 -> sram8_stall_downstream
+//               0x16 -> sram8_access_contested
+//               0x17 -> sram8_access
+//               0x18 -> sram7_stall_upstream
+//               0x19 -> sram7_stall_downstream
+//               0x1a -> sram7_access_contested
+//               0x1b -> sram7_access
+//               0x1c -> sram6_stall_upstream
+//               0x1d -> sram6_stall_downstream
+//               0x1e -> sram6_access_contested
+//               0x1f -> sram6_access
+//               0x20 -> sram5_stall_upstream
+//               0x21 -> sram5_stall_downstream
+//               0x22 -> sram5_access_contested
+//               0x23 -> sram5_access
+//               0x24 -> sram4_stall_upstream
+//               0x25 -> sram4_stall_downstream
+//               0x26 -> sram4_access_contested
+//               0x27 -> sram4_access
+//               0x28 -> sram3_stall_upstream
+//               0x29 -> sram3_stall_downstream
+//               0x2a -> sram3_access_contested
+//               0x2b -> sram3_access
+//               0x2c -> sram2_stall_upstream
+//               0x2d -> sram2_stall_downstream
+//               0x2e -> sram2_access_contested
+//               0x2f -> sram2_access
+//               0x30 -> sram1_stall_upstream
+//               0x31 -> sram1_stall_downstream
+//               0x32 -> sram1_access_contested
+//               0x33 -> sram1_access
+//               0x34 -> sram0_stall_upstream
+//               0x35 -> sram0_stall_downstream
+//               0x36 -> sram0_access_contested
+//               0x37 -> sram0_access
+//               0x38 -> xip_main1_stall_upstream
+//               0x39 -> xip_main1_stall_downstream
+//               0x3a -> xip_main1_access_contested
+//               0x3b -> xip_main1_access
+//               0x3c -> xip_main0_stall_upstream
+//               0x3d -> xip_main0_stall_downstream
+//               0x3e -> xip_main0_access_contested
+//               0x3f -> xip_main0_access
+//               0x40 -> rom_stall_upstream
+//               0x41 -> rom_stall_downstream
+//               0x42 -> rom_access_contested
+//               0x43 -> rom_access
+#define BUSCTRL_PERFSEL0_OFFSET _u(0x00000010)
+#define BUSCTRL_PERFSEL0_BITS   _u(0x0000007f)
+#define BUSCTRL_PERFSEL0_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL0_MSB    _u(6)
+#define BUSCTRL_PERFSEL0_LSB    _u(0)
+#define BUSCTRL_PERFSEL0_ACCESS "RW"
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC1_STALL_UPSTREAM _u(0x00)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC1_STALL_DOWNSTREAM _u(0x01)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC1_ACCESS_CONTESTED _u(0x02)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC1_ACCESS _u(0x03)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC0_STALL_UPSTREAM _u(0x04)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC0_STALL_DOWNSTREAM _u(0x05)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC0_ACCESS_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL0_VALUE_SIOB_PROC0_ACCESS _u(0x07)
+#define BUSCTRL_PERFSEL0_VALUE_APB_STALL_UPSTREAM _u(0x08)
+#define BUSCTRL_PERFSEL0_VALUE_APB_STALL_DOWNSTREAM _u(0x09)
+#define BUSCTRL_PERFSEL0_VALUE_APB_ACCESS_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL0_VALUE_APB_ACCESS _u(0x0b)
+#define BUSCTRL_PERFSEL0_VALUE_FASTPERI_STALL_UPSTREAM _u(0x0c)
+#define BUSCTRL_PERFSEL0_VALUE_FASTPERI_STALL_DOWNSTREAM _u(0x0d)
+#define BUSCTRL_PERFSEL0_VALUE_FASTPERI_ACCESS_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL0_VALUE_FASTPERI_ACCESS _u(0x0f)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM9_STALL_UPSTREAM _u(0x10)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM9_STALL_DOWNSTREAM _u(0x11)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM9_ACCESS_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM9_ACCESS _u(0x13)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM8_STALL_UPSTREAM _u(0x14)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM8_STALL_DOWNSTREAM _u(0x15)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM8_ACCESS_CONTESTED _u(0x16)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM8_ACCESS _u(0x17)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM7_STALL_UPSTREAM _u(0x18)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM7_STALL_DOWNSTREAM _u(0x19)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM7_ACCESS_CONTESTED _u(0x1a)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM7_ACCESS _u(0x1b)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM6_STALL_UPSTREAM _u(0x1c)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM6_STALL_DOWNSTREAM _u(0x1d)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM6_ACCESS_CONTESTED _u(0x1e)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM6_ACCESS _u(0x1f)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5_STALL_UPSTREAM _u(0x20)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5_STALL_DOWNSTREAM _u(0x21)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5_ACCESS_CONTESTED _u(0x22)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM5_ACCESS _u(0x23)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4_STALL_UPSTREAM _u(0x24)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4_STALL_DOWNSTREAM _u(0x25)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4_ACCESS_CONTESTED _u(0x26)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM4_ACCESS _u(0x27)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3_STALL_UPSTREAM _u(0x28)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3_STALL_DOWNSTREAM _u(0x29)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3_ACCESS_CONTESTED _u(0x2a)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM3_ACCESS _u(0x2b)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2_STALL_UPSTREAM _u(0x2c)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2_STALL_DOWNSTREAM _u(0x2d)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2_ACCESS_CONTESTED _u(0x2e)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM2_ACCESS _u(0x2f)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1_STALL_UPSTREAM _u(0x30)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1_STALL_DOWNSTREAM _u(0x31)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1_ACCESS_CONTESTED _u(0x32)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM1_ACCESS _u(0x33)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0_STALL_UPSTREAM _u(0x34)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0_STALL_DOWNSTREAM _u(0x35)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0_ACCESS_CONTESTED _u(0x36)
+#define BUSCTRL_PERFSEL0_VALUE_SRAM0_ACCESS _u(0x37)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN1_STALL_UPSTREAM _u(0x38)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN1_STALL_DOWNSTREAM _u(0x39)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN1_ACCESS_CONTESTED _u(0x3a)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN1_ACCESS _u(0x3b)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN0_STALL_UPSTREAM _u(0x3c)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN0_STALL_DOWNSTREAM _u(0x3d)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN0_ACCESS_CONTESTED _u(0x3e)
+#define BUSCTRL_PERFSEL0_VALUE_XIP_MAIN0_ACCESS _u(0x3f)
+#define BUSCTRL_PERFSEL0_VALUE_ROM_STALL_UPSTREAM _u(0x40)
+#define BUSCTRL_PERFSEL0_VALUE_ROM_STALL_DOWNSTREAM _u(0x41)
+#define BUSCTRL_PERFSEL0_VALUE_ROM_ACCESS_CONTESTED _u(0x42)
+#define BUSCTRL_PERFSEL0_VALUE_ROM_ACCESS _u(0x43)
+// =============================================================================
+// Register    : BUSCTRL_PERFCTR1
+// Description : Bus fabric performance counter 1
+//               Busfabric saturating performance counter 1
+//               Count some event signal from the busfabric arbiters, if
+//               PERFCTR_EN is set.
+//               Write any value to clear. Select an event to count using
+//               PERFSEL1
+#define BUSCTRL_PERFCTR1_OFFSET _u(0x00000014)
+#define BUSCTRL_PERFCTR1_BITS   _u(0x00ffffff)
+#define BUSCTRL_PERFCTR1_RESET  _u(0x00000000)
+#define BUSCTRL_PERFCTR1_MSB    _u(23)
+#define BUSCTRL_PERFCTR1_LSB    _u(0)
+#define BUSCTRL_PERFCTR1_ACCESS "WC"
+// =============================================================================
+// Register    : BUSCTRL_PERFSEL1
+// Description : Bus fabric performance event select for PERFCTR1
+//               Select an event for PERFCTR1. For each downstream port of the
+//               main crossbar, four events are available: ACCESS, an access
+//               took place; ACCESS_CONTESTED, an access took place that
+//               previously stalled due to contention from other masters;
+//               STALL_DOWNSTREAM, count cycles where any master stalled due to
+//               a stall on the downstream bus; STALL_UPSTREAM, count cycles
+//               where any master stalled for any reason, including contention
+//               from other masters.
+//               0x00 -> siob_proc1_stall_upstream
+//               0x01 -> siob_proc1_stall_downstream
+//               0x02 -> siob_proc1_access_contested
+//               0x03 -> siob_proc1_access
+//               0x04 -> siob_proc0_stall_upstream
+//               0x05 -> siob_proc0_stall_downstream
+//               0x06 -> siob_proc0_access_contested
+//               0x07 -> siob_proc0_access
+//               0x08 -> apb_stall_upstream
+//               0x09 -> apb_stall_downstream
+//               0x0a -> apb_access_contested
+//               0x0b -> apb_access
+//               0x0c -> fastperi_stall_upstream
+//               0x0d -> fastperi_stall_downstream
+//               0x0e -> fastperi_access_contested
+//               0x0f -> fastperi_access
+//               0x10 -> sram9_stall_upstream
+//               0x11 -> sram9_stall_downstream
+//               0x12 -> sram9_access_contested
+//               0x13 -> sram9_access
+//               0x14 -> sram8_stall_upstream
+//               0x15 -> sram8_stall_downstream
+//               0x16 -> sram8_access_contested
+//               0x17 -> sram8_access
+//               0x18 -> sram7_stall_upstream
+//               0x19 -> sram7_stall_downstream
+//               0x1a -> sram7_access_contested
+//               0x1b -> sram7_access
+//               0x1c -> sram6_stall_upstream
+//               0x1d -> sram6_stall_downstream
+//               0x1e -> sram6_access_contested
+//               0x1f -> sram6_access
+//               0x20 -> sram5_stall_upstream
+//               0x21 -> sram5_stall_downstream
+//               0x22 -> sram5_access_contested
+//               0x23 -> sram5_access
+//               0x24 -> sram4_stall_upstream
+//               0x25 -> sram4_stall_downstream
+//               0x26 -> sram4_access_contested
+//               0x27 -> sram4_access
+//               0x28 -> sram3_stall_upstream
+//               0x29 -> sram3_stall_downstream
+//               0x2a -> sram3_access_contested
+//               0x2b -> sram3_access
+//               0x2c -> sram2_stall_upstream
+//               0x2d -> sram2_stall_downstream
+//               0x2e -> sram2_access_contested
+//               0x2f -> sram2_access
+//               0x30 -> sram1_stall_upstream
+//               0x31 -> sram1_stall_downstream
+//               0x32 -> sram1_access_contested
+//               0x33 -> sram1_access
+//               0x34 -> sram0_stall_upstream
+//               0x35 -> sram0_stall_downstream
+//               0x36 -> sram0_access_contested
+//               0x37 -> sram0_access
+//               0x38 -> xip_main1_stall_upstream
+//               0x39 -> xip_main1_stall_downstream
+//               0x3a -> xip_main1_access_contested
+//               0x3b -> xip_main1_access
+//               0x3c -> xip_main0_stall_upstream
+//               0x3d -> xip_main0_stall_downstream
+//               0x3e -> xip_main0_access_contested
+//               0x3f -> xip_main0_access
+//               0x40 -> rom_stall_upstream
+//               0x41 -> rom_stall_downstream
+//               0x42 -> rom_access_contested
+//               0x43 -> rom_access
+#define BUSCTRL_PERFSEL1_OFFSET _u(0x00000018)
+#define BUSCTRL_PERFSEL1_BITS   _u(0x0000007f)
+#define BUSCTRL_PERFSEL1_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL1_MSB    _u(6)
+#define BUSCTRL_PERFSEL1_LSB    _u(0)
+#define BUSCTRL_PERFSEL1_ACCESS "RW"
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC1_STALL_UPSTREAM _u(0x00)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC1_STALL_DOWNSTREAM _u(0x01)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC1_ACCESS_CONTESTED _u(0x02)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC1_ACCESS _u(0x03)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC0_STALL_UPSTREAM _u(0x04)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC0_STALL_DOWNSTREAM _u(0x05)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC0_ACCESS_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL1_VALUE_SIOB_PROC0_ACCESS _u(0x07)
+#define BUSCTRL_PERFSEL1_VALUE_APB_STALL_UPSTREAM _u(0x08)
+#define BUSCTRL_PERFSEL1_VALUE_APB_STALL_DOWNSTREAM _u(0x09)
+#define BUSCTRL_PERFSEL1_VALUE_APB_ACCESS_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL1_VALUE_APB_ACCESS _u(0x0b)
+#define BUSCTRL_PERFSEL1_VALUE_FASTPERI_STALL_UPSTREAM _u(0x0c)
+#define BUSCTRL_PERFSEL1_VALUE_FASTPERI_STALL_DOWNSTREAM _u(0x0d)
+#define BUSCTRL_PERFSEL1_VALUE_FASTPERI_ACCESS_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL1_VALUE_FASTPERI_ACCESS _u(0x0f)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM9_STALL_UPSTREAM _u(0x10)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM9_STALL_DOWNSTREAM _u(0x11)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM9_ACCESS_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM9_ACCESS _u(0x13)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM8_STALL_UPSTREAM _u(0x14)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM8_STALL_DOWNSTREAM _u(0x15)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM8_ACCESS_CONTESTED _u(0x16)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM8_ACCESS _u(0x17)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM7_STALL_UPSTREAM _u(0x18)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM7_STALL_DOWNSTREAM _u(0x19)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM7_ACCESS_CONTESTED _u(0x1a)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM7_ACCESS _u(0x1b)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM6_STALL_UPSTREAM _u(0x1c)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM6_STALL_DOWNSTREAM _u(0x1d)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM6_ACCESS_CONTESTED _u(0x1e)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM6_ACCESS _u(0x1f)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5_STALL_UPSTREAM _u(0x20)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5_STALL_DOWNSTREAM _u(0x21)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5_ACCESS_CONTESTED _u(0x22)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM5_ACCESS _u(0x23)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4_STALL_UPSTREAM _u(0x24)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4_STALL_DOWNSTREAM _u(0x25)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4_ACCESS_CONTESTED _u(0x26)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM4_ACCESS _u(0x27)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3_STALL_UPSTREAM _u(0x28)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3_STALL_DOWNSTREAM _u(0x29)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3_ACCESS_CONTESTED _u(0x2a)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM3_ACCESS _u(0x2b)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2_STALL_UPSTREAM _u(0x2c)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2_STALL_DOWNSTREAM _u(0x2d)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2_ACCESS_CONTESTED _u(0x2e)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM2_ACCESS _u(0x2f)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1_STALL_UPSTREAM _u(0x30)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1_STALL_DOWNSTREAM _u(0x31)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1_ACCESS_CONTESTED _u(0x32)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM1_ACCESS _u(0x33)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0_STALL_UPSTREAM _u(0x34)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0_STALL_DOWNSTREAM _u(0x35)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0_ACCESS_CONTESTED _u(0x36)
+#define BUSCTRL_PERFSEL1_VALUE_SRAM0_ACCESS _u(0x37)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN1_STALL_UPSTREAM _u(0x38)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN1_STALL_DOWNSTREAM _u(0x39)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN1_ACCESS_CONTESTED _u(0x3a)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN1_ACCESS _u(0x3b)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN0_STALL_UPSTREAM _u(0x3c)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN0_STALL_DOWNSTREAM _u(0x3d)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN0_ACCESS_CONTESTED _u(0x3e)
+#define BUSCTRL_PERFSEL1_VALUE_XIP_MAIN0_ACCESS _u(0x3f)
+#define BUSCTRL_PERFSEL1_VALUE_ROM_STALL_UPSTREAM _u(0x40)
+#define BUSCTRL_PERFSEL1_VALUE_ROM_STALL_DOWNSTREAM _u(0x41)
+#define BUSCTRL_PERFSEL1_VALUE_ROM_ACCESS_CONTESTED _u(0x42)
+#define BUSCTRL_PERFSEL1_VALUE_ROM_ACCESS _u(0x43)
+// =============================================================================
+// Register    : BUSCTRL_PERFCTR2
+// Description : Bus fabric performance counter 2
+//               Busfabric saturating performance counter 2
+//               Count some event signal from the busfabric arbiters, if
+//               PERFCTR_EN is set.
+//               Write any value to clear. Select an event to count using
+//               PERFSEL2
+#define BUSCTRL_PERFCTR2_OFFSET _u(0x0000001c)
+#define BUSCTRL_PERFCTR2_BITS   _u(0x00ffffff)
+#define BUSCTRL_PERFCTR2_RESET  _u(0x00000000)
+#define BUSCTRL_PERFCTR2_MSB    _u(23)
+#define BUSCTRL_PERFCTR2_LSB    _u(0)
+#define BUSCTRL_PERFCTR2_ACCESS "WC"
+// =============================================================================
+// Register    : BUSCTRL_PERFSEL2
+// Description : Bus fabric performance event select for PERFCTR2
+//               Select an event for PERFCTR2. For each downstream port of the
+//               main crossbar, four events are available: ACCESS, an access
+//               took place; ACCESS_CONTESTED, an access took place that
+//               previously stalled due to contention from other masters;
+//               STALL_DOWNSTREAM, count cycles where any master stalled due to
+//               a stall on the downstream bus; STALL_UPSTREAM, count cycles
+//               where any master stalled for any reason, including contention
+//               from other masters.
+//               0x00 -> siob_proc1_stall_upstream
+//               0x01 -> siob_proc1_stall_downstream
+//               0x02 -> siob_proc1_access_contested
+//               0x03 -> siob_proc1_access
+//               0x04 -> siob_proc0_stall_upstream
+//               0x05 -> siob_proc0_stall_downstream
+//               0x06 -> siob_proc0_access_contested
+//               0x07 -> siob_proc0_access
+//               0x08 -> apb_stall_upstream
+//               0x09 -> apb_stall_downstream
+//               0x0a -> apb_access_contested
+//               0x0b -> apb_access
+//               0x0c -> fastperi_stall_upstream
+//               0x0d -> fastperi_stall_downstream
+//               0x0e -> fastperi_access_contested
+//               0x0f -> fastperi_access
+//               0x10 -> sram9_stall_upstream
+//               0x11 -> sram9_stall_downstream
+//               0x12 -> sram9_access_contested
+//               0x13 -> sram9_access
+//               0x14 -> sram8_stall_upstream
+//               0x15 -> sram8_stall_downstream
+//               0x16 -> sram8_access_contested
+//               0x17 -> sram8_access
+//               0x18 -> sram7_stall_upstream
+//               0x19 -> sram7_stall_downstream
+//               0x1a -> sram7_access_contested
+//               0x1b -> sram7_access
+//               0x1c -> sram6_stall_upstream
+//               0x1d -> sram6_stall_downstream
+//               0x1e -> sram6_access_contested
+//               0x1f -> sram6_access
+//               0x20 -> sram5_stall_upstream
+//               0x21 -> sram5_stall_downstream
+//               0x22 -> sram5_access_contested
+//               0x23 -> sram5_access
+//               0x24 -> sram4_stall_upstream
+//               0x25 -> sram4_stall_downstream
+//               0x26 -> sram4_access_contested
+//               0x27 -> sram4_access
+//               0x28 -> sram3_stall_upstream
+//               0x29 -> sram3_stall_downstream
+//               0x2a -> sram3_access_contested
+//               0x2b -> sram3_access
+//               0x2c -> sram2_stall_upstream
+//               0x2d -> sram2_stall_downstream
+//               0x2e -> sram2_access_contested
+//               0x2f -> sram2_access
+//               0x30 -> sram1_stall_upstream
+//               0x31 -> sram1_stall_downstream
+//               0x32 -> sram1_access_contested
+//               0x33 -> sram1_access
+//               0x34 -> sram0_stall_upstream
+//               0x35 -> sram0_stall_downstream
+//               0x36 -> sram0_access_contested
+//               0x37 -> sram0_access
+//               0x38 -> xip_main1_stall_upstream
+//               0x39 -> xip_main1_stall_downstream
+//               0x3a -> xip_main1_access_contested
+//               0x3b -> xip_main1_access
+//               0x3c -> xip_main0_stall_upstream
+//               0x3d -> xip_main0_stall_downstream
+//               0x3e -> xip_main0_access_contested
+//               0x3f -> xip_main0_access
+//               0x40 -> rom_stall_upstream
+//               0x41 -> rom_stall_downstream
+//               0x42 -> rom_access_contested
+//               0x43 -> rom_access
+#define BUSCTRL_PERFSEL2_OFFSET _u(0x00000020)
+#define BUSCTRL_PERFSEL2_BITS   _u(0x0000007f)
+#define BUSCTRL_PERFSEL2_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL2_MSB    _u(6)
+#define BUSCTRL_PERFSEL2_LSB    _u(0)
+#define BUSCTRL_PERFSEL2_ACCESS "RW"
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC1_STALL_UPSTREAM _u(0x00)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC1_STALL_DOWNSTREAM _u(0x01)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC1_ACCESS_CONTESTED _u(0x02)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC1_ACCESS _u(0x03)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC0_STALL_UPSTREAM _u(0x04)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC0_STALL_DOWNSTREAM _u(0x05)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC0_ACCESS_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL2_VALUE_SIOB_PROC0_ACCESS _u(0x07)
+#define BUSCTRL_PERFSEL2_VALUE_APB_STALL_UPSTREAM _u(0x08)
+#define BUSCTRL_PERFSEL2_VALUE_APB_STALL_DOWNSTREAM _u(0x09)
+#define BUSCTRL_PERFSEL2_VALUE_APB_ACCESS_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL2_VALUE_APB_ACCESS _u(0x0b)
+#define BUSCTRL_PERFSEL2_VALUE_FASTPERI_STALL_UPSTREAM _u(0x0c)
+#define BUSCTRL_PERFSEL2_VALUE_FASTPERI_STALL_DOWNSTREAM _u(0x0d)
+#define BUSCTRL_PERFSEL2_VALUE_FASTPERI_ACCESS_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL2_VALUE_FASTPERI_ACCESS _u(0x0f)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM9_STALL_UPSTREAM _u(0x10)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM9_STALL_DOWNSTREAM _u(0x11)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM9_ACCESS_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM9_ACCESS _u(0x13)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM8_STALL_UPSTREAM _u(0x14)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM8_STALL_DOWNSTREAM _u(0x15)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM8_ACCESS_CONTESTED _u(0x16)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM8_ACCESS _u(0x17)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM7_STALL_UPSTREAM _u(0x18)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM7_STALL_DOWNSTREAM _u(0x19)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM7_ACCESS_CONTESTED _u(0x1a)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM7_ACCESS _u(0x1b)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM6_STALL_UPSTREAM _u(0x1c)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM6_STALL_DOWNSTREAM _u(0x1d)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM6_ACCESS_CONTESTED _u(0x1e)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM6_ACCESS _u(0x1f)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5_STALL_UPSTREAM _u(0x20)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5_STALL_DOWNSTREAM _u(0x21)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5_ACCESS_CONTESTED _u(0x22)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM5_ACCESS _u(0x23)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4_STALL_UPSTREAM _u(0x24)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4_STALL_DOWNSTREAM _u(0x25)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4_ACCESS_CONTESTED _u(0x26)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM4_ACCESS _u(0x27)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3_STALL_UPSTREAM _u(0x28)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3_STALL_DOWNSTREAM _u(0x29)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3_ACCESS_CONTESTED _u(0x2a)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM3_ACCESS _u(0x2b)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2_STALL_UPSTREAM _u(0x2c)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2_STALL_DOWNSTREAM _u(0x2d)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2_ACCESS_CONTESTED _u(0x2e)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM2_ACCESS _u(0x2f)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1_STALL_UPSTREAM _u(0x30)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1_STALL_DOWNSTREAM _u(0x31)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1_ACCESS_CONTESTED _u(0x32)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM1_ACCESS _u(0x33)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0_STALL_UPSTREAM _u(0x34)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0_STALL_DOWNSTREAM _u(0x35)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0_ACCESS_CONTESTED _u(0x36)
+#define BUSCTRL_PERFSEL2_VALUE_SRAM0_ACCESS _u(0x37)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN1_STALL_UPSTREAM _u(0x38)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN1_STALL_DOWNSTREAM _u(0x39)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN1_ACCESS_CONTESTED _u(0x3a)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN1_ACCESS _u(0x3b)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN0_STALL_UPSTREAM _u(0x3c)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN0_STALL_DOWNSTREAM _u(0x3d)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN0_ACCESS_CONTESTED _u(0x3e)
+#define BUSCTRL_PERFSEL2_VALUE_XIP_MAIN0_ACCESS _u(0x3f)
+#define BUSCTRL_PERFSEL2_VALUE_ROM_STALL_UPSTREAM _u(0x40)
+#define BUSCTRL_PERFSEL2_VALUE_ROM_STALL_DOWNSTREAM _u(0x41)
+#define BUSCTRL_PERFSEL2_VALUE_ROM_ACCESS_CONTESTED _u(0x42)
+#define BUSCTRL_PERFSEL2_VALUE_ROM_ACCESS _u(0x43)
+// =============================================================================
+// Register    : BUSCTRL_PERFCTR3
+// Description : Bus fabric performance counter 3
+//               Busfabric saturating performance counter 3
+//               Count some event signal from the busfabric arbiters, if
+//               PERFCTR_EN is set.
+//               Write any value to clear. Select an event to count using
+//               PERFSEL3
+#define BUSCTRL_PERFCTR3_OFFSET _u(0x00000024)
+#define BUSCTRL_PERFCTR3_BITS   _u(0x00ffffff)
+#define BUSCTRL_PERFCTR3_RESET  _u(0x00000000)
+#define BUSCTRL_PERFCTR3_MSB    _u(23)
+#define BUSCTRL_PERFCTR3_LSB    _u(0)
+#define BUSCTRL_PERFCTR3_ACCESS "WC"
+// =============================================================================
+// Register    : BUSCTRL_PERFSEL3
+// Description : Bus fabric performance event select for PERFCTR3
+//               Select an event for PERFCTR3. For each downstream port of the
+//               main crossbar, four events are available: ACCESS, an access
+//               took place; ACCESS_CONTESTED, an access took place that
+//               previously stalled due to contention from other masters;
+//               STALL_DOWNSTREAM, count cycles where any master stalled due to
+//               a stall on the downstream bus; STALL_UPSTREAM, count cycles
+//               where any master stalled for any reason, including contention
+//               from other masters.
+//               0x00 -> siob_proc1_stall_upstream
+//               0x01 -> siob_proc1_stall_downstream
+//               0x02 -> siob_proc1_access_contested
+//               0x03 -> siob_proc1_access
+//               0x04 -> siob_proc0_stall_upstream
+//               0x05 -> siob_proc0_stall_downstream
+//               0x06 -> siob_proc0_access_contested
+//               0x07 -> siob_proc0_access
+//               0x08 -> apb_stall_upstream
+//               0x09 -> apb_stall_downstream
+//               0x0a -> apb_access_contested
+//               0x0b -> apb_access
+//               0x0c -> fastperi_stall_upstream
+//               0x0d -> fastperi_stall_downstream
+//               0x0e -> fastperi_access_contested
+//               0x0f -> fastperi_access
+//               0x10 -> sram9_stall_upstream
+//               0x11 -> sram9_stall_downstream
+//               0x12 -> sram9_access_contested
+//               0x13 -> sram9_access
+//               0x14 -> sram8_stall_upstream
+//               0x15 -> sram8_stall_downstream
+//               0x16 -> sram8_access_contested
+//               0x17 -> sram8_access
+//               0x18 -> sram7_stall_upstream
+//               0x19 -> sram7_stall_downstream
+//               0x1a -> sram7_access_contested
+//               0x1b -> sram7_access
+//               0x1c -> sram6_stall_upstream
+//               0x1d -> sram6_stall_downstream
+//               0x1e -> sram6_access_contested
+//               0x1f -> sram6_access
+//               0x20 -> sram5_stall_upstream
+//               0x21 -> sram5_stall_downstream
+//               0x22 -> sram5_access_contested
+//               0x23 -> sram5_access
+//               0x24 -> sram4_stall_upstream
+//               0x25 -> sram4_stall_downstream
+//               0x26 -> sram4_access_contested
+//               0x27 -> sram4_access
+//               0x28 -> sram3_stall_upstream
+//               0x29 -> sram3_stall_downstream
+//               0x2a -> sram3_access_contested
+//               0x2b -> sram3_access
+//               0x2c -> sram2_stall_upstream
+//               0x2d -> sram2_stall_downstream
+//               0x2e -> sram2_access_contested
+//               0x2f -> sram2_access
+//               0x30 -> sram1_stall_upstream
+//               0x31 -> sram1_stall_downstream
+//               0x32 -> sram1_access_contested
+//               0x33 -> sram1_access
+//               0x34 -> sram0_stall_upstream
+//               0x35 -> sram0_stall_downstream
+//               0x36 -> sram0_access_contested
+//               0x37 -> sram0_access
+//               0x38 -> xip_main1_stall_upstream
+//               0x39 -> xip_main1_stall_downstream
+//               0x3a -> xip_main1_access_contested
+//               0x3b -> xip_main1_access
+//               0x3c -> xip_main0_stall_upstream
+//               0x3d -> xip_main0_stall_downstream
+//               0x3e -> xip_main0_access_contested
+//               0x3f -> xip_main0_access
+//               0x40 -> rom_stall_upstream
+//               0x41 -> rom_stall_downstream
+//               0x42 -> rom_access_contested
+//               0x43 -> rom_access
+#define BUSCTRL_PERFSEL3_OFFSET _u(0x00000028)
+#define BUSCTRL_PERFSEL3_BITS   _u(0x0000007f)
+#define BUSCTRL_PERFSEL3_RESET  _u(0x0000001f)
+#define BUSCTRL_PERFSEL3_MSB    _u(6)
+#define BUSCTRL_PERFSEL3_LSB    _u(0)
+#define BUSCTRL_PERFSEL3_ACCESS "RW"
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC1_STALL_UPSTREAM _u(0x00)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC1_STALL_DOWNSTREAM _u(0x01)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC1_ACCESS_CONTESTED _u(0x02)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC1_ACCESS _u(0x03)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC0_STALL_UPSTREAM _u(0x04)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC0_STALL_DOWNSTREAM _u(0x05)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC0_ACCESS_CONTESTED _u(0x06)
+#define BUSCTRL_PERFSEL3_VALUE_SIOB_PROC0_ACCESS _u(0x07)
+#define BUSCTRL_PERFSEL3_VALUE_APB_STALL_UPSTREAM _u(0x08)
+#define BUSCTRL_PERFSEL3_VALUE_APB_STALL_DOWNSTREAM _u(0x09)
+#define BUSCTRL_PERFSEL3_VALUE_APB_ACCESS_CONTESTED _u(0x0a)
+#define BUSCTRL_PERFSEL3_VALUE_APB_ACCESS _u(0x0b)
+#define BUSCTRL_PERFSEL3_VALUE_FASTPERI_STALL_UPSTREAM _u(0x0c)
+#define BUSCTRL_PERFSEL3_VALUE_FASTPERI_STALL_DOWNSTREAM _u(0x0d)
+#define BUSCTRL_PERFSEL3_VALUE_FASTPERI_ACCESS_CONTESTED _u(0x0e)
+#define BUSCTRL_PERFSEL3_VALUE_FASTPERI_ACCESS _u(0x0f)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM9_STALL_UPSTREAM _u(0x10)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM9_STALL_DOWNSTREAM _u(0x11)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM9_ACCESS_CONTESTED _u(0x12)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM9_ACCESS _u(0x13)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM8_STALL_UPSTREAM _u(0x14)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM8_STALL_DOWNSTREAM _u(0x15)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM8_ACCESS_CONTESTED _u(0x16)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM8_ACCESS _u(0x17)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM7_STALL_UPSTREAM _u(0x18)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM7_STALL_DOWNSTREAM _u(0x19)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM7_ACCESS_CONTESTED _u(0x1a)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM7_ACCESS _u(0x1b)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM6_STALL_UPSTREAM _u(0x1c)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM6_STALL_DOWNSTREAM _u(0x1d)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM6_ACCESS_CONTESTED _u(0x1e)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM6_ACCESS _u(0x1f)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5_STALL_UPSTREAM _u(0x20)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5_STALL_DOWNSTREAM _u(0x21)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5_ACCESS_CONTESTED _u(0x22)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM5_ACCESS _u(0x23)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4_STALL_UPSTREAM _u(0x24)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4_STALL_DOWNSTREAM _u(0x25)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4_ACCESS_CONTESTED _u(0x26)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM4_ACCESS _u(0x27)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3_STALL_UPSTREAM _u(0x28)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3_STALL_DOWNSTREAM _u(0x29)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3_ACCESS_CONTESTED _u(0x2a)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM3_ACCESS _u(0x2b)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2_STALL_UPSTREAM _u(0x2c)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2_STALL_DOWNSTREAM _u(0x2d)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2_ACCESS_CONTESTED _u(0x2e)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM2_ACCESS _u(0x2f)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1_STALL_UPSTREAM _u(0x30)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1_STALL_DOWNSTREAM _u(0x31)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1_ACCESS_CONTESTED _u(0x32)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM1_ACCESS _u(0x33)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0_STALL_UPSTREAM _u(0x34)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0_STALL_DOWNSTREAM _u(0x35)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0_ACCESS_CONTESTED _u(0x36)
+#define BUSCTRL_PERFSEL3_VALUE_SRAM0_ACCESS _u(0x37)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN1_STALL_UPSTREAM _u(0x38)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN1_STALL_DOWNSTREAM _u(0x39)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN1_ACCESS_CONTESTED _u(0x3a)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN1_ACCESS _u(0x3b)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN0_STALL_UPSTREAM _u(0x3c)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN0_STALL_DOWNSTREAM _u(0x3d)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN0_ACCESS_CONTESTED _u(0x3e)
+#define BUSCTRL_PERFSEL3_VALUE_XIP_MAIN0_ACCESS _u(0x3f)
+#define BUSCTRL_PERFSEL3_VALUE_ROM_STALL_UPSTREAM _u(0x40)
+#define BUSCTRL_PERFSEL3_VALUE_ROM_STALL_DOWNSTREAM _u(0x41)
+#define BUSCTRL_PERFSEL3_VALUE_ROM_ACCESS_CONTESTED _u(0x42)
+#define BUSCTRL_PERFSEL3_VALUE_ROM_ACCESS _u(0x43)
+// =============================================================================
+#endif // _HARDWARE_REGS_BUSCTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/clocks.h b/lib/pico-sdk/rp2350/hardware/regs/clocks.h
new file mode 100644
index 0000000..fd560c9
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/clocks.h
@@ -0,0 +1,2764 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : CLOCKS
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_CLOCKS_H
+#define _HARDWARE_REGS_CLOCKS_H
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT0_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_GPOUT0_CTRL_OFFSET _u(0x00000000)
+#define CLOCKS_CLK_GPOUT0_CTRL_BITS   _u(0x10131de0)
+#define CLOCKS_CLK_GPOUT0_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_GPOUT0_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_GPOUT0_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_GPOUT0_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_GPOUT0_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_GPOUT0_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_GPOUT0_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_GPOUT0_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT0_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_DC50
+// Description : Enables duty cycle correction for odd divisors, can be changed
+//               on-the-fly
+#define CLOCKS_CLK_GPOUT0_CTRL_DC50_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_DC50_BITS   _u(0x00001000)
+#define CLOCKS_CLK_GPOUT0_CTRL_DC50_MSB    _u(12)
+#define CLOCKS_CLK_GPOUT0_CTRL_DC50_LSB    _u(12)
+#define CLOCKS_CLK_GPOUT0_CTRL_DC50_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_GPOUT0_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_GPOUT0_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_GPOUT0_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_GPOUT0_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_GPOUT0_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_sys
+//               0x1 -> clksrc_gpin0
+//               0x2 -> clksrc_gpin1
+//               0x3 -> clksrc_pll_usb
+//               0x4 -> clksrc_pll_usb_primary_ref_opcg
+//               0x5 -> rosc_clksrc
+//               0x6 -> xosc_clksrc
+//               0x7 -> lposc_clksrc
+//               0x8 -> clk_sys
+//               0x9 -> clk_usb
+//               0xa -> clk_adc
+//               0xb -> clk_ref
+//               0xc -> clk_peri
+//               0xd -> clk_hstx
+//               0xe -> otp_clk2fc
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB_PRIMARY_REF_OPCG _u(0x4)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x6)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_LPOSC_CLKSRC _u(0x7)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x8)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_USB _u(0x9)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_ADC _u(0xa)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_REF _u(0xb)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_PERI _u(0xc)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_CLK_HSTX _u(0xd)
+#define CLOCKS_CLK_GPOUT0_CTRL_AUXSRC_VALUE_OTP_CLK2FC _u(0xe)
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT0_DIV
+#define CLOCKS_CLK_GPOUT0_DIV_OFFSET _u(0x00000004)
+#define CLOCKS_CLK_GPOUT0_DIV_BITS   _u(0xffffffff)
+#define CLOCKS_CLK_GPOUT0_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_GPOUT0_DIV_INT_RESET  _u(0x0001)
+#define CLOCKS_CLK_GPOUT0_DIV_INT_BITS   _u(0xffff0000)
+#define CLOCKS_CLK_GPOUT0_DIV_INT_MSB    _u(31)
+#define CLOCKS_CLK_GPOUT0_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT0_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT0_DIV_FRAC
+// Description : Fractional component of the divisor, can be changed on-the-fly
+#define CLOCKS_CLK_GPOUT0_DIV_FRAC_RESET  _u(0x0000)
+#define CLOCKS_CLK_GPOUT0_DIV_FRAC_BITS   _u(0x0000ffff)
+#define CLOCKS_CLK_GPOUT0_DIV_FRAC_MSB    _u(15)
+#define CLOCKS_CLK_GPOUT0_DIV_FRAC_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT0_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT0_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_GPOUT0_SELECTED_OFFSET _u(0x00000008)
+#define CLOCKS_CLK_GPOUT0_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_GPOUT0_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_GPOUT0_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_GPOUT0_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT0_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT1_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_GPOUT1_CTRL_OFFSET _u(0x0000000c)
+#define CLOCKS_CLK_GPOUT1_CTRL_BITS   _u(0x10131de0)
+#define CLOCKS_CLK_GPOUT1_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_GPOUT1_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_GPOUT1_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_GPOUT1_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_GPOUT1_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_GPOUT1_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_GPOUT1_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_GPOUT1_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT1_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_DC50
+// Description : Enables duty cycle correction for odd divisors, can be changed
+//               on-the-fly
+#define CLOCKS_CLK_GPOUT1_CTRL_DC50_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_DC50_BITS   _u(0x00001000)
+#define CLOCKS_CLK_GPOUT1_CTRL_DC50_MSB    _u(12)
+#define CLOCKS_CLK_GPOUT1_CTRL_DC50_LSB    _u(12)
+#define CLOCKS_CLK_GPOUT1_CTRL_DC50_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_GPOUT1_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_GPOUT1_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_GPOUT1_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_GPOUT1_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_GPOUT1_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_sys
+//               0x1 -> clksrc_gpin0
+//               0x2 -> clksrc_gpin1
+//               0x3 -> clksrc_pll_usb
+//               0x4 -> clksrc_pll_usb_primary_ref_opcg
+//               0x5 -> rosc_clksrc
+//               0x6 -> xosc_clksrc
+//               0x7 -> lposc_clksrc
+//               0x8 -> clk_sys
+//               0x9 -> clk_usb
+//               0xa -> clk_adc
+//               0xb -> clk_ref
+//               0xc -> clk_peri
+//               0xd -> clk_hstx
+//               0xe -> otp_clk2fc
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB_PRIMARY_REF_OPCG _u(0x4)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x5)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x6)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_LPOSC_CLKSRC _u(0x7)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x8)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_USB _u(0x9)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_ADC _u(0xa)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_REF _u(0xb)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_PERI _u(0xc)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_CLK_HSTX _u(0xd)
+#define CLOCKS_CLK_GPOUT1_CTRL_AUXSRC_VALUE_OTP_CLK2FC _u(0xe)
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT1_DIV
+#define CLOCKS_CLK_GPOUT1_DIV_OFFSET _u(0x00000010)
+#define CLOCKS_CLK_GPOUT1_DIV_BITS   _u(0xffffffff)
+#define CLOCKS_CLK_GPOUT1_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_GPOUT1_DIV_INT_RESET  _u(0x0001)
+#define CLOCKS_CLK_GPOUT1_DIV_INT_BITS   _u(0xffff0000)
+#define CLOCKS_CLK_GPOUT1_DIV_INT_MSB    _u(31)
+#define CLOCKS_CLK_GPOUT1_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT1_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT1_DIV_FRAC
+// Description : Fractional component of the divisor, can be changed on-the-fly
+#define CLOCKS_CLK_GPOUT1_DIV_FRAC_RESET  _u(0x0000)
+#define CLOCKS_CLK_GPOUT1_DIV_FRAC_BITS   _u(0x0000ffff)
+#define CLOCKS_CLK_GPOUT1_DIV_FRAC_MSB    _u(15)
+#define CLOCKS_CLK_GPOUT1_DIV_FRAC_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT1_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT1_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_GPOUT1_SELECTED_OFFSET _u(0x00000014)
+#define CLOCKS_CLK_GPOUT1_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_GPOUT1_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_GPOUT1_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_GPOUT1_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT1_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT2_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_GPOUT2_CTRL_OFFSET _u(0x00000018)
+#define CLOCKS_CLK_GPOUT2_CTRL_BITS   _u(0x10131de0)
+#define CLOCKS_CLK_GPOUT2_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_GPOUT2_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_GPOUT2_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_GPOUT2_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_GPOUT2_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_GPOUT2_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_GPOUT2_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_GPOUT2_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT2_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_DC50
+// Description : Enables duty cycle correction for odd divisors, can be changed
+//               on-the-fly
+#define CLOCKS_CLK_GPOUT2_CTRL_DC50_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_DC50_BITS   _u(0x00001000)
+#define CLOCKS_CLK_GPOUT2_CTRL_DC50_MSB    _u(12)
+#define CLOCKS_CLK_GPOUT2_CTRL_DC50_LSB    _u(12)
+#define CLOCKS_CLK_GPOUT2_CTRL_DC50_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_GPOUT2_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_GPOUT2_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_GPOUT2_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_GPOUT2_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_GPOUT2_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_sys
+//               0x1 -> clksrc_gpin0
+//               0x2 -> clksrc_gpin1
+//               0x3 -> clksrc_pll_usb
+//               0x4 -> clksrc_pll_usb_primary_ref_opcg
+//               0x5 -> rosc_clksrc_ph
+//               0x6 -> xosc_clksrc
+//               0x7 -> lposc_clksrc
+//               0x8 -> clk_sys
+//               0x9 -> clk_usb
+//               0xa -> clk_adc
+//               0xb -> clk_ref
+//               0xc -> clk_peri
+//               0xd -> clk_hstx
+//               0xe -> otp_clk2fc
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB_PRIMARY_REF_OPCG _u(0x4)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x5)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x6)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_LPOSC_CLKSRC _u(0x7)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x8)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_USB _u(0x9)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_ADC _u(0xa)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_REF _u(0xb)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_PERI _u(0xc)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_CLK_HSTX _u(0xd)
+#define CLOCKS_CLK_GPOUT2_CTRL_AUXSRC_VALUE_OTP_CLK2FC _u(0xe)
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT2_DIV
+#define CLOCKS_CLK_GPOUT2_DIV_OFFSET _u(0x0000001c)
+#define CLOCKS_CLK_GPOUT2_DIV_BITS   _u(0xffffffff)
+#define CLOCKS_CLK_GPOUT2_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_GPOUT2_DIV_INT_RESET  _u(0x0001)
+#define CLOCKS_CLK_GPOUT2_DIV_INT_BITS   _u(0xffff0000)
+#define CLOCKS_CLK_GPOUT2_DIV_INT_MSB    _u(31)
+#define CLOCKS_CLK_GPOUT2_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT2_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT2_DIV_FRAC
+// Description : Fractional component of the divisor, can be changed on-the-fly
+#define CLOCKS_CLK_GPOUT2_DIV_FRAC_RESET  _u(0x0000)
+#define CLOCKS_CLK_GPOUT2_DIV_FRAC_BITS   _u(0x0000ffff)
+#define CLOCKS_CLK_GPOUT2_DIV_FRAC_MSB    _u(15)
+#define CLOCKS_CLK_GPOUT2_DIV_FRAC_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT2_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT2_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_GPOUT2_SELECTED_OFFSET _u(0x00000020)
+#define CLOCKS_CLK_GPOUT2_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_GPOUT2_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_GPOUT2_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_GPOUT2_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT2_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT3_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_GPOUT3_CTRL_OFFSET _u(0x00000024)
+#define CLOCKS_CLK_GPOUT3_CTRL_BITS   _u(0x10131de0)
+#define CLOCKS_CLK_GPOUT3_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_GPOUT3_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_GPOUT3_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_GPOUT3_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_GPOUT3_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_GPOUT3_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_GPOUT3_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_GPOUT3_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT3_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_DC50
+// Description : Enables duty cycle correction for odd divisors, can be changed
+//               on-the-fly
+#define CLOCKS_CLK_GPOUT3_CTRL_DC50_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_DC50_BITS   _u(0x00001000)
+#define CLOCKS_CLK_GPOUT3_CTRL_DC50_MSB    _u(12)
+#define CLOCKS_CLK_GPOUT3_CTRL_DC50_LSB    _u(12)
+#define CLOCKS_CLK_GPOUT3_CTRL_DC50_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_GPOUT3_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_GPOUT3_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_GPOUT3_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_GPOUT3_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_GPOUT3_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_sys
+//               0x1 -> clksrc_gpin0
+//               0x2 -> clksrc_gpin1
+//               0x3 -> clksrc_pll_usb
+//               0x4 -> clksrc_pll_usb_primary_ref_opcg
+//               0x5 -> rosc_clksrc_ph
+//               0x6 -> xosc_clksrc
+//               0x7 -> lposc_clksrc
+//               0x8 -> clk_sys
+//               0x9 -> clk_usb
+//               0xa -> clk_adc
+//               0xb -> clk_ref
+//               0xc -> clk_peri
+//               0xd -> clk_hstx
+//               0xe -> otp_clk2fc
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_BITS   _u(0x000001e0)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_MSB    _u(8)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x3)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB_PRIMARY_REF_OPCG _u(0x4)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x5)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x6)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_LPOSC_CLKSRC _u(0x7)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x8)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_USB _u(0x9)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_ADC _u(0xa)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_REF _u(0xb)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_PERI _u(0xc)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_CLK_HSTX _u(0xd)
+#define CLOCKS_CLK_GPOUT3_CTRL_AUXSRC_VALUE_OTP_CLK2FC _u(0xe)
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT3_DIV
+#define CLOCKS_CLK_GPOUT3_DIV_OFFSET _u(0x00000028)
+#define CLOCKS_CLK_GPOUT3_DIV_BITS   _u(0xffffffff)
+#define CLOCKS_CLK_GPOUT3_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_GPOUT3_DIV_INT_RESET  _u(0x0001)
+#define CLOCKS_CLK_GPOUT3_DIV_INT_BITS   _u(0xffff0000)
+#define CLOCKS_CLK_GPOUT3_DIV_INT_MSB    _u(31)
+#define CLOCKS_CLK_GPOUT3_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_GPOUT3_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_GPOUT3_DIV_FRAC
+// Description : Fractional component of the divisor, can be changed on-the-fly
+#define CLOCKS_CLK_GPOUT3_DIV_FRAC_RESET  _u(0x0000)
+#define CLOCKS_CLK_GPOUT3_DIV_FRAC_BITS   _u(0x0000ffff)
+#define CLOCKS_CLK_GPOUT3_DIV_FRAC_MSB    _u(15)
+#define CLOCKS_CLK_GPOUT3_DIV_FRAC_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT3_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_GPOUT3_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_GPOUT3_SELECTED_OFFSET _u(0x0000002c)
+#define CLOCKS_CLK_GPOUT3_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_GPOUT3_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_GPOUT3_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_GPOUT3_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_GPOUT3_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_REF_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_REF_CTRL_OFFSET _u(0x00000030)
+#define CLOCKS_CLK_REF_CTRL_BITS   _u(0x00000063)
+#define CLOCKS_CLK_REF_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_REF_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_usb
+//               0x1 -> clksrc_gpin0
+//               0x2 -> clksrc_gpin1
+//               0x3 -> clksrc_pll_usb_primary_ref_opcg
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_BITS   _u(0x00000060)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_MSB    _u(6)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x1)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+#define CLOCKS_CLK_REF_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB_PRIMARY_REF_OPCG _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_REF_CTRL_SRC
+// Description : Selects the clock source glitchlessly, can be changed on-the-
+//               fly
+//               0x0 -> rosc_clksrc_ph
+//               0x1 -> clksrc_clk_ref_aux
+//               0x2 -> xosc_clksrc
+//               0x3 -> lposc_clksrc
+#define CLOCKS_CLK_REF_CTRL_SRC_RESET  "-"
+#define CLOCKS_CLK_REF_CTRL_SRC_BITS   _u(0x00000003)
+#define CLOCKS_CLK_REF_CTRL_SRC_MSB    _u(1)
+#define CLOCKS_CLK_REF_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_CLK_REF_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_ROSC_CLKSRC_PH _u(0x0)
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_CLKSRC_CLK_REF_AUX _u(0x1)
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_XOSC_CLKSRC _u(0x2)
+#define CLOCKS_CLK_REF_CTRL_SRC_VALUE_LPOSC_CLKSRC _u(0x3)
+// =============================================================================
+// Register    : CLOCKS_CLK_REF_DIV
+#define CLOCKS_CLK_REF_DIV_OFFSET _u(0x00000034)
+#define CLOCKS_CLK_REF_DIV_BITS   _u(0x00ff0000)
+#define CLOCKS_CLK_REF_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_REF_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_REF_DIV_INT_RESET  _u(0x01)
+#define CLOCKS_CLK_REF_DIV_INT_BITS   _u(0x00ff0000)
+#define CLOCKS_CLK_REF_DIV_INT_MSB    _u(23)
+#define CLOCKS_CLK_REF_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_REF_DIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_REF_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               The glitchless multiplexer does not switch instantaneously (to
+//               avoid glitches), so software should poll this register to wait
+//               for the switch to complete. This register contains one decoded
+//               bit for each of the clock sources enumerated in the CTRL SRC
+//               field. At most one of these bits will be set at any time,
+//               indicating that clock is currently present at the output of the
+//               glitchless mux. Whilst switching is in progress, this register
+//               may briefly show all-0s.
+#define CLOCKS_CLK_REF_SELECTED_OFFSET _u(0x00000038)
+#define CLOCKS_CLK_REF_SELECTED_BITS   _u(0x0000000f)
+#define CLOCKS_CLK_REF_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_REF_SELECTED_MSB    _u(3)
+#define CLOCKS_CLK_REF_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_REF_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_SYS_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_SYS_CTRL_OFFSET _u(0x0000003c)
+#define CLOCKS_CLK_SYS_CTRL_BITS   _u(0x000000e1)
+#define CLOCKS_CLK_SYS_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_sys
+//               0x1 -> clksrc_pll_usb
+//               0x2 -> rosc_clksrc
+//               0x3 -> xosc_clksrc
+//               0x4 -> clksrc_gpin0
+//               0x5 -> clksrc_gpin1
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x1)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_ROSC_CLKSRC _u(0x2)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_CTRL_SRC
+// Description : Selects the clock source glitchlessly, can be changed on-the-
+//               fly
+//               0x0 -> clk_ref
+//               0x1 -> clksrc_clk_sys_aux
+#define CLOCKS_CLK_SYS_CTRL_SRC_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_BITS   _u(0x00000001)
+#define CLOCKS_CLK_SYS_CTRL_SRC_MSB    _u(0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLK_REF _u(0x0)
+#define CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLKSRC_CLK_SYS_AUX _u(0x1)
+// =============================================================================
+// Register    : CLOCKS_CLK_SYS_DIV
+#define CLOCKS_CLK_SYS_DIV_OFFSET _u(0x00000040)
+#define CLOCKS_CLK_SYS_DIV_BITS   _u(0xffffffff)
+#define CLOCKS_CLK_SYS_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_SYS_DIV_INT_RESET  _u(0x0001)
+#define CLOCKS_CLK_SYS_DIV_INT_BITS   _u(0xffff0000)
+#define CLOCKS_CLK_SYS_DIV_INT_MSB    _u(31)
+#define CLOCKS_CLK_SYS_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_SYS_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_DIV_FRAC
+// Description : Fractional component of the divisor, can be changed on-the-fly
+#define CLOCKS_CLK_SYS_DIV_FRAC_RESET  _u(0x0000)
+#define CLOCKS_CLK_SYS_DIV_FRAC_BITS   _u(0x0000ffff)
+#define CLOCKS_CLK_SYS_DIV_FRAC_MSB    _u(15)
+#define CLOCKS_CLK_SYS_DIV_FRAC_LSB    _u(0)
+#define CLOCKS_CLK_SYS_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_SYS_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               The glitchless multiplexer does not switch instantaneously (to
+//               avoid glitches), so software should poll this register to wait
+//               for the switch to complete. This register contains one decoded
+//               bit for each of the clock sources enumerated in the CTRL SRC
+//               field. At most one of these bits will be set at any time,
+//               indicating that clock is currently present at the output of the
+//               glitchless mux. Whilst switching is in progress, this register
+//               may briefly show all-0s.
+#define CLOCKS_CLK_SYS_SELECTED_OFFSET _u(0x00000044)
+#define CLOCKS_CLK_SYS_SELECTED_BITS   _u(0x00000003)
+#define CLOCKS_CLK_SYS_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_SYS_SELECTED_MSB    _u(1)
+#define CLOCKS_CLK_SYS_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_SYS_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_PERI_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_PERI_CTRL_OFFSET _u(0x00000048)
+#define CLOCKS_CLK_PERI_CTRL_BITS   _u(0x10000ce0)
+#define CLOCKS_CLK_PERI_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_PERI_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_PERI_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_PERI_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_PERI_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_PERI_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_PERI_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_PERI_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_PERI_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_PERI_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_PERI_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_PERI_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_PERI_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_PERI_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_PERI_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_PERI_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_PERI_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clk_sys
+//               0x1 -> clksrc_pll_sys
+//               0x2 -> clksrc_pll_usb
+//               0x3 -> rosc_clksrc_ph
+//               0x4 -> xosc_clksrc
+//               0x5 -> clksrc_gpin0
+//               0x6 -> clksrc_gpin1
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x0)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x2)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x3)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x4)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x5)
+#define CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x6)
+// =============================================================================
+// Register    : CLOCKS_CLK_PERI_DIV
+#define CLOCKS_CLK_PERI_DIV_OFFSET _u(0x0000004c)
+#define CLOCKS_CLK_PERI_DIV_BITS   _u(0x00030000)
+#define CLOCKS_CLK_PERI_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_PERI_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_PERI_DIV_INT_RESET  _u(0x1)
+#define CLOCKS_CLK_PERI_DIV_INT_BITS   _u(0x00030000)
+#define CLOCKS_CLK_PERI_DIV_INT_MSB    _u(17)
+#define CLOCKS_CLK_PERI_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_PERI_DIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_PERI_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_PERI_SELECTED_OFFSET _u(0x00000050)
+#define CLOCKS_CLK_PERI_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_PERI_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_PERI_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_PERI_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_PERI_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_HSTX_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_HSTX_CTRL_OFFSET _u(0x00000054)
+#define CLOCKS_CLK_HSTX_CTRL_BITS   _u(0x10130ce0)
+#define CLOCKS_CLK_HSTX_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_HSTX_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_HSTX_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_HSTX_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_HSTX_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_HSTX_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_HSTX_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_HSTX_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_HSTX_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_HSTX_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_HSTX_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_HSTX_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_HSTX_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_HSTX_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_HSTX_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_HSTX_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clk_sys
+//               0x1 -> clksrc_pll_sys
+//               0x2 -> clksrc_pll_usb
+//               0x3 -> clksrc_gpin0
+//               0x4 -> clksrc_gpin1
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_VALUE_CLK_SYS _u(0x0)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x2)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x3)
+#define CLOCKS_CLK_HSTX_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x4)
+// =============================================================================
+// Register    : CLOCKS_CLK_HSTX_DIV
+#define CLOCKS_CLK_HSTX_DIV_OFFSET _u(0x00000058)
+#define CLOCKS_CLK_HSTX_DIV_BITS   _u(0x00030000)
+#define CLOCKS_CLK_HSTX_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_HSTX_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_HSTX_DIV_INT_RESET  _u(0x1)
+#define CLOCKS_CLK_HSTX_DIV_INT_BITS   _u(0x00030000)
+#define CLOCKS_CLK_HSTX_DIV_INT_MSB    _u(17)
+#define CLOCKS_CLK_HSTX_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_HSTX_DIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_HSTX_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_HSTX_SELECTED_OFFSET _u(0x0000005c)
+#define CLOCKS_CLK_HSTX_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_HSTX_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_HSTX_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_HSTX_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_HSTX_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_USB_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_USB_CTRL_OFFSET _u(0x00000060)
+#define CLOCKS_CLK_USB_CTRL_BITS   _u(0x10130ce0)
+#define CLOCKS_CLK_USB_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_USB_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_USB_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_USB_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_USB_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_USB_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_USB_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_USB_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_USB_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_USB_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_USB_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_USB_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_USB_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_USB_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_USB_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_USB_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_USB_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_USB_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_USB_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_USB_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_USB_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_usb
+//               0x1 -> clksrc_pll_sys
+//               0x2 -> rosc_clksrc_ph
+//               0x3 -> xosc_clksrc
+//               0x4 -> clksrc_gpin0
+//               0x5 -> clksrc_gpin1
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x2)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_USB_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
+// =============================================================================
+// Register    : CLOCKS_CLK_USB_DIV
+#define CLOCKS_CLK_USB_DIV_OFFSET _u(0x00000064)
+#define CLOCKS_CLK_USB_DIV_BITS   _u(0x000f0000)
+#define CLOCKS_CLK_USB_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_USB_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_USB_DIV_INT_RESET  _u(0x1)
+#define CLOCKS_CLK_USB_DIV_INT_BITS   _u(0x000f0000)
+#define CLOCKS_CLK_USB_DIV_INT_MSB    _u(19)
+#define CLOCKS_CLK_USB_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_USB_DIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_USB_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_USB_SELECTED_OFFSET _u(0x00000068)
+#define CLOCKS_CLK_USB_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_USB_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_USB_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_USB_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_USB_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_CLK_ADC_CTRL
+// Description : Clock control, can be changed on-the-fly (except for auxsrc)
+#define CLOCKS_CLK_ADC_CTRL_OFFSET _u(0x0000006c)
+#define CLOCKS_CLK_ADC_CTRL_BITS   _u(0x10130ce0)
+#define CLOCKS_CLK_ADC_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_ENABLED
+// Description : clock generator is enabled
+#define CLOCKS_CLK_ADC_CTRL_ENABLED_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_ENABLED_BITS   _u(0x10000000)
+#define CLOCKS_CLK_ADC_CTRL_ENABLED_MSB    _u(28)
+#define CLOCKS_CLK_ADC_CTRL_ENABLED_LSB    _u(28)
+#define CLOCKS_CLK_ADC_CTRL_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_NUDGE
+// Description : An edge on this signal shifts the phase of the output by 1
+//               cycle of the input clock
+//               This can be done at any time
+#define CLOCKS_CLK_ADC_CTRL_NUDGE_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_NUDGE_BITS   _u(0x00100000)
+#define CLOCKS_CLK_ADC_CTRL_NUDGE_MSB    _u(20)
+#define CLOCKS_CLK_ADC_CTRL_NUDGE_LSB    _u(20)
+#define CLOCKS_CLK_ADC_CTRL_NUDGE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_PHASE
+// Description : This delays the enable signal by up to 3 cycles of the input
+//               clock
+//               This must be set before the clock is enabled to have any effect
+#define CLOCKS_CLK_ADC_CTRL_PHASE_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_PHASE_BITS   _u(0x00030000)
+#define CLOCKS_CLK_ADC_CTRL_PHASE_MSB    _u(17)
+#define CLOCKS_CLK_ADC_CTRL_PHASE_LSB    _u(16)
+#define CLOCKS_CLK_ADC_CTRL_PHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_ENABLE
+// Description : Starts and stops the clock generator cleanly
+#define CLOCKS_CLK_ADC_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_ENABLE_BITS   _u(0x00000800)
+#define CLOCKS_CLK_ADC_CTRL_ENABLE_MSB    _u(11)
+#define CLOCKS_CLK_ADC_CTRL_ENABLE_LSB    _u(11)
+#define CLOCKS_CLK_ADC_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_KILL
+// Description : Asynchronously kills the clock generator, enable must be set
+//               low before deasserting kill
+#define CLOCKS_CLK_ADC_CTRL_KILL_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_KILL_BITS   _u(0x00000400)
+#define CLOCKS_CLK_ADC_CTRL_KILL_MSB    _u(10)
+#define CLOCKS_CLK_ADC_CTRL_KILL_LSB    _u(10)
+#define CLOCKS_CLK_ADC_CTRL_KILL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_CTRL_AUXSRC
+// Description : Selects the auxiliary clock source, will glitch when switching
+//               0x0 -> clksrc_pll_usb
+//               0x1 -> clksrc_pll_sys
+//               0x2 -> rosc_clksrc_ph
+//               0x3 -> xosc_clksrc
+//               0x4 -> clksrc_gpin0
+//               0x5 -> clksrc_gpin1
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_RESET  _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_BITS   _u(0x000000e0)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_MSB    _u(7)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_LSB    _u(5)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_ACCESS "RW"
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB _u(0x0)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS _u(0x1)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_ROSC_CLKSRC_PH _u(0x2)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_XOSC_CLKSRC _u(0x3)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN0 _u(0x4)
+#define CLOCKS_CLK_ADC_CTRL_AUXSRC_VALUE_CLKSRC_GPIN1 _u(0x5)
+// =============================================================================
+// Register    : CLOCKS_CLK_ADC_DIV
+#define CLOCKS_CLK_ADC_DIV_OFFSET _u(0x00000070)
+#define CLOCKS_CLK_ADC_DIV_BITS   _u(0x000f0000)
+#define CLOCKS_CLK_ADC_DIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_ADC_DIV_INT
+// Description : Integer part of clock divisor, 0 -> max+1, can be changed on-
+//               the-fly
+#define CLOCKS_CLK_ADC_DIV_INT_RESET  _u(0x1)
+#define CLOCKS_CLK_ADC_DIV_INT_BITS   _u(0x000f0000)
+#define CLOCKS_CLK_ADC_DIV_INT_MSB    _u(19)
+#define CLOCKS_CLK_ADC_DIV_INT_LSB    _u(16)
+#define CLOCKS_CLK_ADC_DIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_ADC_SELECTED
+// Description : Indicates which src is currently selected (one-hot)
+//               This slice does not have a glitchless mux (only the AUX_SRC
+//               field is present, not SRC) so this register is hardwired to
+//               0x1.
+#define CLOCKS_CLK_ADC_SELECTED_OFFSET _u(0x00000074)
+#define CLOCKS_CLK_ADC_SELECTED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_ADC_SELECTED_RESET  _u(0x00000001)
+#define CLOCKS_CLK_ADC_SELECTED_MSB    _u(0)
+#define CLOCKS_CLK_ADC_SELECTED_LSB    _u(0)
+#define CLOCKS_CLK_ADC_SELECTED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_DFTCLK_XOSC_CTRL
+#define CLOCKS_DFTCLK_XOSC_CTRL_OFFSET _u(0x00000078)
+#define CLOCKS_DFTCLK_XOSC_CTRL_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_XOSC_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_DFTCLK_XOSC_CTRL_SRC
+//               0x0 -> NULL
+//               0x1 -> clksrc_pll_usb_primary
+//               0x2 -> clksrc_gpin0
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_RESET  _u(0x0)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_MSB    _u(1)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_VALUE_NULL _u(0x0)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_VALUE_CLKSRC_PLL_USB_PRIMARY _u(0x1)
+#define CLOCKS_DFTCLK_XOSC_CTRL_SRC_VALUE_CLKSRC_GPIN0 _u(0x2)
+// =============================================================================
+// Register    : CLOCKS_DFTCLK_ROSC_CTRL
+#define CLOCKS_DFTCLK_ROSC_CTRL_OFFSET _u(0x0000007c)
+#define CLOCKS_DFTCLK_ROSC_CTRL_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_ROSC_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_DFTCLK_ROSC_CTRL_SRC
+//               0x0 -> NULL
+//               0x1 -> clksrc_pll_sys_primary_rosc
+//               0x2 -> clksrc_gpin1
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_RESET  _u(0x0)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_MSB    _u(1)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_VALUE_NULL _u(0x0)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_VALUE_CLKSRC_PLL_SYS_PRIMARY_ROSC _u(0x1)
+#define CLOCKS_DFTCLK_ROSC_CTRL_SRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+// =============================================================================
+// Register    : CLOCKS_DFTCLK_LPOSC_CTRL
+#define CLOCKS_DFTCLK_LPOSC_CTRL_OFFSET _u(0x00000080)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_DFTCLK_LPOSC_CTRL_SRC
+//               0x0 -> NULL
+//               0x1 -> clksrc_pll_usb_primary_lposc
+//               0x2 -> clksrc_gpin1
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_RESET  _u(0x0)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_BITS   _u(0x00000003)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_MSB    _u(1)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_LSB    _u(0)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_ACCESS "RW"
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_VALUE_NULL _u(0x0)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_VALUE_CLKSRC_PLL_USB_PRIMARY_LPOSC _u(0x1)
+#define CLOCKS_DFTCLK_LPOSC_CTRL_SRC_VALUE_CLKSRC_GPIN1 _u(0x2)
+// =============================================================================
+// Register    : CLOCKS_CLK_SYS_RESUS_CTRL
+#define CLOCKS_CLK_SYS_RESUS_CTRL_OFFSET _u(0x00000084)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_BITS   _u(0x000111ff)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_RESET  _u(0x000000ff)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR
+// Description : For clearing the resus after the fault that triggered it has
+//               been corrected
+#define CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR_BITS   _u(0x00010000)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR_MSB    _u(16)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR_LSB    _u(16)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_CLEAR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_RESUS_CTRL_FRCE
+// Description : Force a resus, for test purposes only
+#define CLOCKS_CLK_SYS_RESUS_CTRL_FRCE_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_FRCE_BITS   _u(0x00001000)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_FRCE_MSB    _u(12)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_FRCE_LSB    _u(12)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_FRCE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE
+// Description : Enable resus
+#define CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE_BITS   _u(0x00000100)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE_MSB    _u(8)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE_LSB    _u(8)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT
+// Description : This is expressed as a number of clk_ref cycles
+//               and must be >= 2x clk_ref_freq/min_clk_tst_freq
+#define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_RESET  _u(0xff)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_BITS   _u(0x000000ff)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_MSB    _u(7)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_LSB    _u(0)
+#define CLOCKS_CLK_SYS_RESUS_CTRL_TIMEOUT_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_CLK_SYS_RESUS_STATUS
+#define CLOCKS_CLK_SYS_RESUS_STATUS_OFFSET _u(0x00000088)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_BITS   _u(0x00000001)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED
+// Description : Clock has been resuscitated, correct the error then send
+//               ctrl_clear=1
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED_RESET  _u(0x0)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED_BITS   _u(0x00000001)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED_MSB    _u(0)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED_LSB    _u(0)
+#define CLOCKS_CLK_SYS_RESUS_STATUS_RESUSSED_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_FC0_REF_KHZ
+// Description : Reference clock frequency in kHz
+#define CLOCKS_FC0_REF_KHZ_OFFSET _u(0x0000008c)
+#define CLOCKS_FC0_REF_KHZ_BITS   _u(0x000fffff)
+#define CLOCKS_FC0_REF_KHZ_RESET  _u(0x00000000)
+#define CLOCKS_FC0_REF_KHZ_MSB    _u(19)
+#define CLOCKS_FC0_REF_KHZ_LSB    _u(0)
+#define CLOCKS_FC0_REF_KHZ_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_FC0_MIN_KHZ
+// Description : Minimum pass frequency in kHz. This is optional. Set to 0 if
+//               you are not using the pass/fail flags
+#define CLOCKS_FC0_MIN_KHZ_OFFSET _u(0x00000090)
+#define CLOCKS_FC0_MIN_KHZ_BITS   _u(0x01ffffff)
+#define CLOCKS_FC0_MIN_KHZ_RESET  _u(0x00000000)
+#define CLOCKS_FC0_MIN_KHZ_MSB    _u(24)
+#define CLOCKS_FC0_MIN_KHZ_LSB    _u(0)
+#define CLOCKS_FC0_MIN_KHZ_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_FC0_MAX_KHZ
+// Description : Maximum pass frequency in kHz. This is optional. Set to
+//               0x1ffffff if you are not using the pass/fail flags
+#define CLOCKS_FC0_MAX_KHZ_OFFSET _u(0x00000094)
+#define CLOCKS_FC0_MAX_KHZ_BITS   _u(0x01ffffff)
+#define CLOCKS_FC0_MAX_KHZ_RESET  _u(0x01ffffff)
+#define CLOCKS_FC0_MAX_KHZ_MSB    _u(24)
+#define CLOCKS_FC0_MAX_KHZ_LSB    _u(0)
+#define CLOCKS_FC0_MAX_KHZ_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_FC0_DELAY
+// Description : Delays the start of frequency counting to allow the mux to
+//               settle
+//               Delay is measured in multiples of the reference clock period
+#define CLOCKS_FC0_DELAY_OFFSET _u(0x00000098)
+#define CLOCKS_FC0_DELAY_BITS   _u(0x00000007)
+#define CLOCKS_FC0_DELAY_RESET  _u(0x00000001)
+#define CLOCKS_FC0_DELAY_MSB    _u(2)
+#define CLOCKS_FC0_DELAY_LSB    _u(0)
+#define CLOCKS_FC0_DELAY_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_FC0_INTERVAL
+// Description : The test interval is 0.98us * 2**interval, but let's call it
+//               1us * 2**interval
+//               The default gives a test interval of 250us
+#define CLOCKS_FC0_INTERVAL_OFFSET _u(0x0000009c)
+#define CLOCKS_FC0_INTERVAL_BITS   _u(0x0000000f)
+#define CLOCKS_FC0_INTERVAL_RESET  _u(0x00000008)
+#define CLOCKS_FC0_INTERVAL_MSB    _u(3)
+#define CLOCKS_FC0_INTERVAL_LSB    _u(0)
+#define CLOCKS_FC0_INTERVAL_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_FC0_SRC
+// Description : Clock sent to frequency counter, set to 0 when not required
+//               Writing to this register initiates the frequency count
+//               0x00 -> NULL
+//               0x01 -> pll_sys_clksrc_primary
+//               0x02 -> pll_usb_clksrc_primary
+//               0x03 -> rosc_clksrc
+//               0x04 -> rosc_clksrc_ph
+//               0x05 -> xosc_clksrc
+//               0x06 -> clksrc_gpin0
+//               0x07 -> clksrc_gpin1
+//               0x08 -> clk_ref
+//               0x09 -> clk_sys
+//               0x0a -> clk_peri
+//               0x0b -> clk_usb
+//               0x0c -> clk_adc
+//               0x0d -> clk_hstx
+//               0x0e -> lposc_clksrc
+//               0x0f -> otp_clk2fc
+//               0x10 -> pll_usb_clksrc_primary_dft
+#define CLOCKS_FC0_SRC_OFFSET _u(0x000000a0)
+#define CLOCKS_FC0_SRC_BITS   _u(0x000000ff)
+#define CLOCKS_FC0_SRC_RESET  _u(0x00000000)
+#define CLOCKS_FC0_SRC_MSB    _u(7)
+#define CLOCKS_FC0_SRC_LSB    _u(0)
+#define CLOCKS_FC0_SRC_ACCESS "RW"
+#define CLOCKS_FC0_SRC_VALUE_NULL _u(0x00)
+#define CLOCKS_FC0_SRC_VALUE_PLL_SYS_CLKSRC_PRIMARY _u(0x01)
+#define CLOCKS_FC0_SRC_VALUE_PLL_USB_CLKSRC_PRIMARY _u(0x02)
+#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC _u(0x03)
+#define CLOCKS_FC0_SRC_VALUE_ROSC_CLKSRC_PH _u(0x04)
+#define CLOCKS_FC0_SRC_VALUE_XOSC_CLKSRC _u(0x05)
+#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN0 _u(0x06)
+#define CLOCKS_FC0_SRC_VALUE_CLKSRC_GPIN1 _u(0x07)
+#define CLOCKS_FC0_SRC_VALUE_CLK_REF _u(0x08)
+#define CLOCKS_FC0_SRC_VALUE_CLK_SYS _u(0x09)
+#define CLOCKS_FC0_SRC_VALUE_CLK_PERI _u(0x0a)
+#define CLOCKS_FC0_SRC_VALUE_CLK_USB _u(0x0b)
+#define CLOCKS_FC0_SRC_VALUE_CLK_ADC _u(0x0c)
+#define CLOCKS_FC0_SRC_VALUE_CLK_HSTX _u(0x0d)
+#define CLOCKS_FC0_SRC_VALUE_LPOSC_CLKSRC _u(0x0e)
+#define CLOCKS_FC0_SRC_VALUE_OTP_CLK2FC _u(0x0f)
+#define CLOCKS_FC0_SRC_VALUE_PLL_USB_CLKSRC_PRIMARY_DFT _u(0x10)
+// =============================================================================
+// Register    : CLOCKS_FC0_STATUS
+// Description : Frequency counter status
+#define CLOCKS_FC0_STATUS_OFFSET _u(0x000000a4)
+#define CLOCKS_FC0_STATUS_BITS   _u(0x11111111)
+#define CLOCKS_FC0_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_DIED
+// Description : Test clock stopped during test
+#define CLOCKS_FC0_STATUS_DIED_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_DIED_BITS   _u(0x10000000)
+#define CLOCKS_FC0_STATUS_DIED_MSB    _u(28)
+#define CLOCKS_FC0_STATUS_DIED_LSB    _u(28)
+#define CLOCKS_FC0_STATUS_DIED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_FAST
+// Description : Test clock faster than expected, only valid when status_done=1
+#define CLOCKS_FC0_STATUS_FAST_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_FAST_BITS   _u(0x01000000)
+#define CLOCKS_FC0_STATUS_FAST_MSB    _u(24)
+#define CLOCKS_FC0_STATUS_FAST_LSB    _u(24)
+#define CLOCKS_FC0_STATUS_FAST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_SLOW
+// Description : Test clock slower than expected, only valid when status_done=1
+#define CLOCKS_FC0_STATUS_SLOW_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_SLOW_BITS   _u(0x00100000)
+#define CLOCKS_FC0_STATUS_SLOW_MSB    _u(20)
+#define CLOCKS_FC0_STATUS_SLOW_LSB    _u(20)
+#define CLOCKS_FC0_STATUS_SLOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_FAIL
+// Description : Test failed
+#define CLOCKS_FC0_STATUS_FAIL_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_FAIL_BITS   _u(0x00010000)
+#define CLOCKS_FC0_STATUS_FAIL_MSB    _u(16)
+#define CLOCKS_FC0_STATUS_FAIL_LSB    _u(16)
+#define CLOCKS_FC0_STATUS_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_WAITING
+// Description : Waiting for test clock to start
+#define CLOCKS_FC0_STATUS_WAITING_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_WAITING_BITS   _u(0x00001000)
+#define CLOCKS_FC0_STATUS_WAITING_MSB    _u(12)
+#define CLOCKS_FC0_STATUS_WAITING_LSB    _u(12)
+#define CLOCKS_FC0_STATUS_WAITING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_RUNNING
+// Description : Test running
+#define CLOCKS_FC0_STATUS_RUNNING_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_RUNNING_BITS   _u(0x00000100)
+#define CLOCKS_FC0_STATUS_RUNNING_MSB    _u(8)
+#define CLOCKS_FC0_STATUS_RUNNING_LSB    _u(8)
+#define CLOCKS_FC0_STATUS_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_DONE
+// Description : Test complete
+#define CLOCKS_FC0_STATUS_DONE_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_DONE_BITS   _u(0x00000010)
+#define CLOCKS_FC0_STATUS_DONE_MSB    _u(4)
+#define CLOCKS_FC0_STATUS_DONE_LSB    _u(4)
+#define CLOCKS_FC0_STATUS_DONE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_STATUS_PASS
+// Description : Test passed
+#define CLOCKS_FC0_STATUS_PASS_RESET  _u(0x0)
+#define CLOCKS_FC0_STATUS_PASS_BITS   _u(0x00000001)
+#define CLOCKS_FC0_STATUS_PASS_MSB    _u(0)
+#define CLOCKS_FC0_STATUS_PASS_LSB    _u(0)
+#define CLOCKS_FC0_STATUS_PASS_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_FC0_RESULT
+// Description : Result of frequency measurement, only valid when status_done=1
+#define CLOCKS_FC0_RESULT_OFFSET _u(0x000000a8)
+#define CLOCKS_FC0_RESULT_BITS   _u(0x3fffffff)
+#define CLOCKS_FC0_RESULT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_RESULT_KHZ
+#define CLOCKS_FC0_RESULT_KHZ_RESET  _u(0x0000000)
+#define CLOCKS_FC0_RESULT_KHZ_BITS   _u(0x3fffffe0)
+#define CLOCKS_FC0_RESULT_KHZ_MSB    _u(29)
+#define CLOCKS_FC0_RESULT_KHZ_LSB    _u(5)
+#define CLOCKS_FC0_RESULT_KHZ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_FC0_RESULT_FRAC
+#define CLOCKS_FC0_RESULT_FRAC_RESET  _u(0x00)
+#define CLOCKS_FC0_RESULT_FRAC_BITS   _u(0x0000001f)
+#define CLOCKS_FC0_RESULT_FRAC_MSB    _u(4)
+#define CLOCKS_FC0_RESULT_FRAC_LSB    _u(0)
+#define CLOCKS_FC0_RESULT_FRAC_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_WAKE_EN0
+// Description : enable clock in wake mode
+#define CLOCKS_WAKE_EN0_OFFSET _u(0x000000ac)
+#define CLOCKS_WAKE_EN0_BITS   _u(0xffffffff)
+#define CLOCKS_WAKE_EN0_RESET  _u(0xffffffff)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_SIO
+#define CLOCKS_WAKE_EN0_CLK_SYS_SIO_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SIO_BITS   _u(0x80000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SIO_MSB    _u(31)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SIO_LSB    _u(31)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_SHA256
+#define CLOCKS_WAKE_EN0_CLK_SYS_SHA256_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SHA256_BITS   _u(0x40000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SHA256_MSB    _u(30)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SHA256_LSB    _u(30)
+#define CLOCKS_WAKE_EN0_CLK_SYS_SHA256_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PSM
+#define CLOCKS_WAKE_EN0_CLK_SYS_PSM_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PSM_BITS   _u(0x20000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PSM_MSB    _u(29)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PSM_LSB    _u(29)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PSM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_ROSC
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_BITS   _u(0x10000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_MSB    _u(28)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_LSB    _u(28)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_ROM
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROM_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROM_BITS   _u(0x08000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROM_MSB    _u(27)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROM_LSB    _u(27)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_RESETS
+#define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_BITS   _u(0x04000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_MSB    _u(26)
+#define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_LSB    _u(26)
+#define CLOCKS_WAKE_EN0_CLK_SYS_RESETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PWM
+#define CLOCKS_WAKE_EN0_CLK_SYS_PWM_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PWM_BITS   _u(0x02000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PWM_MSB    _u(25)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PWM_LSB    _u(25)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PWM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_POWMAN
+#define CLOCKS_WAKE_EN0_CLK_SYS_POWMAN_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_POWMAN_BITS   _u(0x01000000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_POWMAN_MSB    _u(24)
+#define CLOCKS_WAKE_EN0_CLK_SYS_POWMAN_LSB    _u(24)
+#define CLOCKS_WAKE_EN0_CLK_SYS_POWMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_REF_POWMAN
+#define CLOCKS_WAKE_EN0_CLK_REF_POWMAN_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_REF_POWMAN_BITS   _u(0x00800000)
+#define CLOCKS_WAKE_EN0_CLK_REF_POWMAN_MSB    _u(23)
+#define CLOCKS_WAKE_EN0_CLK_REF_POWMAN_LSB    _u(23)
+#define CLOCKS_WAKE_EN0_CLK_REF_POWMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_BITS   _u(0x00400000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_MSB    _u(22)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_LSB    _u(22)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_BITS   _u(0x00200000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_MSB    _u(21)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_LSB    _u(21)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PLL_SYS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PIO2
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO2_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO2_BITS   _u(0x00100000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO2_MSB    _u(20)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO2_LSB    _u(20)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PIO1
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_BITS   _u(0x00080000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_MSB    _u(19)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_LSB    _u(19)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PIO0
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_BITS   _u(0x00040000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_MSB    _u(18)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_LSB    _u(18)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PIO0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_PADS
+#define CLOCKS_WAKE_EN0_CLK_SYS_PADS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PADS_BITS   _u(0x00020000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PADS_MSB    _u(17)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PADS_LSB    _u(17)
+#define CLOCKS_WAKE_EN0_CLK_SYS_PADS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_OTP
+#define CLOCKS_WAKE_EN0_CLK_SYS_OTP_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_OTP_BITS   _u(0x00010000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_OTP_MSB    _u(16)
+#define CLOCKS_WAKE_EN0_CLK_SYS_OTP_LSB    _u(16)
+#define CLOCKS_WAKE_EN0_CLK_SYS_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_REF_OTP
+#define CLOCKS_WAKE_EN0_CLK_REF_OTP_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_REF_OTP_BITS   _u(0x00008000)
+#define CLOCKS_WAKE_EN0_CLK_REF_OTP_MSB    _u(15)
+#define CLOCKS_WAKE_EN0_CLK_REF_OTP_LSB    _u(15)
+#define CLOCKS_WAKE_EN0_CLK_REF_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_JTAG
+#define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_BITS   _u(0x00004000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_MSB    _u(14)
+#define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_LSB    _u(14)
+#define CLOCKS_WAKE_EN0_CLK_SYS_JTAG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_IO
+#define CLOCKS_WAKE_EN0_CLK_SYS_IO_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_IO_BITS   _u(0x00002000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_IO_MSB    _u(13)
+#define CLOCKS_WAKE_EN0_CLK_SYS_IO_LSB    _u(13)
+#define CLOCKS_WAKE_EN0_CLK_SYS_IO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_I2C1
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_BITS   _u(0x00001000)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_MSB    _u(12)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_LSB    _u(12)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_I2C0
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_BITS   _u(0x00000800)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_MSB    _u(11)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_LSB    _u(11)
+#define CLOCKS_WAKE_EN0_CLK_SYS_I2C0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_HSTX
+#define CLOCKS_WAKE_EN0_CLK_SYS_HSTX_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_HSTX_BITS   _u(0x00000400)
+#define CLOCKS_WAKE_EN0_CLK_SYS_HSTX_MSB    _u(10)
+#define CLOCKS_WAKE_EN0_CLK_SYS_HSTX_LSB    _u(10)
+#define CLOCKS_WAKE_EN0_CLK_SYS_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_HSTX
+#define CLOCKS_WAKE_EN0_CLK_HSTX_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_HSTX_BITS   _u(0x00000200)
+#define CLOCKS_WAKE_EN0_CLK_HSTX_MSB    _u(9)
+#define CLOCKS_WAKE_EN0_CLK_HSTX_LSB    _u(9)
+#define CLOCKS_WAKE_EN0_CLK_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR
+#define CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR_BITS   _u(0x00000100)
+#define CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR_MSB    _u(8)
+#define CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR_LSB    _u(8)
+#define CLOCKS_WAKE_EN0_CLK_SYS_GLITCH_DETECTOR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_DMA
+#define CLOCKS_WAKE_EN0_CLK_SYS_DMA_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_DMA_BITS   _u(0x00000080)
+#define CLOCKS_WAKE_EN0_CLK_SYS_DMA_MSB    _u(7)
+#define CLOCKS_WAKE_EN0_CLK_SYS_DMA_LSB    _u(7)
+#define CLOCKS_WAKE_EN0_CLK_SYS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000040)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_MSB    _u(6)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_LSB    _u(6)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSFABRIC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_BITS   _u(0x00000020)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_MSB    _u(5)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_LSB    _u(5)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BUSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM
+#define CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM_BITS   _u(0x00000010)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM_MSB    _u(4)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM_LSB    _u(4)
+#define CLOCKS_WAKE_EN0_CLK_SYS_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_ADC
+#define CLOCKS_WAKE_EN0_CLK_SYS_ADC_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ADC_BITS   _u(0x00000008)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ADC_MSB    _u(3)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ADC_LSB    _u(3)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ADC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_ADC
+#define CLOCKS_WAKE_EN0_CLK_ADC_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_ADC_BITS   _u(0x00000004)
+#define CLOCKS_WAKE_EN0_CLK_ADC_MSB    _u(2)
+#define CLOCKS_WAKE_EN0_CLK_ADC_LSB    _u(2)
+#define CLOCKS_WAKE_EN0_CLK_ADC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL
+#define CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL_BITS   _u(0x00000002)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL_MSB    _u(1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL_LSB    _u(1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_ACCESSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS
+#define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
+#define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_MSB    _u(0)
+#define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_LSB    _u(0)
+#define CLOCKS_WAKE_EN0_CLK_SYS_CLOCKS_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_WAKE_EN1
+// Description : enable clock in wake mode
+#define CLOCKS_WAKE_EN1_OFFSET _u(0x000000b0)
+#define CLOCKS_WAKE_EN1_BITS   _u(0x7fffffff)
+#define CLOCKS_WAKE_EN1_RESET  _u(0x7fffffff)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_XOSC
+#define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_BITS   _u(0x40000000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_MSB    _u(30)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_LSB    _u(30)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_XIP
+#define CLOCKS_WAKE_EN1_CLK_SYS_XIP_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XIP_BITS   _u(0x20000000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XIP_MSB    _u(29)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XIP_LSB    _u(29)
+#define CLOCKS_WAKE_EN1_CLK_SYS_XIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG
+#define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_BITS   _u(0x10000000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_MSB    _u(28)
+#define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_LSB    _u(28)
+#define CLOCKS_WAKE_EN1_CLK_SYS_WATCHDOG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_USB
+#define CLOCKS_WAKE_EN1_CLK_USB_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_USB_BITS   _u(0x08000000)
+#define CLOCKS_WAKE_EN1_CLK_USB_MSB    _u(27)
+#define CLOCKS_WAKE_EN1_CLK_USB_LSB    _u(27)
+#define CLOCKS_WAKE_EN1_CLK_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL
+#define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_BITS   _u(0x04000000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_MSB    _u(26)
+#define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_LSB    _u(26)
+#define CLOCKS_WAKE_EN1_CLK_SYS_USBCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_UART1
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART1_BITS   _u(0x02000000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART1_MSB    _u(25)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART1_LSB    _u(25)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_PERI_UART1
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART1_BITS   _u(0x01000000)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART1_MSB    _u(24)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART1_LSB    _u(24)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_UART0
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART0_BITS   _u(0x00800000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART0_MSB    _u(23)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART0_LSB    _u(23)
+#define CLOCKS_WAKE_EN1_CLK_SYS_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_PERI_UART0
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART0_BITS   _u(0x00400000)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART0_MSB    _u(22)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART0_LSB    _u(22)
+#define CLOCKS_WAKE_EN1_CLK_PERI_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_TRNG
+#define CLOCKS_WAKE_EN1_CLK_SYS_TRNG_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TRNG_BITS   _u(0x00200000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TRNG_MSB    _u(21)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TRNG_LSB    _u(21)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TRNG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_TIMER1
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER1_BITS   _u(0x00100000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER1_MSB    _u(20)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER1_LSB    _u(20)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_TIMER0
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER0_BITS   _u(0x00080000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER0_MSB    _u(19)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER0_LSB    _u(19)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TIMER0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_TICKS
+#define CLOCKS_WAKE_EN1_CLK_SYS_TICKS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TICKS_BITS   _u(0x00040000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TICKS_MSB    _u(18)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TICKS_LSB    _u(18)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TICKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_REF_TICKS
+#define CLOCKS_WAKE_EN1_CLK_REF_TICKS_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_REF_TICKS_BITS   _u(0x00020000)
+#define CLOCKS_WAKE_EN1_CLK_REF_TICKS_MSB    _u(17)
+#define CLOCKS_WAKE_EN1_CLK_REF_TICKS_LSB    _u(17)
+#define CLOCKS_WAKE_EN1_CLK_REF_TICKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_TBMAN
+#define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_BITS   _u(0x00010000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_MSB    _u(16)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_LSB    _u(16)
+#define CLOCKS_WAKE_EN1_CLK_SYS_TBMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_BITS   _u(0x00008000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_MSB    _u(15)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_LSB    _u(15)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSINFO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_BITS   _u(0x00004000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_MSB    _u(14)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_LSB    _u(14)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SYSCFG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM9
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM9_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM9_BITS   _u(0x00002000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM9_MSB    _u(13)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM9_LSB    _u(13)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM8
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM8_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM8_BITS   _u(0x00001000)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM8_MSB    _u(12)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM8_LSB    _u(12)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM7
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM7_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM7_BITS   _u(0x00000800)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM7_MSB    _u(11)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM7_LSB    _u(11)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM6
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM6_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM6_BITS   _u(0x00000400)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM6_MSB    _u(10)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM6_LSB    _u(10)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM5
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_BITS   _u(0x00000200)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_MSB    _u(9)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_LSB    _u(9)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM4
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_BITS   _u(0x00000100)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_MSB    _u(8)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_LSB    _u(8)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM3
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM3_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM3_BITS   _u(0x00000080)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM3_MSB    _u(7)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM3_LSB    _u(7)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM2
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM2_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM2_BITS   _u(0x00000040)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM2_MSB    _u(6)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM2_LSB    _u(6)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM1
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM1_BITS   _u(0x00000020)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM1_MSB    _u(5)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM1_LSB    _u(5)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SRAM0
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM0_BITS   _u(0x00000010)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM0_MSB    _u(4)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM0_LSB    _u(4)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SPI1
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI1_BITS   _u(0x00000008)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI1_MSB    _u(3)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI1_LSB    _u(3)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_PERI_SPI1
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI1_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI1_BITS   _u(0x00000004)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI1_MSB    _u(2)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI1_LSB    _u(2)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_SYS_SPI0
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI0_BITS   _u(0x00000002)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI0_MSB    _u(1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI0_LSB    _u(1)
+#define CLOCKS_WAKE_EN1_CLK_SYS_SPI0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_WAKE_EN1_CLK_PERI_SPI0
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI0_RESET  _u(0x1)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI0_BITS   _u(0x00000001)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI0_MSB    _u(0)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI0_LSB    _u(0)
+#define CLOCKS_WAKE_EN1_CLK_PERI_SPI0_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_SLEEP_EN0
+// Description : enable clock in sleep mode
+#define CLOCKS_SLEEP_EN0_OFFSET _u(0x000000b4)
+#define CLOCKS_SLEEP_EN0_BITS   _u(0xffffffff)
+#define CLOCKS_SLEEP_EN0_RESET  _u(0xffffffff)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SIO
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_BITS   _u(0x80000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_MSB    _u(31)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_LSB    _u(31)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_SHA256
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SHA256_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SHA256_BITS   _u(0x40000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SHA256_MSB    _u(30)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SHA256_LSB    _u(30)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_SHA256_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PSM
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_BITS   _u(0x20000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_MSB    _u(29)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_LSB    _u(29)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PSM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ROSC
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_BITS   _u(0x10000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_MSB    _u(28)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_LSB    _u(28)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ROM
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_BITS   _u(0x08000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_MSB    _u(27)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_LSB    _u(27)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_RESETS
+#define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_BITS   _u(0x04000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_MSB    _u(26)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_LSB    _u(26)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_RESETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PWM
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_BITS   _u(0x02000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_MSB    _u(25)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_LSB    _u(25)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PWM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN
+#define CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN_BITS   _u(0x01000000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN_MSB    _u(24)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN_LSB    _u(24)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_POWMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_REF_POWMAN
+#define CLOCKS_SLEEP_EN0_CLK_REF_POWMAN_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_REF_POWMAN_BITS   _u(0x00800000)
+#define CLOCKS_SLEEP_EN0_CLK_REF_POWMAN_MSB    _u(23)
+#define CLOCKS_SLEEP_EN0_CLK_REF_POWMAN_LSB    _u(23)
+#define CLOCKS_SLEEP_EN0_CLK_REF_POWMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_BITS   _u(0x00400000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_MSB    _u(22)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_LSB    _u(22)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_BITS   _u(0x00200000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_MSB    _u(21)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_LSB    _u(21)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PLL_SYS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PIO2
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO2_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO2_BITS   _u(0x00100000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO2_MSB    _u(20)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO2_LSB    _u(20)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PIO1
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_BITS   _u(0x00080000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_MSB    _u(19)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_LSB    _u(19)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PIO0
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_BITS   _u(0x00040000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_MSB    _u(18)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_LSB    _u(18)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PIO0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_PADS
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_BITS   _u(0x00020000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_MSB    _u(17)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_LSB    _u(17)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_PADS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_OTP
+#define CLOCKS_SLEEP_EN0_CLK_SYS_OTP_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_OTP_BITS   _u(0x00010000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_OTP_MSB    _u(16)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_OTP_LSB    _u(16)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_REF_OTP
+#define CLOCKS_SLEEP_EN0_CLK_REF_OTP_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_REF_OTP_BITS   _u(0x00008000)
+#define CLOCKS_SLEEP_EN0_CLK_REF_OTP_MSB    _u(15)
+#define CLOCKS_SLEEP_EN0_CLK_REF_OTP_LSB    _u(15)
+#define CLOCKS_SLEEP_EN0_CLK_REF_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_JTAG
+#define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_BITS   _u(0x00004000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_MSB    _u(14)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_LSB    _u(14)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_JTAG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_IO
+#define CLOCKS_SLEEP_EN0_CLK_SYS_IO_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_IO_BITS   _u(0x00002000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_IO_MSB    _u(13)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_IO_LSB    _u(13)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_IO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_I2C1
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_BITS   _u(0x00001000)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_MSB    _u(12)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_LSB    _u(12)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_I2C0
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_BITS   _u(0x00000800)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_MSB    _u(11)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_LSB    _u(11)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_I2C0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_HSTX
+#define CLOCKS_SLEEP_EN0_CLK_SYS_HSTX_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_HSTX_BITS   _u(0x00000400)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_HSTX_MSB    _u(10)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_HSTX_LSB    _u(10)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_HSTX
+#define CLOCKS_SLEEP_EN0_CLK_HSTX_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_HSTX_BITS   _u(0x00000200)
+#define CLOCKS_SLEEP_EN0_CLK_HSTX_MSB    _u(9)
+#define CLOCKS_SLEEP_EN0_CLK_HSTX_LSB    _u(9)
+#define CLOCKS_SLEEP_EN0_CLK_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR
+#define CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR_BITS   _u(0x00000100)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR_MSB    _u(8)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR_LSB    _u(8)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_GLITCH_DETECTOR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_DMA
+#define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_BITS   _u(0x00000080)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_MSB    _u(7)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_LSB    _u(7)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000040)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_MSB    _u(6)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_LSB    _u(6)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSFABRIC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_BITS   _u(0x00000020)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_MSB    _u(5)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_LSB    _u(5)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BUSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM_BITS   _u(0x00000010)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM_MSB    _u(4)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM_LSB    _u(4)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ADC
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_BITS   _u(0x00000008)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_MSB    _u(3)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_LSB    _u(3)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ADC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_ADC
+#define CLOCKS_SLEEP_EN0_CLK_ADC_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_ADC_BITS   _u(0x00000004)
+#define CLOCKS_SLEEP_EN0_CLK_ADC_MSB    _u(2)
+#define CLOCKS_SLEEP_EN0_CLK_ADC_LSB    _u(2)
+#define CLOCKS_SLEEP_EN0_CLK_ADC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL_BITS   _u(0x00000002)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL_MSB    _u(1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL_LSB    _u(1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_ACCESSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS
+#define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_MSB    _u(0)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_LSB    _u(0)
+#define CLOCKS_SLEEP_EN0_CLK_SYS_CLOCKS_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_SLEEP_EN1
+// Description : enable clock in sleep mode
+#define CLOCKS_SLEEP_EN1_OFFSET _u(0x000000b8)
+#define CLOCKS_SLEEP_EN1_BITS   _u(0x7fffffff)
+#define CLOCKS_SLEEP_EN1_RESET  _u(0x7fffffff)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_XOSC
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_BITS   _u(0x40000000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_MSB    _u(30)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_LSB    _u(30)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_XIP
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_BITS   _u(0x20000000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_MSB    _u(29)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_LSB    _u(29)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_XIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG
+#define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_BITS   _u(0x10000000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_MSB    _u(28)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_LSB    _u(28)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_WATCHDOG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_USB
+#define CLOCKS_SLEEP_EN1_CLK_USB_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_USB_BITS   _u(0x08000000)
+#define CLOCKS_SLEEP_EN1_CLK_USB_MSB    _u(27)
+#define CLOCKS_SLEEP_EN1_CLK_USB_LSB    _u(27)
+#define CLOCKS_SLEEP_EN1_CLK_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL
+#define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_BITS   _u(0x04000000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_MSB    _u(26)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_LSB    _u(26)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_USBCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_UART1
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_BITS   _u(0x02000000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_MSB    _u(25)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_LSB    _u(25)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_PERI_UART1
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_BITS   _u(0x01000000)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_MSB    _u(24)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_LSB    _u(24)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_UART0
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_BITS   _u(0x00800000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_MSB    _u(23)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_LSB    _u(23)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_PERI_UART0
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_BITS   _u(0x00400000)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_MSB    _u(22)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_LSB    _u(22)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TRNG
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TRNG_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TRNG_BITS   _u(0x00200000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TRNG_MSB    _u(21)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TRNG_LSB    _u(21)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TRNG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1_BITS   _u(0x00100000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1_MSB    _u(20)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1_LSB    _u(20)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0_BITS   _u(0x00080000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0_MSB    _u(19)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0_LSB    _u(19)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TIMER0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TICKS
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TICKS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TICKS_BITS   _u(0x00040000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TICKS_MSB    _u(18)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TICKS_LSB    _u(18)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TICKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_REF_TICKS
+#define CLOCKS_SLEEP_EN1_CLK_REF_TICKS_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_REF_TICKS_BITS   _u(0x00020000)
+#define CLOCKS_SLEEP_EN1_CLK_REF_TICKS_MSB    _u(17)
+#define CLOCKS_SLEEP_EN1_CLK_REF_TICKS_LSB    _u(17)
+#define CLOCKS_SLEEP_EN1_CLK_REF_TICKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_BITS   _u(0x00010000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_MSB    _u(16)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_LSB    _u(16)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_TBMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_BITS   _u(0x00008000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_MSB    _u(15)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_LSB    _u(15)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSINFO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_BITS   _u(0x00004000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_MSB    _u(14)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_LSB    _u(14)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SYSCFG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9_BITS   _u(0x00002000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9_MSB    _u(13)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9_LSB    _u(13)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8_BITS   _u(0x00001000)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8_MSB    _u(12)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8_LSB    _u(12)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7_BITS   _u(0x00000800)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7_MSB    _u(11)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7_LSB    _u(11)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6_BITS   _u(0x00000400)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6_MSB    _u(10)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6_LSB    _u(10)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_BITS   _u(0x00000200)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_MSB    _u(9)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_LSB    _u(9)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_BITS   _u(0x00000100)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_MSB    _u(8)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_LSB    _u(8)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3_BITS   _u(0x00000080)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3_MSB    _u(7)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3_LSB    _u(7)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2_BITS   _u(0x00000040)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2_MSB    _u(6)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2_LSB    _u(6)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1_BITS   _u(0x00000020)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1_MSB    _u(5)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1_LSB    _u(5)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0_BITS   _u(0x00000010)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0_MSB    _u(4)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0_LSB    _u(4)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SPI1
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI1_BITS   _u(0x00000008)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI1_MSB    _u(3)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI1_LSB    _u(3)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_PERI_SPI1
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI1_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI1_BITS   _u(0x00000004)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI1_MSB    _u(2)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI1_LSB    _u(2)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_SYS_SPI0
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI0_BITS   _u(0x00000002)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI0_MSB    _u(1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI0_LSB    _u(1)
+#define CLOCKS_SLEEP_EN1_CLK_SYS_SPI0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_SLEEP_EN1_CLK_PERI_SPI0
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI0_RESET  _u(0x1)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI0_BITS   _u(0x00000001)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI0_MSB    _u(0)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI0_LSB    _u(0)
+#define CLOCKS_SLEEP_EN1_CLK_PERI_SPI0_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_ENABLED0
+// Description : indicates the state of the clock enable
+#define CLOCKS_ENABLED0_OFFSET _u(0x000000bc)
+#define CLOCKS_ENABLED0_BITS   _u(0xffffffff)
+#define CLOCKS_ENABLED0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_SIO
+#define CLOCKS_ENABLED0_CLK_SYS_SIO_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_SIO_BITS   _u(0x80000000)
+#define CLOCKS_ENABLED0_CLK_SYS_SIO_MSB    _u(31)
+#define CLOCKS_ENABLED0_CLK_SYS_SIO_LSB    _u(31)
+#define CLOCKS_ENABLED0_CLK_SYS_SIO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_SHA256
+#define CLOCKS_ENABLED0_CLK_SYS_SHA256_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_SHA256_BITS   _u(0x40000000)
+#define CLOCKS_ENABLED0_CLK_SYS_SHA256_MSB    _u(30)
+#define CLOCKS_ENABLED0_CLK_SYS_SHA256_LSB    _u(30)
+#define CLOCKS_ENABLED0_CLK_SYS_SHA256_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PSM
+#define CLOCKS_ENABLED0_CLK_SYS_PSM_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PSM_BITS   _u(0x20000000)
+#define CLOCKS_ENABLED0_CLK_SYS_PSM_MSB    _u(29)
+#define CLOCKS_ENABLED0_CLK_SYS_PSM_LSB    _u(29)
+#define CLOCKS_ENABLED0_CLK_SYS_PSM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_ROSC
+#define CLOCKS_ENABLED0_CLK_SYS_ROSC_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_ROSC_BITS   _u(0x10000000)
+#define CLOCKS_ENABLED0_CLK_SYS_ROSC_MSB    _u(28)
+#define CLOCKS_ENABLED0_CLK_SYS_ROSC_LSB    _u(28)
+#define CLOCKS_ENABLED0_CLK_SYS_ROSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_ROM
+#define CLOCKS_ENABLED0_CLK_SYS_ROM_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_ROM_BITS   _u(0x08000000)
+#define CLOCKS_ENABLED0_CLK_SYS_ROM_MSB    _u(27)
+#define CLOCKS_ENABLED0_CLK_SYS_ROM_LSB    _u(27)
+#define CLOCKS_ENABLED0_CLK_SYS_ROM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_RESETS
+#define CLOCKS_ENABLED0_CLK_SYS_RESETS_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_RESETS_BITS   _u(0x04000000)
+#define CLOCKS_ENABLED0_CLK_SYS_RESETS_MSB    _u(26)
+#define CLOCKS_ENABLED0_CLK_SYS_RESETS_LSB    _u(26)
+#define CLOCKS_ENABLED0_CLK_SYS_RESETS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PWM
+#define CLOCKS_ENABLED0_CLK_SYS_PWM_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PWM_BITS   _u(0x02000000)
+#define CLOCKS_ENABLED0_CLK_SYS_PWM_MSB    _u(25)
+#define CLOCKS_ENABLED0_CLK_SYS_PWM_LSB    _u(25)
+#define CLOCKS_ENABLED0_CLK_SYS_PWM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_POWMAN
+#define CLOCKS_ENABLED0_CLK_SYS_POWMAN_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_POWMAN_BITS   _u(0x01000000)
+#define CLOCKS_ENABLED0_CLK_SYS_POWMAN_MSB    _u(24)
+#define CLOCKS_ENABLED0_CLK_SYS_POWMAN_LSB    _u(24)
+#define CLOCKS_ENABLED0_CLK_SYS_POWMAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_REF_POWMAN
+#define CLOCKS_ENABLED0_CLK_REF_POWMAN_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_REF_POWMAN_BITS   _u(0x00800000)
+#define CLOCKS_ENABLED0_CLK_REF_POWMAN_MSB    _u(23)
+#define CLOCKS_ENABLED0_CLK_REF_POWMAN_LSB    _u(23)
+#define CLOCKS_ENABLED0_CLK_REF_POWMAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PLL_USB
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_BITS   _u(0x00400000)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_MSB    _u(22)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_LSB    _u(22)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_USB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PLL_SYS
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_BITS   _u(0x00200000)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_MSB    _u(21)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_LSB    _u(21)
+#define CLOCKS_ENABLED0_CLK_SYS_PLL_SYS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PIO2
+#define CLOCKS_ENABLED0_CLK_SYS_PIO2_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO2_BITS   _u(0x00100000)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO2_MSB    _u(20)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO2_LSB    _u(20)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PIO1
+#define CLOCKS_ENABLED0_CLK_SYS_PIO1_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO1_BITS   _u(0x00080000)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO1_MSB    _u(19)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO1_LSB    _u(19)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PIO0
+#define CLOCKS_ENABLED0_CLK_SYS_PIO0_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO0_BITS   _u(0x00040000)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO0_MSB    _u(18)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO0_LSB    _u(18)
+#define CLOCKS_ENABLED0_CLK_SYS_PIO0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_PADS
+#define CLOCKS_ENABLED0_CLK_SYS_PADS_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_PADS_BITS   _u(0x00020000)
+#define CLOCKS_ENABLED0_CLK_SYS_PADS_MSB    _u(17)
+#define CLOCKS_ENABLED0_CLK_SYS_PADS_LSB    _u(17)
+#define CLOCKS_ENABLED0_CLK_SYS_PADS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_OTP
+#define CLOCKS_ENABLED0_CLK_SYS_OTP_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_OTP_BITS   _u(0x00010000)
+#define CLOCKS_ENABLED0_CLK_SYS_OTP_MSB    _u(16)
+#define CLOCKS_ENABLED0_CLK_SYS_OTP_LSB    _u(16)
+#define CLOCKS_ENABLED0_CLK_SYS_OTP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_REF_OTP
+#define CLOCKS_ENABLED0_CLK_REF_OTP_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_REF_OTP_BITS   _u(0x00008000)
+#define CLOCKS_ENABLED0_CLK_REF_OTP_MSB    _u(15)
+#define CLOCKS_ENABLED0_CLK_REF_OTP_LSB    _u(15)
+#define CLOCKS_ENABLED0_CLK_REF_OTP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_JTAG
+#define CLOCKS_ENABLED0_CLK_SYS_JTAG_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_JTAG_BITS   _u(0x00004000)
+#define CLOCKS_ENABLED0_CLK_SYS_JTAG_MSB    _u(14)
+#define CLOCKS_ENABLED0_CLK_SYS_JTAG_LSB    _u(14)
+#define CLOCKS_ENABLED0_CLK_SYS_JTAG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_IO
+#define CLOCKS_ENABLED0_CLK_SYS_IO_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_IO_BITS   _u(0x00002000)
+#define CLOCKS_ENABLED0_CLK_SYS_IO_MSB    _u(13)
+#define CLOCKS_ENABLED0_CLK_SYS_IO_LSB    _u(13)
+#define CLOCKS_ENABLED0_CLK_SYS_IO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_I2C1
+#define CLOCKS_ENABLED0_CLK_SYS_I2C1_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C1_BITS   _u(0x00001000)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C1_MSB    _u(12)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C1_LSB    _u(12)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_I2C0
+#define CLOCKS_ENABLED0_CLK_SYS_I2C0_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C0_BITS   _u(0x00000800)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C0_MSB    _u(11)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C0_LSB    _u(11)
+#define CLOCKS_ENABLED0_CLK_SYS_I2C0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_HSTX
+#define CLOCKS_ENABLED0_CLK_SYS_HSTX_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_HSTX_BITS   _u(0x00000400)
+#define CLOCKS_ENABLED0_CLK_SYS_HSTX_MSB    _u(10)
+#define CLOCKS_ENABLED0_CLK_SYS_HSTX_LSB    _u(10)
+#define CLOCKS_ENABLED0_CLK_SYS_HSTX_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_HSTX
+#define CLOCKS_ENABLED0_CLK_HSTX_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_HSTX_BITS   _u(0x00000200)
+#define CLOCKS_ENABLED0_CLK_HSTX_MSB    _u(9)
+#define CLOCKS_ENABLED0_CLK_HSTX_LSB    _u(9)
+#define CLOCKS_ENABLED0_CLK_HSTX_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR
+#define CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR_BITS   _u(0x00000100)
+#define CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR_MSB    _u(8)
+#define CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR_LSB    _u(8)
+#define CLOCKS_ENABLED0_CLK_SYS_GLITCH_DETECTOR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_DMA
+#define CLOCKS_ENABLED0_CLK_SYS_DMA_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_DMA_BITS   _u(0x00000080)
+#define CLOCKS_ENABLED0_CLK_SYS_DMA_MSB    _u(7)
+#define CLOCKS_ENABLED0_CLK_SYS_DMA_LSB    _u(7)
+#define CLOCKS_ENABLED0_CLK_SYS_DMA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC
+#define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_BITS   _u(0x00000040)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_MSB    _u(6)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_LSB    _u(6)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSFABRIC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_BUSCTRL
+#define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_BITS   _u(0x00000020)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_MSB    _u(5)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_LSB    _u(5)
+#define CLOCKS_ENABLED0_CLK_SYS_BUSCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_BOOTRAM
+#define CLOCKS_ENABLED0_CLK_SYS_BOOTRAM_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_BOOTRAM_BITS   _u(0x00000010)
+#define CLOCKS_ENABLED0_CLK_SYS_BOOTRAM_MSB    _u(4)
+#define CLOCKS_ENABLED0_CLK_SYS_BOOTRAM_LSB    _u(4)
+#define CLOCKS_ENABLED0_CLK_SYS_BOOTRAM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_ADC
+#define CLOCKS_ENABLED0_CLK_SYS_ADC_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_ADC_BITS   _u(0x00000008)
+#define CLOCKS_ENABLED0_CLK_SYS_ADC_MSB    _u(3)
+#define CLOCKS_ENABLED0_CLK_SYS_ADC_LSB    _u(3)
+#define CLOCKS_ENABLED0_CLK_SYS_ADC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_ADC
+#define CLOCKS_ENABLED0_CLK_ADC_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_ADC_BITS   _u(0x00000004)
+#define CLOCKS_ENABLED0_CLK_ADC_MSB    _u(2)
+#define CLOCKS_ENABLED0_CLK_ADC_LSB    _u(2)
+#define CLOCKS_ENABLED0_CLK_ADC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL
+#define CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL_BITS   _u(0x00000002)
+#define CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL_MSB    _u(1)
+#define CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL_LSB    _u(1)
+#define CLOCKS_ENABLED0_CLK_SYS_ACCESSCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED0_CLK_SYS_CLOCKS
+#define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_RESET  _u(0x0)
+#define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_BITS   _u(0x00000001)
+#define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_MSB    _u(0)
+#define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_LSB    _u(0)
+#define CLOCKS_ENABLED0_CLK_SYS_CLOCKS_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_ENABLED1
+// Description : indicates the state of the clock enable
+#define CLOCKS_ENABLED1_OFFSET _u(0x000000c0)
+#define CLOCKS_ENABLED1_BITS   _u(0x7fffffff)
+#define CLOCKS_ENABLED1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_XOSC
+#define CLOCKS_ENABLED1_CLK_SYS_XOSC_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_XOSC_BITS   _u(0x40000000)
+#define CLOCKS_ENABLED1_CLK_SYS_XOSC_MSB    _u(30)
+#define CLOCKS_ENABLED1_CLK_SYS_XOSC_LSB    _u(30)
+#define CLOCKS_ENABLED1_CLK_SYS_XOSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_XIP
+#define CLOCKS_ENABLED1_CLK_SYS_XIP_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_XIP_BITS   _u(0x20000000)
+#define CLOCKS_ENABLED1_CLK_SYS_XIP_MSB    _u(29)
+#define CLOCKS_ENABLED1_CLK_SYS_XIP_LSB    _u(29)
+#define CLOCKS_ENABLED1_CLK_SYS_XIP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_WATCHDOG
+#define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_BITS   _u(0x10000000)
+#define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_MSB    _u(28)
+#define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_LSB    _u(28)
+#define CLOCKS_ENABLED1_CLK_SYS_WATCHDOG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_USB
+#define CLOCKS_ENABLED1_CLK_USB_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_USB_BITS   _u(0x08000000)
+#define CLOCKS_ENABLED1_CLK_USB_MSB    _u(27)
+#define CLOCKS_ENABLED1_CLK_USB_LSB    _u(27)
+#define CLOCKS_ENABLED1_CLK_USB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_USBCTRL
+#define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_BITS   _u(0x04000000)
+#define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_MSB    _u(26)
+#define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_LSB    _u(26)
+#define CLOCKS_ENABLED1_CLK_SYS_USBCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_UART1
+#define CLOCKS_ENABLED1_CLK_SYS_UART1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_UART1_BITS   _u(0x02000000)
+#define CLOCKS_ENABLED1_CLK_SYS_UART1_MSB    _u(25)
+#define CLOCKS_ENABLED1_CLK_SYS_UART1_LSB    _u(25)
+#define CLOCKS_ENABLED1_CLK_SYS_UART1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_PERI_UART1
+#define CLOCKS_ENABLED1_CLK_PERI_UART1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_PERI_UART1_BITS   _u(0x01000000)
+#define CLOCKS_ENABLED1_CLK_PERI_UART1_MSB    _u(24)
+#define CLOCKS_ENABLED1_CLK_PERI_UART1_LSB    _u(24)
+#define CLOCKS_ENABLED1_CLK_PERI_UART1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_UART0
+#define CLOCKS_ENABLED1_CLK_SYS_UART0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_UART0_BITS   _u(0x00800000)
+#define CLOCKS_ENABLED1_CLK_SYS_UART0_MSB    _u(23)
+#define CLOCKS_ENABLED1_CLK_SYS_UART0_LSB    _u(23)
+#define CLOCKS_ENABLED1_CLK_SYS_UART0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_PERI_UART0
+#define CLOCKS_ENABLED1_CLK_PERI_UART0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_PERI_UART0_BITS   _u(0x00400000)
+#define CLOCKS_ENABLED1_CLK_PERI_UART0_MSB    _u(22)
+#define CLOCKS_ENABLED1_CLK_PERI_UART0_LSB    _u(22)
+#define CLOCKS_ENABLED1_CLK_PERI_UART0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_TRNG
+#define CLOCKS_ENABLED1_CLK_SYS_TRNG_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_TRNG_BITS   _u(0x00200000)
+#define CLOCKS_ENABLED1_CLK_SYS_TRNG_MSB    _u(21)
+#define CLOCKS_ENABLED1_CLK_SYS_TRNG_LSB    _u(21)
+#define CLOCKS_ENABLED1_CLK_SYS_TRNG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_TIMER1
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER1_BITS   _u(0x00100000)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER1_MSB    _u(20)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER1_LSB    _u(20)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_TIMER0
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER0_BITS   _u(0x00080000)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER0_MSB    _u(19)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER0_LSB    _u(19)
+#define CLOCKS_ENABLED1_CLK_SYS_TIMER0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_TICKS
+#define CLOCKS_ENABLED1_CLK_SYS_TICKS_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_TICKS_BITS   _u(0x00040000)
+#define CLOCKS_ENABLED1_CLK_SYS_TICKS_MSB    _u(18)
+#define CLOCKS_ENABLED1_CLK_SYS_TICKS_LSB    _u(18)
+#define CLOCKS_ENABLED1_CLK_SYS_TICKS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_REF_TICKS
+#define CLOCKS_ENABLED1_CLK_REF_TICKS_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_REF_TICKS_BITS   _u(0x00020000)
+#define CLOCKS_ENABLED1_CLK_REF_TICKS_MSB    _u(17)
+#define CLOCKS_ENABLED1_CLK_REF_TICKS_LSB    _u(17)
+#define CLOCKS_ENABLED1_CLK_REF_TICKS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_TBMAN
+#define CLOCKS_ENABLED1_CLK_SYS_TBMAN_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_TBMAN_BITS   _u(0x00010000)
+#define CLOCKS_ENABLED1_CLK_SYS_TBMAN_MSB    _u(16)
+#define CLOCKS_ENABLED1_CLK_SYS_TBMAN_LSB    _u(16)
+#define CLOCKS_ENABLED1_CLK_SYS_TBMAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SYSINFO
+#define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_BITS   _u(0x00008000)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_MSB    _u(15)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_LSB    _u(15)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSINFO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SYSCFG
+#define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_BITS   _u(0x00004000)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_MSB    _u(14)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_LSB    _u(14)
+#define CLOCKS_ENABLED1_CLK_SYS_SYSCFG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM9
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM9_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM9_BITS   _u(0x00002000)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM9_MSB    _u(13)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM9_LSB    _u(13)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM8
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM8_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM8_BITS   _u(0x00001000)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM8_MSB    _u(12)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM8_LSB    _u(12)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM7
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM7_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM7_BITS   _u(0x00000800)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM7_MSB    _u(11)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM7_LSB    _u(11)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM6
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM6_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM6_BITS   _u(0x00000400)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM6_MSB    _u(10)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM6_LSB    _u(10)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM5
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM5_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM5_BITS   _u(0x00000200)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM5_MSB    _u(9)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM5_LSB    _u(9)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM4
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM4_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM4_BITS   _u(0x00000100)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM4_MSB    _u(8)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM4_LSB    _u(8)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM3
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM3_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM3_BITS   _u(0x00000080)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM3_MSB    _u(7)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM3_LSB    _u(7)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM2
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM2_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM2_BITS   _u(0x00000040)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM2_MSB    _u(6)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM2_LSB    _u(6)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM1
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM1_BITS   _u(0x00000020)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM1_MSB    _u(5)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM1_LSB    _u(5)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SRAM0
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM0_BITS   _u(0x00000010)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM0_MSB    _u(4)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM0_LSB    _u(4)
+#define CLOCKS_ENABLED1_CLK_SYS_SRAM0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SPI1
+#define CLOCKS_ENABLED1_CLK_SYS_SPI1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI1_BITS   _u(0x00000008)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI1_MSB    _u(3)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI1_LSB    _u(3)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_PERI_SPI1
+#define CLOCKS_ENABLED1_CLK_PERI_SPI1_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI1_BITS   _u(0x00000004)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI1_MSB    _u(2)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI1_LSB    _u(2)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_SYS_SPI0
+#define CLOCKS_ENABLED1_CLK_SYS_SPI0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI0_BITS   _u(0x00000002)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI0_MSB    _u(1)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI0_LSB    _u(1)
+#define CLOCKS_ENABLED1_CLK_SYS_SPI0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_ENABLED1_CLK_PERI_SPI0
+#define CLOCKS_ENABLED1_CLK_PERI_SPI0_RESET  _u(0x0)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI0_BITS   _u(0x00000001)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI0_MSB    _u(0)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI0_LSB    _u(0)
+#define CLOCKS_ENABLED1_CLK_PERI_SPI0_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_INTR
+// Description : Raw Interrupts
+#define CLOCKS_INTR_OFFSET _u(0x000000c4)
+#define CLOCKS_INTR_BITS   _u(0x00000001)
+#define CLOCKS_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_INTR_CLK_SYS_RESUS
+#define CLOCKS_INTR_CLK_SYS_RESUS_RESET  _u(0x0)
+#define CLOCKS_INTR_CLK_SYS_RESUS_BITS   _u(0x00000001)
+#define CLOCKS_INTR_CLK_SYS_RESUS_MSB    _u(0)
+#define CLOCKS_INTR_CLK_SYS_RESUS_LSB    _u(0)
+#define CLOCKS_INTR_CLK_SYS_RESUS_ACCESS "RO"
+// =============================================================================
+// Register    : CLOCKS_INTE
+// Description : Interrupt Enable
+#define CLOCKS_INTE_OFFSET _u(0x000000c8)
+#define CLOCKS_INTE_BITS   _u(0x00000001)
+#define CLOCKS_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_INTE_CLK_SYS_RESUS
+#define CLOCKS_INTE_CLK_SYS_RESUS_RESET  _u(0x0)
+#define CLOCKS_INTE_CLK_SYS_RESUS_BITS   _u(0x00000001)
+#define CLOCKS_INTE_CLK_SYS_RESUS_MSB    _u(0)
+#define CLOCKS_INTE_CLK_SYS_RESUS_LSB    _u(0)
+#define CLOCKS_INTE_CLK_SYS_RESUS_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_INTF
+// Description : Interrupt Force
+#define CLOCKS_INTF_OFFSET _u(0x000000cc)
+#define CLOCKS_INTF_BITS   _u(0x00000001)
+#define CLOCKS_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_INTF_CLK_SYS_RESUS
+#define CLOCKS_INTF_CLK_SYS_RESUS_RESET  _u(0x0)
+#define CLOCKS_INTF_CLK_SYS_RESUS_BITS   _u(0x00000001)
+#define CLOCKS_INTF_CLK_SYS_RESUS_MSB    _u(0)
+#define CLOCKS_INTF_CLK_SYS_RESUS_LSB    _u(0)
+#define CLOCKS_INTF_CLK_SYS_RESUS_ACCESS "RW"
+// =============================================================================
+// Register    : CLOCKS_INTS
+// Description : Interrupt status after masking & forcing
+#define CLOCKS_INTS_OFFSET _u(0x000000d0)
+#define CLOCKS_INTS_BITS   _u(0x00000001)
+#define CLOCKS_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CLOCKS_INTS_CLK_SYS_RESUS
+#define CLOCKS_INTS_CLK_SYS_RESUS_RESET  _u(0x0)
+#define CLOCKS_INTS_CLK_SYS_RESUS_BITS   _u(0x00000001)
+#define CLOCKS_INTS_CLK_SYS_RESUS_MSB    _u(0)
+#define CLOCKS_INTS_CLK_SYS_RESUS_LSB    _u(0)
+#define CLOCKS_INTS_CLK_SYS_RESUS_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_CLOCKS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/coresight_trace.h b/lib/pico-sdk/rp2350/hardware/regs/coresight_trace.h
new file mode 100644
index 0000000..cb4f990
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/coresight_trace.h
@@ -0,0 +1,85 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : CORESIGHT_TRACE
+// Version        : 1
+// Bus type       : ahbl
+// Description    : Coresight block - RP specific registers
+// =============================================================================
+#ifndef _HARDWARE_REGS_CORESIGHT_TRACE_H
+#define _HARDWARE_REGS_CORESIGHT_TRACE_H
+// =============================================================================
+// Register    : CORESIGHT_TRACE_CTRL_STATUS
+// Description : Control and status register
+#define CORESIGHT_TRACE_CTRL_STATUS_OFFSET _u(0x00000000)
+#define CORESIGHT_TRACE_CTRL_STATUS_BITS   _u(0x00000003)
+#define CORESIGHT_TRACE_CTRL_STATUS_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW
+// Description : This status flag is set high when trace data has been dropped
+//               due to the FIFO being full at the point trace data was sampled.
+//               Write 1 to acknowledge and clear the bit.
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW_RESET  _u(0x0)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW_BITS   _u(0x00000002)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW_MSB    _u(1)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW_LSB    _u(1)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_OVERFLOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH
+// Description : Set to 1 to continuously hold the trace FIFO in a flushed state
+//               and prevent overflow.
+//
+//               Before clearing this flag, configure and start a DMA channel
+//               with the correct DREQ for the TRACE_CAPTURE_FIFO register.
+//
+//               Clear this flag to begin sampling trace data, and set once
+//               again once the trace capture buffer is full. You must configure
+//               the TPIU in order to generate trace packets to be captured, as
+//               well as components like the ETM further upstream to generate
+//               the event stream propagated to the TPIU.
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH_RESET  _u(0x1)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH_BITS   _u(0x00000001)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH_MSB    _u(0)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH_LSB    _u(0)
+#define CORESIGHT_TRACE_CTRL_STATUS_TRACE_CAPTURE_FIFO_FLUSH_ACCESS "RW"
+// =============================================================================
+// Register    : CORESIGHT_TRACE_TRACE_CAPTURE_FIFO
+// Description : FIFO for trace data captured from the TPIU
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_OFFSET _u(0x00000004)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_BITS   _u(0xffffffff)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA
+// Description : Read from an 8 x 32-bit FIFO containing trace data captured
+//               from the TPIU.
+//
+//               Hardware pushes to the FIFO on rising edges of clk_sys, when
+//               either of the following is true:
+//
+//               * TPIU TRACECTL output is low (normal trace data)
+//
+//               * TPIU TRACETCL output is high, and TPIU TRACEDATA0 and
+//               TRACEDATA1 are both low (trigger packet)
+//
+//               These conditions are in accordance with Arm Coresight
+//               Architecture Spec v3.0 section D3.3.3: Decoding requirements
+//               for Trace Capture Devices
+//
+//               The data captured into the FIFO is the full 32-bit TRACEDATA
+//               bus output by the TPIU. Note that the TPIU is a DDR output at
+//               half of clk_sys, therefore this interface can capture the full
+//               32-bit TPIU DDR output bandwidth as it samples once per active
+//               edge of the TPIU output clock.
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA_RESET  _u(0x00000000)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA_BITS   _u(0xffffffff)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA_MSB    _u(31)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA_LSB    _u(0)
+#define CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_RDATA_ACCESS "RF"
+// =============================================================================
+#endif // _HARDWARE_REGS_CORESIGHT_TRACE_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/dma.h b/lib/pico-sdk/rp2350/hardware/regs/dma.h
new file mode 100644
index 0000000..00ecde1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/dma.h
@@ -0,0 +1,9914 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : DMA
+// Version        : 1
+// Bus type       : apb
+// Description    : DMA with separate read and write masters
+// =============================================================================
+#ifndef _HARDWARE_REGS_DMA_H
+#define _HARDWARE_REGS_DMA_H
+// =============================================================================
+// Register    : DMA_CH0_READ_ADDR
+// Description : DMA Channel 0 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH0_READ_ADDR_OFFSET _u(0x00000000)
+#define DMA_CH0_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH0_READ_ADDR_MSB    _u(31)
+#define DMA_CH0_READ_ADDR_LSB    _u(0)
+#define DMA_CH0_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_WRITE_ADDR
+// Description : DMA Channel 0 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH0_WRITE_ADDR_OFFSET _u(0x00000004)
+#define DMA_CH0_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH0_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH0_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH0_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_TRANS_COUNT
+// Description : DMA Channel 0 Transfer Count
+#define DMA_CH0_TRANS_COUNT_OFFSET _u(0x00000008)
+#define DMA_CH0_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH0_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH0_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH0_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH0_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH0_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH0_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH0_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH0_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH0_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH0_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH0_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH0_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH0_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH0_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_CTRL_TRIG
+// Description : DMA Channel 0 Control and Status
+#define DMA_CH0_CTRL_TRIG_OFFSET _u(0x0000000c)
+#define DMA_CH0_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH0_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH0_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH0_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH0_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH0_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH0_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH0_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH0_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH0_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH0_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH0_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH0_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH0_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH0_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH0_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH0_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH0_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH0_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH0_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH0_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH0_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH0_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH0_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH0_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH0_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH0_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH0_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH0_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH0_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH0_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH0_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH0_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH0_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH0_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH0_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH0_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH0_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH0_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH0_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH0_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH0_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH0_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH0_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH0_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH0_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH0_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH0_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH0_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH0_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH0_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL1_CTRL
+// Description : Alias for channel 0 CTRL register
+#define DMA_CH0_AL1_CTRL_OFFSET _u(0x00000010)
+#define DMA_CH0_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH0_AL1_CTRL_RESET  "-"
+#define DMA_CH0_AL1_CTRL_MSB    _u(31)
+#define DMA_CH0_AL1_CTRL_LSB    _u(0)
+#define DMA_CH0_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL1_READ_ADDR
+// Description : Alias for channel 0 READ_ADDR register
+#define DMA_CH0_AL1_READ_ADDR_OFFSET _u(0x00000014)
+#define DMA_CH0_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH0_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH0_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH0_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL1_WRITE_ADDR
+// Description : Alias for channel 0 WRITE_ADDR register
+#define DMA_CH0_AL1_WRITE_ADDR_OFFSET _u(0x00000018)
+#define DMA_CH0_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH0_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH0_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH0_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 0 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000001c)
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH0_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL2_CTRL
+// Description : Alias for channel 0 CTRL register
+#define DMA_CH0_AL2_CTRL_OFFSET _u(0x00000020)
+#define DMA_CH0_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH0_AL2_CTRL_RESET  "-"
+#define DMA_CH0_AL2_CTRL_MSB    _u(31)
+#define DMA_CH0_AL2_CTRL_LSB    _u(0)
+#define DMA_CH0_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL2_TRANS_COUNT
+// Description : Alias for channel 0 TRANS_COUNT register
+#define DMA_CH0_AL2_TRANS_COUNT_OFFSET _u(0x00000024)
+#define DMA_CH0_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH0_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH0_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH0_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH0_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL2_READ_ADDR
+// Description : Alias for channel 0 READ_ADDR register
+#define DMA_CH0_AL2_READ_ADDR_OFFSET _u(0x00000028)
+#define DMA_CH0_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH0_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH0_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH0_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 0 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000002c)
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH0_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL3_CTRL
+// Description : Alias for channel 0 CTRL register
+#define DMA_CH0_AL3_CTRL_OFFSET _u(0x00000030)
+#define DMA_CH0_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH0_AL3_CTRL_RESET  "-"
+#define DMA_CH0_AL3_CTRL_MSB    _u(31)
+#define DMA_CH0_AL3_CTRL_LSB    _u(0)
+#define DMA_CH0_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL3_WRITE_ADDR
+// Description : Alias for channel 0 WRITE_ADDR register
+#define DMA_CH0_AL3_WRITE_ADDR_OFFSET _u(0x00000034)
+#define DMA_CH0_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH0_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH0_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH0_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH0_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL3_TRANS_COUNT
+// Description : Alias for channel 0 TRANS_COUNT register
+#define DMA_CH0_AL3_TRANS_COUNT_OFFSET _u(0x00000038)
+#define DMA_CH0_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH0_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH0_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH0_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH0_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 0 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH0_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000003c)
+#define DMA_CH0_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH0_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH0_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH0_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH0_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_READ_ADDR
+// Description : DMA Channel 1 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH1_READ_ADDR_OFFSET _u(0x00000040)
+#define DMA_CH1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH1_READ_ADDR_MSB    _u(31)
+#define DMA_CH1_READ_ADDR_LSB    _u(0)
+#define DMA_CH1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_WRITE_ADDR
+// Description : DMA Channel 1 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH1_WRITE_ADDR_OFFSET _u(0x00000044)
+#define DMA_CH1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_TRANS_COUNT
+// Description : DMA Channel 1 Transfer Count
+#define DMA_CH1_TRANS_COUNT_OFFSET _u(0x00000048)
+#define DMA_CH1_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH1_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH1_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH1_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH1_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH1_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH1_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH1_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH1_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH1_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH1_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH1_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH1_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH1_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH1_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_CTRL_TRIG
+// Description : DMA Channel 1 Control and Status
+#define DMA_CH1_CTRL_TRIG_OFFSET _u(0x0000004c)
+#define DMA_CH1_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH1_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH1_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH1_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH1_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH1_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH1_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH1_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH1_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH1_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH1_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH1_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH1_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH1_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH1_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH1_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH1_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH1_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH1_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH1_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH1_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH1_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH1_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH1_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH1_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH1_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH1_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH1_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH1_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH1_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH1_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH1_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH1_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH1_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH1_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH1_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH1_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH1_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH1_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH1_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH1_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH1_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH1_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH1_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH1_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH1_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH1_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH1_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH1_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH1_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH1_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH1_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL1_CTRL
+// Description : Alias for channel 1 CTRL register
+#define DMA_CH1_AL1_CTRL_OFFSET _u(0x00000050)
+#define DMA_CH1_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH1_AL1_CTRL_RESET  "-"
+#define DMA_CH1_AL1_CTRL_MSB    _u(31)
+#define DMA_CH1_AL1_CTRL_LSB    _u(0)
+#define DMA_CH1_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL1_READ_ADDR
+// Description : Alias for channel 1 READ_ADDR register
+#define DMA_CH1_AL1_READ_ADDR_OFFSET _u(0x00000054)
+#define DMA_CH1_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH1_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH1_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH1_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL1_WRITE_ADDR
+// Description : Alias for channel 1 WRITE_ADDR register
+#define DMA_CH1_AL1_WRITE_ADDR_OFFSET _u(0x00000058)
+#define DMA_CH1_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH1_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH1_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH1_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 1 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000005c)
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH1_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL2_CTRL
+// Description : Alias for channel 1 CTRL register
+#define DMA_CH1_AL2_CTRL_OFFSET _u(0x00000060)
+#define DMA_CH1_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH1_AL2_CTRL_RESET  "-"
+#define DMA_CH1_AL2_CTRL_MSB    _u(31)
+#define DMA_CH1_AL2_CTRL_LSB    _u(0)
+#define DMA_CH1_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL2_TRANS_COUNT
+// Description : Alias for channel 1 TRANS_COUNT register
+#define DMA_CH1_AL2_TRANS_COUNT_OFFSET _u(0x00000064)
+#define DMA_CH1_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH1_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH1_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH1_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH1_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL2_READ_ADDR
+// Description : Alias for channel 1 READ_ADDR register
+#define DMA_CH1_AL2_READ_ADDR_OFFSET _u(0x00000068)
+#define DMA_CH1_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH1_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH1_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH1_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 1 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000006c)
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH1_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL3_CTRL
+// Description : Alias for channel 1 CTRL register
+#define DMA_CH1_AL3_CTRL_OFFSET _u(0x00000070)
+#define DMA_CH1_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH1_AL3_CTRL_RESET  "-"
+#define DMA_CH1_AL3_CTRL_MSB    _u(31)
+#define DMA_CH1_AL3_CTRL_LSB    _u(0)
+#define DMA_CH1_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL3_WRITE_ADDR
+// Description : Alias for channel 1 WRITE_ADDR register
+#define DMA_CH1_AL3_WRITE_ADDR_OFFSET _u(0x00000074)
+#define DMA_CH1_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH1_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH1_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH1_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH1_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL3_TRANS_COUNT
+// Description : Alias for channel 1 TRANS_COUNT register
+#define DMA_CH1_AL3_TRANS_COUNT_OFFSET _u(0x00000078)
+#define DMA_CH1_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH1_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH1_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH1_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH1_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH1_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 1 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH1_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000007c)
+#define DMA_CH1_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH1_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH1_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH1_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH1_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_READ_ADDR
+// Description : DMA Channel 2 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH2_READ_ADDR_OFFSET _u(0x00000080)
+#define DMA_CH2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH2_READ_ADDR_MSB    _u(31)
+#define DMA_CH2_READ_ADDR_LSB    _u(0)
+#define DMA_CH2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_WRITE_ADDR
+// Description : DMA Channel 2 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH2_WRITE_ADDR_OFFSET _u(0x00000084)
+#define DMA_CH2_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH2_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH2_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH2_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_TRANS_COUNT
+// Description : DMA Channel 2 Transfer Count
+#define DMA_CH2_TRANS_COUNT_OFFSET _u(0x00000088)
+#define DMA_CH2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH2_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH2_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH2_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH2_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH2_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH2_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH2_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH2_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH2_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH2_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH2_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH2_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH2_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH2_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_CTRL_TRIG
+// Description : DMA Channel 2 Control and Status
+#define DMA_CH2_CTRL_TRIG_OFFSET _u(0x0000008c)
+#define DMA_CH2_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH2_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH2_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH2_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH2_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH2_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH2_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH2_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH2_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH2_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH2_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH2_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH2_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH2_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH2_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH2_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH2_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH2_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH2_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH2_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH2_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH2_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH2_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH2_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH2_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH2_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH2_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH2_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH2_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH2_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH2_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH2_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH2_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH2_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH2_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH2_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH2_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH2_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH2_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH2_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH2_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH2_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH2_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH2_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH2_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH2_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH2_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH2_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH2_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH2_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH2_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH2_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL1_CTRL
+// Description : Alias for channel 2 CTRL register
+#define DMA_CH2_AL1_CTRL_OFFSET _u(0x00000090)
+#define DMA_CH2_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH2_AL1_CTRL_RESET  "-"
+#define DMA_CH2_AL1_CTRL_MSB    _u(31)
+#define DMA_CH2_AL1_CTRL_LSB    _u(0)
+#define DMA_CH2_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL1_READ_ADDR
+// Description : Alias for channel 2 READ_ADDR register
+#define DMA_CH2_AL1_READ_ADDR_OFFSET _u(0x00000094)
+#define DMA_CH2_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH2_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH2_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH2_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL1_WRITE_ADDR
+// Description : Alias for channel 2 WRITE_ADDR register
+#define DMA_CH2_AL1_WRITE_ADDR_OFFSET _u(0x00000098)
+#define DMA_CH2_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH2_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH2_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH2_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 2 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000009c)
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH2_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL2_CTRL
+// Description : Alias for channel 2 CTRL register
+#define DMA_CH2_AL2_CTRL_OFFSET _u(0x000000a0)
+#define DMA_CH2_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH2_AL2_CTRL_RESET  "-"
+#define DMA_CH2_AL2_CTRL_MSB    _u(31)
+#define DMA_CH2_AL2_CTRL_LSB    _u(0)
+#define DMA_CH2_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL2_TRANS_COUNT
+// Description : Alias for channel 2 TRANS_COUNT register
+#define DMA_CH2_AL2_TRANS_COUNT_OFFSET _u(0x000000a4)
+#define DMA_CH2_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH2_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH2_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH2_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH2_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL2_READ_ADDR
+// Description : Alias for channel 2 READ_ADDR register
+#define DMA_CH2_AL2_READ_ADDR_OFFSET _u(0x000000a8)
+#define DMA_CH2_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH2_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH2_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH2_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 2 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000000ac)
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH2_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL3_CTRL
+// Description : Alias for channel 2 CTRL register
+#define DMA_CH2_AL3_CTRL_OFFSET _u(0x000000b0)
+#define DMA_CH2_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH2_AL3_CTRL_RESET  "-"
+#define DMA_CH2_AL3_CTRL_MSB    _u(31)
+#define DMA_CH2_AL3_CTRL_LSB    _u(0)
+#define DMA_CH2_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL3_WRITE_ADDR
+// Description : Alias for channel 2 WRITE_ADDR register
+#define DMA_CH2_AL3_WRITE_ADDR_OFFSET _u(0x000000b4)
+#define DMA_CH2_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH2_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH2_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH2_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH2_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL3_TRANS_COUNT
+// Description : Alias for channel 2 TRANS_COUNT register
+#define DMA_CH2_AL3_TRANS_COUNT_OFFSET _u(0x000000b8)
+#define DMA_CH2_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH2_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH2_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH2_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH2_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH2_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 2 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH2_AL3_READ_ADDR_TRIG_OFFSET _u(0x000000bc)
+#define DMA_CH2_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH2_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH2_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH2_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH2_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_READ_ADDR
+// Description : DMA Channel 3 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH3_READ_ADDR_OFFSET _u(0x000000c0)
+#define DMA_CH3_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH3_READ_ADDR_MSB    _u(31)
+#define DMA_CH3_READ_ADDR_LSB    _u(0)
+#define DMA_CH3_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_WRITE_ADDR
+// Description : DMA Channel 3 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH3_WRITE_ADDR_OFFSET _u(0x000000c4)
+#define DMA_CH3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_TRANS_COUNT
+// Description : DMA Channel 3 Transfer Count
+#define DMA_CH3_TRANS_COUNT_OFFSET _u(0x000000c8)
+#define DMA_CH3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH3_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH3_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH3_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH3_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH3_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH3_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH3_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH3_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH3_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH3_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH3_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH3_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH3_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH3_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_CTRL_TRIG
+// Description : DMA Channel 3 Control and Status
+#define DMA_CH3_CTRL_TRIG_OFFSET _u(0x000000cc)
+#define DMA_CH3_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH3_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH3_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH3_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH3_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH3_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH3_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH3_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH3_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH3_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH3_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH3_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH3_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH3_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH3_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH3_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH3_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH3_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH3_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH3_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH3_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH3_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH3_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH3_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH3_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH3_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH3_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH3_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH3_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH3_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH3_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH3_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH3_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH3_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH3_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH3_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH3_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH3_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH3_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH3_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH3_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH3_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH3_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH3_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH3_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH3_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH3_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH3_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH3_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH3_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH3_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH3_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL1_CTRL
+// Description : Alias for channel 3 CTRL register
+#define DMA_CH3_AL1_CTRL_OFFSET _u(0x000000d0)
+#define DMA_CH3_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH3_AL1_CTRL_RESET  "-"
+#define DMA_CH3_AL1_CTRL_MSB    _u(31)
+#define DMA_CH3_AL1_CTRL_LSB    _u(0)
+#define DMA_CH3_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL1_READ_ADDR
+// Description : Alias for channel 3 READ_ADDR register
+#define DMA_CH3_AL1_READ_ADDR_OFFSET _u(0x000000d4)
+#define DMA_CH3_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH3_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH3_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH3_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL1_WRITE_ADDR
+// Description : Alias for channel 3 WRITE_ADDR register
+#define DMA_CH3_AL1_WRITE_ADDR_OFFSET _u(0x000000d8)
+#define DMA_CH3_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH3_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH3_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH3_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 3 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x000000dc)
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH3_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL2_CTRL
+// Description : Alias for channel 3 CTRL register
+#define DMA_CH3_AL2_CTRL_OFFSET _u(0x000000e0)
+#define DMA_CH3_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH3_AL2_CTRL_RESET  "-"
+#define DMA_CH3_AL2_CTRL_MSB    _u(31)
+#define DMA_CH3_AL2_CTRL_LSB    _u(0)
+#define DMA_CH3_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL2_TRANS_COUNT
+// Description : Alias for channel 3 TRANS_COUNT register
+#define DMA_CH3_AL2_TRANS_COUNT_OFFSET _u(0x000000e4)
+#define DMA_CH3_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH3_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH3_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH3_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH3_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL2_READ_ADDR
+// Description : Alias for channel 3 READ_ADDR register
+#define DMA_CH3_AL2_READ_ADDR_OFFSET _u(0x000000e8)
+#define DMA_CH3_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH3_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH3_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH3_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 3 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000000ec)
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH3_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL3_CTRL
+// Description : Alias for channel 3 CTRL register
+#define DMA_CH3_AL3_CTRL_OFFSET _u(0x000000f0)
+#define DMA_CH3_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH3_AL3_CTRL_RESET  "-"
+#define DMA_CH3_AL3_CTRL_MSB    _u(31)
+#define DMA_CH3_AL3_CTRL_LSB    _u(0)
+#define DMA_CH3_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL3_WRITE_ADDR
+// Description : Alias for channel 3 WRITE_ADDR register
+#define DMA_CH3_AL3_WRITE_ADDR_OFFSET _u(0x000000f4)
+#define DMA_CH3_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH3_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH3_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH3_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH3_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL3_TRANS_COUNT
+// Description : Alias for channel 3 TRANS_COUNT register
+#define DMA_CH3_AL3_TRANS_COUNT_OFFSET _u(0x000000f8)
+#define DMA_CH3_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH3_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH3_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH3_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH3_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH3_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 3 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH3_AL3_READ_ADDR_TRIG_OFFSET _u(0x000000fc)
+#define DMA_CH3_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH3_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH3_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH3_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH3_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_READ_ADDR
+// Description : DMA Channel 4 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH4_READ_ADDR_OFFSET _u(0x00000100)
+#define DMA_CH4_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH4_READ_ADDR_MSB    _u(31)
+#define DMA_CH4_READ_ADDR_LSB    _u(0)
+#define DMA_CH4_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_WRITE_ADDR
+// Description : DMA Channel 4 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH4_WRITE_ADDR_OFFSET _u(0x00000104)
+#define DMA_CH4_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH4_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH4_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH4_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_TRANS_COUNT
+// Description : DMA Channel 4 Transfer Count
+#define DMA_CH4_TRANS_COUNT_OFFSET _u(0x00000108)
+#define DMA_CH4_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH4_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH4_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH4_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH4_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH4_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH4_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH4_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH4_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH4_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH4_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH4_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH4_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH4_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH4_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_CTRL_TRIG
+// Description : DMA Channel 4 Control and Status
+#define DMA_CH4_CTRL_TRIG_OFFSET _u(0x0000010c)
+#define DMA_CH4_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH4_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH4_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH4_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH4_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH4_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH4_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH4_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH4_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH4_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH4_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH4_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH4_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH4_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH4_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH4_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH4_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH4_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH4_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH4_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH4_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH4_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH4_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH4_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH4_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH4_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH4_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH4_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH4_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH4_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH4_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH4_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH4_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH4_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH4_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH4_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH4_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH4_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH4_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH4_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH4_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH4_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH4_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH4_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH4_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH4_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH4_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH4_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH4_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH4_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH4_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH4_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL1_CTRL
+// Description : Alias for channel 4 CTRL register
+#define DMA_CH4_AL1_CTRL_OFFSET _u(0x00000110)
+#define DMA_CH4_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH4_AL1_CTRL_RESET  "-"
+#define DMA_CH4_AL1_CTRL_MSB    _u(31)
+#define DMA_CH4_AL1_CTRL_LSB    _u(0)
+#define DMA_CH4_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL1_READ_ADDR
+// Description : Alias for channel 4 READ_ADDR register
+#define DMA_CH4_AL1_READ_ADDR_OFFSET _u(0x00000114)
+#define DMA_CH4_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH4_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH4_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH4_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL1_WRITE_ADDR
+// Description : Alias for channel 4 WRITE_ADDR register
+#define DMA_CH4_AL1_WRITE_ADDR_OFFSET _u(0x00000118)
+#define DMA_CH4_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH4_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH4_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH4_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 4 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000011c)
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH4_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL2_CTRL
+// Description : Alias for channel 4 CTRL register
+#define DMA_CH4_AL2_CTRL_OFFSET _u(0x00000120)
+#define DMA_CH4_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH4_AL2_CTRL_RESET  "-"
+#define DMA_CH4_AL2_CTRL_MSB    _u(31)
+#define DMA_CH4_AL2_CTRL_LSB    _u(0)
+#define DMA_CH4_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL2_TRANS_COUNT
+// Description : Alias for channel 4 TRANS_COUNT register
+#define DMA_CH4_AL2_TRANS_COUNT_OFFSET _u(0x00000124)
+#define DMA_CH4_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH4_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH4_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH4_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH4_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL2_READ_ADDR
+// Description : Alias for channel 4 READ_ADDR register
+#define DMA_CH4_AL2_READ_ADDR_OFFSET _u(0x00000128)
+#define DMA_CH4_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH4_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH4_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH4_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 4 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000012c)
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH4_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL3_CTRL
+// Description : Alias for channel 4 CTRL register
+#define DMA_CH4_AL3_CTRL_OFFSET _u(0x00000130)
+#define DMA_CH4_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH4_AL3_CTRL_RESET  "-"
+#define DMA_CH4_AL3_CTRL_MSB    _u(31)
+#define DMA_CH4_AL3_CTRL_LSB    _u(0)
+#define DMA_CH4_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL3_WRITE_ADDR
+// Description : Alias for channel 4 WRITE_ADDR register
+#define DMA_CH4_AL3_WRITE_ADDR_OFFSET _u(0x00000134)
+#define DMA_CH4_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH4_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH4_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH4_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH4_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL3_TRANS_COUNT
+// Description : Alias for channel 4 TRANS_COUNT register
+#define DMA_CH4_AL3_TRANS_COUNT_OFFSET _u(0x00000138)
+#define DMA_CH4_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH4_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH4_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH4_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH4_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH4_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 4 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH4_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000013c)
+#define DMA_CH4_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH4_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH4_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH4_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH4_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_READ_ADDR
+// Description : DMA Channel 5 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH5_READ_ADDR_OFFSET _u(0x00000140)
+#define DMA_CH5_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH5_READ_ADDR_MSB    _u(31)
+#define DMA_CH5_READ_ADDR_LSB    _u(0)
+#define DMA_CH5_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_WRITE_ADDR
+// Description : DMA Channel 5 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH5_WRITE_ADDR_OFFSET _u(0x00000144)
+#define DMA_CH5_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH5_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH5_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH5_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_TRANS_COUNT
+// Description : DMA Channel 5 Transfer Count
+#define DMA_CH5_TRANS_COUNT_OFFSET _u(0x00000148)
+#define DMA_CH5_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH5_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH5_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH5_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH5_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH5_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH5_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH5_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH5_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH5_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH5_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH5_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH5_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH5_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH5_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_CTRL_TRIG
+// Description : DMA Channel 5 Control and Status
+#define DMA_CH5_CTRL_TRIG_OFFSET _u(0x0000014c)
+#define DMA_CH5_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH5_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH5_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH5_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH5_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH5_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH5_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH5_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH5_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH5_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH5_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH5_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH5_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH5_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH5_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH5_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH5_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH5_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH5_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH5_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH5_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH5_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH5_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH5_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH5_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH5_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH5_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH5_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH5_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH5_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH5_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH5_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH5_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH5_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH5_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH5_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH5_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH5_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH5_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH5_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH5_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH5_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH5_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH5_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH5_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH5_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH5_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH5_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH5_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH5_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH5_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH5_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL1_CTRL
+// Description : Alias for channel 5 CTRL register
+#define DMA_CH5_AL1_CTRL_OFFSET _u(0x00000150)
+#define DMA_CH5_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH5_AL1_CTRL_RESET  "-"
+#define DMA_CH5_AL1_CTRL_MSB    _u(31)
+#define DMA_CH5_AL1_CTRL_LSB    _u(0)
+#define DMA_CH5_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL1_READ_ADDR
+// Description : Alias for channel 5 READ_ADDR register
+#define DMA_CH5_AL1_READ_ADDR_OFFSET _u(0x00000154)
+#define DMA_CH5_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH5_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH5_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH5_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL1_WRITE_ADDR
+// Description : Alias for channel 5 WRITE_ADDR register
+#define DMA_CH5_AL1_WRITE_ADDR_OFFSET _u(0x00000158)
+#define DMA_CH5_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH5_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH5_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH5_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 5 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000015c)
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH5_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL2_CTRL
+// Description : Alias for channel 5 CTRL register
+#define DMA_CH5_AL2_CTRL_OFFSET _u(0x00000160)
+#define DMA_CH5_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH5_AL2_CTRL_RESET  "-"
+#define DMA_CH5_AL2_CTRL_MSB    _u(31)
+#define DMA_CH5_AL2_CTRL_LSB    _u(0)
+#define DMA_CH5_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL2_TRANS_COUNT
+// Description : Alias for channel 5 TRANS_COUNT register
+#define DMA_CH5_AL2_TRANS_COUNT_OFFSET _u(0x00000164)
+#define DMA_CH5_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH5_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH5_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH5_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH5_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL2_READ_ADDR
+// Description : Alias for channel 5 READ_ADDR register
+#define DMA_CH5_AL2_READ_ADDR_OFFSET _u(0x00000168)
+#define DMA_CH5_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH5_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH5_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH5_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 5 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000016c)
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH5_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL3_CTRL
+// Description : Alias for channel 5 CTRL register
+#define DMA_CH5_AL3_CTRL_OFFSET _u(0x00000170)
+#define DMA_CH5_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH5_AL3_CTRL_RESET  "-"
+#define DMA_CH5_AL3_CTRL_MSB    _u(31)
+#define DMA_CH5_AL3_CTRL_LSB    _u(0)
+#define DMA_CH5_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL3_WRITE_ADDR
+// Description : Alias for channel 5 WRITE_ADDR register
+#define DMA_CH5_AL3_WRITE_ADDR_OFFSET _u(0x00000174)
+#define DMA_CH5_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH5_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH5_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH5_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH5_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL3_TRANS_COUNT
+// Description : Alias for channel 5 TRANS_COUNT register
+#define DMA_CH5_AL3_TRANS_COUNT_OFFSET _u(0x00000178)
+#define DMA_CH5_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH5_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH5_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH5_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH5_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH5_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 5 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH5_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000017c)
+#define DMA_CH5_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH5_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH5_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH5_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH5_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_READ_ADDR
+// Description : DMA Channel 6 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH6_READ_ADDR_OFFSET _u(0x00000180)
+#define DMA_CH6_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH6_READ_ADDR_MSB    _u(31)
+#define DMA_CH6_READ_ADDR_LSB    _u(0)
+#define DMA_CH6_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_WRITE_ADDR
+// Description : DMA Channel 6 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH6_WRITE_ADDR_OFFSET _u(0x00000184)
+#define DMA_CH6_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH6_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH6_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH6_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_TRANS_COUNT
+// Description : DMA Channel 6 Transfer Count
+#define DMA_CH6_TRANS_COUNT_OFFSET _u(0x00000188)
+#define DMA_CH6_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH6_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH6_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH6_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH6_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH6_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH6_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH6_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH6_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH6_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH6_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH6_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH6_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH6_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH6_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_CTRL_TRIG
+// Description : DMA Channel 6 Control and Status
+#define DMA_CH6_CTRL_TRIG_OFFSET _u(0x0000018c)
+#define DMA_CH6_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH6_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH6_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH6_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH6_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH6_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH6_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH6_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH6_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH6_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH6_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH6_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH6_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH6_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH6_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH6_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH6_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH6_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH6_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH6_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH6_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH6_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH6_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH6_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH6_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH6_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH6_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH6_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH6_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH6_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH6_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH6_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH6_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH6_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH6_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH6_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH6_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH6_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH6_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH6_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH6_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH6_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH6_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH6_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH6_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH6_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH6_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH6_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH6_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH6_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH6_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH6_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL1_CTRL
+// Description : Alias for channel 6 CTRL register
+#define DMA_CH6_AL1_CTRL_OFFSET _u(0x00000190)
+#define DMA_CH6_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH6_AL1_CTRL_RESET  "-"
+#define DMA_CH6_AL1_CTRL_MSB    _u(31)
+#define DMA_CH6_AL1_CTRL_LSB    _u(0)
+#define DMA_CH6_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL1_READ_ADDR
+// Description : Alias for channel 6 READ_ADDR register
+#define DMA_CH6_AL1_READ_ADDR_OFFSET _u(0x00000194)
+#define DMA_CH6_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH6_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH6_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH6_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL1_WRITE_ADDR
+// Description : Alias for channel 6 WRITE_ADDR register
+#define DMA_CH6_AL1_WRITE_ADDR_OFFSET _u(0x00000198)
+#define DMA_CH6_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH6_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH6_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH6_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 6 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000019c)
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH6_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL2_CTRL
+// Description : Alias for channel 6 CTRL register
+#define DMA_CH6_AL2_CTRL_OFFSET _u(0x000001a0)
+#define DMA_CH6_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH6_AL2_CTRL_RESET  "-"
+#define DMA_CH6_AL2_CTRL_MSB    _u(31)
+#define DMA_CH6_AL2_CTRL_LSB    _u(0)
+#define DMA_CH6_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL2_TRANS_COUNT
+// Description : Alias for channel 6 TRANS_COUNT register
+#define DMA_CH6_AL2_TRANS_COUNT_OFFSET _u(0x000001a4)
+#define DMA_CH6_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH6_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH6_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH6_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH6_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL2_READ_ADDR
+// Description : Alias for channel 6 READ_ADDR register
+#define DMA_CH6_AL2_READ_ADDR_OFFSET _u(0x000001a8)
+#define DMA_CH6_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH6_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH6_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH6_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 6 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000001ac)
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH6_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL3_CTRL
+// Description : Alias for channel 6 CTRL register
+#define DMA_CH6_AL3_CTRL_OFFSET _u(0x000001b0)
+#define DMA_CH6_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH6_AL3_CTRL_RESET  "-"
+#define DMA_CH6_AL3_CTRL_MSB    _u(31)
+#define DMA_CH6_AL3_CTRL_LSB    _u(0)
+#define DMA_CH6_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL3_WRITE_ADDR
+// Description : Alias for channel 6 WRITE_ADDR register
+#define DMA_CH6_AL3_WRITE_ADDR_OFFSET _u(0x000001b4)
+#define DMA_CH6_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH6_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH6_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH6_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH6_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL3_TRANS_COUNT
+// Description : Alias for channel 6 TRANS_COUNT register
+#define DMA_CH6_AL3_TRANS_COUNT_OFFSET _u(0x000001b8)
+#define DMA_CH6_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH6_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH6_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH6_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH6_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH6_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 6 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH6_AL3_READ_ADDR_TRIG_OFFSET _u(0x000001bc)
+#define DMA_CH6_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH6_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH6_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH6_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH6_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_READ_ADDR
+// Description : DMA Channel 7 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH7_READ_ADDR_OFFSET _u(0x000001c0)
+#define DMA_CH7_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH7_READ_ADDR_MSB    _u(31)
+#define DMA_CH7_READ_ADDR_LSB    _u(0)
+#define DMA_CH7_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_WRITE_ADDR
+// Description : DMA Channel 7 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH7_WRITE_ADDR_OFFSET _u(0x000001c4)
+#define DMA_CH7_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH7_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH7_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH7_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_TRANS_COUNT
+// Description : DMA Channel 7 Transfer Count
+#define DMA_CH7_TRANS_COUNT_OFFSET _u(0x000001c8)
+#define DMA_CH7_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH7_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH7_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH7_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH7_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH7_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH7_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH7_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH7_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH7_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH7_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH7_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH7_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH7_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH7_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_CTRL_TRIG
+// Description : DMA Channel 7 Control and Status
+#define DMA_CH7_CTRL_TRIG_OFFSET _u(0x000001cc)
+#define DMA_CH7_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH7_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH7_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH7_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH7_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH7_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH7_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH7_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH7_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH7_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH7_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH7_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH7_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH7_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH7_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH7_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH7_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH7_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH7_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH7_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH7_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH7_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH7_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH7_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH7_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH7_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH7_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH7_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH7_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH7_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH7_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH7_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH7_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH7_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH7_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH7_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH7_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH7_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH7_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH7_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH7_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH7_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH7_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH7_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH7_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH7_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH7_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH7_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH7_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH7_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH7_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH7_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL1_CTRL
+// Description : Alias for channel 7 CTRL register
+#define DMA_CH7_AL1_CTRL_OFFSET _u(0x000001d0)
+#define DMA_CH7_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH7_AL1_CTRL_RESET  "-"
+#define DMA_CH7_AL1_CTRL_MSB    _u(31)
+#define DMA_CH7_AL1_CTRL_LSB    _u(0)
+#define DMA_CH7_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL1_READ_ADDR
+// Description : Alias for channel 7 READ_ADDR register
+#define DMA_CH7_AL1_READ_ADDR_OFFSET _u(0x000001d4)
+#define DMA_CH7_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH7_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH7_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH7_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL1_WRITE_ADDR
+// Description : Alias for channel 7 WRITE_ADDR register
+#define DMA_CH7_AL1_WRITE_ADDR_OFFSET _u(0x000001d8)
+#define DMA_CH7_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH7_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH7_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH7_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 7 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x000001dc)
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH7_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL2_CTRL
+// Description : Alias for channel 7 CTRL register
+#define DMA_CH7_AL2_CTRL_OFFSET _u(0x000001e0)
+#define DMA_CH7_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH7_AL2_CTRL_RESET  "-"
+#define DMA_CH7_AL2_CTRL_MSB    _u(31)
+#define DMA_CH7_AL2_CTRL_LSB    _u(0)
+#define DMA_CH7_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL2_TRANS_COUNT
+// Description : Alias for channel 7 TRANS_COUNT register
+#define DMA_CH7_AL2_TRANS_COUNT_OFFSET _u(0x000001e4)
+#define DMA_CH7_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH7_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH7_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH7_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH7_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL2_READ_ADDR
+// Description : Alias for channel 7 READ_ADDR register
+#define DMA_CH7_AL2_READ_ADDR_OFFSET _u(0x000001e8)
+#define DMA_CH7_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH7_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH7_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH7_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 7 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000001ec)
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH7_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL3_CTRL
+// Description : Alias for channel 7 CTRL register
+#define DMA_CH7_AL3_CTRL_OFFSET _u(0x000001f0)
+#define DMA_CH7_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH7_AL3_CTRL_RESET  "-"
+#define DMA_CH7_AL3_CTRL_MSB    _u(31)
+#define DMA_CH7_AL3_CTRL_LSB    _u(0)
+#define DMA_CH7_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL3_WRITE_ADDR
+// Description : Alias for channel 7 WRITE_ADDR register
+#define DMA_CH7_AL3_WRITE_ADDR_OFFSET _u(0x000001f4)
+#define DMA_CH7_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH7_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH7_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH7_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH7_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL3_TRANS_COUNT
+// Description : Alias for channel 7 TRANS_COUNT register
+#define DMA_CH7_AL3_TRANS_COUNT_OFFSET _u(0x000001f8)
+#define DMA_CH7_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH7_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH7_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH7_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH7_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH7_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 7 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH7_AL3_READ_ADDR_TRIG_OFFSET _u(0x000001fc)
+#define DMA_CH7_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH7_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH7_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH7_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH7_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_READ_ADDR
+// Description : DMA Channel 8 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH8_READ_ADDR_OFFSET _u(0x00000200)
+#define DMA_CH8_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH8_READ_ADDR_MSB    _u(31)
+#define DMA_CH8_READ_ADDR_LSB    _u(0)
+#define DMA_CH8_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_WRITE_ADDR
+// Description : DMA Channel 8 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH8_WRITE_ADDR_OFFSET _u(0x00000204)
+#define DMA_CH8_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH8_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH8_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH8_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_TRANS_COUNT
+// Description : DMA Channel 8 Transfer Count
+#define DMA_CH8_TRANS_COUNT_OFFSET _u(0x00000208)
+#define DMA_CH8_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH8_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH8_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH8_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH8_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH8_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH8_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH8_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH8_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH8_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH8_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH8_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH8_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH8_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH8_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_CTRL_TRIG
+// Description : DMA Channel 8 Control and Status
+#define DMA_CH8_CTRL_TRIG_OFFSET _u(0x0000020c)
+#define DMA_CH8_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH8_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH8_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH8_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH8_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH8_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH8_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH8_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH8_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH8_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH8_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH8_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH8_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH8_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH8_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH8_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH8_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH8_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH8_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH8_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH8_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH8_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH8_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH8_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH8_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH8_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH8_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH8_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH8_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH8_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH8_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH8_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH8_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH8_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH8_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH8_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH8_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH8_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH8_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH8_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH8_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH8_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH8_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH8_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH8_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH8_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH8_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH8_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH8_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH8_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH8_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH8_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL1_CTRL
+// Description : Alias for channel 8 CTRL register
+#define DMA_CH8_AL1_CTRL_OFFSET _u(0x00000210)
+#define DMA_CH8_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH8_AL1_CTRL_RESET  "-"
+#define DMA_CH8_AL1_CTRL_MSB    _u(31)
+#define DMA_CH8_AL1_CTRL_LSB    _u(0)
+#define DMA_CH8_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL1_READ_ADDR
+// Description : Alias for channel 8 READ_ADDR register
+#define DMA_CH8_AL1_READ_ADDR_OFFSET _u(0x00000214)
+#define DMA_CH8_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH8_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH8_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH8_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL1_WRITE_ADDR
+// Description : Alias for channel 8 WRITE_ADDR register
+#define DMA_CH8_AL1_WRITE_ADDR_OFFSET _u(0x00000218)
+#define DMA_CH8_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH8_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH8_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH8_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 8 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000021c)
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH8_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL2_CTRL
+// Description : Alias for channel 8 CTRL register
+#define DMA_CH8_AL2_CTRL_OFFSET _u(0x00000220)
+#define DMA_CH8_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH8_AL2_CTRL_RESET  "-"
+#define DMA_CH8_AL2_CTRL_MSB    _u(31)
+#define DMA_CH8_AL2_CTRL_LSB    _u(0)
+#define DMA_CH8_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL2_TRANS_COUNT
+// Description : Alias for channel 8 TRANS_COUNT register
+#define DMA_CH8_AL2_TRANS_COUNT_OFFSET _u(0x00000224)
+#define DMA_CH8_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH8_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH8_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH8_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH8_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL2_READ_ADDR
+// Description : Alias for channel 8 READ_ADDR register
+#define DMA_CH8_AL2_READ_ADDR_OFFSET _u(0x00000228)
+#define DMA_CH8_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH8_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH8_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH8_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 8 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000022c)
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH8_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL3_CTRL
+// Description : Alias for channel 8 CTRL register
+#define DMA_CH8_AL3_CTRL_OFFSET _u(0x00000230)
+#define DMA_CH8_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH8_AL3_CTRL_RESET  "-"
+#define DMA_CH8_AL3_CTRL_MSB    _u(31)
+#define DMA_CH8_AL3_CTRL_LSB    _u(0)
+#define DMA_CH8_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL3_WRITE_ADDR
+// Description : Alias for channel 8 WRITE_ADDR register
+#define DMA_CH8_AL3_WRITE_ADDR_OFFSET _u(0x00000234)
+#define DMA_CH8_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH8_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH8_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH8_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH8_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL3_TRANS_COUNT
+// Description : Alias for channel 8 TRANS_COUNT register
+#define DMA_CH8_AL3_TRANS_COUNT_OFFSET _u(0x00000238)
+#define DMA_CH8_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH8_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH8_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH8_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH8_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH8_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 8 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH8_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000023c)
+#define DMA_CH8_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH8_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH8_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH8_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH8_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_READ_ADDR
+// Description : DMA Channel 9 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH9_READ_ADDR_OFFSET _u(0x00000240)
+#define DMA_CH9_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH9_READ_ADDR_MSB    _u(31)
+#define DMA_CH9_READ_ADDR_LSB    _u(0)
+#define DMA_CH9_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_WRITE_ADDR
+// Description : DMA Channel 9 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH9_WRITE_ADDR_OFFSET _u(0x00000244)
+#define DMA_CH9_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH9_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH9_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH9_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_TRANS_COUNT
+// Description : DMA Channel 9 Transfer Count
+#define DMA_CH9_TRANS_COUNT_OFFSET _u(0x00000248)
+#define DMA_CH9_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH9_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH9_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH9_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH9_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH9_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH9_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH9_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH9_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH9_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH9_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH9_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH9_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH9_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH9_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_CTRL_TRIG
+// Description : DMA Channel 9 Control and Status
+#define DMA_CH9_CTRL_TRIG_OFFSET _u(0x0000024c)
+#define DMA_CH9_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH9_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH9_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH9_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH9_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH9_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH9_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH9_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH9_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH9_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH9_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH9_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH9_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH9_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH9_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH9_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH9_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH9_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH9_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH9_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH9_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH9_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH9_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH9_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH9_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH9_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH9_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH9_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH9_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH9_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH9_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH9_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH9_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH9_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH9_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH9_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH9_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH9_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH9_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH9_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH9_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH9_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH9_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH9_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH9_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH9_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH9_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH9_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH9_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH9_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH9_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH9_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL1_CTRL
+// Description : Alias for channel 9 CTRL register
+#define DMA_CH9_AL1_CTRL_OFFSET _u(0x00000250)
+#define DMA_CH9_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH9_AL1_CTRL_RESET  "-"
+#define DMA_CH9_AL1_CTRL_MSB    _u(31)
+#define DMA_CH9_AL1_CTRL_LSB    _u(0)
+#define DMA_CH9_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL1_READ_ADDR
+// Description : Alias for channel 9 READ_ADDR register
+#define DMA_CH9_AL1_READ_ADDR_OFFSET _u(0x00000254)
+#define DMA_CH9_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH9_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH9_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH9_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL1_WRITE_ADDR
+// Description : Alias for channel 9 WRITE_ADDR register
+#define DMA_CH9_AL1_WRITE_ADDR_OFFSET _u(0x00000258)
+#define DMA_CH9_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH9_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH9_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH9_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 9 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000025c)
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH9_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL2_CTRL
+// Description : Alias for channel 9 CTRL register
+#define DMA_CH9_AL2_CTRL_OFFSET _u(0x00000260)
+#define DMA_CH9_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH9_AL2_CTRL_RESET  "-"
+#define DMA_CH9_AL2_CTRL_MSB    _u(31)
+#define DMA_CH9_AL2_CTRL_LSB    _u(0)
+#define DMA_CH9_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL2_TRANS_COUNT
+// Description : Alias for channel 9 TRANS_COUNT register
+#define DMA_CH9_AL2_TRANS_COUNT_OFFSET _u(0x00000264)
+#define DMA_CH9_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH9_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH9_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH9_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH9_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL2_READ_ADDR
+// Description : Alias for channel 9 READ_ADDR register
+#define DMA_CH9_AL2_READ_ADDR_OFFSET _u(0x00000268)
+#define DMA_CH9_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH9_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH9_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH9_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 9 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000026c)
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH9_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL3_CTRL
+// Description : Alias for channel 9 CTRL register
+#define DMA_CH9_AL3_CTRL_OFFSET _u(0x00000270)
+#define DMA_CH9_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH9_AL3_CTRL_RESET  "-"
+#define DMA_CH9_AL3_CTRL_MSB    _u(31)
+#define DMA_CH9_AL3_CTRL_LSB    _u(0)
+#define DMA_CH9_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL3_WRITE_ADDR
+// Description : Alias for channel 9 WRITE_ADDR register
+#define DMA_CH9_AL3_WRITE_ADDR_OFFSET _u(0x00000274)
+#define DMA_CH9_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH9_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH9_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH9_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH9_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL3_TRANS_COUNT
+// Description : Alias for channel 9 TRANS_COUNT register
+#define DMA_CH9_AL3_TRANS_COUNT_OFFSET _u(0x00000278)
+#define DMA_CH9_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH9_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH9_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH9_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH9_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH9_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 9 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH9_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000027c)
+#define DMA_CH9_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH9_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH9_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH9_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH9_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_READ_ADDR
+// Description : DMA Channel 10 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH10_READ_ADDR_OFFSET _u(0x00000280)
+#define DMA_CH10_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH10_READ_ADDR_MSB    _u(31)
+#define DMA_CH10_READ_ADDR_LSB    _u(0)
+#define DMA_CH10_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_WRITE_ADDR
+// Description : DMA Channel 10 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH10_WRITE_ADDR_OFFSET _u(0x00000284)
+#define DMA_CH10_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH10_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH10_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH10_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_TRANS_COUNT
+// Description : DMA Channel 10 Transfer Count
+#define DMA_CH10_TRANS_COUNT_OFFSET _u(0x00000288)
+#define DMA_CH10_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH10_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH10_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH10_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH10_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH10_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH10_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH10_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH10_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH10_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH10_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH10_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH10_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH10_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH10_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_CTRL_TRIG
+// Description : DMA Channel 10 Control and Status
+#define DMA_CH10_CTRL_TRIG_OFFSET _u(0x0000028c)
+#define DMA_CH10_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH10_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH10_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH10_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH10_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH10_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH10_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH10_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH10_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH10_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH10_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH10_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH10_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH10_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH10_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH10_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH10_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH10_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH10_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH10_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH10_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH10_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH10_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH10_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH10_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH10_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH10_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH10_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH10_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH10_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH10_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH10_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH10_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH10_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH10_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH10_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH10_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH10_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH10_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH10_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH10_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH10_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH10_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH10_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH10_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH10_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH10_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH10_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH10_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH10_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH10_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH10_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL1_CTRL
+// Description : Alias for channel 10 CTRL register
+#define DMA_CH10_AL1_CTRL_OFFSET _u(0x00000290)
+#define DMA_CH10_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH10_AL1_CTRL_RESET  "-"
+#define DMA_CH10_AL1_CTRL_MSB    _u(31)
+#define DMA_CH10_AL1_CTRL_LSB    _u(0)
+#define DMA_CH10_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL1_READ_ADDR
+// Description : Alias for channel 10 READ_ADDR register
+#define DMA_CH10_AL1_READ_ADDR_OFFSET _u(0x00000294)
+#define DMA_CH10_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH10_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH10_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH10_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL1_WRITE_ADDR
+// Description : Alias for channel 10 WRITE_ADDR register
+#define DMA_CH10_AL1_WRITE_ADDR_OFFSET _u(0x00000298)
+#define DMA_CH10_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH10_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH10_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH10_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 10 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000029c)
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH10_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL2_CTRL
+// Description : Alias for channel 10 CTRL register
+#define DMA_CH10_AL2_CTRL_OFFSET _u(0x000002a0)
+#define DMA_CH10_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH10_AL2_CTRL_RESET  "-"
+#define DMA_CH10_AL2_CTRL_MSB    _u(31)
+#define DMA_CH10_AL2_CTRL_LSB    _u(0)
+#define DMA_CH10_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL2_TRANS_COUNT
+// Description : Alias for channel 10 TRANS_COUNT register
+#define DMA_CH10_AL2_TRANS_COUNT_OFFSET _u(0x000002a4)
+#define DMA_CH10_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH10_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH10_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH10_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH10_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL2_READ_ADDR
+// Description : Alias for channel 10 READ_ADDR register
+#define DMA_CH10_AL2_READ_ADDR_OFFSET _u(0x000002a8)
+#define DMA_CH10_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH10_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH10_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH10_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 10 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000002ac)
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH10_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL3_CTRL
+// Description : Alias for channel 10 CTRL register
+#define DMA_CH10_AL3_CTRL_OFFSET _u(0x000002b0)
+#define DMA_CH10_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH10_AL3_CTRL_RESET  "-"
+#define DMA_CH10_AL3_CTRL_MSB    _u(31)
+#define DMA_CH10_AL3_CTRL_LSB    _u(0)
+#define DMA_CH10_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL3_WRITE_ADDR
+// Description : Alias for channel 10 WRITE_ADDR register
+#define DMA_CH10_AL3_WRITE_ADDR_OFFSET _u(0x000002b4)
+#define DMA_CH10_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH10_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH10_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH10_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH10_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL3_TRANS_COUNT
+// Description : Alias for channel 10 TRANS_COUNT register
+#define DMA_CH10_AL3_TRANS_COUNT_OFFSET _u(0x000002b8)
+#define DMA_CH10_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH10_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH10_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH10_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH10_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH10_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 10 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH10_AL3_READ_ADDR_TRIG_OFFSET _u(0x000002bc)
+#define DMA_CH10_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH10_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH10_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH10_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH10_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_READ_ADDR
+// Description : DMA Channel 11 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH11_READ_ADDR_OFFSET _u(0x000002c0)
+#define DMA_CH11_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH11_READ_ADDR_MSB    _u(31)
+#define DMA_CH11_READ_ADDR_LSB    _u(0)
+#define DMA_CH11_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_WRITE_ADDR
+// Description : DMA Channel 11 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH11_WRITE_ADDR_OFFSET _u(0x000002c4)
+#define DMA_CH11_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH11_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH11_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH11_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_TRANS_COUNT
+// Description : DMA Channel 11 Transfer Count
+#define DMA_CH11_TRANS_COUNT_OFFSET _u(0x000002c8)
+#define DMA_CH11_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH11_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH11_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH11_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH11_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH11_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH11_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH11_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH11_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH11_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH11_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH11_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH11_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH11_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH11_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_CTRL_TRIG
+// Description : DMA Channel 11 Control and Status
+#define DMA_CH11_CTRL_TRIG_OFFSET _u(0x000002cc)
+#define DMA_CH11_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH11_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH11_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH11_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH11_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH11_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH11_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH11_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH11_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH11_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH11_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH11_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH11_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH11_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH11_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH11_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH11_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH11_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH11_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH11_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH11_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH11_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH11_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH11_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH11_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH11_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH11_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH11_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH11_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH11_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH11_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH11_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH11_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH11_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH11_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH11_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH11_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH11_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH11_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH11_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH11_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH11_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH11_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH11_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH11_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH11_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH11_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH11_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH11_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH11_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH11_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH11_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL1_CTRL
+// Description : Alias for channel 11 CTRL register
+#define DMA_CH11_AL1_CTRL_OFFSET _u(0x000002d0)
+#define DMA_CH11_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH11_AL1_CTRL_RESET  "-"
+#define DMA_CH11_AL1_CTRL_MSB    _u(31)
+#define DMA_CH11_AL1_CTRL_LSB    _u(0)
+#define DMA_CH11_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL1_READ_ADDR
+// Description : Alias for channel 11 READ_ADDR register
+#define DMA_CH11_AL1_READ_ADDR_OFFSET _u(0x000002d4)
+#define DMA_CH11_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH11_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH11_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH11_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL1_WRITE_ADDR
+// Description : Alias for channel 11 WRITE_ADDR register
+#define DMA_CH11_AL1_WRITE_ADDR_OFFSET _u(0x000002d8)
+#define DMA_CH11_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH11_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH11_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH11_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 11 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x000002dc)
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH11_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL2_CTRL
+// Description : Alias for channel 11 CTRL register
+#define DMA_CH11_AL2_CTRL_OFFSET _u(0x000002e0)
+#define DMA_CH11_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH11_AL2_CTRL_RESET  "-"
+#define DMA_CH11_AL2_CTRL_MSB    _u(31)
+#define DMA_CH11_AL2_CTRL_LSB    _u(0)
+#define DMA_CH11_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL2_TRANS_COUNT
+// Description : Alias for channel 11 TRANS_COUNT register
+#define DMA_CH11_AL2_TRANS_COUNT_OFFSET _u(0x000002e4)
+#define DMA_CH11_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH11_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH11_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH11_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH11_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL2_READ_ADDR
+// Description : Alias for channel 11 READ_ADDR register
+#define DMA_CH11_AL2_READ_ADDR_OFFSET _u(0x000002e8)
+#define DMA_CH11_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH11_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH11_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH11_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 11 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000002ec)
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH11_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL3_CTRL
+// Description : Alias for channel 11 CTRL register
+#define DMA_CH11_AL3_CTRL_OFFSET _u(0x000002f0)
+#define DMA_CH11_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH11_AL3_CTRL_RESET  "-"
+#define DMA_CH11_AL3_CTRL_MSB    _u(31)
+#define DMA_CH11_AL3_CTRL_LSB    _u(0)
+#define DMA_CH11_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL3_WRITE_ADDR
+// Description : Alias for channel 11 WRITE_ADDR register
+#define DMA_CH11_AL3_WRITE_ADDR_OFFSET _u(0x000002f4)
+#define DMA_CH11_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH11_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH11_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH11_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH11_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL3_TRANS_COUNT
+// Description : Alias for channel 11 TRANS_COUNT register
+#define DMA_CH11_AL3_TRANS_COUNT_OFFSET _u(0x000002f8)
+#define DMA_CH11_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH11_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH11_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH11_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH11_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH11_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 11 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH11_AL3_READ_ADDR_TRIG_OFFSET _u(0x000002fc)
+#define DMA_CH11_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH11_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH11_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH11_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH11_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_READ_ADDR
+// Description : DMA Channel 12 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH12_READ_ADDR_OFFSET _u(0x00000300)
+#define DMA_CH12_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH12_READ_ADDR_MSB    _u(31)
+#define DMA_CH12_READ_ADDR_LSB    _u(0)
+#define DMA_CH12_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_WRITE_ADDR
+// Description : DMA Channel 12 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH12_WRITE_ADDR_OFFSET _u(0x00000304)
+#define DMA_CH12_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH12_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH12_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH12_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_TRANS_COUNT
+// Description : DMA Channel 12 Transfer Count
+#define DMA_CH12_TRANS_COUNT_OFFSET _u(0x00000308)
+#define DMA_CH12_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH12_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH12_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH12_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH12_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH12_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH12_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH12_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH12_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH12_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH12_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH12_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH12_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH12_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH12_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_CTRL_TRIG
+// Description : DMA Channel 12 Control and Status
+#define DMA_CH12_CTRL_TRIG_OFFSET _u(0x0000030c)
+#define DMA_CH12_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH12_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH12_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH12_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH12_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH12_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH12_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH12_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH12_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH12_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH12_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH12_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH12_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH12_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH12_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH12_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH12_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH12_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH12_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH12_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH12_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH12_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH12_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH12_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH12_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH12_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH12_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH12_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH12_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH12_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH12_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH12_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH12_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH12_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH12_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH12_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH12_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH12_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH12_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH12_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH12_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH12_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH12_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH12_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH12_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH12_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH12_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH12_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH12_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH12_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH12_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH12_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH12_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH12_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH12_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL1_CTRL
+// Description : Alias for channel 12 CTRL register
+#define DMA_CH12_AL1_CTRL_OFFSET _u(0x00000310)
+#define DMA_CH12_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH12_AL1_CTRL_RESET  "-"
+#define DMA_CH12_AL1_CTRL_MSB    _u(31)
+#define DMA_CH12_AL1_CTRL_LSB    _u(0)
+#define DMA_CH12_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL1_READ_ADDR
+// Description : Alias for channel 12 READ_ADDR register
+#define DMA_CH12_AL1_READ_ADDR_OFFSET _u(0x00000314)
+#define DMA_CH12_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH12_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH12_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH12_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL1_WRITE_ADDR
+// Description : Alias for channel 12 WRITE_ADDR register
+#define DMA_CH12_AL1_WRITE_ADDR_OFFSET _u(0x00000318)
+#define DMA_CH12_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH12_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH12_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH12_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 12 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000031c)
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH12_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL2_CTRL
+// Description : Alias for channel 12 CTRL register
+#define DMA_CH12_AL2_CTRL_OFFSET _u(0x00000320)
+#define DMA_CH12_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH12_AL2_CTRL_RESET  "-"
+#define DMA_CH12_AL2_CTRL_MSB    _u(31)
+#define DMA_CH12_AL2_CTRL_LSB    _u(0)
+#define DMA_CH12_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL2_TRANS_COUNT
+// Description : Alias for channel 12 TRANS_COUNT register
+#define DMA_CH12_AL2_TRANS_COUNT_OFFSET _u(0x00000324)
+#define DMA_CH12_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH12_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH12_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH12_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH12_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL2_READ_ADDR
+// Description : Alias for channel 12 READ_ADDR register
+#define DMA_CH12_AL2_READ_ADDR_OFFSET _u(0x00000328)
+#define DMA_CH12_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH12_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH12_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH12_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 12 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000032c)
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH12_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL3_CTRL
+// Description : Alias for channel 12 CTRL register
+#define DMA_CH12_AL3_CTRL_OFFSET _u(0x00000330)
+#define DMA_CH12_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH12_AL3_CTRL_RESET  "-"
+#define DMA_CH12_AL3_CTRL_MSB    _u(31)
+#define DMA_CH12_AL3_CTRL_LSB    _u(0)
+#define DMA_CH12_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL3_WRITE_ADDR
+// Description : Alias for channel 12 WRITE_ADDR register
+#define DMA_CH12_AL3_WRITE_ADDR_OFFSET _u(0x00000334)
+#define DMA_CH12_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH12_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH12_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH12_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH12_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL3_TRANS_COUNT
+// Description : Alias for channel 12 TRANS_COUNT register
+#define DMA_CH12_AL3_TRANS_COUNT_OFFSET _u(0x00000338)
+#define DMA_CH12_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH12_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH12_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH12_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH12_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH12_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 12 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH12_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000033c)
+#define DMA_CH12_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH12_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH12_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH12_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH12_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_READ_ADDR
+// Description : DMA Channel 13 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH13_READ_ADDR_OFFSET _u(0x00000340)
+#define DMA_CH13_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH13_READ_ADDR_MSB    _u(31)
+#define DMA_CH13_READ_ADDR_LSB    _u(0)
+#define DMA_CH13_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_WRITE_ADDR
+// Description : DMA Channel 13 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH13_WRITE_ADDR_OFFSET _u(0x00000344)
+#define DMA_CH13_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH13_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH13_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH13_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_TRANS_COUNT
+// Description : DMA Channel 13 Transfer Count
+#define DMA_CH13_TRANS_COUNT_OFFSET _u(0x00000348)
+#define DMA_CH13_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH13_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH13_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH13_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH13_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH13_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH13_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH13_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH13_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH13_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH13_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH13_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH13_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH13_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH13_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_CTRL_TRIG
+// Description : DMA Channel 13 Control and Status
+#define DMA_CH13_CTRL_TRIG_OFFSET _u(0x0000034c)
+#define DMA_CH13_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH13_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH13_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH13_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH13_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH13_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH13_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH13_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH13_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH13_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH13_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH13_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH13_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH13_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH13_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH13_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH13_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH13_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH13_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH13_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH13_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH13_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH13_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH13_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH13_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH13_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH13_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH13_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH13_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH13_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH13_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH13_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH13_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH13_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH13_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH13_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH13_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH13_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH13_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH13_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH13_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH13_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH13_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH13_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH13_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH13_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH13_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH13_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH13_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH13_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH13_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH13_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH13_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH13_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH13_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL1_CTRL
+// Description : Alias for channel 13 CTRL register
+#define DMA_CH13_AL1_CTRL_OFFSET _u(0x00000350)
+#define DMA_CH13_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH13_AL1_CTRL_RESET  "-"
+#define DMA_CH13_AL1_CTRL_MSB    _u(31)
+#define DMA_CH13_AL1_CTRL_LSB    _u(0)
+#define DMA_CH13_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL1_READ_ADDR
+// Description : Alias for channel 13 READ_ADDR register
+#define DMA_CH13_AL1_READ_ADDR_OFFSET _u(0x00000354)
+#define DMA_CH13_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH13_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH13_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH13_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL1_WRITE_ADDR
+// Description : Alias for channel 13 WRITE_ADDR register
+#define DMA_CH13_AL1_WRITE_ADDR_OFFSET _u(0x00000358)
+#define DMA_CH13_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH13_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH13_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH13_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 13 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000035c)
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH13_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL2_CTRL
+// Description : Alias for channel 13 CTRL register
+#define DMA_CH13_AL2_CTRL_OFFSET _u(0x00000360)
+#define DMA_CH13_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH13_AL2_CTRL_RESET  "-"
+#define DMA_CH13_AL2_CTRL_MSB    _u(31)
+#define DMA_CH13_AL2_CTRL_LSB    _u(0)
+#define DMA_CH13_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL2_TRANS_COUNT
+// Description : Alias for channel 13 TRANS_COUNT register
+#define DMA_CH13_AL2_TRANS_COUNT_OFFSET _u(0x00000364)
+#define DMA_CH13_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH13_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH13_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH13_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH13_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL2_READ_ADDR
+// Description : Alias for channel 13 READ_ADDR register
+#define DMA_CH13_AL2_READ_ADDR_OFFSET _u(0x00000368)
+#define DMA_CH13_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH13_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH13_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH13_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 13 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x0000036c)
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH13_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL3_CTRL
+// Description : Alias for channel 13 CTRL register
+#define DMA_CH13_AL3_CTRL_OFFSET _u(0x00000370)
+#define DMA_CH13_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH13_AL3_CTRL_RESET  "-"
+#define DMA_CH13_AL3_CTRL_MSB    _u(31)
+#define DMA_CH13_AL3_CTRL_LSB    _u(0)
+#define DMA_CH13_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL3_WRITE_ADDR
+// Description : Alias for channel 13 WRITE_ADDR register
+#define DMA_CH13_AL3_WRITE_ADDR_OFFSET _u(0x00000374)
+#define DMA_CH13_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH13_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH13_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH13_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH13_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL3_TRANS_COUNT
+// Description : Alias for channel 13 TRANS_COUNT register
+#define DMA_CH13_AL3_TRANS_COUNT_OFFSET _u(0x00000378)
+#define DMA_CH13_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH13_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH13_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH13_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH13_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH13_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 13 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH13_AL3_READ_ADDR_TRIG_OFFSET _u(0x0000037c)
+#define DMA_CH13_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH13_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH13_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH13_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH13_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_READ_ADDR
+// Description : DMA Channel 14 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH14_READ_ADDR_OFFSET _u(0x00000380)
+#define DMA_CH14_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH14_READ_ADDR_MSB    _u(31)
+#define DMA_CH14_READ_ADDR_LSB    _u(0)
+#define DMA_CH14_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_WRITE_ADDR
+// Description : DMA Channel 14 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH14_WRITE_ADDR_OFFSET _u(0x00000384)
+#define DMA_CH14_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH14_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH14_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH14_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_TRANS_COUNT
+// Description : DMA Channel 14 Transfer Count
+#define DMA_CH14_TRANS_COUNT_OFFSET _u(0x00000388)
+#define DMA_CH14_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH14_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH14_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH14_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH14_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH14_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH14_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH14_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH14_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH14_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH14_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH14_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH14_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH14_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH14_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_CTRL_TRIG
+// Description : DMA Channel 14 Control and Status
+#define DMA_CH14_CTRL_TRIG_OFFSET _u(0x0000038c)
+#define DMA_CH14_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH14_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH14_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH14_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH14_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH14_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH14_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH14_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH14_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH14_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH14_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH14_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH14_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH14_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH14_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH14_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH14_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH14_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH14_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH14_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH14_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH14_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH14_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH14_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH14_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH14_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH14_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH14_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH14_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH14_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH14_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH14_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH14_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH14_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH14_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH14_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH14_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH14_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH14_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH14_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH14_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH14_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH14_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH14_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH14_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH14_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH14_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH14_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH14_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH14_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH14_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH14_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH14_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH14_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH14_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL1_CTRL
+// Description : Alias for channel 14 CTRL register
+#define DMA_CH14_AL1_CTRL_OFFSET _u(0x00000390)
+#define DMA_CH14_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH14_AL1_CTRL_RESET  "-"
+#define DMA_CH14_AL1_CTRL_MSB    _u(31)
+#define DMA_CH14_AL1_CTRL_LSB    _u(0)
+#define DMA_CH14_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL1_READ_ADDR
+// Description : Alias for channel 14 READ_ADDR register
+#define DMA_CH14_AL1_READ_ADDR_OFFSET _u(0x00000394)
+#define DMA_CH14_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH14_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH14_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH14_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL1_WRITE_ADDR
+// Description : Alias for channel 14 WRITE_ADDR register
+#define DMA_CH14_AL1_WRITE_ADDR_OFFSET _u(0x00000398)
+#define DMA_CH14_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH14_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH14_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH14_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 14 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x0000039c)
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH14_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL2_CTRL
+// Description : Alias for channel 14 CTRL register
+#define DMA_CH14_AL2_CTRL_OFFSET _u(0x000003a0)
+#define DMA_CH14_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH14_AL2_CTRL_RESET  "-"
+#define DMA_CH14_AL2_CTRL_MSB    _u(31)
+#define DMA_CH14_AL2_CTRL_LSB    _u(0)
+#define DMA_CH14_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL2_TRANS_COUNT
+// Description : Alias for channel 14 TRANS_COUNT register
+#define DMA_CH14_AL2_TRANS_COUNT_OFFSET _u(0x000003a4)
+#define DMA_CH14_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH14_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH14_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH14_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH14_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL2_READ_ADDR
+// Description : Alias for channel 14 READ_ADDR register
+#define DMA_CH14_AL2_READ_ADDR_OFFSET _u(0x000003a8)
+#define DMA_CH14_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH14_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH14_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH14_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 14 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000003ac)
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH14_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL3_CTRL
+// Description : Alias for channel 14 CTRL register
+#define DMA_CH14_AL3_CTRL_OFFSET _u(0x000003b0)
+#define DMA_CH14_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH14_AL3_CTRL_RESET  "-"
+#define DMA_CH14_AL3_CTRL_MSB    _u(31)
+#define DMA_CH14_AL3_CTRL_LSB    _u(0)
+#define DMA_CH14_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL3_WRITE_ADDR
+// Description : Alias for channel 14 WRITE_ADDR register
+#define DMA_CH14_AL3_WRITE_ADDR_OFFSET _u(0x000003b4)
+#define DMA_CH14_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH14_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH14_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH14_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH14_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL3_TRANS_COUNT
+// Description : Alias for channel 14 TRANS_COUNT register
+#define DMA_CH14_AL3_TRANS_COUNT_OFFSET _u(0x000003b8)
+#define DMA_CH14_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH14_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH14_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH14_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH14_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH14_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 14 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH14_AL3_READ_ADDR_TRIG_OFFSET _u(0x000003bc)
+#define DMA_CH14_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH14_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH14_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH14_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH14_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_READ_ADDR
+// Description : DMA Channel 15 Read Address pointer
+//               This register updates automatically each time a read completes.
+//               The current value is the next address to be read by this
+//               channel.
+#define DMA_CH15_READ_ADDR_OFFSET _u(0x000003c0)
+#define DMA_CH15_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_READ_ADDR_RESET  _u(0x00000000)
+#define DMA_CH15_READ_ADDR_MSB    _u(31)
+#define DMA_CH15_READ_ADDR_LSB    _u(0)
+#define DMA_CH15_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_WRITE_ADDR
+// Description : DMA Channel 15 Write Address pointer
+//               This register updates automatically each time a write
+//               completes. The current value is the next address to be written
+//               by this channel.
+#define DMA_CH15_WRITE_ADDR_OFFSET _u(0x000003c4)
+#define DMA_CH15_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_WRITE_ADDR_RESET  _u(0x00000000)
+#define DMA_CH15_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH15_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH15_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_TRANS_COUNT
+// Description : DMA Channel 15 Transfer Count
+#define DMA_CH15_TRANS_COUNT_OFFSET _u(0x000003c8)
+#define DMA_CH15_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH15_TRANS_COUNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_TRANS_COUNT_MODE
+// Description : When MODE is 0x0, the transfer count decrements with each
+//               transfer until 0, and then the channel triggers the next
+//               channel indicated by CTRL_CHAIN_TO.
+//
+//               When MODE is 0x1, the transfer count decrements with each
+//               transfer until 0, and then the channel re-triggers itself, in
+//               addition to the trigger indicated by CTRL_CHAIN_TO. This is
+//               useful for e.g. an endless ring-buffer DMA with periodic
+//               interrupts.
+//
+//               When MODE is 0xf, the transfer count does not decrement. The
+//               DMA channel performs an endless sequence of transfers, never
+//               triggering other channels or raising interrupts, until an ABORT
+//               is raised.
+//
+//               All other values are reserved.
+//               0x0 -> NORMAL
+//               0x1 -> TRIGGER_SELF
+//               0xf -> ENDLESS
+#define DMA_CH15_TRANS_COUNT_MODE_RESET  _u(0x0)
+#define DMA_CH15_TRANS_COUNT_MODE_BITS   _u(0xf0000000)
+#define DMA_CH15_TRANS_COUNT_MODE_MSB    _u(31)
+#define DMA_CH15_TRANS_COUNT_MODE_LSB    _u(28)
+#define DMA_CH15_TRANS_COUNT_MODE_ACCESS "RW"
+#define DMA_CH15_TRANS_COUNT_MODE_VALUE_NORMAL _u(0x0)
+#define DMA_CH15_TRANS_COUNT_MODE_VALUE_TRIGGER_SELF _u(0x1)
+#define DMA_CH15_TRANS_COUNT_MODE_VALUE_ENDLESS _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_TRANS_COUNT_COUNT
+// Description : 28-bit transfer count (256 million transfers maximum).
+//
+//               Program the number of bus transfers a channel will perform
+//               before halting. Note that, if transfers are larger than one
+//               byte in size, this is not equal to the number of bytes
+//               transferred (see CTRL_DATA_SIZE).
+//
+//               When the channel is active, reading this register shows the
+//               number of transfers remaining, updating automatically each time
+//               a write transfer completes.
+//
+//               Writing this register sets the RELOAD value for the transfer
+//               counter. Each time this channel is triggered, the RELOAD value
+//               is copied into the live transfer counter. The channel can be
+//               started multiple times, and will perform the same number of
+//               transfers each time, as programmed by most recent write.
+//
+//               The RELOAD value can be observed at CHx_DBG_TCR. If TRANS_COUNT
+//               is used as a trigger, the written value is used immediately as
+//               the length of the new transfer sequence, as well as being
+//               written to RELOAD.
+#define DMA_CH15_TRANS_COUNT_COUNT_RESET  _u(0x0000000)
+#define DMA_CH15_TRANS_COUNT_COUNT_BITS   _u(0x0fffffff)
+#define DMA_CH15_TRANS_COUNT_COUNT_MSB    _u(27)
+#define DMA_CH15_TRANS_COUNT_COUNT_LSB    _u(0)
+#define DMA_CH15_TRANS_COUNT_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_CTRL_TRIG
+// Description : DMA Channel 15 Control and Status
+#define DMA_CH15_CTRL_TRIG_OFFSET _u(0x000003cc)
+#define DMA_CH15_CTRL_TRIG_BITS   _u(0xe7ffffff)
+#define DMA_CH15_CTRL_TRIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_AHB_ERROR
+// Description : Logical OR of the READ_ERROR and WRITE_ERROR flags. The channel
+//               halts when it encounters any bus error, and always raises its
+//               channel IRQ flag.
+#define DMA_CH15_CTRL_TRIG_AHB_ERROR_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_AHB_ERROR_BITS   _u(0x80000000)
+#define DMA_CH15_CTRL_TRIG_AHB_ERROR_MSB    _u(31)
+#define DMA_CH15_CTRL_TRIG_AHB_ERROR_LSB    _u(31)
+#define DMA_CH15_CTRL_TRIG_AHB_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_READ_ERROR
+// Description : If 1, the channel received a read bus error. Write one to
+//               clear.
+//               READ_ADDR shows the approximate address where the bus error was
+//               encountered (will not be earlier, or more than 3 transfers
+//               later)
+#define DMA_CH15_CTRL_TRIG_READ_ERROR_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_READ_ERROR_BITS   _u(0x40000000)
+#define DMA_CH15_CTRL_TRIG_READ_ERROR_MSB    _u(30)
+#define DMA_CH15_CTRL_TRIG_READ_ERROR_LSB    _u(30)
+#define DMA_CH15_CTRL_TRIG_READ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_WRITE_ERROR
+// Description : If 1, the channel received a write bus error. Write one to
+//               clear.
+//               WRITE_ADDR shows the approximate address where the bus error
+//               was encountered (will not be earlier, or more than 5 transfers
+//               later)
+#define DMA_CH15_CTRL_TRIG_WRITE_ERROR_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_WRITE_ERROR_BITS   _u(0x20000000)
+#define DMA_CH15_CTRL_TRIG_WRITE_ERROR_MSB    _u(29)
+#define DMA_CH15_CTRL_TRIG_WRITE_ERROR_LSB    _u(29)
+#define DMA_CH15_CTRL_TRIG_WRITE_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_BUSY
+// Description : This flag goes high when the channel starts a new transfer
+//               sequence, and low when the last transfer of that sequence
+//               completes. Clearing EN while BUSY is high pauses the channel,
+//               and BUSY will stay high while paused.
+//
+//               To terminate a sequence early (and clear the BUSY flag), see
+//               CHAN_ABORT.
+#define DMA_CH15_CTRL_TRIG_BUSY_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_BUSY_BITS   _u(0x04000000)
+#define DMA_CH15_CTRL_TRIG_BUSY_MSB    _u(26)
+#define DMA_CH15_CTRL_TRIG_BUSY_LSB    _u(26)
+#define DMA_CH15_CTRL_TRIG_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_SNIFF_EN
+// Description : If 1, this channel's data transfers are visible to the sniff
+//               hardware, and each transfer will advance the state of the
+//               checksum. This only applies if the sniff hardware is enabled,
+//               and has this channel selected.
+//
+//               This allows checksum to be enabled or disabled on a per-
+//               control- block basis.
+#define DMA_CH15_CTRL_TRIG_SNIFF_EN_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_SNIFF_EN_BITS   _u(0x02000000)
+#define DMA_CH15_CTRL_TRIG_SNIFF_EN_MSB    _u(25)
+#define DMA_CH15_CTRL_TRIG_SNIFF_EN_LSB    _u(25)
+#define DMA_CH15_CTRL_TRIG_SNIFF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_BSWAP
+// Description : Apply byte-swap transformation to DMA data.
+//               For byte data, this has no effect. For halfword data, the two
+//               bytes of each halfword are swapped. For word data, the four
+//               bytes of each word are swapped to reverse order.
+#define DMA_CH15_CTRL_TRIG_BSWAP_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_BSWAP_BITS   _u(0x01000000)
+#define DMA_CH15_CTRL_TRIG_BSWAP_MSB    _u(24)
+#define DMA_CH15_CTRL_TRIG_BSWAP_LSB    _u(24)
+#define DMA_CH15_CTRL_TRIG_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_IRQ_QUIET
+// Description : In QUIET mode, the channel does not generate IRQs at the end of
+//               every transfer block. Instead, an IRQ is raised when NULL is
+//               written to a trigger register, indicating the end of a control
+//               block chain.
+//
+//               This reduces the number of interrupts to be serviced by the CPU
+//               when transferring a DMA chain of many small control blocks.
+#define DMA_CH15_CTRL_TRIG_IRQ_QUIET_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_IRQ_QUIET_BITS   _u(0x00800000)
+#define DMA_CH15_CTRL_TRIG_IRQ_QUIET_MSB    _u(23)
+#define DMA_CH15_CTRL_TRIG_IRQ_QUIET_LSB    _u(23)
+#define DMA_CH15_CTRL_TRIG_IRQ_QUIET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_TREQ_SEL
+// Description : Select a Transfer Request signal.
+//               The channel uses the transfer request signal to pace its data
+//               transfer rate. Sources for TREQ signals are internal (TIMERS)
+//               or external (DREQ, a Data Request from the system).
+//               0x0 to 0x3a -> select DREQ n as TREQ
+//               0x3b -> Select Timer 0 as TREQ
+//               0x3c -> Select Timer 1 as TREQ
+//               0x3d -> Select Timer 2 as TREQ (Optional)
+//               0x3e -> Select Timer 3 as TREQ (Optional)
+//               0x3f -> Permanent request, for unpaced transfers.
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_RESET  _u(0x00)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_BITS   _u(0x007e0000)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_MSB    _u(22)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_LSB    _u(17)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_ACCESS "RW"
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_VALUE_TIMER0 _u(0x3b)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_VALUE_TIMER1 _u(0x3c)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_VALUE_TIMER2 _u(0x3d)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_VALUE_TIMER3 _u(0x3e)
+#define DMA_CH15_CTRL_TRIG_TREQ_SEL_VALUE_PERMANENT _u(0x3f)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_CHAIN_TO
+// Description : When this channel completes, it will trigger the channel
+//               indicated by CHAIN_TO. Disable by setting CHAIN_TO = _(this
+//               channel)_.
+//
+//               Note this field resets to 0, so channels 1 and above will chain
+//               to channel 0 by default. Set this field to avoid this
+//               behaviour.
+#define DMA_CH15_CTRL_TRIG_CHAIN_TO_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_CHAIN_TO_BITS   _u(0x0001e000)
+#define DMA_CH15_CTRL_TRIG_CHAIN_TO_MSB    _u(16)
+#define DMA_CH15_CTRL_TRIG_CHAIN_TO_LSB    _u(13)
+#define DMA_CH15_CTRL_TRIG_CHAIN_TO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_RING_SEL
+// Description : Select whether RING_SIZE applies to read or write addresses.
+//               If 0, read addresses are wrapped on a (1 << RING_SIZE)
+//               boundary. If 1, write addresses are wrapped.
+#define DMA_CH15_CTRL_TRIG_RING_SEL_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_RING_SEL_BITS   _u(0x00001000)
+#define DMA_CH15_CTRL_TRIG_RING_SEL_MSB    _u(12)
+#define DMA_CH15_CTRL_TRIG_RING_SEL_LSB    _u(12)
+#define DMA_CH15_CTRL_TRIG_RING_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_RING_SIZE
+// Description : Size of address wrap region. If 0, don't wrap. For values n >
+//               0, only the lower n bits of the address will change. This wraps
+//               the address on a (1 << n) byte boundary, facilitating access to
+//               naturally-aligned ring buffers.
+//
+//               Ring sizes between 2 and 32768 bytes are possible. This can
+//               apply to either read or write addresses, based on value of
+//               RING_SEL.
+//               0x0 -> RING_NONE
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_BITS   _u(0x00000f00)
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_MSB    _u(11)
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_LSB    _u(8)
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_ACCESS "RW"
+#define DMA_CH15_CTRL_TRIG_RING_SIZE_VALUE_RING_NONE _u(0x0)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_INCR_WRITE_REV
+// Description : If 1, and INCR_WRITE is 1, the write address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_WRITE is 0, this otherwise-unused combination
+//               causes the write address to be incremented by twice the
+//               transfer size, i.e. skipping over alternate addresses.
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_REV_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_REV_BITS   _u(0x00000080)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_REV_MSB    _u(7)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_REV_LSB    _u(7)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_INCR_WRITE
+// Description : If 1, the write address increments with each transfer. If 0,
+//               each write is directed to the same, initial address.
+//
+//               Generally this should be disabled for memory-to-peripheral
+//               transfers.
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_BITS   _u(0x00000040)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_MSB    _u(6)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_LSB    _u(6)
+#define DMA_CH15_CTRL_TRIG_INCR_WRITE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_INCR_READ_REV
+// Description : If 1, and INCR_READ is 1, the read address is decremented
+//               rather than incremented with each transfer.
+//
+//               If 1, and INCR_READ is 0, this otherwise-unused combination
+//               causes the read address to be incremented by twice the transfer
+//               size, i.e. skipping over alternate addresses.
+#define DMA_CH15_CTRL_TRIG_INCR_READ_REV_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_REV_BITS   _u(0x00000020)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_REV_MSB    _u(5)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_REV_LSB    _u(5)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_INCR_READ
+// Description : If 1, the read address increments with each transfer. If 0,
+//               each read is directed to the same, initial address.
+//
+//               Generally this should be disabled for peripheral-to-memory
+//               transfers.
+#define DMA_CH15_CTRL_TRIG_INCR_READ_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_BITS   _u(0x00000010)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_MSB    _u(4)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_LSB    _u(4)
+#define DMA_CH15_CTRL_TRIG_INCR_READ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_DATA_SIZE
+// Description : Set the size of each bus transfer (byte/halfword/word).
+//               READ_ADDR and WRITE_ADDR advance by this amount (1/2/4 bytes)
+//               with each transfer.
+//               0x0 -> SIZE_BYTE
+//               0x1 -> SIZE_HALFWORD
+//               0x2 -> SIZE_WORD
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_BITS   _u(0x0000000c)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_MSB    _u(3)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_LSB    _u(2)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_ACCESS "RW"
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_BYTE _u(0x0)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_HALFWORD _u(0x1)
+#define DMA_CH15_CTRL_TRIG_DATA_SIZE_VALUE_SIZE_WORD _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_HIGH_PRIORITY
+// Description : HIGH_PRIORITY gives a channel preferential treatment in issue
+//               scheduling: in each scheduling round, all high priority
+//               channels are considered first, and then only a single low
+//               priority channel, before returning to the high priority
+//               channels.
+//
+//               This only affects the order in which the DMA schedules
+//               channels. The DMA's bus priority is not changed. If the DMA is
+//               not saturated then a low priority channel will see no loss of
+//               throughput.
+#define DMA_CH15_CTRL_TRIG_HIGH_PRIORITY_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_HIGH_PRIORITY_BITS   _u(0x00000002)
+#define DMA_CH15_CTRL_TRIG_HIGH_PRIORITY_MSB    _u(1)
+#define DMA_CH15_CTRL_TRIG_HIGH_PRIORITY_LSB    _u(1)
+#define DMA_CH15_CTRL_TRIG_HIGH_PRIORITY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_CH15_CTRL_TRIG_EN
+// Description : DMA Channel Enable.
+//               When 1, the channel will respond to triggering events, which
+//               will cause it to become BUSY and start transferring data. When
+//               0, the channel will ignore triggers, stop issuing transfers,
+//               and pause the current transfer sequence (i.e. BUSY will remain
+//               high if already high)
+#define DMA_CH15_CTRL_TRIG_EN_RESET  _u(0x0)
+#define DMA_CH15_CTRL_TRIG_EN_BITS   _u(0x00000001)
+#define DMA_CH15_CTRL_TRIG_EN_MSB    _u(0)
+#define DMA_CH15_CTRL_TRIG_EN_LSB    _u(0)
+#define DMA_CH15_CTRL_TRIG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL1_CTRL
+// Description : Alias for channel 15 CTRL register
+#define DMA_CH15_AL1_CTRL_OFFSET _u(0x000003d0)
+#define DMA_CH15_AL1_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH15_AL1_CTRL_RESET  "-"
+#define DMA_CH15_AL1_CTRL_MSB    _u(31)
+#define DMA_CH15_AL1_CTRL_LSB    _u(0)
+#define DMA_CH15_AL1_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL1_READ_ADDR
+// Description : Alias for channel 15 READ_ADDR register
+#define DMA_CH15_AL1_READ_ADDR_OFFSET _u(0x000003d4)
+#define DMA_CH15_AL1_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_AL1_READ_ADDR_RESET  "-"
+#define DMA_CH15_AL1_READ_ADDR_MSB    _u(31)
+#define DMA_CH15_AL1_READ_ADDR_LSB    _u(0)
+#define DMA_CH15_AL1_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL1_WRITE_ADDR
+// Description : Alias for channel 15 WRITE_ADDR register
+#define DMA_CH15_AL1_WRITE_ADDR_OFFSET _u(0x000003d8)
+#define DMA_CH15_AL1_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_AL1_WRITE_ADDR_RESET  "-"
+#define DMA_CH15_AL1_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH15_AL1_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH15_AL1_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL1_TRANS_COUNT_TRIG
+// Description : Alias for channel 15 TRANS_COUNT register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_OFFSET _u(0x000003dc)
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_RESET  "-"
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_MSB    _u(31)
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_LSB    _u(0)
+#define DMA_CH15_AL1_TRANS_COUNT_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL2_CTRL
+// Description : Alias for channel 15 CTRL register
+#define DMA_CH15_AL2_CTRL_OFFSET _u(0x000003e0)
+#define DMA_CH15_AL2_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH15_AL2_CTRL_RESET  "-"
+#define DMA_CH15_AL2_CTRL_MSB    _u(31)
+#define DMA_CH15_AL2_CTRL_LSB    _u(0)
+#define DMA_CH15_AL2_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL2_TRANS_COUNT
+// Description : Alias for channel 15 TRANS_COUNT register
+#define DMA_CH15_AL2_TRANS_COUNT_OFFSET _u(0x000003e4)
+#define DMA_CH15_AL2_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH15_AL2_TRANS_COUNT_RESET  "-"
+#define DMA_CH15_AL2_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH15_AL2_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH15_AL2_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL2_READ_ADDR
+// Description : Alias for channel 15 READ_ADDR register
+#define DMA_CH15_AL2_READ_ADDR_OFFSET _u(0x000003e8)
+#define DMA_CH15_AL2_READ_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_AL2_READ_ADDR_RESET  "-"
+#define DMA_CH15_AL2_READ_ADDR_MSB    _u(31)
+#define DMA_CH15_AL2_READ_ADDR_LSB    _u(0)
+#define DMA_CH15_AL2_READ_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL2_WRITE_ADDR_TRIG
+// Description : Alias for channel 15 WRITE_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_OFFSET _u(0x000003ec)
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_RESET  "-"
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH15_AL2_WRITE_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL3_CTRL
+// Description : Alias for channel 15 CTRL register
+#define DMA_CH15_AL3_CTRL_OFFSET _u(0x000003f0)
+#define DMA_CH15_AL3_CTRL_BITS   _u(0xffffffff)
+#define DMA_CH15_AL3_CTRL_RESET  "-"
+#define DMA_CH15_AL3_CTRL_MSB    _u(31)
+#define DMA_CH15_AL3_CTRL_LSB    _u(0)
+#define DMA_CH15_AL3_CTRL_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL3_WRITE_ADDR
+// Description : Alias for channel 15 WRITE_ADDR register
+#define DMA_CH15_AL3_WRITE_ADDR_OFFSET _u(0x000003f4)
+#define DMA_CH15_AL3_WRITE_ADDR_BITS   _u(0xffffffff)
+#define DMA_CH15_AL3_WRITE_ADDR_RESET  "-"
+#define DMA_CH15_AL3_WRITE_ADDR_MSB    _u(31)
+#define DMA_CH15_AL3_WRITE_ADDR_LSB    _u(0)
+#define DMA_CH15_AL3_WRITE_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL3_TRANS_COUNT
+// Description : Alias for channel 15 TRANS_COUNT register
+#define DMA_CH15_AL3_TRANS_COUNT_OFFSET _u(0x000003f8)
+#define DMA_CH15_AL3_TRANS_COUNT_BITS   _u(0xffffffff)
+#define DMA_CH15_AL3_TRANS_COUNT_RESET  "-"
+#define DMA_CH15_AL3_TRANS_COUNT_MSB    _u(31)
+#define DMA_CH15_AL3_TRANS_COUNT_LSB    _u(0)
+#define DMA_CH15_AL3_TRANS_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH15_AL3_READ_ADDR_TRIG
+// Description : Alias for channel 15 READ_ADDR register
+//               This is a trigger register (0xc). Writing a nonzero value will
+//               reload the channel counter and start the channel.
+#define DMA_CH15_AL3_READ_ADDR_TRIG_OFFSET _u(0x000003fc)
+#define DMA_CH15_AL3_READ_ADDR_TRIG_BITS   _u(0xffffffff)
+#define DMA_CH15_AL3_READ_ADDR_TRIG_RESET  "-"
+#define DMA_CH15_AL3_READ_ADDR_TRIG_MSB    _u(31)
+#define DMA_CH15_AL3_READ_ADDR_TRIG_LSB    _u(0)
+#define DMA_CH15_AL3_READ_ADDR_TRIG_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTR
+// Description : Interrupt Status (raw)
+//               Raw interrupt status for DMA Channels 0..15. Bit n corresponds
+//               to channel n. Ignores any masking or forcing. Channel
+//               interrupts can be cleared by writing a bit mask to INTR or
+//               INTS0/1/2/3.
+//
+//               Channel interrupts can be routed to either of four system-level
+//               IRQs based on INTE0, INTE1, INTE2 and INTE3.
+//
+//               The multiple system-level interrupts might be used to allow
+//               NVIC IRQ preemption for more time-critical channels, to spread
+//               IRQ load across different cores, or to target IRQs to different
+//               security domains.
+//
+//               It is also valid to ignore the multiple IRQs, and just use
+//               INTE0/INTS0/IRQ 0.
+//
+//               If this register is accessed at a security/privilege level less
+//               than that of a given channel (as defined by that channel's
+//               SECCFG_CHx register), then that channel's interrupt status will
+//               read as 0, ignore writes.
+#define DMA_INTR_OFFSET _u(0x00000400)
+#define DMA_INTR_BITS   _u(0x0000ffff)
+#define DMA_INTR_RESET  _u(0x00000000)
+#define DMA_INTR_MSB    _u(15)
+#define DMA_INTR_LSB    _u(0)
+#define DMA_INTR_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_INTE0
+// Description : Interrupt Enables for IRQ 0
+//               Set bit n to pass interrupts from channel n to DMA IRQ 0.
+//
+//               Note this bit has no effect if the channel security/privilege
+//               level, defined by SECCFG_CHx, is greater than the IRQ
+//               security/privilege defined by SECCFG_IRQ0.
+#define DMA_INTE0_OFFSET _u(0x00000404)
+#define DMA_INTE0_BITS   _u(0x0000ffff)
+#define DMA_INTE0_RESET  _u(0x00000000)
+#define DMA_INTE0_MSB    _u(15)
+#define DMA_INTE0_LSB    _u(0)
+#define DMA_INTE0_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTF0
+// Description : Force Interrupts
+//               Write 1s to force the corresponding bits in INTS0. The
+//               interrupt remains asserted until INTF0 is cleared.
+#define DMA_INTF0_OFFSET _u(0x00000408)
+#define DMA_INTF0_BITS   _u(0x0000ffff)
+#define DMA_INTF0_RESET  _u(0x00000000)
+#define DMA_INTF0_MSB    _u(15)
+#define DMA_INTF0_LSB    _u(0)
+#define DMA_INTF0_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTS0
+// Description : Interrupt Status for IRQ 0
+//               Indicates active channel interrupt requests which are currently
+//               causing IRQ 0 to be asserted.
+//               Channel interrupts can be cleared by writing a bit mask here.
+//
+//               Channels with a security/privilege (SECCFG_CHx) greater
+//               SECCFG_IRQ0) read as 0 in this register, and ignore writes.
+#define DMA_INTS0_OFFSET _u(0x0000040c)
+#define DMA_INTS0_BITS   _u(0x0000ffff)
+#define DMA_INTS0_RESET  _u(0x00000000)
+#define DMA_INTS0_MSB    _u(15)
+#define DMA_INTS0_LSB    _u(0)
+#define DMA_INTS0_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_INTE1
+// Description : Interrupt Enables for IRQ 1
+//               Set bit n to pass interrupts from channel n to DMA IRQ 1.
+//
+//               Note this bit has no effect if the channel security/privilege
+//               level, defined by SECCFG_CHx, is greater than the IRQ
+//               security/privilege defined by SECCFG_IRQ1.
+#define DMA_INTE1_OFFSET _u(0x00000414)
+#define DMA_INTE1_BITS   _u(0x0000ffff)
+#define DMA_INTE1_RESET  _u(0x00000000)
+#define DMA_INTE1_MSB    _u(15)
+#define DMA_INTE1_LSB    _u(0)
+#define DMA_INTE1_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTF1
+// Description : Force Interrupts
+//               Write 1s to force the corresponding bits in INTS1. The
+//               interrupt remains asserted until INTF1 is cleared.
+#define DMA_INTF1_OFFSET _u(0x00000418)
+#define DMA_INTF1_BITS   _u(0x0000ffff)
+#define DMA_INTF1_RESET  _u(0x00000000)
+#define DMA_INTF1_MSB    _u(15)
+#define DMA_INTF1_LSB    _u(0)
+#define DMA_INTF1_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTS1
+// Description : Interrupt Status for IRQ 1
+//               Indicates active channel interrupt requests which are currently
+//               causing IRQ 1 to be asserted.
+//               Channel interrupts can be cleared by writing a bit mask here.
+//
+//               Channels with a security/privilege (SECCFG_CHx) greater
+//               SECCFG_IRQ1) read as 0 in this register, and ignore writes.
+#define DMA_INTS1_OFFSET _u(0x0000041c)
+#define DMA_INTS1_BITS   _u(0x0000ffff)
+#define DMA_INTS1_RESET  _u(0x00000000)
+#define DMA_INTS1_MSB    _u(15)
+#define DMA_INTS1_LSB    _u(0)
+#define DMA_INTS1_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_INTE2
+// Description : Interrupt Enables for IRQ 2
+//               Set bit n to pass interrupts from channel n to DMA IRQ 2.
+//
+//               Note this bit has no effect if the channel security/privilege
+//               level, defined by SECCFG_CHx, is greater than the IRQ
+//               security/privilege defined by SECCFG_IRQ2.
+#define DMA_INTE2_OFFSET _u(0x00000424)
+#define DMA_INTE2_BITS   _u(0x0000ffff)
+#define DMA_INTE2_RESET  _u(0x00000000)
+#define DMA_INTE2_MSB    _u(15)
+#define DMA_INTE2_LSB    _u(0)
+#define DMA_INTE2_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTF2
+// Description : Force Interrupts
+//               Write 1s to force the corresponding bits in INTS2. The
+//               interrupt remains asserted until INTF2 is cleared.
+#define DMA_INTF2_OFFSET _u(0x00000428)
+#define DMA_INTF2_BITS   _u(0x0000ffff)
+#define DMA_INTF2_RESET  _u(0x00000000)
+#define DMA_INTF2_MSB    _u(15)
+#define DMA_INTF2_LSB    _u(0)
+#define DMA_INTF2_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTS2
+// Description : Interrupt Status for IRQ 2
+//               Indicates active channel interrupt requests which are currently
+//               causing IRQ 2 to be asserted.
+//               Channel interrupts can be cleared by writing a bit mask here.
+//
+//               Channels with a security/privilege (SECCFG_CHx) greater
+//               SECCFG_IRQ2) read as 0 in this register, and ignore writes.
+#define DMA_INTS2_OFFSET _u(0x0000042c)
+#define DMA_INTS2_BITS   _u(0x0000ffff)
+#define DMA_INTS2_RESET  _u(0x00000000)
+#define DMA_INTS2_MSB    _u(15)
+#define DMA_INTS2_LSB    _u(0)
+#define DMA_INTS2_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_INTE3
+// Description : Interrupt Enables for IRQ 3
+//               Set bit n to pass interrupts from channel n to DMA IRQ 3.
+//
+//               Note this bit has no effect if the channel security/privilege
+//               level, defined by SECCFG_CHx, is greater than the IRQ
+//               security/privilege defined by SECCFG_IRQ3.
+#define DMA_INTE3_OFFSET _u(0x00000434)
+#define DMA_INTE3_BITS   _u(0x0000ffff)
+#define DMA_INTE3_RESET  _u(0x00000000)
+#define DMA_INTE3_MSB    _u(15)
+#define DMA_INTE3_LSB    _u(0)
+#define DMA_INTE3_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTF3
+// Description : Force Interrupts
+//               Write 1s to force the corresponding bits in INTS3. The
+//               interrupt remains asserted until INTF3 is cleared.
+#define DMA_INTF3_OFFSET _u(0x00000438)
+#define DMA_INTF3_BITS   _u(0x0000ffff)
+#define DMA_INTF3_RESET  _u(0x00000000)
+#define DMA_INTF3_MSB    _u(15)
+#define DMA_INTF3_LSB    _u(0)
+#define DMA_INTF3_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_INTS3
+// Description : Interrupt Status for IRQ 3
+//               Indicates active channel interrupt requests which are currently
+//               causing IRQ 3 to be asserted.
+//               Channel interrupts can be cleared by writing a bit mask here.
+//
+//               Channels with a security/privilege (SECCFG_CHx) greater
+//               SECCFG_IRQ3) read as 0 in this register, and ignore writes.
+#define DMA_INTS3_OFFSET _u(0x0000043c)
+#define DMA_INTS3_BITS   _u(0x0000ffff)
+#define DMA_INTS3_RESET  _u(0x00000000)
+#define DMA_INTS3_MSB    _u(15)
+#define DMA_INTS3_LSB    _u(0)
+#define DMA_INTS3_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_TIMER0
+// Description : Pacing (X/Y) fractional timer
+//               The pacing timer produces TREQ assertions at a rate set by
+//               ((X/Y) * sys_clk). This equation is evaluated every sys_clk
+//               cycles and therefore can only generate TREQs at a rate of 1 per
+//               sys_clk (i.e. permanent TREQ) or less.
+#define DMA_TIMER0_OFFSET _u(0x00000440)
+#define DMA_TIMER0_BITS   _u(0xffffffff)
+#define DMA_TIMER0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER0_X
+// Description : Pacing Timer Dividend. Specifies the X value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER0_X_RESET  _u(0x0000)
+#define DMA_TIMER0_X_BITS   _u(0xffff0000)
+#define DMA_TIMER0_X_MSB    _u(31)
+#define DMA_TIMER0_X_LSB    _u(16)
+#define DMA_TIMER0_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER0_Y
+// Description : Pacing Timer Divisor. Specifies the Y value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER0_Y_RESET  _u(0x0000)
+#define DMA_TIMER0_Y_BITS   _u(0x0000ffff)
+#define DMA_TIMER0_Y_MSB    _u(15)
+#define DMA_TIMER0_Y_LSB    _u(0)
+#define DMA_TIMER0_Y_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_TIMER1
+// Description : Pacing (X/Y) fractional timer
+//               The pacing timer produces TREQ assertions at a rate set by
+//               ((X/Y) * sys_clk). This equation is evaluated every sys_clk
+//               cycles and therefore can only generate TREQs at a rate of 1 per
+//               sys_clk (i.e. permanent TREQ) or less.
+#define DMA_TIMER1_OFFSET _u(0x00000444)
+#define DMA_TIMER1_BITS   _u(0xffffffff)
+#define DMA_TIMER1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER1_X
+// Description : Pacing Timer Dividend. Specifies the X value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER1_X_RESET  _u(0x0000)
+#define DMA_TIMER1_X_BITS   _u(0xffff0000)
+#define DMA_TIMER1_X_MSB    _u(31)
+#define DMA_TIMER1_X_LSB    _u(16)
+#define DMA_TIMER1_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER1_Y
+// Description : Pacing Timer Divisor. Specifies the Y value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER1_Y_RESET  _u(0x0000)
+#define DMA_TIMER1_Y_BITS   _u(0x0000ffff)
+#define DMA_TIMER1_Y_MSB    _u(15)
+#define DMA_TIMER1_Y_LSB    _u(0)
+#define DMA_TIMER1_Y_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_TIMER2
+// Description : Pacing (X/Y) fractional timer
+//               The pacing timer produces TREQ assertions at a rate set by
+//               ((X/Y) * sys_clk). This equation is evaluated every sys_clk
+//               cycles and therefore can only generate TREQs at a rate of 1 per
+//               sys_clk (i.e. permanent TREQ) or less.
+#define DMA_TIMER2_OFFSET _u(0x00000448)
+#define DMA_TIMER2_BITS   _u(0xffffffff)
+#define DMA_TIMER2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER2_X
+// Description : Pacing Timer Dividend. Specifies the X value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER2_X_RESET  _u(0x0000)
+#define DMA_TIMER2_X_BITS   _u(0xffff0000)
+#define DMA_TIMER2_X_MSB    _u(31)
+#define DMA_TIMER2_X_LSB    _u(16)
+#define DMA_TIMER2_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER2_Y
+// Description : Pacing Timer Divisor. Specifies the Y value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER2_Y_RESET  _u(0x0000)
+#define DMA_TIMER2_Y_BITS   _u(0x0000ffff)
+#define DMA_TIMER2_Y_MSB    _u(15)
+#define DMA_TIMER2_Y_LSB    _u(0)
+#define DMA_TIMER2_Y_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_TIMER3
+// Description : Pacing (X/Y) fractional timer
+//               The pacing timer produces TREQ assertions at a rate set by
+//               ((X/Y) * sys_clk). This equation is evaluated every sys_clk
+//               cycles and therefore can only generate TREQs at a rate of 1 per
+//               sys_clk (i.e. permanent TREQ) or less.
+#define DMA_TIMER3_OFFSET _u(0x0000044c)
+#define DMA_TIMER3_BITS   _u(0xffffffff)
+#define DMA_TIMER3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER3_X
+// Description : Pacing Timer Dividend. Specifies the X value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER3_X_RESET  _u(0x0000)
+#define DMA_TIMER3_X_BITS   _u(0xffff0000)
+#define DMA_TIMER3_X_MSB    _u(31)
+#define DMA_TIMER3_X_LSB    _u(16)
+#define DMA_TIMER3_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_TIMER3_Y
+// Description : Pacing Timer Divisor. Specifies the Y value for the (X/Y)
+//               fractional timer.
+#define DMA_TIMER3_Y_RESET  _u(0x0000)
+#define DMA_TIMER3_Y_BITS   _u(0x0000ffff)
+#define DMA_TIMER3_Y_MSB    _u(15)
+#define DMA_TIMER3_Y_LSB    _u(0)
+#define DMA_TIMER3_Y_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MULTI_CHAN_TRIGGER
+// Description : Trigger one or more channels simultaneously
+//               Each bit in this register corresponds to a DMA channel. Writing
+//               a 1 to the relevant bit is the same as writing to that
+//               channel's trigger register; the channel will start if it is
+//               currently enabled and not already busy.
+#define DMA_MULTI_CHAN_TRIGGER_OFFSET _u(0x00000450)
+#define DMA_MULTI_CHAN_TRIGGER_BITS   _u(0x0000ffff)
+#define DMA_MULTI_CHAN_TRIGGER_RESET  _u(0x00000000)
+#define DMA_MULTI_CHAN_TRIGGER_MSB    _u(15)
+#define DMA_MULTI_CHAN_TRIGGER_LSB    _u(0)
+#define DMA_MULTI_CHAN_TRIGGER_ACCESS "SC"
+// =============================================================================
+// Register    : DMA_SNIFF_CTRL
+// Description : Sniffer Control
+#define DMA_SNIFF_CTRL_OFFSET _u(0x00000454)
+#define DMA_SNIFF_CTRL_BITS   _u(0x00000fff)
+#define DMA_SNIFF_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_OUT_INV
+// Description : If set, the result appears inverted (bitwise complement) when
+//               read. This does not affect the way the checksum is calculated;
+//               the result is transformed on-the-fly between the result
+//               register and the bus.
+#define DMA_SNIFF_CTRL_OUT_INV_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_OUT_INV_BITS   _u(0x00000800)
+#define DMA_SNIFF_CTRL_OUT_INV_MSB    _u(11)
+#define DMA_SNIFF_CTRL_OUT_INV_LSB    _u(11)
+#define DMA_SNIFF_CTRL_OUT_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_OUT_REV
+// Description : If set, the result appears bit-reversed when read. This does
+//               not affect the way the checksum is calculated; the result is
+//               transformed on-the-fly between the result register and the bus.
+#define DMA_SNIFF_CTRL_OUT_REV_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_OUT_REV_BITS   _u(0x00000400)
+#define DMA_SNIFF_CTRL_OUT_REV_MSB    _u(10)
+#define DMA_SNIFF_CTRL_OUT_REV_LSB    _u(10)
+#define DMA_SNIFF_CTRL_OUT_REV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_BSWAP
+// Description : Locally perform a byte reverse on the sniffed data, before
+//               feeding into checksum.
+//
+//               Note that the sniff hardware is downstream of the DMA channel
+//               byteswap performed in the read master: if channel CTRL_BSWAP
+//               and SNIFF_CTRL_BSWAP are both enabled, their effects cancel
+//               from the sniffer's point of view.
+#define DMA_SNIFF_CTRL_BSWAP_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_BSWAP_BITS   _u(0x00000200)
+#define DMA_SNIFF_CTRL_BSWAP_MSB    _u(9)
+#define DMA_SNIFF_CTRL_BSWAP_LSB    _u(9)
+#define DMA_SNIFF_CTRL_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_CALC
+//               0x0 -> Calculate a CRC-32 (IEEE802.3 polynomial)
+//               0x1 -> Calculate a CRC-32 (IEEE802.3 polynomial) with bit reversed data
+//               0x2 -> Calculate a CRC-16-CCITT
+//               0x3 -> Calculate a CRC-16-CCITT with bit reversed data
+//               0xe -> XOR reduction over all data. == 1 if the total 1 population count is odd.
+//               0xf -> Calculate a simple 32-bit checksum (addition with a 32 bit accumulator)
+#define DMA_SNIFF_CTRL_CALC_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_CALC_BITS   _u(0x000001e0)
+#define DMA_SNIFF_CTRL_CALC_MSB    _u(8)
+#define DMA_SNIFF_CTRL_CALC_LSB    _u(5)
+#define DMA_SNIFF_CTRL_CALC_ACCESS "RW"
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC32 _u(0x0)
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC32R _u(0x1)
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC16 _u(0x2)
+#define DMA_SNIFF_CTRL_CALC_VALUE_CRC16R _u(0x3)
+#define DMA_SNIFF_CTRL_CALC_VALUE_EVEN _u(0xe)
+#define DMA_SNIFF_CTRL_CALC_VALUE_SUM _u(0xf)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_DMACH
+// Description : DMA channel for Sniffer to observe
+#define DMA_SNIFF_CTRL_DMACH_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_DMACH_BITS   _u(0x0000001e)
+#define DMA_SNIFF_CTRL_DMACH_MSB    _u(4)
+#define DMA_SNIFF_CTRL_DMACH_LSB    _u(1)
+#define DMA_SNIFF_CTRL_DMACH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SNIFF_CTRL_EN
+// Description : Enable sniffer
+#define DMA_SNIFF_CTRL_EN_RESET  _u(0x0)
+#define DMA_SNIFF_CTRL_EN_BITS   _u(0x00000001)
+#define DMA_SNIFF_CTRL_EN_MSB    _u(0)
+#define DMA_SNIFF_CTRL_EN_LSB    _u(0)
+#define DMA_SNIFF_CTRL_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SNIFF_DATA
+// Description : Data accumulator for sniff hardware
+//               Write an initial seed value here before starting a DMA transfer
+//               on the channel indicated by SNIFF_CTRL_DMACH. The hardware will
+//               update this register each time it observes a read from the
+//               indicated channel. Once the channel completes, the final result
+//               can be read from this register.
+#define DMA_SNIFF_DATA_OFFSET _u(0x00000458)
+#define DMA_SNIFF_DATA_BITS   _u(0xffffffff)
+#define DMA_SNIFF_DATA_RESET  _u(0x00000000)
+#define DMA_SNIFF_DATA_MSB    _u(31)
+#define DMA_SNIFF_DATA_LSB    _u(0)
+#define DMA_SNIFF_DATA_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_FIFO_LEVELS
+// Description : Debug RAF, WAF, TDF levels
+#define DMA_FIFO_LEVELS_OFFSET _u(0x00000460)
+#define DMA_FIFO_LEVELS_BITS   _u(0x00ffffff)
+#define DMA_FIFO_LEVELS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_FIFO_LEVELS_RAF_LVL
+// Description : Current Read-Address-FIFO fill level
+#define DMA_FIFO_LEVELS_RAF_LVL_RESET  _u(0x00)
+#define DMA_FIFO_LEVELS_RAF_LVL_BITS   _u(0x00ff0000)
+#define DMA_FIFO_LEVELS_RAF_LVL_MSB    _u(23)
+#define DMA_FIFO_LEVELS_RAF_LVL_LSB    _u(16)
+#define DMA_FIFO_LEVELS_RAF_LVL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_FIFO_LEVELS_WAF_LVL
+// Description : Current Write-Address-FIFO fill level
+#define DMA_FIFO_LEVELS_WAF_LVL_RESET  _u(0x00)
+#define DMA_FIFO_LEVELS_WAF_LVL_BITS   _u(0x0000ff00)
+#define DMA_FIFO_LEVELS_WAF_LVL_MSB    _u(15)
+#define DMA_FIFO_LEVELS_WAF_LVL_LSB    _u(8)
+#define DMA_FIFO_LEVELS_WAF_LVL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : DMA_FIFO_LEVELS_TDF_LVL
+// Description : Current Transfer-Data-FIFO fill level
+#define DMA_FIFO_LEVELS_TDF_LVL_RESET  _u(0x00)
+#define DMA_FIFO_LEVELS_TDF_LVL_BITS   _u(0x000000ff)
+#define DMA_FIFO_LEVELS_TDF_LVL_MSB    _u(7)
+#define DMA_FIFO_LEVELS_TDF_LVL_LSB    _u(0)
+#define DMA_FIFO_LEVELS_TDF_LVL_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CHAN_ABORT
+// Description : Abort an in-progress transfer sequence on one or more channels
+//               Each bit corresponds to a channel. Writing a 1 aborts whatever
+//               transfer sequence is in progress on that channel. The bit will
+//               remain high until any in-flight transfers have been flushed
+//               through the address and data FIFOs.
+//
+//               After writing, this register must be polled until it returns
+//               all-zero. Until this point, it is unsafe to restart the
+//               channel.
+#define DMA_CHAN_ABORT_OFFSET _u(0x00000464)
+#define DMA_CHAN_ABORT_BITS   _u(0x0000ffff)
+#define DMA_CHAN_ABORT_RESET  _u(0x00000000)
+#define DMA_CHAN_ABORT_MSB    _u(15)
+#define DMA_CHAN_ABORT_LSB    _u(0)
+#define DMA_CHAN_ABORT_ACCESS "SC"
+// =============================================================================
+// Register    : DMA_N_CHANNELS
+// Description : The number of channels this DMA instance is equipped with. This
+//               DMA supports up to 16 hardware channels, but can be configured
+//               with as few as one, to minimise silicon area.
+#define DMA_N_CHANNELS_OFFSET _u(0x00000468)
+#define DMA_N_CHANNELS_BITS   _u(0x0000001f)
+#define DMA_N_CHANNELS_RESET  "-"
+#define DMA_N_CHANNELS_MSB    _u(4)
+#define DMA_N_CHANNELS_LSB    _u(0)
+#define DMA_N_CHANNELS_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_SECCFG_CH0
+// Description : Security configuration for channel 0. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH0_OFFSET _u(0x00000480)
+#define DMA_SECCFG_CH0_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH0_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH0_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH0_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH0_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH0_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH0_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH0_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH0_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH0_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH0_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH0_S_MSB    _u(1)
+#define DMA_SECCFG_CH0_S_LSB    _u(1)
+#define DMA_SECCFG_CH0_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH0_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH0_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH0_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH0_P_MSB    _u(0)
+#define DMA_SECCFG_CH0_P_LSB    _u(0)
+#define DMA_SECCFG_CH0_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH1
+// Description : Security configuration for channel 1. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH1_OFFSET _u(0x00000484)
+#define DMA_SECCFG_CH1_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH1_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH1_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH1_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH1_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH1_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH1_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH1_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH1_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH1_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH1_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH1_S_MSB    _u(1)
+#define DMA_SECCFG_CH1_S_LSB    _u(1)
+#define DMA_SECCFG_CH1_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH1_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH1_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH1_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH1_P_MSB    _u(0)
+#define DMA_SECCFG_CH1_P_LSB    _u(0)
+#define DMA_SECCFG_CH1_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH2
+// Description : Security configuration for channel 2. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH2_OFFSET _u(0x00000488)
+#define DMA_SECCFG_CH2_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH2_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH2_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH2_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH2_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH2_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH2_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH2_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH2_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH2_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH2_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH2_S_MSB    _u(1)
+#define DMA_SECCFG_CH2_S_LSB    _u(1)
+#define DMA_SECCFG_CH2_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH2_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH2_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH2_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH2_P_MSB    _u(0)
+#define DMA_SECCFG_CH2_P_LSB    _u(0)
+#define DMA_SECCFG_CH2_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH3
+// Description : Security configuration for channel 3. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH3_OFFSET _u(0x0000048c)
+#define DMA_SECCFG_CH3_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH3_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH3_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH3_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH3_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH3_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH3_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH3_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH3_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH3_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH3_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH3_S_MSB    _u(1)
+#define DMA_SECCFG_CH3_S_LSB    _u(1)
+#define DMA_SECCFG_CH3_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH3_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH3_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH3_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH3_P_MSB    _u(0)
+#define DMA_SECCFG_CH3_P_LSB    _u(0)
+#define DMA_SECCFG_CH3_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH4
+// Description : Security configuration for channel 4. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH4_OFFSET _u(0x00000490)
+#define DMA_SECCFG_CH4_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH4_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH4_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH4_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH4_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH4_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH4_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH4_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH4_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH4_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH4_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH4_S_MSB    _u(1)
+#define DMA_SECCFG_CH4_S_LSB    _u(1)
+#define DMA_SECCFG_CH4_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH4_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH4_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH4_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH4_P_MSB    _u(0)
+#define DMA_SECCFG_CH4_P_LSB    _u(0)
+#define DMA_SECCFG_CH4_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH5
+// Description : Security configuration for channel 5. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH5_OFFSET _u(0x00000494)
+#define DMA_SECCFG_CH5_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH5_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH5_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH5_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH5_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH5_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH5_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH5_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH5_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH5_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH5_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH5_S_MSB    _u(1)
+#define DMA_SECCFG_CH5_S_LSB    _u(1)
+#define DMA_SECCFG_CH5_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH5_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH5_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH5_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH5_P_MSB    _u(0)
+#define DMA_SECCFG_CH5_P_LSB    _u(0)
+#define DMA_SECCFG_CH5_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH6
+// Description : Security configuration for channel 6. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH6_OFFSET _u(0x00000498)
+#define DMA_SECCFG_CH6_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH6_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH6_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH6_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH6_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH6_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH6_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH6_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH6_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH6_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH6_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH6_S_MSB    _u(1)
+#define DMA_SECCFG_CH6_S_LSB    _u(1)
+#define DMA_SECCFG_CH6_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH6_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH6_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH6_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH6_P_MSB    _u(0)
+#define DMA_SECCFG_CH6_P_LSB    _u(0)
+#define DMA_SECCFG_CH6_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH7
+// Description : Security configuration for channel 7. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH7_OFFSET _u(0x0000049c)
+#define DMA_SECCFG_CH7_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH7_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH7_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH7_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH7_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH7_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH7_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH7_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH7_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH7_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH7_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH7_S_MSB    _u(1)
+#define DMA_SECCFG_CH7_S_LSB    _u(1)
+#define DMA_SECCFG_CH7_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH7_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH7_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH7_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH7_P_MSB    _u(0)
+#define DMA_SECCFG_CH7_P_LSB    _u(0)
+#define DMA_SECCFG_CH7_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH8
+// Description : Security configuration for channel 8. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH8_OFFSET _u(0x000004a0)
+#define DMA_SECCFG_CH8_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH8_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH8_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH8_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH8_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH8_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH8_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH8_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH8_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH8_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH8_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH8_S_MSB    _u(1)
+#define DMA_SECCFG_CH8_S_LSB    _u(1)
+#define DMA_SECCFG_CH8_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH8_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH8_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH8_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH8_P_MSB    _u(0)
+#define DMA_SECCFG_CH8_P_LSB    _u(0)
+#define DMA_SECCFG_CH8_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH9
+// Description : Security configuration for channel 9. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH9_OFFSET _u(0x000004a4)
+#define DMA_SECCFG_CH9_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH9_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH9_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH9_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH9_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH9_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH9_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH9_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH9_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH9_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH9_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH9_S_MSB    _u(1)
+#define DMA_SECCFG_CH9_S_LSB    _u(1)
+#define DMA_SECCFG_CH9_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH9_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH9_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH9_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH9_P_MSB    _u(0)
+#define DMA_SECCFG_CH9_P_LSB    _u(0)
+#define DMA_SECCFG_CH9_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH10
+// Description : Security configuration for channel 10. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH10_OFFSET _u(0x000004a8)
+#define DMA_SECCFG_CH10_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH10_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH10_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH10_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH10_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH10_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH10_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH10_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH10_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH10_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH10_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH10_S_MSB    _u(1)
+#define DMA_SECCFG_CH10_S_LSB    _u(1)
+#define DMA_SECCFG_CH10_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH10_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH10_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH10_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH10_P_MSB    _u(0)
+#define DMA_SECCFG_CH10_P_LSB    _u(0)
+#define DMA_SECCFG_CH10_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH11
+// Description : Security configuration for channel 11. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH11_OFFSET _u(0x000004ac)
+#define DMA_SECCFG_CH11_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH11_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH11_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH11_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH11_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH11_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH11_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH11_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH11_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH11_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH11_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH11_S_MSB    _u(1)
+#define DMA_SECCFG_CH11_S_LSB    _u(1)
+#define DMA_SECCFG_CH11_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH11_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH11_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH11_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH11_P_MSB    _u(0)
+#define DMA_SECCFG_CH11_P_LSB    _u(0)
+#define DMA_SECCFG_CH11_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH12
+// Description : Security configuration for channel 12. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH12_OFFSET _u(0x000004b0)
+#define DMA_SECCFG_CH12_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH12_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH12_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH12_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH12_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH12_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH12_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH12_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH12_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH12_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH12_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH12_S_MSB    _u(1)
+#define DMA_SECCFG_CH12_S_LSB    _u(1)
+#define DMA_SECCFG_CH12_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH12_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH12_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH12_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH12_P_MSB    _u(0)
+#define DMA_SECCFG_CH12_P_LSB    _u(0)
+#define DMA_SECCFG_CH12_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH13
+// Description : Security configuration for channel 13. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH13_OFFSET _u(0x000004b4)
+#define DMA_SECCFG_CH13_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH13_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH13_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH13_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH13_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH13_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH13_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH13_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH13_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH13_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH13_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH13_S_MSB    _u(1)
+#define DMA_SECCFG_CH13_S_LSB    _u(1)
+#define DMA_SECCFG_CH13_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH13_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH13_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH13_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH13_P_MSB    _u(0)
+#define DMA_SECCFG_CH13_P_LSB    _u(0)
+#define DMA_SECCFG_CH13_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH14
+// Description : Security configuration for channel 14. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH14_OFFSET _u(0x000004b8)
+#define DMA_SECCFG_CH14_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH14_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH14_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH14_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH14_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH14_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH14_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH14_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH14_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH14_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH14_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH14_S_MSB    _u(1)
+#define DMA_SECCFG_CH14_S_LSB    _u(1)
+#define DMA_SECCFG_CH14_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH14_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH14_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH14_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH14_P_MSB    _u(0)
+#define DMA_SECCFG_CH14_P_LSB    _u(0)
+#define DMA_SECCFG_CH14_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_CH15
+// Description : Security configuration for channel 15. Control whether this
+//               channel performs Secure/Non-secure and Privileged/Unprivileged
+//               bus accesses.
+//
+//               If this channel generates bus accesses of some security level,
+//               an access of at least that level (in the order S+P > S+U > NS+P
+//               > NS+U) is required to program, trigger, abort, check the
+//               status of, interrupt on or acknowledge the interrupt of this
+//               channel.
+//
+//               This register automatically locks down (becomes read-only) once
+//               software starts to configure the channel.
+//
+//               This register is world-readable, but is writable only from a
+//               Secure, Privileged context.
+#define DMA_SECCFG_CH15_OFFSET _u(0x000004bc)
+#define DMA_SECCFG_CH15_BITS   _u(0x00000007)
+#define DMA_SECCFG_CH15_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH15_LOCK
+// Description : LOCK is 0 at reset, and is set to 1 automatically upon a
+//               successful write to this channel's control registers. That is,
+//               a write to CTRL, READ_ADDR, WRITE_ADDR, TRANS_COUNT and their
+//               aliases.
+//
+//               Once its LOCK bit is set, this register becomes read-only.
+//
+//               A failed write, for example due to the write's privilege being
+//               lower than that specified in the channel's SECCFG register,
+//               will not set the LOCK bit.
+#define DMA_SECCFG_CH15_LOCK_RESET  _u(0x0)
+#define DMA_SECCFG_CH15_LOCK_BITS   _u(0x00000004)
+#define DMA_SECCFG_CH15_LOCK_MSB    _u(2)
+#define DMA_SECCFG_CH15_LOCK_LSB    _u(2)
+#define DMA_SECCFG_CH15_LOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH15_S
+// Description : Secure channel. If 1, this channel performs Secure bus
+//               accesses. If 0, it performs Non-secure bus accesses.
+//
+//               If 1, this channel is controllable only from a Secure context.
+#define DMA_SECCFG_CH15_S_RESET  _u(0x1)
+#define DMA_SECCFG_CH15_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_CH15_S_MSB    _u(1)
+#define DMA_SECCFG_CH15_S_LSB    _u(1)
+#define DMA_SECCFG_CH15_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_CH15_P
+// Description : Privileged channel. If 1, this channel performs Privileged bus
+//               accesses. If 0, it performs Unprivileged bus accesses.
+//
+//               If 1, this channel is controllable only from a Privileged
+//               context of the same Secure/Non-secure level, or any context of
+//               a higher Secure/Non-secure level.
+#define DMA_SECCFG_CH15_P_RESET  _u(0x1)
+#define DMA_SECCFG_CH15_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_CH15_P_MSB    _u(0)
+#define DMA_SECCFG_CH15_P_LSB    _u(0)
+#define DMA_SECCFG_CH15_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_IRQ0
+// Description : Security configuration for IRQ 0. Control whether the IRQ
+//               permits configuration by Non-secure/Unprivileged contexts, and
+//               whether it can observe Secure/Privileged channel interrupt
+//               flags.
+#define DMA_SECCFG_IRQ0_OFFSET _u(0x000004c0)
+#define DMA_SECCFG_IRQ0_BITS   _u(0x00000003)
+#define DMA_SECCFG_IRQ0_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ0_S
+// Description : Secure IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Secure context.
+//
+//               If 0, this IRQ's control registers can be accessed from a Non-
+//               secure context, but Secure channels (as per SECCFG_CHx) are
+//               masked from the IRQ status, and this IRQ's registers can not be
+//               used to acknowledge the channel interrupts of Secure channels.
+#define DMA_SECCFG_IRQ0_S_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ0_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_IRQ0_S_MSB    _u(1)
+#define DMA_SECCFG_IRQ0_S_LSB    _u(1)
+#define DMA_SECCFG_IRQ0_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ0_P
+// Description : Privileged IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Privileged context.
+//
+//               If 0, this IRQ's control registers can be accessed from an
+//               Unprivileged context, but Privileged channels (as per
+//               SECCFG_CHx) are masked from the IRQ status, and this IRQ's
+//               registers can not be used to acknowledge the channel interrupts
+//               of Privileged channels.
+#define DMA_SECCFG_IRQ0_P_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ0_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_IRQ0_P_MSB    _u(0)
+#define DMA_SECCFG_IRQ0_P_LSB    _u(0)
+#define DMA_SECCFG_IRQ0_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_IRQ1
+// Description : Security configuration for IRQ 1. Control whether the IRQ
+//               permits configuration by Non-secure/Unprivileged contexts, and
+//               whether it can observe Secure/Privileged channel interrupt
+//               flags.
+#define DMA_SECCFG_IRQ1_OFFSET _u(0x000004c4)
+#define DMA_SECCFG_IRQ1_BITS   _u(0x00000003)
+#define DMA_SECCFG_IRQ1_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ1_S
+// Description : Secure IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Secure context.
+//
+//               If 0, this IRQ's control registers can be accessed from a Non-
+//               secure context, but Secure channels (as per SECCFG_CHx) are
+//               masked from the IRQ status, and this IRQ's registers can not be
+//               used to acknowledge the channel interrupts of Secure channels.
+#define DMA_SECCFG_IRQ1_S_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ1_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_IRQ1_S_MSB    _u(1)
+#define DMA_SECCFG_IRQ1_S_LSB    _u(1)
+#define DMA_SECCFG_IRQ1_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ1_P
+// Description : Privileged IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Privileged context.
+//
+//               If 0, this IRQ's control registers can be accessed from an
+//               Unprivileged context, but Privileged channels (as per
+//               SECCFG_CHx) are masked from the IRQ status, and this IRQ's
+//               registers can not be used to acknowledge the channel interrupts
+//               of Privileged channels.
+#define DMA_SECCFG_IRQ1_P_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ1_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_IRQ1_P_MSB    _u(0)
+#define DMA_SECCFG_IRQ1_P_LSB    _u(0)
+#define DMA_SECCFG_IRQ1_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_IRQ2
+// Description : Security configuration for IRQ 2. Control whether the IRQ
+//               permits configuration by Non-secure/Unprivileged contexts, and
+//               whether it can observe Secure/Privileged channel interrupt
+//               flags.
+#define DMA_SECCFG_IRQ2_OFFSET _u(0x000004c8)
+#define DMA_SECCFG_IRQ2_BITS   _u(0x00000003)
+#define DMA_SECCFG_IRQ2_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ2_S
+// Description : Secure IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Secure context.
+//
+//               If 0, this IRQ's control registers can be accessed from a Non-
+//               secure context, but Secure channels (as per SECCFG_CHx) are
+//               masked from the IRQ status, and this IRQ's registers can not be
+//               used to acknowledge the channel interrupts of Secure channels.
+#define DMA_SECCFG_IRQ2_S_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ2_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_IRQ2_S_MSB    _u(1)
+#define DMA_SECCFG_IRQ2_S_LSB    _u(1)
+#define DMA_SECCFG_IRQ2_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ2_P
+// Description : Privileged IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Privileged context.
+//
+//               If 0, this IRQ's control registers can be accessed from an
+//               Unprivileged context, but Privileged channels (as per
+//               SECCFG_CHx) are masked from the IRQ status, and this IRQ's
+//               registers can not be used to acknowledge the channel interrupts
+//               of Privileged channels.
+#define DMA_SECCFG_IRQ2_P_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ2_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_IRQ2_P_MSB    _u(0)
+#define DMA_SECCFG_IRQ2_P_LSB    _u(0)
+#define DMA_SECCFG_IRQ2_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_IRQ3
+// Description : Security configuration for IRQ 3. Control whether the IRQ
+//               permits configuration by Non-secure/Unprivileged contexts, and
+//               whether it can observe Secure/Privileged channel interrupt
+//               flags.
+#define DMA_SECCFG_IRQ3_OFFSET _u(0x000004cc)
+#define DMA_SECCFG_IRQ3_BITS   _u(0x00000003)
+#define DMA_SECCFG_IRQ3_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ3_S
+// Description : Secure IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Secure context.
+//
+//               If 0, this IRQ's control registers can be accessed from a Non-
+//               secure context, but Secure channels (as per SECCFG_CHx) are
+//               masked from the IRQ status, and this IRQ's registers can not be
+//               used to acknowledge the channel interrupts of Secure channels.
+#define DMA_SECCFG_IRQ3_S_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ3_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_IRQ3_S_MSB    _u(1)
+#define DMA_SECCFG_IRQ3_S_LSB    _u(1)
+#define DMA_SECCFG_IRQ3_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_IRQ3_P
+// Description : Privileged IRQ. If 1, this IRQ's control registers can only be
+//               accessed from a Privileged context.
+//
+//               If 0, this IRQ's control registers can be accessed from an
+//               Unprivileged context, but Privileged channels (as per
+//               SECCFG_CHx) are masked from the IRQ status, and this IRQ's
+//               registers can not be used to acknowledge the channel interrupts
+//               of Privileged channels.
+#define DMA_SECCFG_IRQ3_P_RESET  _u(0x1)
+#define DMA_SECCFG_IRQ3_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_IRQ3_P_MSB    _u(0)
+#define DMA_SECCFG_IRQ3_P_LSB    _u(0)
+#define DMA_SECCFG_IRQ3_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_SECCFG_MISC
+// Description : Miscellaneous security configuration
+#define DMA_SECCFG_MISC_OFFSET _u(0x000004d0)
+#define DMA_SECCFG_MISC_BITS   _u(0x000003ff)
+#define DMA_SECCFG_MISC_RESET  _u(0x000003ff)
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER3_S
+// Description : If 1, the TIMER3 register is only accessible from a Secure
+//               context, and timer DREQ 3 is only visible to Secure channels.
+#define DMA_SECCFG_MISC_TIMER3_S_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER3_S_BITS   _u(0x00000200)
+#define DMA_SECCFG_MISC_TIMER3_S_MSB    _u(9)
+#define DMA_SECCFG_MISC_TIMER3_S_LSB    _u(9)
+#define DMA_SECCFG_MISC_TIMER3_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER3_P
+// Description : If 1, the TIMER3 register is only accessible from a Privileged
+//               (or more Secure) context, and timer DREQ 3 is only visible to
+//               Privileged (or more Secure) channels.
+#define DMA_SECCFG_MISC_TIMER3_P_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER3_P_BITS   _u(0x00000100)
+#define DMA_SECCFG_MISC_TIMER3_P_MSB    _u(8)
+#define DMA_SECCFG_MISC_TIMER3_P_LSB    _u(8)
+#define DMA_SECCFG_MISC_TIMER3_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER2_S
+// Description : If 1, the TIMER2 register is only accessible from a Secure
+//               context, and timer DREQ 2 is only visible to Secure channels.
+#define DMA_SECCFG_MISC_TIMER2_S_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER2_S_BITS   _u(0x00000080)
+#define DMA_SECCFG_MISC_TIMER2_S_MSB    _u(7)
+#define DMA_SECCFG_MISC_TIMER2_S_LSB    _u(7)
+#define DMA_SECCFG_MISC_TIMER2_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER2_P
+// Description : If 1, the TIMER2 register is only accessible from a Privileged
+//               (or more Secure) context, and timer DREQ 2 is only visible to
+//               Privileged (or more Secure) channels.
+#define DMA_SECCFG_MISC_TIMER2_P_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER2_P_BITS   _u(0x00000040)
+#define DMA_SECCFG_MISC_TIMER2_P_MSB    _u(6)
+#define DMA_SECCFG_MISC_TIMER2_P_LSB    _u(6)
+#define DMA_SECCFG_MISC_TIMER2_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER1_S
+// Description : If 1, the TIMER1 register is only accessible from a Secure
+//               context, and timer DREQ 1 is only visible to Secure channels.
+#define DMA_SECCFG_MISC_TIMER1_S_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER1_S_BITS   _u(0x00000020)
+#define DMA_SECCFG_MISC_TIMER1_S_MSB    _u(5)
+#define DMA_SECCFG_MISC_TIMER1_S_LSB    _u(5)
+#define DMA_SECCFG_MISC_TIMER1_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER1_P
+// Description : If 1, the TIMER1 register is only accessible from a Privileged
+//               (or more Secure) context, and timer DREQ 1 is only visible to
+//               Privileged (or more Secure) channels.
+#define DMA_SECCFG_MISC_TIMER1_P_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER1_P_BITS   _u(0x00000010)
+#define DMA_SECCFG_MISC_TIMER1_P_MSB    _u(4)
+#define DMA_SECCFG_MISC_TIMER1_P_LSB    _u(4)
+#define DMA_SECCFG_MISC_TIMER1_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER0_S
+// Description : If 1, the TIMER0 register is only accessible from a Secure
+//               context, and timer DREQ 0 is only visible to Secure channels.
+#define DMA_SECCFG_MISC_TIMER0_S_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER0_S_BITS   _u(0x00000008)
+#define DMA_SECCFG_MISC_TIMER0_S_MSB    _u(3)
+#define DMA_SECCFG_MISC_TIMER0_S_LSB    _u(3)
+#define DMA_SECCFG_MISC_TIMER0_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_TIMER0_P
+// Description : If 1, the TIMER0 register is only accessible from a Privileged
+//               (or more Secure) context, and timer DREQ 0 is only visible to
+//               Privileged (or more Secure) channels.
+#define DMA_SECCFG_MISC_TIMER0_P_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_TIMER0_P_BITS   _u(0x00000004)
+#define DMA_SECCFG_MISC_TIMER0_P_MSB    _u(2)
+#define DMA_SECCFG_MISC_TIMER0_P_LSB    _u(2)
+#define DMA_SECCFG_MISC_TIMER0_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_SNIFF_S
+// Description : If 1, the sniffer can see data transfers from Secure channels,
+//               and can itself only be accessed from a Secure context.
+//
+//               If 0, the sniffer can be accessed from either a Secure or Non-
+//               secure context, but can not see data transfers of Secure
+//               channels.
+#define DMA_SECCFG_MISC_SNIFF_S_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_SNIFF_S_BITS   _u(0x00000002)
+#define DMA_SECCFG_MISC_SNIFF_S_MSB    _u(1)
+#define DMA_SECCFG_MISC_SNIFF_S_LSB    _u(1)
+#define DMA_SECCFG_MISC_SNIFF_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_SECCFG_MISC_SNIFF_P
+// Description : If 1, the sniffer can see data transfers from Privileged
+//               channels, and can itself only be accessed from a privileged
+//               context, or from a Secure context when SNIFF_S is 0.
+//
+//               If 0, the sniffer can be accessed from either a Privileged or
+//               Unprivileged context (with sufficient security level) but can
+//               not see transfers from Privileged channels.
+#define DMA_SECCFG_MISC_SNIFF_P_RESET  _u(0x1)
+#define DMA_SECCFG_MISC_SNIFF_P_BITS   _u(0x00000001)
+#define DMA_SECCFG_MISC_SNIFF_P_MSB    _u(0)
+#define DMA_SECCFG_MISC_SNIFF_P_LSB    _u(0)
+#define DMA_SECCFG_MISC_SNIFF_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_CTRL
+// Description : Control register for DMA MPU. Accessible only from a Privileged
+//               context.
+#define DMA_MPU_CTRL_OFFSET _u(0x00000500)
+#define DMA_MPU_CTRL_BITS   _u(0x0000000e)
+#define DMA_MPU_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_CTRL_NS_HIDE_ADDR
+// Description : By default, when a region's S bit is clear, Non-secure-
+//               Privileged reads can see the region's base address and limit
+//               address. Set this bit to make the addresses appear as 0 to Non-
+//               secure reads, even when the region is Non-secure, to avoid
+//               leaking information about the processor SAU map.
+#define DMA_MPU_CTRL_NS_HIDE_ADDR_RESET  _u(0x0)
+#define DMA_MPU_CTRL_NS_HIDE_ADDR_BITS   _u(0x00000008)
+#define DMA_MPU_CTRL_NS_HIDE_ADDR_MSB    _u(3)
+#define DMA_MPU_CTRL_NS_HIDE_ADDR_LSB    _u(3)
+#define DMA_MPU_CTRL_NS_HIDE_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_CTRL_S
+// Description : Determine whether an address not covered by an active MPU
+//               region is Secure (1) or Non-secure (0)
+#define DMA_MPU_CTRL_S_RESET  _u(0x0)
+#define DMA_MPU_CTRL_S_BITS   _u(0x00000004)
+#define DMA_MPU_CTRL_S_MSB    _u(2)
+#define DMA_MPU_CTRL_S_LSB    _u(2)
+#define DMA_MPU_CTRL_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_CTRL_P
+// Description : Determine whether an address not covered by an active MPU
+//               region is Privileged (1) or Unprivileged (0)
+#define DMA_MPU_CTRL_P_RESET  _u(0x0)
+#define DMA_MPU_CTRL_P_BITS   _u(0x00000002)
+#define DMA_MPU_CTRL_P_MSB    _u(1)
+#define DMA_MPU_CTRL_P_LSB    _u(1)
+#define DMA_MPU_CTRL_P_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR0
+// Description : Base address register for MPU region 0. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR0_OFFSET _u(0x00000504)
+#define DMA_MPU_BAR0_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR0_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR0_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR0_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR0_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR0_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR0_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR0
+// Description : Limit address register for MPU region 0. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR0_OFFSET _u(0x00000508)
+#define DMA_MPU_LAR0_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR0_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR0_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR0_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR0_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR0_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR0_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR0_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR0_S_RESET  _u(0x0)
+#define DMA_MPU_LAR0_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR0_S_MSB    _u(2)
+#define DMA_MPU_LAR0_S_LSB    _u(2)
+#define DMA_MPU_LAR0_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR0_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR0_P_RESET  _u(0x0)
+#define DMA_MPU_LAR0_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR0_P_MSB    _u(1)
+#define DMA_MPU_LAR0_P_LSB    _u(1)
+#define DMA_MPU_LAR0_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR0_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR0_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR0_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR0_EN_MSB    _u(0)
+#define DMA_MPU_LAR0_EN_LSB    _u(0)
+#define DMA_MPU_LAR0_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR1
+// Description : Base address register for MPU region 1. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR1_OFFSET _u(0x0000050c)
+#define DMA_MPU_BAR1_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR1_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR1_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR1_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR1_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR1_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR1_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR1
+// Description : Limit address register for MPU region 1. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR1_OFFSET _u(0x00000510)
+#define DMA_MPU_LAR1_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR1_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR1_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR1_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR1_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR1_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR1_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR1_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR1_S_RESET  _u(0x0)
+#define DMA_MPU_LAR1_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR1_S_MSB    _u(2)
+#define DMA_MPU_LAR1_S_LSB    _u(2)
+#define DMA_MPU_LAR1_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR1_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR1_P_RESET  _u(0x0)
+#define DMA_MPU_LAR1_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR1_P_MSB    _u(1)
+#define DMA_MPU_LAR1_P_LSB    _u(1)
+#define DMA_MPU_LAR1_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR1_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR1_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR1_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR1_EN_MSB    _u(0)
+#define DMA_MPU_LAR1_EN_LSB    _u(0)
+#define DMA_MPU_LAR1_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR2
+// Description : Base address register for MPU region 2. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR2_OFFSET _u(0x00000514)
+#define DMA_MPU_BAR2_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR2_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR2_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR2_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR2_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR2_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR2_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR2
+// Description : Limit address register for MPU region 2. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR2_OFFSET _u(0x00000518)
+#define DMA_MPU_LAR2_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR2_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR2_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR2_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR2_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR2_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR2_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR2_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR2_S_RESET  _u(0x0)
+#define DMA_MPU_LAR2_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR2_S_MSB    _u(2)
+#define DMA_MPU_LAR2_S_LSB    _u(2)
+#define DMA_MPU_LAR2_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR2_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR2_P_RESET  _u(0x0)
+#define DMA_MPU_LAR2_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR2_P_MSB    _u(1)
+#define DMA_MPU_LAR2_P_LSB    _u(1)
+#define DMA_MPU_LAR2_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR2_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR2_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR2_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR2_EN_MSB    _u(0)
+#define DMA_MPU_LAR2_EN_LSB    _u(0)
+#define DMA_MPU_LAR2_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR3
+// Description : Base address register for MPU region 3. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR3_OFFSET _u(0x0000051c)
+#define DMA_MPU_BAR3_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR3_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR3_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR3_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR3_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR3_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR3_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR3
+// Description : Limit address register for MPU region 3. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR3_OFFSET _u(0x00000520)
+#define DMA_MPU_LAR3_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR3_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR3_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR3_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR3_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR3_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR3_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR3_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR3_S_RESET  _u(0x0)
+#define DMA_MPU_LAR3_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR3_S_MSB    _u(2)
+#define DMA_MPU_LAR3_S_LSB    _u(2)
+#define DMA_MPU_LAR3_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR3_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR3_P_RESET  _u(0x0)
+#define DMA_MPU_LAR3_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR3_P_MSB    _u(1)
+#define DMA_MPU_LAR3_P_LSB    _u(1)
+#define DMA_MPU_LAR3_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR3_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR3_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR3_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR3_EN_MSB    _u(0)
+#define DMA_MPU_LAR3_EN_LSB    _u(0)
+#define DMA_MPU_LAR3_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR4
+// Description : Base address register for MPU region 4. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR4_OFFSET _u(0x00000524)
+#define DMA_MPU_BAR4_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR4_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR4_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR4_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR4_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR4_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR4_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR4
+// Description : Limit address register for MPU region 4. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR4_OFFSET _u(0x00000528)
+#define DMA_MPU_LAR4_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR4_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR4_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR4_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR4_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR4_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR4_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR4_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR4_S_RESET  _u(0x0)
+#define DMA_MPU_LAR4_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR4_S_MSB    _u(2)
+#define DMA_MPU_LAR4_S_LSB    _u(2)
+#define DMA_MPU_LAR4_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR4_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR4_P_RESET  _u(0x0)
+#define DMA_MPU_LAR4_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR4_P_MSB    _u(1)
+#define DMA_MPU_LAR4_P_LSB    _u(1)
+#define DMA_MPU_LAR4_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR4_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR4_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR4_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR4_EN_MSB    _u(0)
+#define DMA_MPU_LAR4_EN_LSB    _u(0)
+#define DMA_MPU_LAR4_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR5
+// Description : Base address register for MPU region 5. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR5_OFFSET _u(0x0000052c)
+#define DMA_MPU_BAR5_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR5_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR5_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR5_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR5_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR5_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR5_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR5
+// Description : Limit address register for MPU region 5. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR5_OFFSET _u(0x00000530)
+#define DMA_MPU_LAR5_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR5_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR5_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR5_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR5_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR5_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR5_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR5_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR5_S_RESET  _u(0x0)
+#define DMA_MPU_LAR5_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR5_S_MSB    _u(2)
+#define DMA_MPU_LAR5_S_LSB    _u(2)
+#define DMA_MPU_LAR5_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR5_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR5_P_RESET  _u(0x0)
+#define DMA_MPU_LAR5_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR5_P_MSB    _u(1)
+#define DMA_MPU_LAR5_P_LSB    _u(1)
+#define DMA_MPU_LAR5_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR5_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR5_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR5_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR5_EN_MSB    _u(0)
+#define DMA_MPU_LAR5_EN_LSB    _u(0)
+#define DMA_MPU_LAR5_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR6
+// Description : Base address register for MPU region 6. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR6_OFFSET _u(0x00000534)
+#define DMA_MPU_BAR6_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR6_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR6_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR6_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR6_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR6_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR6_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR6
+// Description : Limit address register for MPU region 6. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR6_OFFSET _u(0x00000538)
+#define DMA_MPU_LAR6_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR6_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR6_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR6_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR6_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR6_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR6_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR6_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR6_S_RESET  _u(0x0)
+#define DMA_MPU_LAR6_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR6_S_MSB    _u(2)
+#define DMA_MPU_LAR6_S_LSB    _u(2)
+#define DMA_MPU_LAR6_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR6_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR6_P_RESET  _u(0x0)
+#define DMA_MPU_LAR6_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR6_P_MSB    _u(1)
+#define DMA_MPU_LAR6_P_LSB    _u(1)
+#define DMA_MPU_LAR6_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR6_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR6_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR6_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR6_EN_MSB    _u(0)
+#define DMA_MPU_LAR6_EN_LSB    _u(0)
+#define DMA_MPU_LAR6_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_BAR7
+// Description : Base address register for MPU region 7. Writable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_BAR7_OFFSET _u(0x0000053c)
+#define DMA_MPU_BAR7_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_BAR7_ADDR
+// Description : This MPU region matches addresses where addr[31:5] (the 27 most
+//               significant bits) are greater than or equal to BAR_ADDR, and
+//               less than or equal to LAR_ADDR.
+//
+//               Readable from any Privileged context, if and only if this
+//               region's S bit is clear, and MPU_CTRL_NS_HIDE_ADDR is clear.
+//               Otherwise readable only from a Secure, Privileged context.
+#define DMA_MPU_BAR7_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_BAR7_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_BAR7_ADDR_MSB    _u(31)
+#define DMA_MPU_BAR7_ADDR_LSB    _u(5)
+#define DMA_MPU_BAR7_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_MPU_LAR7
+// Description : Limit address register for MPU region 7. Writable only from a
+//               Secure, Privileged context, with the exception of the P bit.
+#define DMA_MPU_LAR7_OFFSET _u(0x00000540)
+#define DMA_MPU_LAR7_BITS   _u(0xffffffe7)
+#define DMA_MPU_LAR7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR7_ADDR
+// Description : Limit address bits 31:5. Readable from any Privileged context,
+//               if and only if this region's S bit is clear, and
+//               MPU_CTRL_NS_HIDE_ADDR is clear. Otherwise readable only from a
+//               Secure, Privileged context.
+#define DMA_MPU_LAR7_ADDR_RESET  _u(0x0000000)
+#define DMA_MPU_LAR7_ADDR_BITS   _u(0xffffffe0)
+#define DMA_MPU_LAR7_ADDR_MSB    _u(31)
+#define DMA_MPU_LAR7_ADDR_LSB    _u(5)
+#define DMA_MPU_LAR7_ADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR7_S
+// Description : Determines the Secure/Non-secure (=1/0) status of addresses
+//               matching this region, if this region is enabled.
+#define DMA_MPU_LAR7_S_RESET  _u(0x0)
+#define DMA_MPU_LAR7_S_BITS   _u(0x00000004)
+#define DMA_MPU_LAR7_S_MSB    _u(2)
+#define DMA_MPU_LAR7_S_LSB    _u(2)
+#define DMA_MPU_LAR7_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR7_P
+// Description : Determines the Privileged/Unprivileged (=1/0) status of
+//               addresses matching this region, if this region is enabled.
+//               Writable from any Privileged context, if and only if the S bit
+//               is clear. Otherwise, writable only from a Secure, Privileged
+//               context.
+#define DMA_MPU_LAR7_P_RESET  _u(0x0)
+#define DMA_MPU_LAR7_P_BITS   _u(0x00000002)
+#define DMA_MPU_LAR7_P_MSB    _u(1)
+#define DMA_MPU_LAR7_P_LSB    _u(1)
+#define DMA_MPU_LAR7_P_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : DMA_MPU_LAR7_EN
+// Description : Region enable. If 1, any address within range specified by the
+//               base address (BAR_ADDR) and limit address (LAR_ADDR) has the
+//               attributes specified by S and P.
+#define DMA_MPU_LAR7_EN_RESET  _u(0x0)
+#define DMA_MPU_LAR7_EN_BITS   _u(0x00000001)
+#define DMA_MPU_LAR7_EN_MSB    _u(0)
+#define DMA_MPU_LAR7_EN_LSB    _u(0)
+#define DMA_MPU_LAR7_EN_ACCESS "RW"
+// =============================================================================
+// Register    : DMA_CH0_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH0_DBG_CTDREQ_OFFSET _u(0x00000800)
+#define DMA_CH0_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH0_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH0_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH0_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH0_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH0_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH0_DBG_TCR_OFFSET _u(0x00000804)
+#define DMA_CH0_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH0_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH0_DBG_TCR_MSB    _u(31)
+#define DMA_CH0_DBG_TCR_LSB    _u(0)
+#define DMA_CH0_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH1_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH1_DBG_CTDREQ_OFFSET _u(0x00000840)
+#define DMA_CH1_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH1_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH1_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH1_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH1_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH1_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH1_DBG_TCR_OFFSET _u(0x00000844)
+#define DMA_CH1_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH1_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH1_DBG_TCR_MSB    _u(31)
+#define DMA_CH1_DBG_TCR_LSB    _u(0)
+#define DMA_CH1_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH2_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH2_DBG_CTDREQ_OFFSET _u(0x00000880)
+#define DMA_CH2_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH2_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH2_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH2_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH2_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH2_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH2_DBG_TCR_OFFSET _u(0x00000884)
+#define DMA_CH2_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH2_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH2_DBG_TCR_MSB    _u(31)
+#define DMA_CH2_DBG_TCR_LSB    _u(0)
+#define DMA_CH2_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH3_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH3_DBG_CTDREQ_OFFSET _u(0x000008c0)
+#define DMA_CH3_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH3_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH3_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH3_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH3_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH3_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH3_DBG_TCR_OFFSET _u(0x000008c4)
+#define DMA_CH3_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH3_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH3_DBG_TCR_MSB    _u(31)
+#define DMA_CH3_DBG_TCR_LSB    _u(0)
+#define DMA_CH3_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH4_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH4_DBG_CTDREQ_OFFSET _u(0x00000900)
+#define DMA_CH4_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH4_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH4_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH4_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH4_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH4_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH4_DBG_TCR_OFFSET _u(0x00000904)
+#define DMA_CH4_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH4_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH4_DBG_TCR_MSB    _u(31)
+#define DMA_CH4_DBG_TCR_LSB    _u(0)
+#define DMA_CH4_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH5_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH5_DBG_CTDREQ_OFFSET _u(0x00000940)
+#define DMA_CH5_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH5_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH5_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH5_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH5_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH5_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH5_DBG_TCR_OFFSET _u(0x00000944)
+#define DMA_CH5_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH5_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH5_DBG_TCR_MSB    _u(31)
+#define DMA_CH5_DBG_TCR_LSB    _u(0)
+#define DMA_CH5_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH6_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH6_DBG_CTDREQ_OFFSET _u(0x00000980)
+#define DMA_CH6_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH6_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH6_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH6_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH6_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH6_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH6_DBG_TCR_OFFSET _u(0x00000984)
+#define DMA_CH6_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH6_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH6_DBG_TCR_MSB    _u(31)
+#define DMA_CH6_DBG_TCR_LSB    _u(0)
+#define DMA_CH6_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH7_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH7_DBG_CTDREQ_OFFSET _u(0x000009c0)
+#define DMA_CH7_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH7_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH7_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH7_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH7_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH7_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH7_DBG_TCR_OFFSET _u(0x000009c4)
+#define DMA_CH7_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH7_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH7_DBG_TCR_MSB    _u(31)
+#define DMA_CH7_DBG_TCR_LSB    _u(0)
+#define DMA_CH7_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH8_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH8_DBG_CTDREQ_OFFSET _u(0x00000a00)
+#define DMA_CH8_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH8_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH8_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH8_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH8_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH8_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH8_DBG_TCR_OFFSET _u(0x00000a04)
+#define DMA_CH8_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH8_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH8_DBG_TCR_MSB    _u(31)
+#define DMA_CH8_DBG_TCR_LSB    _u(0)
+#define DMA_CH8_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH9_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH9_DBG_CTDREQ_OFFSET _u(0x00000a40)
+#define DMA_CH9_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH9_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH9_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH9_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH9_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH9_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH9_DBG_TCR_OFFSET _u(0x00000a44)
+#define DMA_CH9_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH9_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH9_DBG_TCR_MSB    _u(31)
+#define DMA_CH9_DBG_TCR_LSB    _u(0)
+#define DMA_CH9_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH10_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH10_DBG_CTDREQ_OFFSET _u(0x00000a80)
+#define DMA_CH10_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH10_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH10_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH10_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH10_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH10_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH10_DBG_TCR_OFFSET _u(0x00000a84)
+#define DMA_CH10_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH10_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH10_DBG_TCR_MSB    _u(31)
+#define DMA_CH10_DBG_TCR_LSB    _u(0)
+#define DMA_CH10_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH11_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH11_DBG_CTDREQ_OFFSET _u(0x00000ac0)
+#define DMA_CH11_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH11_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH11_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH11_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH11_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH11_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH11_DBG_TCR_OFFSET _u(0x00000ac4)
+#define DMA_CH11_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH11_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH11_DBG_TCR_MSB    _u(31)
+#define DMA_CH11_DBG_TCR_LSB    _u(0)
+#define DMA_CH11_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH12_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH12_DBG_CTDREQ_OFFSET _u(0x00000b00)
+#define DMA_CH12_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH12_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH12_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH12_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH12_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH12_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH12_DBG_TCR_OFFSET _u(0x00000b04)
+#define DMA_CH12_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH12_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH12_DBG_TCR_MSB    _u(31)
+#define DMA_CH12_DBG_TCR_LSB    _u(0)
+#define DMA_CH12_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH13_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH13_DBG_CTDREQ_OFFSET _u(0x00000b40)
+#define DMA_CH13_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH13_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH13_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH13_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH13_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH13_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH13_DBG_TCR_OFFSET _u(0x00000b44)
+#define DMA_CH13_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH13_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH13_DBG_TCR_MSB    _u(31)
+#define DMA_CH13_DBG_TCR_LSB    _u(0)
+#define DMA_CH13_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH14_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH14_DBG_CTDREQ_OFFSET _u(0x00000b80)
+#define DMA_CH14_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH14_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH14_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH14_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH14_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH14_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH14_DBG_TCR_OFFSET _u(0x00000b84)
+#define DMA_CH14_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH14_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH14_DBG_TCR_MSB    _u(31)
+#define DMA_CH14_DBG_TCR_LSB    _u(0)
+#define DMA_CH14_DBG_TCR_ACCESS "RO"
+// =============================================================================
+// Register    : DMA_CH15_DBG_CTDREQ
+// Description : Read: get channel DREQ counter (i.e. how many accesses the DMA
+//               expects it can perform on the peripheral without
+//               overflow/underflow. Write any value: clears the counter, and
+//               cause channel to re-initiate DREQ handshake.
+#define DMA_CH15_DBG_CTDREQ_OFFSET _u(0x00000bc0)
+#define DMA_CH15_DBG_CTDREQ_BITS   _u(0x0000003f)
+#define DMA_CH15_DBG_CTDREQ_RESET  _u(0x00000000)
+#define DMA_CH15_DBG_CTDREQ_MSB    _u(5)
+#define DMA_CH15_DBG_CTDREQ_LSB    _u(0)
+#define DMA_CH15_DBG_CTDREQ_ACCESS "WC"
+// =============================================================================
+// Register    : DMA_CH15_DBG_TCR
+// Description : Read to get channel TRANS_COUNT reload value, i.e. the length
+//               of the next transfer
+#define DMA_CH15_DBG_TCR_OFFSET _u(0x00000bc4)
+#define DMA_CH15_DBG_TCR_BITS   _u(0xffffffff)
+#define DMA_CH15_DBG_TCR_RESET  _u(0x00000000)
+#define DMA_CH15_DBG_TCR_MSB    _u(31)
+#define DMA_CH15_DBG_TCR_LSB    _u(0)
+#define DMA_CH15_DBG_TCR_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_DMA_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/dreq.h b/lib/pico-sdk/rp2350/hardware/regs/dreq.h
new file mode 100644
index 0000000..6d126c0
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/dreq.h
@@ -0,0 +1,147 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _DREQ_H
+#define _DREQ_H
+
+/**
+ * \file rp2350/dreq.h
+ */
+
+#ifdef __ASSEMBLER__
+#define DREQ_PIO0_TX0 0
+#define DREQ_PIO0_TX1 1
+#define DREQ_PIO0_TX2 2
+#define DREQ_PIO0_TX3 3
+#define DREQ_PIO0_RX0 4
+#define DREQ_PIO0_RX1 5
+#define DREQ_PIO0_RX2 6
+#define DREQ_PIO0_RX3 7
+#define DREQ_PIO1_TX0 8
+#define DREQ_PIO1_TX1 9
+#define DREQ_PIO1_TX2 10
+#define DREQ_PIO1_TX3 11
+#define DREQ_PIO1_RX0 12
+#define DREQ_PIO1_RX1 13
+#define DREQ_PIO1_RX2 14
+#define DREQ_PIO1_RX3 15
+#define DREQ_PIO2_TX0 16
+#define DREQ_PIO2_TX1 17
+#define DREQ_PIO2_TX2 18
+#define DREQ_PIO2_TX3 19
+#define DREQ_PIO2_RX0 20
+#define DREQ_PIO2_RX1 21
+#define DREQ_PIO2_RX2 22
+#define DREQ_PIO2_RX3 23
+#define DREQ_SPI0_TX 24
+#define DREQ_SPI0_RX 25
+#define DREQ_SPI1_TX 26
+#define DREQ_SPI1_RX 27
+#define DREQ_UART0_TX 28
+#define DREQ_UART0_RX 29
+#define DREQ_UART1_TX 30
+#define DREQ_UART1_RX 31
+#define DREQ_PWM_WRAP0 32
+#define DREQ_PWM_WRAP1 33
+#define DREQ_PWM_WRAP2 34
+#define DREQ_PWM_WRAP3 35
+#define DREQ_PWM_WRAP4 36
+#define DREQ_PWM_WRAP5 37
+#define DREQ_PWM_WRAP6 38
+#define DREQ_PWM_WRAP7 39
+#define DREQ_PWM_WRAP8 40
+#define DREQ_PWM_WRAP9 41
+#define DREQ_PWM_WRAP10 42
+#define DREQ_PWM_WRAP11 43
+#define DREQ_I2C0_TX 44
+#define DREQ_I2C0_RX 45
+#define DREQ_I2C1_TX 46
+#define DREQ_I2C1_RX 47
+#define DREQ_ADC 48
+#define DREQ_XIP_STREAM 49
+#define DREQ_XIP_QMITX 50
+#define DREQ_XIP_QMIRX 51
+#define DREQ_HSTX 52
+#define DREQ_CORESIGHT 53
+#define DREQ_SHA256 54
+#define DREQ_DMA_TIMER0 59
+#define DREQ_DMA_TIMER1 60
+#define DREQ_DMA_TIMER2 61
+#define DREQ_DMA_TIMER3 62
+#define DREQ_FORCE 63
+#else
+/**
+ * \brief DREQ numbers for DMA pacing on RP2350 (used as typedef \ref dreq_num_t)
+ * \ingroup hardware_dma
+ */
+typedef enum dreq_num_rp2350 {
+    DREQ_PIO0_TX0 = 0, ///< Select PIO0's TX FIFO 0 as DREQ
+    DREQ_PIO0_TX1 = 1, ///< Select PIO0's TX FIFO 1 as DREQ
+    DREQ_PIO0_TX2 = 2, ///< Select PIO0's TX FIFO 2 as DREQ
+    DREQ_PIO0_TX3 = 3, ///< Select PIO0's TX FIFO 3 as DREQ
+    DREQ_PIO0_RX0 = 4, ///< Select PIO0's RX FIFO 0 as DREQ
+    DREQ_PIO0_RX1 = 5, ///< Select PIO0's RX FIFO 1 as DREQ
+    DREQ_PIO0_RX2 = 6, ///< Select PIO0's RX FIFO 2 as DREQ
+    DREQ_PIO0_RX3 = 7, ///< Select PIO0's RX FIFO 3 as DREQ
+    DREQ_PIO1_TX0 = 8, ///< Select PIO1's TX FIFO 0 as DREQ
+    DREQ_PIO1_TX1 = 9, ///< Select PIO1's TX FIFO 1 as DREQ
+    DREQ_PIO1_TX2 = 10, ///< Select PIO1's TX FIFO 2 as DREQ
+    DREQ_PIO1_TX3 = 11, ///< Select PIO1's TX FIFO 3 as DREQ
+    DREQ_PIO1_RX0 = 12, ///< Select PIO1's RX FIFO 0 as DREQ
+    DREQ_PIO1_RX1 = 13, ///< Select PIO1's RX FIFO 1 as DREQ
+    DREQ_PIO1_RX2 = 14, ///< Select PIO1's RX FIFO 2 as DREQ
+    DREQ_PIO1_RX3 = 15, ///< Select PIO1's RX FIFO 3 as DREQ
+    DREQ_PIO2_TX0 = 16, ///< Select PIO2's TX FIFO 0 as DREQ
+    DREQ_PIO2_TX1 = 17, ///< Select PIO2's TX FIFO 1 as DREQ
+    DREQ_PIO2_TX2 = 18, ///< Select PIO2's TX FIFO 2 as DREQ
+    DREQ_PIO2_TX3 = 19, ///< Select PIO2's TX FIFO 3 as DREQ
+    DREQ_PIO2_RX0 = 20, ///< Select PIO2's RX FIFO 0 as DREQ
+    DREQ_PIO2_RX1 = 21, ///< Select PIO2's RX FIFO 1 as DREQ
+    DREQ_PIO2_RX2 = 22, ///< Select PIO2's RX FIFO 2 as DREQ
+    DREQ_PIO2_RX3 = 23, ///< Select PIO2's RX FIFO 3 as DREQ
+    DREQ_SPI0_TX = 24, ///< Select SPI0's TX FIFO as DREQ
+    DREQ_SPI0_RX = 25, ///< Select SPI0's RX FIFO as DREQ
+    DREQ_SPI1_TX = 26, ///< Select SPI1's TX FIFO as DREQ
+    DREQ_SPI1_RX = 27, ///< Select SPI1's RX FIFO as DREQ
+    DREQ_UART0_TX = 28, ///< Select UART0's TX FIFO as DREQ
+    DREQ_UART0_RX = 29, ///< Select UART0's RX FIFO as DREQ
+    DREQ_UART1_TX = 30, ///< Select UART1's TX FIFO as DREQ
+    DREQ_UART1_RX = 31, ///< Select UART1's RX FIFO as DREQ
+    DREQ_PWM_WRAP0 = 32, ///< Select PWM Counter 0's Wrap Value as DREQ
+    DREQ_PWM_WRAP1 = 33, ///< Select PWM Counter 1's Wrap Value as DREQ
+    DREQ_PWM_WRAP2 = 34, ///< Select PWM Counter 2's Wrap Value as DREQ
+    DREQ_PWM_WRAP3 = 35, ///< Select PWM Counter 3's Wrap Value as DREQ
+    DREQ_PWM_WRAP4 = 36, ///< Select PWM Counter 4's Wrap Value as DREQ
+    DREQ_PWM_WRAP5 = 37, ///< Select PWM Counter 5's Wrap Value as DREQ
+    DREQ_PWM_WRAP6 = 38, ///< Select PWM Counter 6's Wrap Value as DREQ
+    DREQ_PWM_WRAP7 = 39, ///< Select PWM Counter 7's Wrap Value as DREQ
+    DREQ_PWM_WRAP8 = 40, ///< Select PWM Counter 8's Wrap Value as DREQ
+    DREQ_PWM_WRAP9 = 41, ///< Select PWM Counter 9's Wrap Value as DREQ
+    DREQ_PWM_WRAP10 = 42, ///< Select PWM Counter 0's Wrap Value as DREQ
+    DREQ_PWM_WRAP11 = 43, ///< Select PWM Counter 1's Wrap Value as DREQ
+    DREQ_I2C0_TX = 44, ///< Select I2C0's TX FIFO as DREQ
+    DREQ_I2C0_RX = 45, ///< Select I2C0's RX FIFO as DREQ
+    DREQ_I2C1_TX = 46, ///< Select I2C1's TX FIFO as DREQ
+    DREQ_I2C1_RX = 47, ///< Select I2C1's RX FIFO as DREQ
+    DREQ_ADC = 48, ///< Select the ADC as DREQ
+    DREQ_XIP_STREAM = 49, ///< Select the XIP Streaming FIFO as DREQ
+    DREQ_XIP_QMITX = 50, ///< Select XIP_QMITX as DREQ
+    DREQ_XIP_QMIRX = 51, ///< Select XIP_QMIRX as DREQ
+    DREQ_HSTX = 52, ///< Select HSTX as DREQ
+    DREQ_CORESIGHT = 53, ///< Select CORESIGHT as DREQ
+    DREQ_SHA256 = 54, ///< Select SHA256 as DREQ
+    DREQ_DMA_TIMER0 = 59, ///< Select DMA_TIMER0 as DREQ
+    DREQ_DMA_TIMER1 = 60, ///< Select DMA_TIMER0 as DREQ
+    DREQ_DMA_TIMER2 = 61, ///< Select DMA_TIMER1 as DREQ
+    DREQ_DMA_TIMER3 = 62, ///< Select DMA_TIMER3 as DREQ
+    DREQ_FORCE = 63, ///< Select FORCE as DREQ
+    DREQ_COUNT
+} dreq_num_t;
+#endif
+
+#endif // _DREQ_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/glitch_detector.h b/lib/pico-sdk/rp2350/hardware/regs/glitch_detector.h
new file mode 100644
index 0000000..efdf434
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/glitch_detector.h
@@ -0,0 +1,213 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : GLITCH_DETECTOR
+// Version        : 1
+// Bus type       : apb
+// Description    : Glitch detector controls
+// =============================================================================
+#ifndef _HARDWARE_REGS_GLITCH_DETECTOR_H
+#define _HARDWARE_REGS_GLITCH_DETECTOR_H
+// =============================================================================
+// Register    : GLITCH_DETECTOR_ARM
+// Description : Forcibly arm the glitch detectors, if they are not already
+//               armed by OTP. When armed, any individual detector trigger will
+//               cause a restart of the switched core power domain's power-on
+//               reset state machine.
+//
+//               Glitch detector triggers are recorded accumulatively in
+//               TRIG_STATUS. If the system is reset by a glitch detector
+//               trigger, this is recorded in POWMAN_CHIP_RESET.
+//
+//               This register is Secure read/write only.
+//               0x5bad -> Do not force the glitch detectors to be armed
+//               0x0000 -> Force the glitch detectors to be armed. (Any value other than ARM_NO counts as YES)
+#define GLITCH_DETECTOR_ARM_OFFSET _u(0x00000000)
+#define GLITCH_DETECTOR_ARM_BITS   _u(0x0000ffff)
+#define GLITCH_DETECTOR_ARM_RESET  _u(0x00005bad)
+#define GLITCH_DETECTOR_ARM_MSB    _u(15)
+#define GLITCH_DETECTOR_ARM_LSB    _u(0)
+#define GLITCH_DETECTOR_ARM_ACCESS "RW"
+#define GLITCH_DETECTOR_ARM_VALUE_NO _u(0x5bad)
+#define GLITCH_DETECTOR_ARM_VALUE_YES _u(0x0000)
+// =============================================================================
+// Register    : GLITCH_DETECTOR_DISARM
+// Description : None
+//               Forcibly disarm the glitch detectors, if they are armed by OTP.
+//               Ignored if ARM is YES.
+//
+//               This register is Secure read/write only.
+//               0x0000 -> Do not disarm the glitch detectors. (Any value other than DISARM_YES counts as NO)
+//               0xdcaf -> Disarm the glitch detectors
+#define GLITCH_DETECTOR_DISARM_OFFSET _u(0x00000004)
+#define GLITCH_DETECTOR_DISARM_BITS   _u(0x0000ffff)
+#define GLITCH_DETECTOR_DISARM_RESET  _u(0x00000000)
+#define GLITCH_DETECTOR_DISARM_MSB    _u(15)
+#define GLITCH_DETECTOR_DISARM_LSB    _u(0)
+#define GLITCH_DETECTOR_DISARM_ACCESS "RW"
+#define GLITCH_DETECTOR_DISARM_VALUE_NO _u(0x0000)
+#define GLITCH_DETECTOR_DISARM_VALUE_YES _u(0xdcaf)
+// =============================================================================
+// Register    : GLITCH_DETECTOR_SENSITIVITY
+// Description : Adjust the sensitivity of glitch detectors to values other than
+//               their OTP-provided defaults.
+//
+//               This register is Secure read/write only.
+#define GLITCH_DETECTOR_SENSITIVITY_OFFSET _u(0x00000008)
+#define GLITCH_DETECTOR_SENSITIVITY_BITS   _u(0xff00ffff)
+#define GLITCH_DETECTOR_SENSITIVITY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DEFAULT
+//               0x00 -> Use the default sensitivity configured in OTP for all detectors. (Any value other than DEFAULT_NO counts as YES)
+//               0xde -> Do not use the default sensitivity configured in OTP. Instead use the value from this register.
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_RESET  _u(0x00)
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_BITS   _u(0xff000000)
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_MSB    _u(31)
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_LSB    _u(24)
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_ACCESS "RW"
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_VALUE_YES _u(0x00)
+#define GLITCH_DETECTOR_SENSITIVITY_DEFAULT_VALUE_NO _u(0xde)
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET3_INV
+// Description : Must be the inverse of DET3, else the default value is used.
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_INV_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_INV_BITS   _u(0x0000c000)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_INV_MSB    _u(15)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_INV_LSB    _u(14)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET2_INV
+// Description : Must be the inverse of DET2, else the default value is used.
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_INV_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_INV_BITS   _u(0x00003000)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_INV_MSB    _u(13)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_INV_LSB    _u(12)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET1_INV
+// Description : Must be the inverse of DET1, else the default value is used.
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_INV_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_INV_BITS   _u(0x00000c00)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_INV_MSB    _u(11)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_INV_LSB    _u(10)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET0_INV
+// Description : Must be the inverse of DET0, else the default value is used.
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_INV_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_INV_BITS   _u(0x00000300)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_INV_MSB    _u(9)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_INV_LSB    _u(8)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET3
+// Description : Set sensitivity for detector 3. Higher values are more
+//               sensitive.
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_BITS   _u(0x000000c0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_MSB    _u(7)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_LSB    _u(6)
+#define GLITCH_DETECTOR_SENSITIVITY_DET3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET2
+// Description : Set sensitivity for detector 2. Higher values are more
+//               sensitive.
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_BITS   _u(0x00000030)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_MSB    _u(5)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_LSB    _u(4)
+#define GLITCH_DETECTOR_SENSITIVITY_DET2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET1
+// Description : Set sensitivity for detector 1. Higher values are more
+//               sensitive.
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_BITS   _u(0x0000000c)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_MSB    _u(3)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_LSB    _u(2)
+#define GLITCH_DETECTOR_SENSITIVITY_DET1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_SENSITIVITY_DET0
+// Description : Set sensitivity for detector 0. Higher values are more
+//               sensitive.
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_RESET  _u(0x0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_BITS   _u(0x00000003)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_MSB    _u(1)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_LSB    _u(0)
+#define GLITCH_DETECTOR_SENSITIVITY_DET0_ACCESS "RW"
+// =============================================================================
+// Register    : GLITCH_DETECTOR_LOCK
+// Description : None
+//               Write any nonzero value to disable writes to ARM, DISARM,
+//               SENSITIVITY and LOCK. This register is Secure read/write only.
+#define GLITCH_DETECTOR_LOCK_OFFSET _u(0x0000000c)
+#define GLITCH_DETECTOR_LOCK_BITS   _u(0x000000ff)
+#define GLITCH_DETECTOR_LOCK_RESET  _u(0x00000000)
+#define GLITCH_DETECTOR_LOCK_MSB    _u(7)
+#define GLITCH_DETECTOR_LOCK_LSB    _u(0)
+#define GLITCH_DETECTOR_LOCK_ACCESS "RW"
+// =============================================================================
+// Register    : GLITCH_DETECTOR_TRIG_STATUS
+// Description : Set when a detector output triggers. Write-1-clear.
+//
+//               (May immediately return high if the detector remains in a
+//               failed state. Detectors can only be cleared by a full reset of
+//               the switched core power domain.)
+//
+//               This register is Secure read/write only.
+#define GLITCH_DETECTOR_TRIG_STATUS_OFFSET _u(0x00000010)
+#define GLITCH_DETECTOR_TRIG_STATUS_BITS   _u(0x0000000f)
+#define GLITCH_DETECTOR_TRIG_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_TRIG_STATUS_DET3
+#define GLITCH_DETECTOR_TRIG_STATUS_DET3_RESET  _u(0x0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET3_BITS   _u(0x00000008)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET3_MSB    _u(3)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET3_LSB    _u(3)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET3_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_TRIG_STATUS_DET2
+#define GLITCH_DETECTOR_TRIG_STATUS_DET2_RESET  _u(0x0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET2_BITS   _u(0x00000004)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET2_MSB    _u(2)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET2_LSB    _u(2)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET2_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_TRIG_STATUS_DET1
+#define GLITCH_DETECTOR_TRIG_STATUS_DET1_RESET  _u(0x0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET1_BITS   _u(0x00000002)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET1_MSB    _u(1)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET1_LSB    _u(1)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET1_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : GLITCH_DETECTOR_TRIG_STATUS_DET0
+#define GLITCH_DETECTOR_TRIG_STATUS_DET0_RESET  _u(0x0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET0_BITS   _u(0x00000001)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET0_MSB    _u(0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET0_LSB    _u(0)
+#define GLITCH_DETECTOR_TRIG_STATUS_DET0_ACCESS "WC"
+// =============================================================================
+// Register    : GLITCH_DETECTOR_TRIG_FORCE
+// Description : Simulate the firing of one or more detectors. Writing ones to
+//               this register will set the matching bits in STATUS_TRIG.
+//
+//               If the glitch detectors are currently armed, writing ones will
+//               also immediately reset the switched core power domain, and set
+//               the reset reason latches in POWMAN_CHIP_RESET to indicate a
+//               glitch detector resets.
+//
+//               This register is Secure read/write only.
+#define GLITCH_DETECTOR_TRIG_FORCE_OFFSET _u(0x00000014)
+#define GLITCH_DETECTOR_TRIG_FORCE_BITS   _u(0x0000000f)
+#define GLITCH_DETECTOR_TRIG_FORCE_RESET  _u(0x00000000)
+#define GLITCH_DETECTOR_TRIG_FORCE_MSB    _u(3)
+#define GLITCH_DETECTOR_TRIG_FORCE_LSB    _u(0)
+#define GLITCH_DETECTOR_TRIG_FORCE_ACCESS "SC"
+// =============================================================================
+#endif // _HARDWARE_REGS_GLITCH_DETECTOR_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/hstx_ctrl.h b/lib/pico-sdk/rp2350/hardware/regs/hstx_ctrl.h
new file mode 100644
index 0000000..8f21304
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/hstx_ctrl.h
@@ -0,0 +1,609 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : HSTX_CTRL
+// Version        : 0
+// Bus type       : apb
+// Description    : Control interface to HSTX. For FIFO write access and status,
+//                  see the HSTX_FIFO register block.
+// =============================================================================
+#ifndef _HARDWARE_REGS_HSTX_CTRL_H
+#define _HARDWARE_REGS_HSTX_CTRL_H
+// =============================================================================
+// Register    : HSTX_CTRL_CSR
+#define HSTX_CTRL_CSR_OFFSET _u(0x00000000)
+#define HSTX_CTRL_CSR_BITS   _u(0xff1f1f73)
+#define HSTX_CTRL_CSR_RESET  _u(0x10050600)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_CLKDIV
+// Description : Clock period of the generated clock, measured in HSTX clock
+//               cycles. Can be odd or even. The generated clock advances only
+//               on cycles where the shift register shifts.
+//
+//               For example, a clkdiv of 5 would generate a complete output
+//               clock period for every 5 HSTX clocks (or every 10 half-clocks).
+//
+//               A CLKDIV value of 0 is mapped to a period of 16 HSTX clock
+//               cycles.
+#define HSTX_CTRL_CSR_CLKDIV_RESET  _u(0x1)
+#define HSTX_CTRL_CSR_CLKDIV_BITS   _u(0xf0000000)
+#define HSTX_CTRL_CSR_CLKDIV_MSB    _u(31)
+#define HSTX_CTRL_CSR_CLKDIV_LSB    _u(28)
+#define HSTX_CTRL_CSR_CLKDIV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_CLKPHASE
+// Description : Set the initial phase of the generated clock.
+//
+//               A CLKPHASE of 0 means the clock is initially low, and the first
+//               rising edge occurs after one half period of the generated clock
+//               (i.e. CLKDIV/2 cycles of clk_hstx). Incrementing CLKPHASE by 1
+//               will advance the initial clock phase by one half clk_hstx
+//               period. For example, if CLKDIV=2 and CLKPHASE=1:
+//
+//               * The clock will be initially low
+//
+//               * The first rising edge will be 0.5 clk_hstx cycles after
+//               asserting first data
+//
+//               * The first falling edge will be 1.5 clk_hstx cycles after
+//               asserting first data
+//
+//               This configuration would be suitable for serialising at a bit
+//               rate of clk_hstx with a centre-aligned DDR clock.
+//
+//               When the HSTX is halted by clearing CSR_EN, the clock generator
+//               will return to its initial phase as configured by the CLKPHASE
+//               field.
+//
+//               Note CLKPHASE must be strictly less than double the value of
+//               CLKDIV (one full period), else its operation is undefined.
+#define HSTX_CTRL_CSR_CLKPHASE_RESET  _u(0x0)
+#define HSTX_CTRL_CSR_CLKPHASE_BITS   _u(0x0f000000)
+#define HSTX_CTRL_CSR_CLKPHASE_MSB    _u(27)
+#define HSTX_CTRL_CSR_CLKPHASE_LSB    _u(24)
+#define HSTX_CTRL_CSR_CLKPHASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_N_SHIFTS
+// Description : Number of times to shift the shift register before refilling it
+//               from the FIFO. (A count of how many times it has been shifted,
+//               *not* the total shift distance.)
+//
+//               A register value of 0 means shift 32 times.
+#define HSTX_CTRL_CSR_N_SHIFTS_RESET  _u(0x05)
+#define HSTX_CTRL_CSR_N_SHIFTS_BITS   _u(0x001f0000)
+#define HSTX_CTRL_CSR_N_SHIFTS_MSB    _u(20)
+#define HSTX_CTRL_CSR_N_SHIFTS_LSB    _u(16)
+#define HSTX_CTRL_CSR_N_SHIFTS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_SHIFT
+// Description : How many bits to right-rotate the shift register by each cycle.
+//
+//               The use of a rotate rather than a shift allows left shifts to
+//               be emulated, by subtracting the left-shift amount from 32. It
+//               also allows data to be repeated, when the product of SHIFT and
+//               N_SHIFTS is greater than 32.
+#define HSTX_CTRL_CSR_SHIFT_RESET  _u(0x06)
+#define HSTX_CTRL_CSR_SHIFT_BITS   _u(0x00001f00)
+#define HSTX_CTRL_CSR_SHIFT_MSB    _u(12)
+#define HSTX_CTRL_CSR_SHIFT_LSB    _u(8)
+#define HSTX_CTRL_CSR_SHIFT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_COUPLED_SEL
+// Description : Select which PIO to use for coupled mode operation.
+#define HSTX_CTRL_CSR_COUPLED_SEL_RESET  _u(0x0)
+#define HSTX_CTRL_CSR_COUPLED_SEL_BITS   _u(0x00000060)
+#define HSTX_CTRL_CSR_COUPLED_SEL_MSB    _u(6)
+#define HSTX_CTRL_CSR_COUPLED_SEL_LSB    _u(5)
+#define HSTX_CTRL_CSR_COUPLED_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_COUPLED_MODE
+// Description : Enable the PIO-to-HSTX 1:1 connection. The HSTX must be clocked
+//               *directly* from the system clock (not just from some other
+//               clock source of the same frequency) for this synchronous
+//               interface to function correctly.
+//
+//               When COUPLED_MODE is set, BITx_SEL_P and SEL_N indices 24
+//               through 31 will select bits from the 8-bit PIO-to-HSTX path,
+//               rather than shifter bits. Indices of 0 through 23 will still
+//               index the shift register as normal.
+//
+//               The PIO outputs connected to the PIO-to-HSTX bus are those same
+//               outputs that would appear on the HSTX-capable pins if those
+//               pins' FUNCSELs were set to PIO instead of HSTX.
+//
+//               For example, if HSTX is on GPIOs 12 through 19, then PIO
+//               outputs 12 through 19 are connected to the HSTX when coupled
+//               mode is engaged.
+#define HSTX_CTRL_CSR_COUPLED_MODE_RESET  _u(0x0)
+#define HSTX_CTRL_CSR_COUPLED_MODE_BITS   _u(0x00000010)
+#define HSTX_CTRL_CSR_COUPLED_MODE_MSB    _u(4)
+#define HSTX_CTRL_CSR_COUPLED_MODE_LSB    _u(4)
+#define HSTX_CTRL_CSR_COUPLED_MODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_EXPAND_EN
+// Description : Enable the command expander. When 0, raw FIFO data is passed
+//               directly to the output shift register. When 1, the command
+//               expander can perform simple operations such as run length
+//               decoding on data between the FIFO and the shift register.
+//
+//               Do not change CXPD_EN whilst EN is set. It's safe to set
+//               CXPD_EN simultaneously with setting EN.
+#define HSTX_CTRL_CSR_EXPAND_EN_RESET  _u(0x0)
+#define HSTX_CTRL_CSR_EXPAND_EN_BITS   _u(0x00000002)
+#define HSTX_CTRL_CSR_EXPAND_EN_MSB    _u(1)
+#define HSTX_CTRL_CSR_EXPAND_EN_LSB    _u(1)
+#define HSTX_CTRL_CSR_EXPAND_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_CSR_EN
+// Description : When EN is 1, the HSTX will shift out data as it appears in the
+//               FIFO. As long as there is data, the HSTX shift register will
+//               shift once per clock cycle, and the frequency of popping from
+//               the FIFO is determined by the ratio of SHIFT and SHIFT_THRESH.
+//
+//               When EN is 0, the FIFO is not popped. The shift counter and
+//               clock generator are also reset to their initial state for as
+//               long as EN is low. Note the initial phase of the clock
+//               generator can be configured by the CLKPHASE field.
+//
+//               Once the HSTX is enabled again, and data is pushed to the FIFO,
+//               the generated clock's first rising edge will be one half-period
+//               after the first data is launched.
+#define HSTX_CTRL_CSR_EN_RESET  _u(0x0)
+#define HSTX_CTRL_CSR_EN_BITS   _u(0x00000001)
+#define HSTX_CTRL_CSR_EN_MSB    _u(0)
+#define HSTX_CTRL_CSR_EN_LSB    _u(0)
+#define HSTX_CTRL_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT0
+// Description : Data control register for output bit 0
+#define HSTX_CTRL_BIT0_OFFSET _u(0x00000004)
+#define HSTX_CTRL_BIT0_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT0_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT0_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT0_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT0_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT0_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT0_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT0_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT0_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT0_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT0_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT0_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT0_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT0_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT0_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT0_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT0_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT0_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT0_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT0_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT0_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT0_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT0_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT0_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT0_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT1
+// Description : Data control register for output bit 1
+#define HSTX_CTRL_BIT1_OFFSET _u(0x00000008)
+#define HSTX_CTRL_BIT1_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT1_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT1_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT1_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT1_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT1_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT1_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT1_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT1_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT1_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT1_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT1_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT1_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT1_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT1_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT1_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT1_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT1_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT1_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT1_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT1_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT1_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT1_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT1_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT1_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT2
+// Description : Data control register for output bit 2
+#define HSTX_CTRL_BIT2_OFFSET _u(0x0000000c)
+#define HSTX_CTRL_BIT2_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT2_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT2_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT2_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT2_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT2_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT2_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT2_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT2_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT2_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT2_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT2_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT2_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT2_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT2_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT2_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT2_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT2_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT2_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT2_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT2_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT2_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT2_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT2_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT2_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT3
+// Description : Data control register for output bit 3
+#define HSTX_CTRL_BIT3_OFFSET _u(0x00000010)
+#define HSTX_CTRL_BIT3_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT3_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT3_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT3_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT3_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT3_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT3_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT3_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT3_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT3_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT3_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT3_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT3_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT3_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT3_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT3_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT3_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT3_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT3_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT3_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT3_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT3_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT3_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT3_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT3_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT4
+// Description : Data control register for output bit 4
+#define HSTX_CTRL_BIT4_OFFSET _u(0x00000014)
+#define HSTX_CTRL_BIT4_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT4_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT4_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT4_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT4_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT4_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT4_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT4_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT4_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT4_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT4_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT4_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT4_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT4_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT4_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT4_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT4_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT4_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT4_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT4_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT4_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT4_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT4_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT4_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT4_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT5
+// Description : Data control register for output bit 5
+#define HSTX_CTRL_BIT5_OFFSET _u(0x00000018)
+#define HSTX_CTRL_BIT5_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT5_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT5_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT5_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT5_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT5_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT5_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT5_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT5_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT5_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT5_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT5_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT5_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT5_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT5_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT5_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT5_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT5_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT5_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT5_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT5_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT5_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT5_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT5_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT5_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT6
+// Description : Data control register for output bit 6
+#define HSTX_CTRL_BIT6_OFFSET _u(0x0000001c)
+#define HSTX_CTRL_BIT6_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT6_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT6_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT6_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT6_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT6_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT6_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT6_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT6_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT6_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT6_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT6_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT6_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT6_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT6_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT6_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT6_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT6_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT6_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT6_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT6_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT6_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT6_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT6_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT6_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_BIT7
+// Description : Data control register for output bit 7
+#define HSTX_CTRL_BIT7_OFFSET _u(0x00000020)
+#define HSTX_CTRL_BIT7_BITS   _u(0x00031f1f)
+#define HSTX_CTRL_BIT7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT7_CLK
+// Description : Connect this output to the generated clock, rather than the
+//               data shift register. SEL_P and SEL_N are ignored if this bit is
+//               set, but INV can still be set to generate an antiphase clock.
+#define HSTX_CTRL_BIT7_CLK_RESET  _u(0x0)
+#define HSTX_CTRL_BIT7_CLK_BITS   _u(0x00020000)
+#define HSTX_CTRL_BIT7_CLK_MSB    _u(17)
+#define HSTX_CTRL_BIT7_CLK_LSB    _u(17)
+#define HSTX_CTRL_BIT7_CLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT7_INV
+// Description : Invert this data output (logical NOT)
+#define HSTX_CTRL_BIT7_INV_RESET  _u(0x0)
+#define HSTX_CTRL_BIT7_INV_BITS   _u(0x00010000)
+#define HSTX_CTRL_BIT7_INV_MSB    _u(16)
+#define HSTX_CTRL_BIT7_INV_LSB    _u(16)
+#define HSTX_CTRL_BIT7_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT7_SEL_N
+// Description : Shift register data bit select for the second half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT7_SEL_N_RESET  _u(0x00)
+#define HSTX_CTRL_BIT7_SEL_N_BITS   _u(0x00001f00)
+#define HSTX_CTRL_BIT7_SEL_N_MSB    _u(12)
+#define HSTX_CTRL_BIT7_SEL_N_LSB    _u(8)
+#define HSTX_CTRL_BIT7_SEL_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_BIT7_SEL_P
+// Description : Shift register data bit select for the first half of the HSTX
+//               clock cycle
+#define HSTX_CTRL_BIT7_SEL_P_RESET  _u(0x00)
+#define HSTX_CTRL_BIT7_SEL_P_BITS   _u(0x0000001f)
+#define HSTX_CTRL_BIT7_SEL_P_MSB    _u(4)
+#define HSTX_CTRL_BIT7_SEL_P_LSB    _u(0)
+#define HSTX_CTRL_BIT7_SEL_P_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_EXPAND_SHIFT
+// Description : Configure the optional shifter inside the command expander
+#define HSTX_CTRL_EXPAND_SHIFT_OFFSET _u(0x00000024)
+#define HSTX_CTRL_EXPAND_SHIFT_BITS   _u(0x1f1f1f1f)
+#define HSTX_CTRL_EXPAND_SHIFT_RESET  _u(0x01000100)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS
+// Description : Number of times to consume from the shift register before
+//               refilling it from the FIFO, when the current command is an
+//               encoded data command (e.g. TMDS). A register value of 0 means
+//               shift 32 times.
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS_RESET  _u(0x01)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS_BITS   _u(0x1f000000)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS_MSB    _u(28)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS_LSB    _u(24)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_N_SHIFTS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT
+// Description : How many bits to right-rotate the shift register by each time
+//               data is pushed to the output shifter, when the current command
+//               is an encoded data command (e.g. TMDS).
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT_RESET  _u(0x00)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT_BITS   _u(0x001f0000)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT_MSB    _u(20)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT_LSB    _u(16)
+#define HSTX_CTRL_EXPAND_SHIFT_ENC_SHIFT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS
+// Description : Number of times to consume from the shift register before
+//               refilling it from the FIFO, when the current command is a raw
+//               data command. A register value of 0 means shift 32 times.
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS_RESET  _u(0x01)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS_BITS   _u(0x00001f00)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS_MSB    _u(12)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS_LSB    _u(8)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_N_SHIFTS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT
+// Description : How many bits to right-rotate the shift register by each time
+//               data is pushed to the output shifter, when the current command
+//               is a raw data command.
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT_RESET  _u(0x00)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT_BITS   _u(0x0000001f)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT_MSB    _u(4)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT_LSB    _u(0)
+#define HSTX_CTRL_EXPAND_SHIFT_RAW_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : HSTX_CTRL_EXPAND_TMDS
+// Description : Configure the optional TMDS encoder inside the command expander
+#define HSTX_CTRL_EXPAND_TMDS_OFFSET _u(0x00000028)
+#define HSTX_CTRL_EXPAND_TMDS_BITS   _u(0x00ffffff)
+#define HSTX_CTRL_EXPAND_TMDS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L2_NBITS
+// Description : Number of valid data bits for the lane 2 TMDS encoder, starting
+//               from bit 7 of the rotated data. Field values of 0 -> 7 encode
+//               counts of 1 -> 8 bits.
+#define HSTX_CTRL_EXPAND_TMDS_L2_NBITS_RESET  _u(0x0)
+#define HSTX_CTRL_EXPAND_TMDS_L2_NBITS_BITS   _u(0x00e00000)
+#define HSTX_CTRL_EXPAND_TMDS_L2_NBITS_MSB    _u(23)
+#define HSTX_CTRL_EXPAND_TMDS_L2_NBITS_LSB    _u(21)
+#define HSTX_CTRL_EXPAND_TMDS_L2_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L2_ROT
+// Description : Right-rotate applied to the current shifter data before the
+//               lane 2 TMDS encoder.
+#define HSTX_CTRL_EXPAND_TMDS_L2_ROT_RESET  _u(0x00)
+#define HSTX_CTRL_EXPAND_TMDS_L2_ROT_BITS   _u(0x001f0000)
+#define HSTX_CTRL_EXPAND_TMDS_L2_ROT_MSB    _u(20)
+#define HSTX_CTRL_EXPAND_TMDS_L2_ROT_LSB    _u(16)
+#define HSTX_CTRL_EXPAND_TMDS_L2_ROT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L1_NBITS
+// Description : Number of valid data bits for the lane 1 TMDS encoder, starting
+//               from bit 7 of the rotated data. Field values of 0 -> 7 encode
+//               counts of 1 -> 8 bits.
+#define HSTX_CTRL_EXPAND_TMDS_L1_NBITS_RESET  _u(0x0)
+#define HSTX_CTRL_EXPAND_TMDS_L1_NBITS_BITS   _u(0x0000e000)
+#define HSTX_CTRL_EXPAND_TMDS_L1_NBITS_MSB    _u(15)
+#define HSTX_CTRL_EXPAND_TMDS_L1_NBITS_LSB    _u(13)
+#define HSTX_CTRL_EXPAND_TMDS_L1_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L1_ROT
+// Description : Right-rotate applied to the current shifter data before the
+//               lane 1 TMDS encoder.
+#define HSTX_CTRL_EXPAND_TMDS_L1_ROT_RESET  _u(0x00)
+#define HSTX_CTRL_EXPAND_TMDS_L1_ROT_BITS   _u(0x00001f00)
+#define HSTX_CTRL_EXPAND_TMDS_L1_ROT_MSB    _u(12)
+#define HSTX_CTRL_EXPAND_TMDS_L1_ROT_LSB    _u(8)
+#define HSTX_CTRL_EXPAND_TMDS_L1_ROT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L0_NBITS
+// Description : Number of valid data bits for the lane 0 TMDS encoder, starting
+//               from bit 7 of the rotated data. Field values of 0 -> 7 encode
+//               counts of 1 -> 8 bits.
+#define HSTX_CTRL_EXPAND_TMDS_L0_NBITS_RESET  _u(0x0)
+#define HSTX_CTRL_EXPAND_TMDS_L0_NBITS_BITS   _u(0x000000e0)
+#define HSTX_CTRL_EXPAND_TMDS_L0_NBITS_MSB    _u(7)
+#define HSTX_CTRL_EXPAND_TMDS_L0_NBITS_LSB    _u(5)
+#define HSTX_CTRL_EXPAND_TMDS_L0_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_CTRL_EXPAND_TMDS_L0_ROT
+// Description : Right-rotate applied to the current shifter data before the
+//               lane 0 TMDS encoder.
+#define HSTX_CTRL_EXPAND_TMDS_L0_ROT_RESET  _u(0x00)
+#define HSTX_CTRL_EXPAND_TMDS_L0_ROT_BITS   _u(0x0000001f)
+#define HSTX_CTRL_EXPAND_TMDS_L0_ROT_MSB    _u(4)
+#define HSTX_CTRL_EXPAND_TMDS_L0_ROT_LSB    _u(0)
+#define HSTX_CTRL_EXPAND_TMDS_L0_ROT_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_HSTX_CTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/hstx_fifo.h b/lib/pico-sdk/rp2350/hardware/regs/hstx_fifo.h
new file mode 100644
index 0000000..d056447
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/hstx_fifo.h
@@ -0,0 +1,62 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : HSTX_FIFO
+// Version        : 1
+// Bus type       : ahbl
+// Description    : FIFO status and write access for HSTX
+// =============================================================================
+#ifndef _HARDWARE_REGS_HSTX_FIFO_H
+#define _HARDWARE_REGS_HSTX_FIFO_H
+// =============================================================================
+// Register    : HSTX_FIFO_STAT
+// Description : FIFO status
+#define HSTX_FIFO_STAT_OFFSET _u(0x00000000)
+#define HSTX_FIFO_STAT_BITS   _u(0x000007ff)
+#define HSTX_FIFO_STAT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : HSTX_FIFO_STAT_WOF
+// Description : FIFO was written when full. Write 1 to clear.
+#define HSTX_FIFO_STAT_WOF_RESET  _u(0x0)
+#define HSTX_FIFO_STAT_WOF_BITS   _u(0x00000400)
+#define HSTX_FIFO_STAT_WOF_MSB    _u(10)
+#define HSTX_FIFO_STAT_WOF_LSB    _u(10)
+#define HSTX_FIFO_STAT_WOF_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_FIFO_STAT_EMPTY
+#define HSTX_FIFO_STAT_EMPTY_RESET  "-"
+#define HSTX_FIFO_STAT_EMPTY_BITS   _u(0x00000200)
+#define HSTX_FIFO_STAT_EMPTY_MSB    _u(9)
+#define HSTX_FIFO_STAT_EMPTY_LSB    _u(9)
+#define HSTX_FIFO_STAT_EMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_FIFO_STAT_FULL
+#define HSTX_FIFO_STAT_FULL_RESET  "-"
+#define HSTX_FIFO_STAT_FULL_BITS   _u(0x00000100)
+#define HSTX_FIFO_STAT_FULL_MSB    _u(8)
+#define HSTX_FIFO_STAT_FULL_LSB    _u(8)
+#define HSTX_FIFO_STAT_FULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : HSTX_FIFO_STAT_LEVEL
+#define HSTX_FIFO_STAT_LEVEL_RESET  _u(0x00)
+#define HSTX_FIFO_STAT_LEVEL_BITS   _u(0x000000ff)
+#define HSTX_FIFO_STAT_LEVEL_MSB    _u(7)
+#define HSTX_FIFO_STAT_LEVEL_LSB    _u(0)
+#define HSTX_FIFO_STAT_LEVEL_ACCESS "RO"
+// =============================================================================
+// Register    : HSTX_FIFO_FIFO
+// Description : Write access to FIFO
+#define HSTX_FIFO_FIFO_OFFSET _u(0x00000004)
+#define HSTX_FIFO_FIFO_BITS   _u(0xffffffff)
+#define HSTX_FIFO_FIFO_RESET  _u(0x00000000)
+#define HSTX_FIFO_FIFO_MSB    _u(31)
+#define HSTX_FIFO_FIFO_LSB    _u(0)
+#define HSTX_FIFO_FIFO_ACCESS "WF"
+// =============================================================================
+#endif // _HARDWARE_REGS_HSTX_FIFO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/i2c.h b/lib/pico-sdk/rp2350/hardware/regs/i2c.h
new file mode 100644
index 0000000..f44ceb4
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/i2c.h
@@ -0,0 +1,2700 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : I2C
+// Version        : 1
+// Bus type       : apb
+// Description    : DW_apb_i2c address block
+//
+//                  List of configuration constants for the Synopsys I2C
+//                  hardware (you may see references to these in I2C register
+//                  header; these are *fixed* values, set at hardware design
+//                  time):
+//
+//                  IC_ULTRA_FAST_MODE ................ 0x0
+//                  IC_UFM_TBUF_CNT_DEFAULT ........... 0x8
+//                  IC_UFM_SCL_LOW_COUNT .............. 0x0008
+//                  IC_UFM_SCL_HIGH_COUNT ............. 0x0006
+//                  IC_TX_TL .......................... 0x0
+//                  IC_TX_CMD_BLOCK ................... 0x1
+//                  IC_HAS_DMA ........................ 0x1
+//                  IC_HAS_ASYNC_FIFO ................. 0x0
+//                  IC_SMBUS_ARP ...................... 0x0
+//                  IC_FIRST_DATA_BYTE_STATUS ......... 0x1
+//                  IC_INTR_IO ........................ 0x1
+//                  IC_MASTER_MODE .................... 0x1
+//                  IC_DEFAULT_ACK_GENERAL_CALL ....... 0x1
+//                  IC_INTR_POL ....................... 0x1
+//                  IC_OPTIONAL_SAR ................... 0x0
+//                  IC_DEFAULT_TAR_SLAVE_ADDR ......... 0x055
+//                  IC_DEFAULT_SLAVE_ADDR ............. 0x055
+//                  IC_DEFAULT_HS_SPKLEN .............. 0x1
+//                  IC_FS_SCL_HIGH_COUNT .............. 0x0006
+//                  IC_HS_SCL_LOW_COUNT ............... 0x0008
+//                  IC_DEVICE_ID_VALUE ................ 0x0
+//                  IC_10BITADDR_MASTER ............... 0x0
+//                  IC_CLK_FREQ_OPTIMIZATION .......... 0x0
+//                  IC_DEFAULT_FS_SPKLEN .............. 0x7
+//                  IC_ADD_ENCODED_PARAMS ............. 0x0
+//                  IC_DEFAULT_SDA_HOLD ............... 0x000001
+//                  IC_DEFAULT_SDA_SETUP .............. 0x64
+//                  IC_AVOID_RX_FIFO_FLUSH_ON_TX_ABRT . 0x0
+//                  IC_CLOCK_PERIOD ................... 100
+//                  IC_EMPTYFIFO_HOLD_MASTER_EN ....... 1
+//                  IC_RESTART_EN ..................... 0x1
+//                  IC_TX_CMD_BLOCK_DEFAULT ........... 0x0
+//                  IC_BUS_CLEAR_FEATURE .............. 0x0
+//                  IC_CAP_LOADING .................... 100
+//                  IC_FS_SCL_LOW_COUNT ............... 0x000d
+//                  APB_DATA_WIDTH .................... 32
+//                  IC_SDA_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
+//                  IC_SLV_DATA_NACK_ONLY ............. 0x1
+//                  IC_10BITADDR_SLAVE ................ 0x0
+//                  IC_CLK_TYPE ....................... 0x0
+//                  IC_SMBUS_UDID_MSB ................. 0x0
+//                  IC_SMBUS_SUSPEND_ALERT ............ 0x0
+//                  IC_HS_SCL_HIGH_COUNT .............. 0x0006
+//                  IC_SLV_RESTART_DET_EN ............. 0x1
+//                  IC_SMBUS .......................... 0x0
+//                  IC_OPTIONAL_SAR_DEFAULT ........... 0x0
+//                  IC_PERSISTANT_SLV_ADDR_DEFAULT .... 0x0
+//                  IC_USE_COUNTS ..................... 0x0
+//                  IC_RX_BUFFER_DEPTH ................ 16
+//                  IC_SCL_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
+//                  IC_RX_FULL_HLD_BUS_EN ............. 0x1
+//                  IC_SLAVE_DISABLE .................. 0x1
+//                  IC_RX_TL .......................... 0x0
+//                  IC_DEVICE_ID ...................... 0x0
+//                  IC_HC_COUNT_VALUES ................ 0x0
+//                  I2C_DYNAMIC_TAR_UPDATE ............ 0
+//                  IC_SMBUS_CLK_LOW_MEXT_DEFAULT ..... 0xffffffff
+//                  IC_SMBUS_CLK_LOW_SEXT_DEFAULT ..... 0xffffffff
+//                  IC_HS_MASTER_CODE ................. 0x1
+//                  IC_SMBUS_RST_IDLE_CNT_DEFAULT ..... 0xffff
+//                  IC_SMBUS_UDID_LSB_DEFAULT ......... 0xffffffff
+//                  IC_SS_SCL_HIGH_COUNT .............. 0x0028
+//                  IC_SS_SCL_LOW_COUNT ............... 0x002f
+//                  IC_MAX_SPEED_MODE ................. 0x2
+//                  IC_STAT_FOR_CLK_STRETCH ........... 0x0
+//                  IC_STOP_DET_IF_MASTER_ACTIVE ...... 0x0
+//                  IC_DEFAULT_UFM_SPKLEN ............. 0x1
+//                  IC_TX_BUFFER_DEPTH ................ 16
+// =============================================================================
+#ifndef _HARDWARE_REGS_I2C_H
+#define _HARDWARE_REGS_I2C_H
+// =============================================================================
+// Register    : I2C_IC_CON
+// Description : I2C Control Register. This register can be written only when
+//               the DW_apb_i2c is disabled, which corresponds to the
+//               IC_ENABLE[0] register being set to 0. Writes at other times
+//               have no effect.
+//
+//               Read/Write Access: - bit 10 is read only. - bit 11 is read only
+//               - bit 16 is read only - bit 17 is read only - bits 18 and 19
+//               are read only.
+#define I2C_IC_CON_OFFSET _u(0x00000000)
+#define I2C_IC_CON_BITS   _u(0x000007ff)
+#define I2C_IC_CON_RESET  _u(0x00000065)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE
+// Description : Master issues the STOP_DET interrupt irrespective of whether
+//               master is active or not
+#define I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE_RESET  _u(0x0)
+#define I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE_BITS   _u(0x00000400)
+#define I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE_MSB    _u(10)
+#define I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE_LSB    _u(10)
+#define I2C_IC_CON_STOP_DET_IF_MASTER_ACTIVE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL
+// Description : This bit controls whether DW_apb_i2c should hold the bus when
+//               the Rx FIFO is physically full to its RX_BUFFER_DEPTH, as
+//               described in the IC_RX_FULL_HLD_BUS_EN parameter.
+//
+//               Reset value: 0x0.
+//               0x0 -> Overflow when RX_FIFO is full
+//               0x1 -> Hold bus when RX_FIFO is full
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_RESET  _u(0x0)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_BITS   _u(0x00000200)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_MSB    _u(9)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_LSB    _u(9)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_ACCESS "RW"
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_VALUE_DISABLED _u(0x0)
+#define I2C_IC_CON_RX_FIFO_FULL_HLD_CTRL_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_TX_EMPTY_CTRL
+// Description : This bit controls the generation of the TX_EMPTY interrupt, as
+//               described in the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0.
+//               0x0 -> Default behaviour of TX_EMPTY interrupt
+//               0x1 -> Controlled generation of TX_EMPTY interrupt
+#define I2C_IC_CON_TX_EMPTY_CTRL_RESET  _u(0x0)
+#define I2C_IC_CON_TX_EMPTY_CTRL_BITS   _u(0x00000100)
+#define I2C_IC_CON_TX_EMPTY_CTRL_MSB    _u(8)
+#define I2C_IC_CON_TX_EMPTY_CTRL_LSB    _u(8)
+#define I2C_IC_CON_TX_EMPTY_CTRL_ACCESS "RW"
+#define I2C_IC_CON_TX_EMPTY_CTRL_VALUE_DISABLED _u(0x0)
+#define I2C_IC_CON_TX_EMPTY_CTRL_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_STOP_DET_IFADDRESSED
+// Description : In slave mode: - 1'b1:  issues the STOP_DET interrupt only when
+//               it is addressed. - 1'b0:  issues the STOP_DET irrespective of
+//               whether it's addressed or not. Reset value: 0x0
+//
+//               NOTE: During a general call address, this slave does not issue
+//               the STOP_DET interrupt if STOP_DET_IF_ADDRESSED = 1'b1, even if
+//               the slave responds to the general call address by generating
+//               ACK. The STOP_DET interrupt is generated only when the
+//               transmitted address matches the slave address (SAR).
+//               0x0 -> slave issues STOP_DET intr always
+//               0x1 -> slave issues STOP_DET intr only if addressed
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_RESET  _u(0x0)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_BITS   _u(0x00000080)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_MSB    _u(7)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_LSB    _u(7)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_ACCESS "RW"
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_VALUE_DISABLED _u(0x0)
+#define I2C_IC_CON_STOP_DET_IFADDRESSED_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_IC_SLAVE_DISABLE
+// Description : This bit controls whether I2C has its slave disabled, which
+//               means once the presetn signal is applied, then this bit is set
+//               and the slave is disabled.
+//
+//               If this bit is set (slave is disabled), DW_apb_i2c functions
+//               only as a master and does not perform any action that requires
+//               a slave.
+//
+//               NOTE: Software should ensure that if this bit is written with
+//               0, then bit 0 should also be written with a 0.
+//               0x0 -> Slave mode is enabled
+//               0x1 -> Slave mode is disabled
+#define I2C_IC_CON_IC_SLAVE_DISABLE_RESET  _u(0x1)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_BITS   _u(0x00000040)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_MSB    _u(6)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_LSB    _u(6)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_ACCESS "RW"
+#define I2C_IC_CON_IC_SLAVE_DISABLE_VALUE_SLAVE_ENABLED _u(0x0)
+#define I2C_IC_CON_IC_SLAVE_DISABLE_VALUE_SLAVE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_IC_RESTART_EN
+// Description : Determines whether RESTART conditions may be sent when acting
+//               as a master. Some older slaves do not support handling RESTART
+//               conditions; however, RESTART conditions are used in several
+//               DW_apb_i2c operations. When RESTART is disabled, the master is
+//               prohibited from performing the following functions: - Sending a
+//               START BYTE - Performing any high-speed mode operation - High-
+//               speed mode operation - Performing direction changes in combined
+//               format mode - Performing a read operation with a 10-bit address
+//               By replacing RESTART condition followed by a STOP and a
+//               subsequent START condition, split operations are broken down
+//               into multiple DW_apb_i2c transfers. If the above operations are
+//               performed, it will result in setting bit 6 (TX_ABRT) of the
+//               IC_RAW_INTR_STAT register.
+//
+//               Reset value: ENABLED
+//               0x0 -> Master restart disabled
+//               0x1 -> Master restart enabled
+#define I2C_IC_CON_IC_RESTART_EN_RESET  _u(0x1)
+#define I2C_IC_CON_IC_RESTART_EN_BITS   _u(0x00000020)
+#define I2C_IC_CON_IC_RESTART_EN_MSB    _u(5)
+#define I2C_IC_CON_IC_RESTART_EN_LSB    _u(5)
+#define I2C_IC_CON_IC_RESTART_EN_ACCESS "RW"
+#define I2C_IC_CON_IC_RESTART_EN_VALUE_DISABLED _u(0x0)
+#define I2C_IC_CON_IC_RESTART_EN_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_IC_10BITADDR_MASTER
+// Description : Controls whether the DW_apb_i2c starts its transfers in 7- or
+//               10-bit addressing mode when acting as a master. - 0: 7-bit
+//               addressing - 1: 10-bit addressing
+//               0x0 -> Master 7Bit addressing mode
+//               0x1 -> Master 10Bit addressing mode
+#define I2C_IC_CON_IC_10BITADDR_MASTER_RESET  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_BITS   _u(0x00000010)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_MSB    _u(4)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_LSB    _u(4)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_ACCESS "RW"
+#define I2C_IC_CON_IC_10BITADDR_MASTER_VALUE_ADDR_7BITS _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_MASTER_VALUE_ADDR_10BITS _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_IC_10BITADDR_SLAVE
+// Description : When acting as a slave, this bit controls whether the
+//               DW_apb_i2c responds to 7- or 10-bit addresses. - 0: 7-bit
+//               addressing. The DW_apb_i2c ignores transactions that involve
+//               10-bit addressing; for 7-bit addressing, only the lower 7 bits
+//               of the IC_SAR register are compared. - 1: 10-bit addressing.
+//               The DW_apb_i2c responds to only 10-bit addressing transfers
+//               that match the full 10 bits of the IC_SAR register.
+//               0x0 -> Slave 7Bit addressing
+//               0x1 -> Slave 10Bit addressing
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_RESET  _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_BITS   _u(0x00000008)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_MSB    _u(3)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_LSB    _u(3)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_ACCESS "RW"
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_VALUE_ADDR_7BITS _u(0x0)
+#define I2C_IC_CON_IC_10BITADDR_SLAVE_VALUE_ADDR_10BITS _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_SPEED
+// Description : These bits control at which speed the DW_apb_i2c operates; its
+//               setting is relevant only if one is operating the DW_apb_i2c in
+//               master mode. Hardware protects against illegal values being
+//               programmed by software. These bits must be programmed
+//               appropriately for slave mode also, as it is used to capture
+//               correct value of spike filter as per the speed mode.
+//
+//               This register should be programmed only with a value in the
+//               range of 1 to IC_MAX_SPEED_MODE; otherwise, hardware updates
+//               this register with the value of IC_MAX_SPEED_MODE.
+//
+//               1: standard mode (100 kbit/s)
+//
+//               2: fast mode (<=400 kbit/s) or fast mode plus (<=1000Kbit/s)
+//
+//               3: high speed mode (3.4 Mbit/s)
+//
+//               Note: This field is not applicable when IC_ULTRA_FAST_MODE=1
+//               0x1 -> Standard Speed mode of operation
+//               0x2 -> Fast or Fast Plus mode of operation
+//               0x3 -> High Speed mode of operation
+#define I2C_IC_CON_SPEED_RESET  _u(0x2)
+#define I2C_IC_CON_SPEED_BITS   _u(0x00000006)
+#define I2C_IC_CON_SPEED_MSB    _u(2)
+#define I2C_IC_CON_SPEED_LSB    _u(1)
+#define I2C_IC_CON_SPEED_ACCESS "RW"
+#define I2C_IC_CON_SPEED_VALUE_STANDARD _u(0x1)
+#define I2C_IC_CON_SPEED_VALUE_FAST _u(0x2)
+#define I2C_IC_CON_SPEED_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CON_MASTER_MODE
+// Description : This bit controls whether the DW_apb_i2c master is enabled.
+//
+//               NOTE: Software should ensure that if this bit is written with
+//               '1' then bit 6 should also be written with a '1'.
+//               0x0 -> Master mode is disabled
+//               0x1 -> Master mode is enabled
+#define I2C_IC_CON_MASTER_MODE_RESET  _u(0x1)
+#define I2C_IC_CON_MASTER_MODE_BITS   _u(0x00000001)
+#define I2C_IC_CON_MASTER_MODE_MSB    _u(0)
+#define I2C_IC_CON_MASTER_MODE_LSB    _u(0)
+#define I2C_IC_CON_MASTER_MODE_ACCESS "RW"
+#define I2C_IC_CON_MASTER_MODE_VALUE_DISABLED _u(0x0)
+#define I2C_IC_CON_MASTER_MODE_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_TAR
+// Description : I2C Target Address Register
+//
+//               This register is 12 bits wide, and bits 31:12 are reserved.
+//               This register can be written to only when IC_ENABLE[0] is set
+//               to 0.
+//
+//               Note: If the software or application is aware that the
+//               DW_apb_i2c is not using the TAR address for the pending
+//               commands in the Tx FIFO, then it is possible to update the TAR
+//               address even while the Tx FIFO has entries (IC_STATUS[2]= 0). -
+//               It is not necessary to perform any write to this register if
+//               DW_apb_i2c is enabled as an I2C slave only.
+#define I2C_IC_TAR_OFFSET _u(0x00000004)
+#define I2C_IC_TAR_BITS   _u(0x00000fff)
+#define I2C_IC_TAR_RESET  _u(0x00000055)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TAR_SPECIAL
+// Description : This bit indicates whether software performs a Device-ID or
+//               General Call or START BYTE command. - 0: ignore bit 10
+//               GC_OR_START and use IC_TAR normally - 1: perform special I2C
+//               command as specified in Device_ID or GC_OR_START bit Reset
+//               value: 0x0
+//               0x0 -> Disables programming of GENERAL_CALL or START_BYTE transmission
+//               0x1 -> Enables programming of GENERAL_CALL or START_BYTE transmission
+#define I2C_IC_TAR_SPECIAL_RESET  _u(0x0)
+#define I2C_IC_TAR_SPECIAL_BITS   _u(0x00000800)
+#define I2C_IC_TAR_SPECIAL_MSB    _u(11)
+#define I2C_IC_TAR_SPECIAL_LSB    _u(11)
+#define I2C_IC_TAR_SPECIAL_ACCESS "RW"
+#define I2C_IC_TAR_SPECIAL_VALUE_DISABLED _u(0x0)
+#define I2C_IC_TAR_SPECIAL_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TAR_GC_OR_START
+// Description : If bit 11 (SPECIAL) is set to 1 and bit 13(Device-ID) is set to
+//               0, then this bit indicates whether a General Call or START byte
+//               command is to be performed by the DW_apb_i2c. - 0: General Call
+//               Address - after issuing a General Call, only writes may be
+//               performed. Attempting to issue a read command results in
+//               setting bit 6 (TX_ABRT) of the IC_RAW_INTR_STAT register. The
+//               DW_apb_i2c remains in General Call mode until the SPECIAL bit
+//               value (bit 11) is cleared. - 1: START BYTE Reset value: 0x0
+//               0x0 -> GENERAL_CALL byte transmission
+//               0x1 -> START byte transmission
+#define I2C_IC_TAR_GC_OR_START_RESET  _u(0x0)
+#define I2C_IC_TAR_GC_OR_START_BITS   _u(0x00000400)
+#define I2C_IC_TAR_GC_OR_START_MSB    _u(10)
+#define I2C_IC_TAR_GC_OR_START_LSB    _u(10)
+#define I2C_IC_TAR_GC_OR_START_ACCESS "RW"
+#define I2C_IC_TAR_GC_OR_START_VALUE_GENERAL_CALL _u(0x0)
+#define I2C_IC_TAR_GC_OR_START_VALUE_START_BYTE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TAR_IC_TAR
+// Description : This is the target address for any master transaction. When
+//               transmitting a General Call, these bits are ignored. To
+//               generate a START BYTE, the CPU needs to write only once into
+//               these bits.
+//
+//               If the IC_TAR and IC_SAR are the same, loopback exists but the
+//               FIFOs are shared between master and slave, so full loopback is
+//               not feasible. Only one direction loopback mode is supported
+//               (simplex), not duplex. A master cannot transmit to itself; it
+//               can transmit to only a slave.
+#define I2C_IC_TAR_IC_TAR_RESET  _u(0x055)
+#define I2C_IC_TAR_IC_TAR_BITS   _u(0x000003ff)
+#define I2C_IC_TAR_IC_TAR_MSB    _u(9)
+#define I2C_IC_TAR_IC_TAR_LSB    _u(0)
+#define I2C_IC_TAR_IC_TAR_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_SAR
+// Description : I2C Slave Address Register
+#define I2C_IC_SAR_OFFSET _u(0x00000008)
+#define I2C_IC_SAR_BITS   _u(0x000003ff)
+#define I2C_IC_SAR_RESET  _u(0x00000055)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SAR_IC_SAR
+// Description : The IC_SAR holds the slave address when the I2C is operating as
+//               a slave. For 7-bit addressing, only IC_SAR[6:0] is used.
+//
+//               This register can be written only when the I2C interface is
+//               disabled, which corresponds to the IC_ENABLE[0] register being
+//               set to 0. Writes at other times have no effect.
+//
+//               Note: The default values cannot be any of the reserved address
+//               locations: that is, 0x00 to 0x07, or 0x78 to 0x7f. The correct
+//               operation of the device is not guaranteed if you program the
+//               IC_SAR or IC_TAR to a reserved value. Refer to
+//               <<table_I2C_firstbyte_bit_defs>> for a complete list of these
+//               reserved values.
+#define I2C_IC_SAR_IC_SAR_RESET  _u(0x055)
+#define I2C_IC_SAR_IC_SAR_BITS   _u(0x000003ff)
+#define I2C_IC_SAR_IC_SAR_MSB    _u(9)
+#define I2C_IC_SAR_IC_SAR_LSB    _u(0)
+#define I2C_IC_SAR_IC_SAR_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_DATA_CMD
+// Description : I2C Rx/Tx Data Buffer and Command Register; this is the
+//               register the CPU writes to when filling the TX FIFO and the CPU
+//               reads from when retrieving bytes from RX FIFO.
+//
+//               The size of the register changes as follows:
+//
+//               Write: - 11 bits when IC_EMPTYFIFO_HOLD_MASTER_EN=1 - 9 bits
+//               when IC_EMPTYFIFO_HOLD_MASTER_EN=0 Read: - 12 bits when
+//               IC_FIRST_DATA_BYTE_STATUS = 1 - 8 bits when
+//               IC_FIRST_DATA_BYTE_STATUS = 0 Note: In order for the DW_apb_i2c
+//               to continue acknowledging reads, a read command should be
+//               written for every byte that is to be received; otherwise the
+//               DW_apb_i2c will stop acknowledging.
+#define I2C_IC_DATA_CMD_OFFSET _u(0x00000010)
+#define I2C_IC_DATA_CMD_BITS   _u(0x00000fff)
+#define I2C_IC_DATA_CMD_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DATA_CMD_FIRST_DATA_BYTE
+// Description : Indicates the first data byte received after the address phase
+//               for receive transfer in Master receiver or Slave receiver mode.
+//
+//               Reset value : 0x0
+//
+//               NOTE:  In case of APB_DATA_WIDTH=8,
+//
+//               1. The user has to perform two APB Reads to IC_DATA_CMD in
+//               order to get status on 11 bit.
+//
+//               2. In order to read the 11 bit, the user has to perform the
+//               first data byte read [7:0] (offset 0x10) and then perform the
+//               second read [15:8] (offset 0x11) in order to know the status of
+//               11 bit (whether the data received in previous read is a first
+//               data byte or not).
+//
+//               3. The 11th bit is an optional read field, user can ignore 2nd
+//               byte read [15:8] (offset 0x11) if not interested in
+//               FIRST_DATA_BYTE status.
+//               0x0 -> Sequential data byte received
+//               0x1 -> Non sequential data byte received
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_BITS   _u(0x00000800)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_MSB    _u(11)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_LSB    _u(11)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_ACCESS "RO"
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_DATA_CMD_FIRST_DATA_BYTE_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DATA_CMD_RESTART
+// Description : This bit controls whether a RESTART is issued before the byte
+//               is sent or received.
+//
+//               1 - If IC_RESTART_EN is 1, a RESTART is issued before the data
+//               is sent/received (according to the value of CMD), regardless of
+//               whether or not the transfer direction is changing from the
+//               previous command; if IC_RESTART_EN is 0, a STOP followed by a
+//               START is issued instead.
+//
+//               0 - If IC_RESTART_EN is 1, a RESTART is issued only if the
+//               transfer direction is changing from the previous command; if
+//               IC_RESTART_EN is 0, a STOP followed by a START is issued
+//               instead.
+//
+//               Reset value: 0x0
+//               0x0 -> Don't Issue RESTART before this command
+//               0x1 -> Issue RESTART before this command
+#define I2C_IC_DATA_CMD_RESTART_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_RESTART_BITS   _u(0x00000400)
+#define I2C_IC_DATA_CMD_RESTART_MSB    _u(10)
+#define I2C_IC_DATA_CMD_RESTART_LSB    _u(10)
+#define I2C_IC_DATA_CMD_RESTART_ACCESS "SC"
+#define I2C_IC_DATA_CMD_RESTART_VALUE_DISABLE _u(0x0)
+#define I2C_IC_DATA_CMD_RESTART_VALUE_ENABLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DATA_CMD_STOP
+// Description : This bit controls whether a STOP is issued after the byte is
+//               sent or received.
+//
+//               - 1 - STOP is issued after this byte, regardless of whether or
+//               not the Tx FIFO is empty. If the Tx FIFO is not empty, the
+//               master immediately tries to start a new transfer by issuing a
+//               START and arbitrating for the bus. - 0 - STOP is not issued
+//               after this byte, regardless of whether or not the Tx FIFO is
+//               empty. If the Tx FIFO is not empty, the master continues the
+//               current transfer by sending/receiving data bytes according to
+//               the value of the CMD bit. If the Tx FIFO is empty, the master
+//               holds the SCL line low and stalls the bus until a new command
+//               is available in the Tx FIFO. Reset value: 0x0
+//               0x0 -> Don't Issue STOP after this command
+//               0x1 -> Issue STOP after this command
+#define I2C_IC_DATA_CMD_STOP_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_STOP_BITS   _u(0x00000200)
+#define I2C_IC_DATA_CMD_STOP_MSB    _u(9)
+#define I2C_IC_DATA_CMD_STOP_LSB    _u(9)
+#define I2C_IC_DATA_CMD_STOP_ACCESS "SC"
+#define I2C_IC_DATA_CMD_STOP_VALUE_DISABLE _u(0x0)
+#define I2C_IC_DATA_CMD_STOP_VALUE_ENABLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DATA_CMD_CMD
+// Description : This bit controls whether a read or a write is performed. This
+//               bit does not control the direction when the DW_apb_i2con acts
+//               as a slave. It controls only the direction when it acts as a
+//               master.
+//
+//               When a command is entered in the TX FIFO, this bit
+//               distinguishes the write and read commands. In slave-receiver
+//               mode, this bit is a 'don't care' because writes to this
+//               register are not required. In slave-transmitter mode, a '0'
+//               indicates that the data in IC_DATA_CMD is to be transmitted.
+//
+//               When programming this bit, you should remember the following:
+//               attempting to perform a read operation after a General Call
+//               command has been sent results in a TX_ABRT interrupt (bit 6 of
+//               the IC_RAW_INTR_STAT register), unless bit 11 (SPECIAL) in the
+//               IC_TAR register has been cleared. If a '1' is written to this
+//               bit after receiving a RD_REQ interrupt, then a TX_ABRT
+//               interrupt occurs.
+//
+//               Reset value: 0x0
+//               0x0 -> Master Write Command
+//               0x1 -> Master Read Command
+#define I2C_IC_DATA_CMD_CMD_RESET  _u(0x0)
+#define I2C_IC_DATA_CMD_CMD_BITS   _u(0x00000100)
+#define I2C_IC_DATA_CMD_CMD_MSB    _u(8)
+#define I2C_IC_DATA_CMD_CMD_LSB    _u(8)
+#define I2C_IC_DATA_CMD_CMD_ACCESS "SC"
+#define I2C_IC_DATA_CMD_CMD_VALUE_WRITE _u(0x0)
+#define I2C_IC_DATA_CMD_CMD_VALUE_READ _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DATA_CMD_DAT
+// Description : This register contains the data to be transmitted or received
+//               on the I2C bus. If you are writing to this register and want to
+//               perform a read, bits 7:0 (DAT) are ignored by the DW_apb_i2c.
+//               However, when you read this register, these bits return the
+//               value of data received on the DW_apb_i2c interface.
+//
+//               Reset value: 0x0
+#define I2C_IC_DATA_CMD_DAT_RESET  _u(0x00)
+#define I2C_IC_DATA_CMD_DAT_BITS   _u(0x000000ff)
+#define I2C_IC_DATA_CMD_DAT_MSB    _u(7)
+#define I2C_IC_DATA_CMD_DAT_LSB    _u(0)
+#define I2C_IC_DATA_CMD_DAT_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_SS_SCL_HCNT
+// Description : Standard Speed I2C Clock SCL High Count Register
+#define I2C_IC_SS_SCL_HCNT_OFFSET _u(0x00000014)
+#define I2C_IC_SS_SCL_HCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_SS_SCL_HCNT_RESET  _u(0x00000028)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT
+// Description : This register must be set before any I2C bus transaction can
+//               take place to ensure proper I/O timing. This register sets the
+//               SCL clock high-period count for standard speed. For more
+//               information, refer to 'IC_CLK Frequency Configuration'.
+//
+//               This register can be written only when the I2C interface is
+//               disabled which corresponds to the IC_ENABLE[0] register being
+//               set to 0. Writes at other times have no effect.
+//
+//               The minimum valid value is 6; hardware prevents values less
+//               than this being written, and if attempted results in 6 being
+//               set. For designs with APB_DATA_WIDTH = 8, the order of
+//               programming is important to ensure the correct operation of the
+//               DW_apb_i2c. The lower byte must be programmed first. Then the
+//               upper byte is programmed.
+//
+//               NOTE: This register must not be programmed to a value higher
+//               than 65525, because DW_apb_i2c uses a 16-bit counter to flag an
+//               I2C bus idle condition when this counter reaches a value of
+//               IC_SS_SCL_HCNT + 10.
+#define I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT_RESET  _u(0x0028)
+#define I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT_MSB    _u(15)
+#define I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT_LSB    _u(0)
+#define I2C_IC_SS_SCL_HCNT_IC_SS_SCL_HCNT_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_SS_SCL_LCNT
+// Description : Standard Speed I2C Clock SCL Low Count Register
+#define I2C_IC_SS_SCL_LCNT_OFFSET _u(0x00000018)
+#define I2C_IC_SS_SCL_LCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_SS_SCL_LCNT_RESET  _u(0x0000002f)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT
+// Description : This register must be set before any I2C bus transaction can
+//               take place to ensure proper I/O timing. This register sets the
+//               SCL clock low period count for standard speed. For more
+//               information, refer to 'IC_CLK Frequency Configuration'
+//
+//               This register can be written only when the I2C interface is
+//               disabled which corresponds to the IC_ENABLE[0] register being
+//               set to 0. Writes at other times have no effect.
+//
+//               The minimum valid value is 8; hardware prevents values less
+//               than this being written, and if attempted, results in 8 being
+//               set. For designs with APB_DATA_WIDTH = 8, the order of
+//               programming is important to ensure the correct operation of
+//               DW_apb_i2c. The lower byte must be programmed first, and then
+//               the upper byte is programmed.
+#define I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT_RESET  _u(0x002f)
+#define I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT_MSB    _u(15)
+#define I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT_LSB    _u(0)
+#define I2C_IC_SS_SCL_LCNT_IC_SS_SCL_LCNT_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_FS_SCL_HCNT
+// Description : Fast Mode or Fast Mode Plus I2C Clock SCL High Count Register
+#define I2C_IC_FS_SCL_HCNT_OFFSET _u(0x0000001c)
+#define I2C_IC_FS_SCL_HCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_FS_SCL_HCNT_RESET  _u(0x00000006)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT
+// Description : This register must be set before any I2C bus transaction can
+//               take place to ensure proper I/O timing. This register sets the
+//               SCL clock high-period count for fast mode or fast mode plus. It
+//               is used in high-speed mode to send the Master Code and START
+//               BYTE or General CALL. For more information, refer to 'IC_CLK
+//               Frequency Configuration'.
+//
+//               This register goes away and becomes read-only returning 0s if
+//               IC_MAX_SPEED_MODE = standard. This register can be written only
+//               when the I2C interface is disabled, which corresponds to the
+//               IC_ENABLE[0] register being set to 0. Writes at other times
+//               have no effect.
+//
+//               The minimum valid value is 6; hardware prevents values less
+//               than this being written, and if attempted results in 6 being
+//               set. For designs with APB_DATA_WIDTH == 8 the order of
+//               programming is important to ensure the correct operation of the
+//               DW_apb_i2c. The lower byte must be programmed first. Then the
+//               upper byte is programmed.
+#define I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT_RESET  _u(0x0006)
+#define I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT_MSB    _u(15)
+#define I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT_LSB    _u(0)
+#define I2C_IC_FS_SCL_HCNT_IC_FS_SCL_HCNT_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_FS_SCL_LCNT
+// Description : Fast Mode or Fast Mode Plus I2C Clock SCL Low Count Register
+#define I2C_IC_FS_SCL_LCNT_OFFSET _u(0x00000020)
+#define I2C_IC_FS_SCL_LCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_FS_SCL_LCNT_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT
+// Description : This register must be set before any I2C bus transaction can
+//               take place to ensure proper I/O timing. This register sets the
+//               SCL clock low period count for fast speed. It is used in high-
+//               speed mode to send the Master Code and START BYTE or General
+//               CALL. For more information, refer to 'IC_CLK Frequency
+//               Configuration'.
+//
+//               This register goes away and becomes read-only returning 0s if
+//               IC_MAX_SPEED_MODE = standard.
+//
+//               This register can be written only when the I2C interface is
+//               disabled, which corresponds to the IC_ENABLE[0] register being
+//               set to 0. Writes at other times have no effect.
+//
+//               The minimum valid value is 8; hardware prevents values less
+//               than this being written, and if attempted results in 8 being
+//               set. For designs with APB_DATA_WIDTH = 8 the order of
+//               programming is important to ensure the correct operation of the
+//               DW_apb_i2c. The lower byte must be programmed first. Then the
+//               upper byte is programmed. If the value is less than 8 then the
+//               count value gets changed to 8.
+#define I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT_RESET  _u(0x000d)
+#define I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT_BITS   _u(0x0000ffff)
+#define I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT_MSB    _u(15)
+#define I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT_LSB    _u(0)
+#define I2C_IC_FS_SCL_LCNT_IC_FS_SCL_LCNT_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_INTR_STAT
+// Description : I2C Interrupt Status Register
+//
+//               Each bit in this register has a corresponding mask bit in the
+//               IC_INTR_MASK register. These bits are cleared by reading the
+//               matching interrupt clear register. The unmasked raw versions of
+//               these bits are available in the IC_RAW_INTR_STAT register.
+#define I2C_IC_INTR_STAT_OFFSET _u(0x0000002c)
+#define I2C_IC_INTR_STAT_BITS   _u(0x00001fff)
+#define I2C_IC_INTR_STAT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RESTART_DET
+// Description : See IC_RAW_INTR_STAT for a detailed description of
+//               R_RESTART_DET bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_RESTART_DET interrupt is inactive
+//               0x1 -> R_RESTART_DET interrupt is active
+#define I2C_IC_INTR_STAT_R_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_MSB    _u(12)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_LSB    _u(12)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RESTART_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RESTART_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_GEN_CALL
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_GEN_CALL
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_GEN_CALL interrupt is inactive
+//               0x1 -> R_GEN_CALL interrupt is active
+#define I2C_IC_INTR_STAT_R_GEN_CALL_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_MSB    _u(11)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_LSB    _u(11)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_GEN_CALL_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_GEN_CALL_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_START_DET
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_START_DET
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_START_DET interrupt is inactive
+//               0x1 -> R_START_DET interrupt is active
+#define I2C_IC_INTR_STAT_R_START_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_INTR_STAT_R_START_DET_MSB    _u(10)
+#define I2C_IC_INTR_STAT_R_START_DET_LSB    _u(10)
+#define I2C_IC_INTR_STAT_R_START_DET_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_START_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_START_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_STOP_DET
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_STOP_DET
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_STOP_DET interrupt is inactive
+//               0x1 -> R_STOP_DET interrupt is active
+#define I2C_IC_INTR_STAT_R_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_INTR_STAT_R_STOP_DET_MSB    _u(9)
+#define I2C_IC_INTR_STAT_R_STOP_DET_LSB    _u(9)
+#define I2C_IC_INTR_STAT_R_STOP_DET_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_STOP_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_STOP_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_ACTIVITY
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_ACTIVITY
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_ACTIVITY interrupt is inactive
+//               0x1 -> R_ACTIVITY interrupt is active
+#define I2C_IC_INTR_STAT_R_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_MSB    _u(8)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_LSB    _u(8)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_ACTIVITY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_ACTIVITY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RX_DONE
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_DONE
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_RX_DONE interrupt is inactive
+//               0x1 -> R_RX_DONE interrupt is active
+#define I2C_IC_INTR_STAT_R_RX_DONE_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_INTR_STAT_R_RX_DONE_MSB    _u(7)
+#define I2C_IC_INTR_STAT_R_RX_DONE_LSB    _u(7)
+#define I2C_IC_INTR_STAT_R_RX_DONE_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RX_DONE_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_DONE_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_TX_ABRT
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_ABRT
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_TX_ABRT interrupt is inactive
+//               0x1 -> R_TX_ABRT interrupt is active
+#define I2C_IC_INTR_STAT_R_TX_ABRT_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_MSB    _u(6)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_LSB    _u(6)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_TX_ABRT_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_ABRT_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RD_REQ
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_RD_REQ
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_RD_REQ interrupt is inactive
+//               0x1 -> R_RD_REQ interrupt is active
+#define I2C_IC_INTR_STAT_R_RD_REQ_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_INTR_STAT_R_RD_REQ_MSB    _u(5)
+#define I2C_IC_INTR_STAT_R_RD_REQ_LSB    _u(5)
+#define I2C_IC_INTR_STAT_R_RD_REQ_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RD_REQ_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RD_REQ_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_TX_EMPTY
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_EMPTY
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_TX_EMPTY interrupt is inactive
+//               0x1 -> R_TX_EMPTY interrupt is active
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_EMPTY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_TX_OVER
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_TX_OVER
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_TX_OVER interrupt is inactive
+//               0x1 -> R_TX_OVER interrupt is active
+#define I2C_IC_INTR_STAT_R_TX_OVER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_INTR_STAT_R_TX_OVER_MSB    _u(3)
+#define I2C_IC_INTR_STAT_R_TX_OVER_LSB    _u(3)
+#define I2C_IC_INTR_STAT_R_TX_OVER_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_TX_OVER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_TX_OVER_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RX_FULL
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_FULL
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_RX_FULL interrupt is inactive
+//               0x1 -> R_RX_FULL interrupt is active
+#define I2C_IC_INTR_STAT_R_RX_FULL_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_INTR_STAT_R_RX_FULL_MSB    _u(2)
+#define I2C_IC_INTR_STAT_R_RX_FULL_LSB    _u(2)
+#define I2C_IC_INTR_STAT_R_RX_FULL_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RX_FULL_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_FULL_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RX_OVER
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_OVER
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> R_RX_OVER interrupt is inactive
+//               0x1 -> R_RX_OVER interrupt is active
+#define I2C_IC_INTR_STAT_R_RX_OVER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_INTR_STAT_R_RX_OVER_MSB    _u(1)
+#define I2C_IC_INTR_STAT_R_RX_OVER_LSB    _u(1)
+#define I2C_IC_INTR_STAT_R_RX_OVER_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RX_OVER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_OVER_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_STAT_R_RX_UNDER
+// Description : See IC_RAW_INTR_STAT for a detailed description of R_RX_UNDER
+//               bit.
+//
+//               Reset value: 0x0
+//               0x0 -> RX_UNDER interrupt is inactive
+//               0x1 -> RX_UNDER interrupt is active
+#define I2C_IC_INTR_STAT_R_RX_UNDER_RESET  _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_MSB    _u(0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_LSB    _u(0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_ACCESS "RO"
+#define I2C_IC_INTR_STAT_R_RX_UNDER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_INTR_STAT_R_RX_UNDER_VALUE_ACTIVE _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_INTR_MASK
+// Description : I2C Interrupt Mask Register.
+//
+//               These bits mask their corresponding interrupt status bits. This
+//               register is active low; a value of 0 masks the interrupt,
+//               whereas a value of 1 unmasks the interrupt.
+#define I2C_IC_INTR_MASK_OFFSET _u(0x00000030)
+#define I2C_IC_INTR_MASK_BITS   _u(0x00001fff)
+#define I2C_IC_INTR_MASK_RESET  _u(0x000008ff)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RESTART_DET
+// Description : This bit masks the R_RESTART_DET interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x0
+//               0x0 -> RESTART_DET interrupt is masked
+//               0x1 -> RESTART_DET interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_MSB    _u(12)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_LSB    _u(12)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RESTART_DET_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RESTART_DET_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_GEN_CALL
+// Description : This bit masks the R_GEN_CALL interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> GEN_CALL interrupt is masked
+//               0x1 -> GEN_CALL interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_GEN_CALL_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_MSB    _u(11)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_LSB    _u(11)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_GEN_CALL_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_GEN_CALL_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_START_DET
+// Description : This bit masks the R_START_DET interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x0
+//               0x0 -> START_DET interrupt is masked
+//               0x1 -> START_DET interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_START_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_INTR_MASK_M_START_DET_MSB    _u(10)
+#define I2C_IC_INTR_MASK_M_START_DET_LSB    _u(10)
+#define I2C_IC_INTR_MASK_M_START_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_START_DET_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_START_DET_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_STOP_DET
+// Description : This bit masks the R_STOP_DET interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x0
+//               0x0 -> STOP_DET interrupt is masked
+//               0x1 -> STOP_DET interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_INTR_MASK_M_STOP_DET_MSB    _u(9)
+#define I2C_IC_INTR_MASK_M_STOP_DET_LSB    _u(9)
+#define I2C_IC_INTR_MASK_M_STOP_DET_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_STOP_DET_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_STOP_DET_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_ACTIVITY
+// Description : This bit masks the R_ACTIVITY interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x0
+//               0x0 -> ACTIVITY interrupt is masked
+//               0x1 -> ACTIVITY interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_MSB    _u(8)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_LSB    _u(8)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_ACTIVITY_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_ACTIVITY_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RX_DONE
+// Description : This bit masks the R_RX_DONE interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> RX_DONE interrupt is masked
+//               0x1 -> RX_DONE interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RX_DONE_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_INTR_MASK_M_RX_DONE_MSB    _u(7)
+#define I2C_IC_INTR_MASK_M_RX_DONE_LSB    _u(7)
+#define I2C_IC_INTR_MASK_M_RX_DONE_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_DONE_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_DONE_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_TX_ABRT
+// Description : This bit masks the R_TX_ABRT interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> TX_ABORT interrupt is masked
+//               0x1 -> TX_ABORT interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_TX_ABRT_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_MSB    _u(6)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_LSB    _u(6)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_ABRT_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_ABRT_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RD_REQ
+// Description : This bit masks the R_RD_REQ interrupt in IC_INTR_STAT register.
+//
+//               Reset value: 0x1
+//               0x0 -> RD_REQ interrupt is masked
+//               0x1 -> RD_REQ interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RD_REQ_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_INTR_MASK_M_RD_REQ_MSB    _u(5)
+#define I2C_IC_INTR_MASK_M_RD_REQ_LSB    _u(5)
+#define I2C_IC_INTR_MASK_M_RD_REQ_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RD_REQ_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RD_REQ_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_TX_EMPTY
+// Description : This bit masks the R_TX_EMPTY interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> TX_EMPTY interrupt is masked
+//               0x1 -> TX_EMPTY interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_EMPTY_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_TX_OVER
+// Description : This bit masks the R_TX_OVER interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> TX_OVER interrupt is masked
+//               0x1 -> TX_OVER interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_TX_OVER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_INTR_MASK_M_TX_OVER_MSB    _u(3)
+#define I2C_IC_INTR_MASK_M_TX_OVER_LSB    _u(3)
+#define I2C_IC_INTR_MASK_M_TX_OVER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_TX_OVER_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_TX_OVER_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RX_FULL
+// Description : This bit masks the R_RX_FULL interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> RX_FULL interrupt is masked
+//               0x1 -> RX_FULL interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RX_FULL_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_INTR_MASK_M_RX_FULL_MSB    _u(2)
+#define I2C_IC_INTR_MASK_M_RX_FULL_LSB    _u(2)
+#define I2C_IC_INTR_MASK_M_RX_FULL_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_FULL_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_FULL_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RX_OVER
+// Description : This bit masks the R_RX_OVER interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> RX_OVER interrupt is masked
+//               0x1 -> RX_OVER interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RX_OVER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_INTR_MASK_M_RX_OVER_MSB    _u(1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_LSB    _u(1)
+#define I2C_IC_INTR_MASK_M_RX_OVER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_OVER_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_OVER_VALUE_DISABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_INTR_MASK_M_RX_UNDER
+// Description : This bit masks the R_RX_UNDER interrupt in IC_INTR_STAT
+//               register.
+//
+//               Reset value: 0x1
+//               0x0 -> RX_UNDER interrupt is masked
+//               0x1 -> RX_UNDER interrupt is unmasked
+#define I2C_IC_INTR_MASK_M_RX_UNDER_RESET  _u(0x1)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_MSB    _u(0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_LSB    _u(0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_ACCESS "RW"
+#define I2C_IC_INTR_MASK_M_RX_UNDER_VALUE_ENABLED _u(0x0)
+#define I2C_IC_INTR_MASK_M_RX_UNDER_VALUE_DISABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_RAW_INTR_STAT
+// Description : I2C Raw Interrupt Status Register
+//
+//               Unlike the IC_INTR_STAT register, these bits are not masked so
+//               they always show the true status of the DW_apb_i2c.
+#define I2C_IC_RAW_INTR_STAT_OFFSET _u(0x00000034)
+#define I2C_IC_RAW_INTR_STAT_BITS   _u(0x00001fff)
+#define I2C_IC_RAW_INTR_STAT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RESTART_DET
+// Description : Indicates whether a RESTART condition has occurred on the I2C
+//               interface when DW_apb_i2c is operating in Slave mode and the
+//               slave is being addressed. Enabled only when
+//               IC_SLV_RESTART_DET_EN=1.
+//
+//               Note: However, in high-speed mode or during a START BYTE
+//               transfer, the RESTART comes before the address field as per the
+//               I2C protocol. In this case, the slave is not the addressed
+//               slave when the RESTART is issued, therefore DW_apb_i2c does not
+//               generate the RESTART_DET interrupt.
+//
+//               Reset value: 0x0
+//               0x0 -> RESTART_DET interrupt is inactive
+//               0x1 -> RESTART_DET interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_BITS   _u(0x00001000)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_MSB    _u(12)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_LSB    _u(12)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RESTART_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_GEN_CALL
+// Description : Set only when a General Call address is received and it is
+//               acknowledged. It stays set until it is cleared either by
+//               disabling DW_apb_i2c or when the CPU reads bit 0 of the
+//               IC_CLR_GEN_CALL register. DW_apb_i2c stores the received data
+//               in the Rx buffer.
+//
+//               Reset value: 0x0
+//               0x0 -> GEN_CALL interrupt is inactive
+//               0x1 -> GEN_CALL interrupt is active
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_BITS   _u(0x00000800)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_MSB    _u(11)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_LSB    _u(11)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_GEN_CALL_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_START_DET
+// Description : Indicates whether a START or RESTART condition has occurred on
+//               the I2C interface regardless of whether DW_apb_i2c is operating
+//               in slave or master mode.
+//
+//               Reset value: 0x0
+//               0x0 -> START_DET interrupt is inactive
+//               0x1 -> START_DET interrupt is active
+#define I2C_IC_RAW_INTR_STAT_START_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_START_DET_BITS   _u(0x00000400)
+#define I2C_IC_RAW_INTR_STAT_START_DET_MSB    _u(10)
+#define I2C_IC_RAW_INTR_STAT_START_DET_LSB    _u(10)
+#define I2C_IC_RAW_INTR_STAT_START_DET_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_START_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_START_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_STOP_DET
+// Description : Indicates whether a STOP condition has occurred on the I2C
+//               interface regardless of whether DW_apb_i2c is operating in
+//               slave or master mode.
+//
+//               In Slave Mode: - If IC_CON[7]=1'b1  (STOP_DET_IFADDRESSED), the
+//               STOP_DET interrupt will be issued only if slave is addressed.
+//               Note: During a general call address, this slave does not issue
+//               a STOP_DET interrupt if STOP_DET_IF_ADDRESSED=1'b1, even if the
+//               slave responds to the general call address by generating ACK.
+//               The STOP_DET interrupt is generated only when the transmitted
+//               address matches the slave address (SAR). - If IC_CON[7]=1'b0
+//               (STOP_DET_IFADDRESSED), the STOP_DET interrupt is issued
+//               irrespective of whether it is being addressed. In Master Mode:
+//               - If IC_CON[10]=1'b1  (STOP_DET_IF_MASTER_ACTIVE),the STOP_DET
+//               interrupt will be issued only if Master is active. - If
+//               IC_CON[10]=1'b0  (STOP_DET_IFADDRESSED),the STOP_DET interrupt
+//               will be issued irrespective of whether master is active or not.
+//               Reset value: 0x0
+//               0x0 -> STOP_DET interrupt is inactive
+//               0x1 -> STOP_DET interrupt is active
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_BITS   _u(0x00000200)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_MSB    _u(9)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_LSB    _u(9)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_STOP_DET_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_ACTIVITY
+// Description : This bit captures DW_apb_i2c activity and stays set until it is
+//               cleared. There are four ways to clear it: - Disabling the
+//               DW_apb_i2c - Reading the IC_CLR_ACTIVITY register - Reading the
+//               IC_CLR_INTR register - System reset Once this bit is set, it
+//               stays set unless one of the four methods is used to clear it.
+//               Even if the DW_apb_i2c module is idle, this bit remains set
+//               until cleared, indicating that there was activity on the bus.
+//
+//               Reset value: 0x0
+//               0x0 -> RAW_INTR_ACTIVITY interrupt is inactive
+//               0x1 -> RAW_INTR_ACTIVITY interrupt is active
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_BITS   _u(0x00000100)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_MSB    _u(8)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_LSB    _u(8)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_ACTIVITY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RX_DONE
+// Description : When the DW_apb_i2c is acting as a slave-transmitter, this bit
+//               is set to 1 if the master does not acknowledge a transmitted
+//               byte. This occurs on the last byte of the transmission,
+//               indicating that the transmission is done.
+//
+//               Reset value: 0x0
+//               0x0 -> RX_DONE interrupt is inactive
+//               0x1 -> RX_DONE interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_BITS   _u(0x00000080)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_MSB    _u(7)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_LSB    _u(7)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_DONE_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_TX_ABRT
+// Description : This bit indicates if DW_apb_i2c, as an I2C transmitter, is
+//               unable to complete the intended actions on the contents of the
+//               transmit FIFO. This situation can occur both as an I2C master
+//               or an I2C slave, and is referred to as a 'transmit abort'. When
+//               this bit is set to 1, the IC_TX_ABRT_SOURCE register indicates
+//               the reason why the transmit abort takes places.
+//
+//               Note:  The DW_apb_i2c flushes/resets/empties the TX_FIFO and
+//               RX_FIFO whenever there is a transmit abort caused by any of the
+//               events tracked by the IC_TX_ABRT_SOURCE register. The FIFOs
+//               remains in this flushed state until the register IC_CLR_TX_ABRT
+//               is read. Once this read is performed, the Tx FIFO is then ready
+//               to accept more data bytes from the APB interface.
+//
+//               Reset value: 0x0
+//               0x0 -> TX_ABRT interrupt is inactive
+//               0x1 -> TX_ABRT interrupt is active
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_BITS   _u(0x00000040)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_MSB    _u(6)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_LSB    _u(6)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_ABRT_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RD_REQ
+// Description : This bit is set to 1 when DW_apb_i2c is acting as a slave and
+//               another I2C master is attempting to read data from DW_apb_i2c.
+//               The DW_apb_i2c holds the I2C bus in a wait state (SCL=0) until
+//               this interrupt is serviced, which means that the slave has been
+//               addressed by a remote master that is asking for data to be
+//               transferred. The processor must respond to this interrupt and
+//               then write the requested data to the IC_DATA_CMD register. This
+//               bit is set to 0 just after the processor reads the
+//               IC_CLR_RD_REQ register.
+//
+//               Reset value: 0x0
+//               0x0 -> RD_REQ interrupt is inactive
+//               0x1 -> RD_REQ interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_BITS   _u(0x00000020)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_MSB    _u(5)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_LSB    _u(5)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RD_REQ_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_TX_EMPTY
+// Description : The behavior of the TX_EMPTY interrupt status differs based on
+//               the TX_EMPTY_CTRL selection in the IC_CON register. - When
+//               TX_EMPTY_CTRL = 0: This bit is set to 1 when the transmit
+//               buffer is at or below the threshold value set in the IC_TX_TL
+//               register. - When TX_EMPTY_CTRL = 1: This bit is set to 1 when
+//               the transmit buffer is at or below the threshold value set in
+//               the IC_TX_TL register and the transmission of the address/data
+//               from the internal shift register for the most recently popped
+//               command is completed. It is automatically cleared by hardware
+//               when the buffer level goes above the threshold. When
+//               IC_ENABLE[0] is set to 0, the TX FIFO is flushed and held in
+//               reset. There the TX FIFO looks like it has no data within it,
+//               so this bit is set to 1, provided there is activity in the
+//               master or slave state machines. When there is no longer any
+//               activity, then with ic_en=0, this bit is set to 0.
+//
+//               Reset value: 0x0.
+//               0x0 -> TX_EMPTY interrupt is inactive
+//               0x1 -> TX_EMPTY interrupt is active
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_BITS   _u(0x00000010)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_MSB    _u(4)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_LSB    _u(4)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_EMPTY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_TX_OVER
+// Description : Set during transmit if the transmit buffer is filled to
+//               IC_TX_BUFFER_DEPTH and the processor attempts to issue another
+//               I2C command by writing to the IC_DATA_CMD register. When the
+//               module is disabled, this bit keeps its level until the master
+//               or slave state machines go into idle, and when ic_en goes to 0,
+//               this interrupt is cleared.
+//
+//               Reset value: 0x0
+//               0x0 -> TX_OVER interrupt is inactive
+//               0x1 -> TX_OVER interrupt is active
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_BITS   _u(0x00000008)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_MSB    _u(3)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_LSB    _u(3)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_TX_OVER_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RX_FULL
+// Description : Set when the receive buffer reaches or goes above the RX_TL
+//               threshold in the IC_RX_TL register. It is automatically cleared
+//               by hardware when buffer level goes below the threshold. If the
+//               module is disabled (IC_ENABLE[0]=0), the RX FIFO is flushed and
+//               held in reset; therefore the RX FIFO is not full. So this bit
+//               is cleared once the IC_ENABLE bit 0 is programmed with a 0,
+//               regardless of the activity that continues.
+//
+//               Reset value: 0x0
+//               0x0 -> RX_FULL interrupt is inactive
+//               0x1 -> RX_FULL interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_BITS   _u(0x00000004)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_MSB    _u(2)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_LSB    _u(2)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_FULL_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RX_OVER
+// Description : Set if the receive buffer is completely filled to
+//               IC_RX_BUFFER_DEPTH and an additional byte is received from an
+//               external I2C device. The DW_apb_i2c acknowledges this, but any
+//               data bytes received after the FIFO is full are lost. If the
+//               module is disabled (IC_ENABLE[0]=0), this bit keeps its level
+//               until the master or slave state machines go into idle, and when
+//               ic_en goes to 0, this interrupt is cleared.
+//
+//               Note:  If bit 9 of the IC_CON register (RX_FIFO_FULL_HLD_CTRL)
+//               is programmed to HIGH, then the RX_OVER interrupt never occurs,
+//               because the Rx FIFO never overflows.
+//
+//               Reset value: 0x0
+//               0x0 -> RX_OVER interrupt is inactive
+//               0x1 -> RX_OVER interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_BITS   _u(0x00000002)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_MSB    _u(1)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_LSB    _u(1)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_OVER_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RAW_INTR_STAT_RX_UNDER
+// Description : Set if the processor attempts to read the receive buffer when
+//               it is empty by reading from the IC_DATA_CMD register. If the
+//               module is disabled (IC_ENABLE[0]=0), this bit keeps its level
+//               until the master or slave state machines go into idle, and when
+//               ic_en goes to 0, this interrupt is cleared.
+//
+//               Reset value: 0x0
+//               0x0 -> RX_UNDER interrupt is inactive
+//               0x1 -> RX_UNDER interrupt is active
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_RESET  _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_MSB    _u(0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_LSB    _u(0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_ACCESS "RO"
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_RAW_INTR_STAT_RX_UNDER_VALUE_ACTIVE _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_RX_TL
+// Description : I2C Receive FIFO Threshold Register
+#define I2C_IC_RX_TL_OFFSET _u(0x00000038)
+#define I2C_IC_RX_TL_BITS   _u(0x000000ff)
+#define I2C_IC_RX_TL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RX_TL_RX_TL
+// Description : Receive FIFO Threshold Level.
+//
+//               Controls the level of entries (or above) that triggers the
+//               RX_FULL interrupt (bit 2 in IC_RAW_INTR_STAT register). The
+//               valid range is 0-255, with the additional restriction that
+//               hardware does not allow this value to be set to a value larger
+//               than the depth of the buffer. If an attempt is made to do that,
+//               the actual value set will be the maximum depth of the buffer. A
+//               value of 0 sets the threshold for 1 entry, and a value of 255
+//               sets the threshold for 256 entries.
+#define I2C_IC_RX_TL_RX_TL_RESET  _u(0x00)
+#define I2C_IC_RX_TL_RX_TL_BITS   _u(0x000000ff)
+#define I2C_IC_RX_TL_RX_TL_MSB    _u(7)
+#define I2C_IC_RX_TL_RX_TL_LSB    _u(0)
+#define I2C_IC_RX_TL_RX_TL_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_TX_TL
+// Description : I2C Transmit FIFO Threshold Register
+#define I2C_IC_TX_TL_OFFSET _u(0x0000003c)
+#define I2C_IC_TX_TL_BITS   _u(0x000000ff)
+#define I2C_IC_TX_TL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_TL_TX_TL
+// Description : Transmit FIFO Threshold Level.
+//
+//               Controls the level of entries (or below) that trigger the
+//               TX_EMPTY interrupt (bit 4 in IC_RAW_INTR_STAT register). The
+//               valid range is 0-255, with the additional restriction that it
+//               may not be set to value larger than the depth of the buffer. If
+//               an attempt is made to do that, the actual value set will be the
+//               maximum depth of the buffer. A value of 0 sets the threshold
+//               for 0 entries, and a value of 255 sets the threshold for 255
+//               entries.
+#define I2C_IC_TX_TL_TX_TL_RESET  _u(0x00)
+#define I2C_IC_TX_TL_TX_TL_BITS   _u(0x000000ff)
+#define I2C_IC_TX_TL_TX_TL_MSB    _u(7)
+#define I2C_IC_TX_TL_TX_TL_LSB    _u(0)
+#define I2C_IC_TX_TL_TX_TL_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_CLR_INTR
+// Description : Clear Combined and Individual Interrupt Register
+#define I2C_IC_CLR_INTR_OFFSET _u(0x00000040)
+#define I2C_IC_CLR_INTR_BITS   _u(0x00000001)
+#define I2C_IC_CLR_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_INTR_CLR_INTR
+// Description : Read this register to clear the combined interrupt, all
+//               individual interrupts, and the IC_TX_ABRT_SOURCE register. This
+//               bit does not clear hardware clearable interrupts but software
+//               clearable interrupts. Refer to Bit 9 of the IC_TX_ABRT_SOURCE
+//               register for an exception to clearing IC_TX_ABRT_SOURCE.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_INTR_CLR_INTR_RESET  _u(0x0)
+#define I2C_IC_CLR_INTR_CLR_INTR_BITS   _u(0x00000001)
+#define I2C_IC_CLR_INTR_CLR_INTR_MSB    _u(0)
+#define I2C_IC_CLR_INTR_CLR_INTR_LSB    _u(0)
+#define I2C_IC_CLR_INTR_CLR_INTR_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_RX_UNDER
+// Description : Clear RX_UNDER Interrupt Register
+#define I2C_IC_CLR_RX_UNDER_OFFSET _u(0x00000044)
+#define I2C_IC_CLR_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_UNDER_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER
+// Description : Read this register to clear the RX_UNDER interrupt (bit 0) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER_RESET  _u(0x0)
+#define I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER_MSB    _u(0)
+#define I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER_LSB    _u(0)
+#define I2C_IC_CLR_RX_UNDER_CLR_RX_UNDER_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_RX_OVER
+// Description : Clear RX_OVER Interrupt Register
+#define I2C_IC_CLR_RX_OVER_OFFSET _u(0x00000048)
+#define I2C_IC_CLR_RX_OVER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_OVER_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_RX_OVER_CLR_RX_OVER
+// Description : Read this register to clear the RX_OVER interrupt (bit 1) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_RX_OVER_CLR_RX_OVER_RESET  _u(0x0)
+#define I2C_IC_CLR_RX_OVER_CLR_RX_OVER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_OVER_CLR_RX_OVER_MSB    _u(0)
+#define I2C_IC_CLR_RX_OVER_CLR_RX_OVER_LSB    _u(0)
+#define I2C_IC_CLR_RX_OVER_CLR_RX_OVER_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_TX_OVER
+// Description : Clear TX_OVER Interrupt Register
+#define I2C_IC_CLR_TX_OVER_OFFSET _u(0x0000004c)
+#define I2C_IC_CLR_TX_OVER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_TX_OVER_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_TX_OVER_CLR_TX_OVER
+// Description : Read this register to clear the TX_OVER interrupt (bit 3) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_TX_OVER_CLR_TX_OVER_RESET  _u(0x0)
+#define I2C_IC_CLR_TX_OVER_CLR_TX_OVER_BITS   _u(0x00000001)
+#define I2C_IC_CLR_TX_OVER_CLR_TX_OVER_MSB    _u(0)
+#define I2C_IC_CLR_TX_OVER_CLR_TX_OVER_LSB    _u(0)
+#define I2C_IC_CLR_TX_OVER_CLR_TX_OVER_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_RD_REQ
+// Description : Clear RD_REQ Interrupt Register
+#define I2C_IC_CLR_RD_REQ_OFFSET _u(0x00000050)
+#define I2C_IC_CLR_RD_REQ_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RD_REQ_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_RD_REQ_CLR_RD_REQ
+// Description : Read this register to clear the RD_REQ interrupt (bit 5) of the
+//               IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_RD_REQ_CLR_RD_REQ_RESET  _u(0x0)
+#define I2C_IC_CLR_RD_REQ_CLR_RD_REQ_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RD_REQ_CLR_RD_REQ_MSB    _u(0)
+#define I2C_IC_CLR_RD_REQ_CLR_RD_REQ_LSB    _u(0)
+#define I2C_IC_CLR_RD_REQ_CLR_RD_REQ_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_TX_ABRT
+// Description : Clear TX_ABRT Interrupt Register
+#define I2C_IC_CLR_TX_ABRT_OFFSET _u(0x00000054)
+#define I2C_IC_CLR_TX_ABRT_BITS   _u(0x00000001)
+#define I2C_IC_CLR_TX_ABRT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT
+// Description : Read this register to clear the TX_ABRT interrupt (bit 6) of
+//               the IC_RAW_INTR_STAT register, and the IC_TX_ABRT_SOURCE
+//               register. This also releases the TX FIFO from the flushed/reset
+//               state, allowing more writes to the TX FIFO. Refer to Bit 9 of
+//               the IC_TX_ABRT_SOURCE register for an exception to clearing
+//               IC_TX_ABRT_SOURCE.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT_RESET  _u(0x0)
+#define I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT_BITS   _u(0x00000001)
+#define I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT_MSB    _u(0)
+#define I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT_LSB    _u(0)
+#define I2C_IC_CLR_TX_ABRT_CLR_TX_ABRT_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_RX_DONE
+// Description : Clear RX_DONE Interrupt Register
+#define I2C_IC_CLR_RX_DONE_OFFSET _u(0x00000058)
+#define I2C_IC_CLR_RX_DONE_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_DONE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_RX_DONE_CLR_RX_DONE
+// Description : Read this register to clear the RX_DONE interrupt (bit 7) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_RX_DONE_CLR_RX_DONE_RESET  _u(0x0)
+#define I2C_IC_CLR_RX_DONE_CLR_RX_DONE_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RX_DONE_CLR_RX_DONE_MSB    _u(0)
+#define I2C_IC_CLR_RX_DONE_CLR_RX_DONE_LSB    _u(0)
+#define I2C_IC_CLR_RX_DONE_CLR_RX_DONE_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_ACTIVITY
+// Description : Clear ACTIVITY Interrupt Register
+#define I2C_IC_CLR_ACTIVITY_OFFSET _u(0x0000005c)
+#define I2C_IC_CLR_ACTIVITY_BITS   _u(0x00000001)
+#define I2C_IC_CLR_ACTIVITY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY
+// Description : Reading this register clears the ACTIVITY interrupt if the I2C
+//               is not active anymore. If the I2C module is still active on the
+//               bus, the ACTIVITY interrupt bit continues to be set. It is
+//               automatically cleared by hardware if the module is disabled and
+//               if there is no further activity on the bus. The value read from
+//               this register to get status of the ACTIVITY interrupt (bit 8)
+//               of the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY_BITS   _u(0x00000001)
+#define I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY_MSB    _u(0)
+#define I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY_LSB    _u(0)
+#define I2C_IC_CLR_ACTIVITY_CLR_ACTIVITY_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_STOP_DET
+// Description : Clear STOP_DET Interrupt Register
+#define I2C_IC_CLR_STOP_DET_OFFSET _u(0x00000060)
+#define I2C_IC_CLR_STOP_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_STOP_DET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_STOP_DET_CLR_STOP_DET
+// Description : Read this register to clear the STOP_DET interrupt (bit 9) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_STOP_DET_CLR_STOP_DET_RESET  _u(0x0)
+#define I2C_IC_CLR_STOP_DET_CLR_STOP_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_STOP_DET_CLR_STOP_DET_MSB    _u(0)
+#define I2C_IC_CLR_STOP_DET_CLR_STOP_DET_LSB    _u(0)
+#define I2C_IC_CLR_STOP_DET_CLR_STOP_DET_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_START_DET
+// Description : Clear START_DET Interrupt Register
+#define I2C_IC_CLR_START_DET_OFFSET _u(0x00000064)
+#define I2C_IC_CLR_START_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_START_DET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_START_DET_CLR_START_DET
+// Description : Read this register to clear the START_DET interrupt (bit 10) of
+//               the IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_START_DET_CLR_START_DET_RESET  _u(0x0)
+#define I2C_IC_CLR_START_DET_CLR_START_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_START_DET_CLR_START_DET_MSB    _u(0)
+#define I2C_IC_CLR_START_DET_CLR_START_DET_LSB    _u(0)
+#define I2C_IC_CLR_START_DET_CLR_START_DET_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_CLR_GEN_CALL
+// Description : Clear GEN_CALL Interrupt Register
+#define I2C_IC_CLR_GEN_CALL_OFFSET _u(0x00000068)
+#define I2C_IC_CLR_GEN_CALL_BITS   _u(0x00000001)
+#define I2C_IC_CLR_GEN_CALL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL
+// Description : Read this register to clear the GEN_CALL interrupt (bit 11) of
+//               IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL_RESET  _u(0x0)
+#define I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL_BITS   _u(0x00000001)
+#define I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL_MSB    _u(0)
+#define I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL_LSB    _u(0)
+#define I2C_IC_CLR_GEN_CALL_CLR_GEN_CALL_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_ENABLE
+// Description : I2C Enable Register
+#define I2C_IC_ENABLE_OFFSET _u(0x0000006c)
+#define I2C_IC_ENABLE_BITS   _u(0x00000007)
+#define I2C_IC_ENABLE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_TX_CMD_BLOCK
+// Description : In Master mode: - 1'b1: Blocks the transmission of data on I2C
+//               bus even if Tx FIFO has data to transmit. - 1'b0: The
+//               transmission of data starts on I2C bus automatically, as soon
+//               as the first data is available in the Tx FIFO. Note: To block
+//               the execution of Master commands, set the TX_CMD_BLOCK bit only
+//               when Tx FIFO is empty (IC_STATUS[2]==1) and Master is in Idle
+//               state (IC_STATUS[5] == 0). Any further commands put in the Tx
+//               FIFO are not executed until TX_CMD_BLOCK bit is unset. Reset
+//               value:  IC_TX_CMD_BLOCK_DEFAULT
+//               0x0 -> Tx Command execution not blocked
+//               0x1 -> Tx Command execution blocked
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_RESET  _u(0x0)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_BITS   _u(0x00000004)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_MSB    _u(2)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_LSB    _u(2)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_ACCESS "RW"
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_VALUE_NOT_BLOCKED _u(0x0)
+#define I2C_IC_ENABLE_TX_CMD_BLOCK_VALUE_BLOCKED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_ABORT
+// Description : When set, the controller initiates the transfer abort. - 0:
+//               ABORT not initiated or ABORT done - 1: ABORT operation in
+//               progress The software can abort the I2C transfer in master mode
+//               by setting this bit. The software can set this bit only when
+//               ENABLE is already set; otherwise, the controller ignores any
+//               write to ABORT bit. The software cannot clear the ABORT bit
+//               once set. In response to an ABORT, the controller issues a STOP
+//               and flushes the Tx FIFO after completing the current transfer,
+//               then sets the TX_ABORT interrupt after the abort operation. The
+//               ABORT bit is cleared automatically after the abort operation.
+//
+//               For a detailed description on how to abort I2C transfers, refer
+//               to 'Aborting I2C Transfers'.
+//
+//               Reset value: 0x0
+//               0x0 -> ABORT operation not in progress
+//               0x1 -> ABORT operation in progress
+#define I2C_IC_ENABLE_ABORT_RESET  _u(0x0)
+#define I2C_IC_ENABLE_ABORT_BITS   _u(0x00000002)
+#define I2C_IC_ENABLE_ABORT_MSB    _u(1)
+#define I2C_IC_ENABLE_ABORT_LSB    _u(1)
+#define I2C_IC_ENABLE_ABORT_ACCESS "RW"
+#define I2C_IC_ENABLE_ABORT_VALUE_DISABLE _u(0x0)
+#define I2C_IC_ENABLE_ABORT_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_ENABLE
+// Description : Controls whether the DW_apb_i2c is enabled. - 0: Disables
+//               DW_apb_i2c (TX and RX FIFOs are held in an erased state) - 1:
+//               Enables DW_apb_i2c Software can disable DW_apb_i2c while it is
+//               active. However, it is important that care be taken to ensure
+//               that DW_apb_i2c is disabled properly. A recommended procedure
+//               is described in 'Disabling DW_apb_i2c'.
+//
+//               When DW_apb_i2c is disabled, the following occurs: - The TX
+//               FIFO and RX FIFO get flushed. - Status bits in the IC_INTR_STAT
+//               register are still active until DW_apb_i2c goes into IDLE
+//               state. If the module is transmitting, it stops as well as
+//               deletes the contents of the transmit buffer after the current
+//               transfer is complete. If the module is receiving, the
+//               DW_apb_i2c stops the current transfer at the end of the current
+//               byte and does not acknowledge the transfer.
+//
+//               In systems with asynchronous pclk and ic_clk when IC_CLK_TYPE
+//               parameter set to asynchronous (1), there is a two ic_clk delay
+//               when enabling or disabling the DW_apb_i2c. For a detailed
+//               description on how to disable DW_apb_i2c, refer to 'Disabling
+//               DW_apb_i2c'
+//
+//               Reset value: 0x0
+//               0x0 -> I2C is disabled
+//               0x1 -> I2C is enabled
+#define I2C_IC_ENABLE_ENABLE_RESET  _u(0x0)
+#define I2C_IC_ENABLE_ENABLE_BITS   _u(0x00000001)
+#define I2C_IC_ENABLE_ENABLE_MSB    _u(0)
+#define I2C_IC_ENABLE_ENABLE_LSB    _u(0)
+#define I2C_IC_ENABLE_ENABLE_ACCESS "RW"
+#define I2C_IC_ENABLE_ENABLE_VALUE_DISABLED _u(0x0)
+#define I2C_IC_ENABLE_ENABLE_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_STATUS
+// Description : I2C Status Register
+//
+//               This is a read-only register used to indicate the current
+//               transfer status and FIFO status. The status register may be
+//               read at any time. None of the bits in this register request an
+//               interrupt.
+//
+//               When the I2C is disabled by writing 0 in bit 0 of the IC_ENABLE
+//               register: - Bits 1 and 2 are set to 1 - Bits 3 and 10 are set
+//               to 0 When the master or slave state machines goes to idle and
+//               ic_en=0: - Bits 5 and 6 are set to 0
+#define I2C_IC_STATUS_OFFSET _u(0x00000070)
+#define I2C_IC_STATUS_BITS   _u(0x0000007f)
+#define I2C_IC_STATUS_RESET  _u(0x00000006)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_SLV_ACTIVITY
+// Description : Slave FSM Activity Status. When the Slave Finite State Machine
+//               (FSM) is not in the IDLE state, this bit is set. - 0: Slave FSM
+//               is in IDLE state so the Slave part of DW_apb_i2c is not Active
+//               - 1: Slave FSM is not in IDLE state so the Slave part of
+//               DW_apb_i2c is Active Reset value: 0x0
+//               0x0 -> Slave is idle
+//               0x1 -> Slave not idle
+#define I2C_IC_STATUS_SLV_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_SLV_ACTIVITY_BITS   _u(0x00000040)
+#define I2C_IC_STATUS_SLV_ACTIVITY_MSB    _u(6)
+#define I2C_IC_STATUS_SLV_ACTIVITY_LSB    _u(6)
+#define I2C_IC_STATUS_SLV_ACTIVITY_ACCESS "RO"
+#define I2C_IC_STATUS_SLV_ACTIVITY_VALUE_IDLE _u(0x0)
+#define I2C_IC_STATUS_SLV_ACTIVITY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_MST_ACTIVITY
+// Description : Master FSM Activity Status. When the Master Finite State
+//               Machine (FSM) is not in the IDLE state, this bit is set. - 0:
+//               Master FSM is in IDLE state so the Master part of DW_apb_i2c is
+//               not Active - 1: Master FSM is not in IDLE state so the Master
+//               part of DW_apb_i2c is Active Note: IC_STATUS[0]-that is,
+//               ACTIVITY bit-is the OR of SLV_ACTIVITY and MST_ACTIVITY bits.
+//
+//               Reset value: 0x0
+//               0x0 -> Master is idle
+//               0x1 -> Master not idle
+#define I2C_IC_STATUS_MST_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_MST_ACTIVITY_BITS   _u(0x00000020)
+#define I2C_IC_STATUS_MST_ACTIVITY_MSB    _u(5)
+#define I2C_IC_STATUS_MST_ACTIVITY_LSB    _u(5)
+#define I2C_IC_STATUS_MST_ACTIVITY_ACCESS "RO"
+#define I2C_IC_STATUS_MST_ACTIVITY_VALUE_IDLE _u(0x0)
+#define I2C_IC_STATUS_MST_ACTIVITY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_RFF
+// Description : Receive FIFO Completely Full. When the receive FIFO is
+//               completely full, this bit is set. When the receive FIFO
+//               contains one or more empty location, this bit is cleared. - 0:
+//               Receive FIFO is not full - 1: Receive FIFO is full Reset value:
+//               0x0
+//               0x0 -> Rx FIFO not full
+//               0x1 -> Rx FIFO is full
+#define I2C_IC_STATUS_RFF_RESET  _u(0x0)
+#define I2C_IC_STATUS_RFF_BITS   _u(0x00000010)
+#define I2C_IC_STATUS_RFF_MSB    _u(4)
+#define I2C_IC_STATUS_RFF_LSB    _u(4)
+#define I2C_IC_STATUS_RFF_ACCESS "RO"
+#define I2C_IC_STATUS_RFF_VALUE_NOT_FULL _u(0x0)
+#define I2C_IC_STATUS_RFF_VALUE_FULL _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_RFNE
+// Description : Receive FIFO Not Empty. This bit is set when the receive FIFO
+//               contains one or more entries; it is cleared when the receive
+//               FIFO is empty. - 0: Receive FIFO is empty - 1: Receive FIFO is
+//               not empty Reset value: 0x0
+//               0x0 -> Rx FIFO is empty
+//               0x1 -> Rx FIFO not empty
+#define I2C_IC_STATUS_RFNE_RESET  _u(0x0)
+#define I2C_IC_STATUS_RFNE_BITS   _u(0x00000008)
+#define I2C_IC_STATUS_RFNE_MSB    _u(3)
+#define I2C_IC_STATUS_RFNE_LSB    _u(3)
+#define I2C_IC_STATUS_RFNE_ACCESS "RO"
+#define I2C_IC_STATUS_RFNE_VALUE_EMPTY _u(0x0)
+#define I2C_IC_STATUS_RFNE_VALUE_NOT_EMPTY _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_TFE
+// Description : Transmit FIFO Completely Empty. When the transmit FIFO is
+//               completely empty, this bit is set. When it contains one or more
+//               valid entries, this bit is cleared. This bit field does not
+//               request an interrupt. - 0: Transmit FIFO is not empty - 1:
+//               Transmit FIFO is empty Reset value: 0x1
+//               0x0 -> Tx FIFO not empty
+//               0x1 -> Tx FIFO is empty
+#define I2C_IC_STATUS_TFE_RESET  _u(0x1)
+#define I2C_IC_STATUS_TFE_BITS   _u(0x00000004)
+#define I2C_IC_STATUS_TFE_MSB    _u(2)
+#define I2C_IC_STATUS_TFE_LSB    _u(2)
+#define I2C_IC_STATUS_TFE_ACCESS "RO"
+#define I2C_IC_STATUS_TFE_VALUE_NON_EMPTY _u(0x0)
+#define I2C_IC_STATUS_TFE_VALUE_EMPTY _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_TFNF
+// Description : Transmit FIFO Not Full. Set when the transmit FIFO contains one
+//               or more empty locations, and is cleared when the FIFO is full.
+//               - 0: Transmit FIFO is full - 1: Transmit FIFO is not full Reset
+//               value: 0x1
+//               0x0 -> Tx FIFO is full
+//               0x1 -> Tx FIFO not full
+#define I2C_IC_STATUS_TFNF_RESET  _u(0x1)
+#define I2C_IC_STATUS_TFNF_BITS   _u(0x00000002)
+#define I2C_IC_STATUS_TFNF_MSB    _u(1)
+#define I2C_IC_STATUS_TFNF_LSB    _u(1)
+#define I2C_IC_STATUS_TFNF_ACCESS "RO"
+#define I2C_IC_STATUS_TFNF_VALUE_FULL _u(0x0)
+#define I2C_IC_STATUS_TFNF_VALUE_NOT_FULL _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_STATUS_ACTIVITY
+// Description : I2C Activity Status. Reset value: 0x0
+//               0x0 -> I2C is idle
+//               0x1 -> I2C is active
+#define I2C_IC_STATUS_ACTIVITY_RESET  _u(0x0)
+#define I2C_IC_STATUS_ACTIVITY_BITS   _u(0x00000001)
+#define I2C_IC_STATUS_ACTIVITY_MSB    _u(0)
+#define I2C_IC_STATUS_ACTIVITY_LSB    _u(0)
+#define I2C_IC_STATUS_ACTIVITY_ACCESS "RO"
+#define I2C_IC_STATUS_ACTIVITY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_STATUS_ACTIVITY_VALUE_ACTIVE _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_TXFLR
+// Description : I2C Transmit FIFO Level Register This register contains the
+//               number of valid data entries in the transmit FIFO buffer. It is
+//               cleared whenever: - The I2C is disabled - There is a transmit
+//               abort - that is, TX_ABRT bit is set in the IC_RAW_INTR_STAT
+//               register - The slave bulk transmit mode is aborted The register
+//               increments whenever data is placed into the transmit FIFO and
+//               decrements when data is taken from the transmit FIFO.
+#define I2C_IC_TXFLR_OFFSET _u(0x00000074)
+#define I2C_IC_TXFLR_BITS   _u(0x0000001f)
+#define I2C_IC_TXFLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TXFLR_TXFLR
+// Description : Transmit FIFO Level. Contains the number of valid data entries
+//               in the transmit FIFO.
+//
+//               Reset value: 0x0
+#define I2C_IC_TXFLR_TXFLR_RESET  _u(0x00)
+#define I2C_IC_TXFLR_TXFLR_BITS   _u(0x0000001f)
+#define I2C_IC_TXFLR_TXFLR_MSB    _u(4)
+#define I2C_IC_TXFLR_TXFLR_LSB    _u(0)
+#define I2C_IC_TXFLR_TXFLR_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_RXFLR
+// Description : I2C Receive FIFO Level Register This register contains the
+//               number of valid data entries in the receive FIFO buffer. It is
+//               cleared whenever: - The I2C is disabled - Whenever there is a
+//               transmit abort caused by any of the events tracked in
+//               IC_TX_ABRT_SOURCE The register increments whenever data is
+//               placed into the receive FIFO and decrements when data is taken
+//               from the receive FIFO.
+#define I2C_IC_RXFLR_OFFSET _u(0x00000078)
+#define I2C_IC_RXFLR_BITS   _u(0x0000001f)
+#define I2C_IC_RXFLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_RXFLR_RXFLR
+// Description : Receive FIFO Level. Contains the number of valid data entries
+//               in the receive FIFO.
+//
+//               Reset value: 0x0
+#define I2C_IC_RXFLR_RXFLR_RESET  _u(0x00)
+#define I2C_IC_RXFLR_RXFLR_BITS   _u(0x0000001f)
+#define I2C_IC_RXFLR_RXFLR_MSB    _u(4)
+#define I2C_IC_RXFLR_RXFLR_LSB    _u(0)
+#define I2C_IC_RXFLR_RXFLR_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_SDA_HOLD
+// Description : I2C SDA Hold Time Length Register
+//
+//               The bits [15:0] of this register are used to control the hold
+//               time of SDA during transmit in both slave and master mode
+//               (after SCL goes from HIGH to LOW).
+//
+//               The bits [23:16] of this register are used to extend the SDA
+//               transition (if any) whenever SCL is HIGH in the receiver in
+//               either master or slave mode.
+//
+//               Writes to this register succeed only when IC_ENABLE[0]=0.
+//
+//               The values in this register are in units of ic_clk period. The
+//               value programmed in IC_SDA_TX_HOLD must be greater than the
+//               minimum hold time in each mode (one cycle in master mode, seven
+//               cycles in slave mode) for the value to be implemented.
+//
+//               The programmed SDA hold time during transmit (IC_SDA_TX_HOLD)
+//               cannot exceed at any time the duration of the low part of scl.
+//               Therefore the programmed value cannot be larger than
+//               N_SCL_LOW-2, where N_SCL_LOW is the duration of the low part of
+//               the scl period measured in ic_clk cycles.
+#define I2C_IC_SDA_HOLD_OFFSET _u(0x0000007c)
+#define I2C_IC_SDA_HOLD_BITS   _u(0x00ffffff)
+#define I2C_IC_SDA_HOLD_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD
+// Description : Sets the required SDA hold time in units of ic_clk period, when
+//               DW_apb_i2c acts as a receiver.
+//
+//               Reset value: IC_DEFAULT_SDA_HOLD[23:16].
+#define I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD_RESET  _u(0x00)
+#define I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD_BITS   _u(0x00ff0000)
+#define I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD_MSB    _u(23)
+#define I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD_LSB    _u(16)
+#define I2C_IC_SDA_HOLD_IC_SDA_RX_HOLD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD
+// Description : Sets the required SDA hold time in units of ic_clk period, when
+//               DW_apb_i2c acts as a transmitter.
+//
+//               Reset value: IC_DEFAULT_SDA_HOLD[15:0].
+#define I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD_RESET  _u(0x0001)
+#define I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD_BITS   _u(0x0000ffff)
+#define I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD_MSB    _u(15)
+#define I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD_LSB    _u(0)
+#define I2C_IC_SDA_HOLD_IC_SDA_TX_HOLD_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_TX_ABRT_SOURCE
+// Description : I2C Transmit Abort Source Register
+//
+//               This register has 32 bits that indicate the source of the
+//               TX_ABRT bit. Except for Bit 9, this register is cleared
+//               whenever the IC_CLR_TX_ABRT register or the IC_CLR_INTR
+//               register is read. To clear Bit 9, the source of the
+//               ABRT_SBYTE_NORSTRT must be fixed first; RESTART must be enabled
+//               (IC_CON[5]=1), the SPECIAL bit must be cleared (IC_TAR[11]), or
+//               the GC_OR_START bit must be cleared (IC_TAR[10]).
+//
+//               Once the source of the ABRT_SBYTE_NORSTRT is fixed, then this
+//               bit can be cleared in the same manner as other bits in this
+//               register. If the source of the ABRT_SBYTE_NORSTRT is not fixed
+//               before attempting to clear this bit, Bit 9 clears for one cycle
+//               and is then re-asserted.
+#define I2C_IC_TX_ABRT_SOURCE_OFFSET _u(0x00000080)
+#define I2C_IC_TX_ABRT_SOURCE_BITS   _u(0xff81ffff)
+#define I2C_IC_TX_ABRT_SOURCE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT
+// Description : This field indicates the number of Tx FIFO Data Commands which
+//               are flushed due to TX_ABRT interrupt. It is cleared whenever
+//               I2C is disabled.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Slave-Transmitter
+#define I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT_RESET  _u(0x000)
+#define I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT_BITS   _u(0xff800000)
+#define I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT_MSB    _u(31)
+#define I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT_LSB    _u(23)
+#define I2C_IC_TX_ABRT_SOURCE_TX_FLUSH_CNT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT
+// Description : This is a master-mode-only bit. Master has detected the
+//               transfer abort (IC_ENABLE[1])
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter
+//               0x0 -> Transfer abort detected by master- scenario not present
+//               0x1 -> Transfer abort detected by master
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_BITS   _u(0x00010000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_MSB    _u(16)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_LSB    _u(16)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_VALUE_ABRT_USER_ABRT_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_USER_ABRT_VALUE_ABRT_USER_ABRT_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX
+// Description : 1: When the processor side responds to a slave mode request for
+//               data to be transmitted to a remote master and user writes a 1
+//               in CMD (bit 8) of IC_DATA_CMD register.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Slave-Transmitter
+//               0x0 -> Slave trying to transmit to remote master in read mode- scenario not present
+//               0x1 -> Slave trying to transmit to remote master in read mode
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_BITS   _u(0x00008000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_MSB    _u(15)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_LSB    _u(15)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_VALUE_ABRT_SLVRD_INTX_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVRD_INTX_VALUE_ABRT_SLVRD_INTX_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST
+// Description : This field indicates that a Slave has lost the bus while
+//               transmitting data to a remote master. IC_TX_ABRT_SOURCE[12] is
+//               set at the same time. Note:  Even though the slave never 'owns'
+//               the bus, something could go wrong on the bus. This is a fail
+//               safe check. For instance, during a data transmission at the
+//               low-to-high transition of SCL, if what is on the data bus is
+//               not what is supposed to be transmitted, then DW_apb_i2c no
+//               longer own the bus.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Slave-Transmitter
+//               0x0 -> Slave lost arbitration to remote master- scenario not present
+//               0x1 -> Slave lost arbitration to remote master
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_BITS   _u(0x00004000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_MSB    _u(14)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_LSB    _u(14)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_VALUE_ABRT_SLV_ARBLOST_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLV_ARBLOST_VALUE_ABRT_SLV_ARBLOST_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO
+// Description : This field specifies that the Slave has received a read command
+//               and some data exists in the TX FIFO, so the slave issues a
+//               TX_ABRT interrupt to flush old data in TX FIFO.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Slave-Transmitter
+//               0x0 -> Slave flushes existing data in TX-FIFO upon getting read command- scenario not present
+//               0x1 -> Slave flushes existing data in TX-FIFO upon getting read command
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_BITS   _u(0x00002000)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_MSB    _u(13)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_LSB    _u(13)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_VALUE_ABRT_SLVFLUSH_TXFIFO_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SLVFLUSH_TXFIFO_VALUE_ABRT_SLVFLUSH_TXFIFO_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ARB_LOST
+// Description : This field specifies that the Master has lost arbitration, or
+//               if IC_TX_ABRT_SOURCE[14] is also set, then the slave
+//               transmitter has lost arbitration.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Slave-Transmitter
+//               0x0 -> Master or Slave-Transmitter lost arbitration- scenario not present
+//               0x1 -> Master or Slave-Transmitter lost arbitration
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_BITS   _u(0x00001000)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_MSB    _u(12)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_LSB    _u(12)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_VALUE_ABRT_LOST_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ARB_LOST_VALUE_ABRT_LOST_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS
+// Description : This field indicates that the User tries to initiate a Master
+//               operation with the Master mode disabled.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
+//               0x0 -> User initiating master operation when MASTER disabled- scenario not present
+//               0x1 -> User initiating master operation when MASTER disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_BITS   _u(0x00000800)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_MSB    _u(11)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_LSB    _u(11)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_VALUE_ABRT_MASTER_DIS_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_MASTER_DIS_VALUE_ABRT_MASTER_DIS_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT
+// Description : This field indicates that the restart is disabled
+//               (IC_RESTART_EN bit (IC_CON[5]) =0) and the master sends a read
+//               command in 10-bit addressing mode.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Receiver
+//               0x0 -> Master not trying to read in 10Bit addressing mode when RESTART disabled
+//               0x1 -> Master trying to read in 10Bit addressing mode when RESTART disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_BITS   _u(0x00000400)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_MSB    _u(10)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_LSB    _u(10)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_VALUE_ABRT_10B_RD_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10B_RD_NORSTRT_VALUE_ABRT_10B_RD_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT
+// Description : To clear Bit 9, the source of the ABRT_SBYTE_NORSTRT must be
+//               fixed first; restart must be enabled (IC_CON[5]=1), the SPECIAL
+//               bit must be cleared (IC_TAR[11]), or the GC_OR_START bit must
+//               be cleared (IC_TAR[10]). Once the source of the
+//               ABRT_SBYTE_NORSTRT is fixed, then this bit can be cleared in
+//               the same manner as other bits in this register. If the source
+//               of the ABRT_SBYTE_NORSTRT is not fixed before attempting to
+//               clear this bit, bit 9 clears for one cycle and then gets
+//               reasserted. When this field is set to 1, the restart is
+//               disabled (IC_RESTART_EN bit (IC_CON[5]) =0) and the user is
+//               trying to send a START Byte.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master
+//               0x0 -> User trying to send START byte when RESTART disabled- scenario not present
+//               0x1 -> User trying to send START byte when RESTART disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_BITS   _u(0x00000200)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_MSB    _u(9)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_LSB    _u(9)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_VALUE_ABRT_SBYTE_NORSTRT_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_NORSTRT_VALUE_ABRT_SBYTE_NORSTRT_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT
+// Description : This field indicates that the restart is disabled
+//               (IC_RESTART_EN bit (IC_CON[5]) =0) and the user is trying to
+//               use the master to transfer data in High Speed mode.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
+//               0x0 -> User trying to switch Master to HS mode when RESTART disabled- scenario not present
+//               0x1 -> User trying to switch Master to HS mode when RESTART disabled
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_BITS   _u(0x00000100)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_MSB    _u(8)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_LSB    _u(8)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_VALUE_ABRT_HS_NORSTRT_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_NORSTRT_VALUE_ABRT_HS_NORSTRT_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET
+// Description : This field indicates that the Master has sent a START Byte and
+//               the START Byte was acknowledged (wrong behavior).
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master
+//               0x0 -> ACK detected for START byte- scenario not present
+//               0x1 -> ACK detected for START byte
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_BITS   _u(0x00000080)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_MSB    _u(7)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_LSB    _u(7)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_VALUE_ABRT_SBYTE_ACKDET_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_SBYTE_ACKDET_VALUE_ABRT_SBYTE_ACKDET_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET
+// Description : This field indicates that the Master is in High Speed mode and
+//               the High Speed Master code was acknowledged (wrong behavior).
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master
+//               0x0 -> HS Master code ACKed in HS Mode- scenario not present
+//               0x1 -> HS Master code ACKed in HS Mode
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_BITS   _u(0x00000040)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_MSB    _u(6)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_LSB    _u(6)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_VALUE_ABRT_HS_ACK_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_HS_ACKDET_VALUE_ABRT_HS_ACK_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ
+// Description : This field indicates that DW_apb_i2c in the master mode has
+//               sent a General Call but the user programmed the byte following
+//               the General Call to be a read from the bus (IC_DATA_CMD[9] is
+//               set to 1).
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter
+//               0x0 -> GCALL is followed by read from bus-scenario not present
+//               0x1 -> GCALL is followed by read from bus
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_BITS   _u(0x00000020)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_MSB    _u(5)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_LSB    _u(5)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_VALUE_ABRT_GCALL_READ_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_READ_VALUE_ABRT_GCALL_READ_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK
+// Description : This field indicates that DW_apb_i2c in master mode has sent a
+//               General Call and no slave on the bus acknowledged the General
+//               Call.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter
+//               0x0 -> GCALL not ACKed by any slave-scenario not present
+//               0x1 -> GCALL not ACKed by any slave
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_BITS   _u(0x00000010)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_MSB    _u(4)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_LSB    _u(4)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_VALUE_ABRT_GCALL_NOACK_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_GCALL_NOACK_VALUE_ABRT_GCALL_NOACK_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK
+// Description : This field indicates the master-mode only bit. When the master
+//               receives an acknowledgement for the address, but when it sends
+//               data byte(s) following the address, it did not receive an
+//               acknowledge from the remote slave(s).
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter
+//               0x0 -> Transmitted data non-ACKed by addressed slave-scenario not present
+//               0x1 -> Transmitted data not ACKed by addressed slave
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_BITS   _u(0x00000008)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_MSB    _u(3)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_LSB    _u(3)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_VALUE_ABRT_TXDATA_NOACK_VOID _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_TXDATA_NOACK_VALUE_ABRT_TXDATA_NOACK_GENERATED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK
+// Description : This field indicates that the Master is in 10-bit address mode
+//               and that the second address byte of the 10-bit address was not
+//               acknowledged by any slave.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
+//               0x0 -> This abort is not generated
+//               0x1 -> Byte 2 of 10Bit Address not ACKed by any slave
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_BITS   _u(0x00000004)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_MSB    _u(2)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_LSB    _u(2)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR2_NOACK_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK
+// Description : This field indicates that the Master is in 10-bit address mode
+//               and the first 10-bit address byte was not acknowledged by any
+//               slave.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
+//               0x0 -> This abort is not generated
+//               0x1 -> Byte 1 of 10Bit Address not ACKed by any slave
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_BITS   _u(0x00000002)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_MSB    _u(1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_LSB    _u(1)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_10ADDR1_NOACK_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK
+// Description : This field indicates that the Master is in 7-bit addressing
+//               mode and the address sent was not acknowledged by any slave.
+//
+//               Reset value: 0x0
+//
+//               Role of DW_apb_i2c:  Master-Transmitter or Master-Receiver
+//               0x0 -> This abort is not generated
+//               0x1 -> This abort is generated because of NOACK for 7-bit address
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_RESET  _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_BITS   _u(0x00000001)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_MSB    _u(0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_LSB    _u(0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_ACCESS "RO"
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_TX_ABRT_SOURCE_ABRT_7B_ADDR_NOACK_VALUE_ACTIVE _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_SLV_DATA_NACK_ONLY
+// Description : Generate Slave Data NACK Register
+//
+//               The register is used to generate a NACK for the data part of a
+//               transfer when DW_apb_i2c is acting as a slave-receiver. This
+//               register only exists when the IC_SLV_DATA_NACK_ONLY parameter
+//               is set to 1. When this parameter disabled, this register does
+//               not exist and writing to the register's address has no effect.
+//
+//               A write can occur on this register if both of the following
+//               conditions are met: - DW_apb_i2c is disabled (IC_ENABLE[0] = 0)
+//               - Slave part is inactive (IC_STATUS[6] = 0) Note: The
+//               IC_STATUS[6] is a register read-back location for the internal
+//               slv_activity signal; the user should poll this before writing
+//               the ic_slv_data_nack_only bit.
+#define I2C_IC_SLV_DATA_NACK_ONLY_OFFSET _u(0x00000084)
+#define I2C_IC_SLV_DATA_NACK_ONLY_BITS   _u(0x00000001)
+#define I2C_IC_SLV_DATA_NACK_ONLY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SLV_DATA_NACK_ONLY_NACK
+// Description : Generate NACK. This NACK generation only occurs when DW_apb_i2c
+//               is a slave-receiver. If this register is set to a value of 1,
+//               it can only generate a NACK after a data byte is received;
+//               hence, the data transfer is aborted and the data received is
+//               not pushed to the receive buffer.
+//
+//               When the register is set to a value of 0, it generates
+//               NACK/ACK, depending on normal criteria. - 1: generate NACK
+//               after data byte received - 0: generate NACK/ACK normally Reset
+//               value: 0x0
+//               0x0 -> Slave receiver generates NACK normally
+//               0x1 -> Slave receiver generates NACK upon data reception only
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_RESET  _u(0x0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_BITS   _u(0x00000001)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_MSB    _u(0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_LSB    _u(0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_ACCESS "RW"
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_VALUE_DISABLED _u(0x0)
+#define I2C_IC_SLV_DATA_NACK_ONLY_NACK_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_DMA_CR
+// Description : DMA Control Register
+//
+//               The register is used to enable the DMA Controller interface
+//               operation. There is a separate bit for transmit and receive.
+//               This can be programmed regardless of the state of IC_ENABLE.
+#define I2C_IC_DMA_CR_OFFSET _u(0x00000088)
+#define I2C_IC_DMA_CR_BITS   _u(0x00000003)
+#define I2C_IC_DMA_CR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DMA_CR_TDMAE
+// Description : Transmit DMA Enable. This bit enables/disables the transmit
+//               FIFO DMA channel. Reset value: 0x0
+//               0x0 -> transmit FIFO DMA channel disabled
+//               0x1 -> Transmit FIFO DMA channel enabled
+#define I2C_IC_DMA_CR_TDMAE_RESET  _u(0x0)
+#define I2C_IC_DMA_CR_TDMAE_BITS   _u(0x00000002)
+#define I2C_IC_DMA_CR_TDMAE_MSB    _u(1)
+#define I2C_IC_DMA_CR_TDMAE_LSB    _u(1)
+#define I2C_IC_DMA_CR_TDMAE_ACCESS "RW"
+#define I2C_IC_DMA_CR_TDMAE_VALUE_DISABLED _u(0x0)
+#define I2C_IC_DMA_CR_TDMAE_VALUE_ENABLED _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DMA_CR_RDMAE
+// Description : Receive DMA Enable. This bit enables/disables the receive FIFO
+//               DMA channel. Reset value: 0x0
+//               0x0 -> Receive FIFO DMA channel disabled
+//               0x1 -> Receive FIFO DMA channel enabled
+#define I2C_IC_DMA_CR_RDMAE_RESET  _u(0x0)
+#define I2C_IC_DMA_CR_RDMAE_BITS   _u(0x00000001)
+#define I2C_IC_DMA_CR_RDMAE_MSB    _u(0)
+#define I2C_IC_DMA_CR_RDMAE_LSB    _u(0)
+#define I2C_IC_DMA_CR_RDMAE_ACCESS "RW"
+#define I2C_IC_DMA_CR_RDMAE_VALUE_DISABLED _u(0x0)
+#define I2C_IC_DMA_CR_RDMAE_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_DMA_TDLR
+// Description : DMA Transmit Data Level Register
+#define I2C_IC_DMA_TDLR_OFFSET _u(0x0000008c)
+#define I2C_IC_DMA_TDLR_BITS   _u(0x0000000f)
+#define I2C_IC_DMA_TDLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DMA_TDLR_DMATDL
+// Description : Transmit Data Level. This bit field controls the level at which
+//               a DMA request is made by the transmit logic. It is equal to the
+//               watermark level; that is, the dma_tx_req signal is generated
+//               when the number of valid data entries in the transmit FIFO is
+//               equal to or below this field value, and TDMAE = 1.
+//
+//               Reset value: 0x0
+#define I2C_IC_DMA_TDLR_DMATDL_RESET  _u(0x0)
+#define I2C_IC_DMA_TDLR_DMATDL_BITS   _u(0x0000000f)
+#define I2C_IC_DMA_TDLR_DMATDL_MSB    _u(3)
+#define I2C_IC_DMA_TDLR_DMATDL_LSB    _u(0)
+#define I2C_IC_DMA_TDLR_DMATDL_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_DMA_RDLR
+// Description : I2C Receive Data Level Register
+#define I2C_IC_DMA_RDLR_OFFSET _u(0x00000090)
+#define I2C_IC_DMA_RDLR_BITS   _u(0x0000000f)
+#define I2C_IC_DMA_RDLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_DMA_RDLR_DMARDL
+// Description : Receive Data Level. This bit field controls the level at which
+//               a DMA request is made by the receive logic. The watermark level
+//               = DMARDL+1; that is, dma_rx_req is generated when the number of
+//               valid data entries in the receive FIFO is equal to or more than
+//               this field value + 1, and RDMAE =1. For instance, when DMARDL
+//               is 0, then dma_rx_req is asserted when 1 or more data entries
+//               are present in the receive FIFO.
+//
+//               Reset value: 0x0
+#define I2C_IC_DMA_RDLR_DMARDL_RESET  _u(0x0)
+#define I2C_IC_DMA_RDLR_DMARDL_BITS   _u(0x0000000f)
+#define I2C_IC_DMA_RDLR_DMARDL_MSB    _u(3)
+#define I2C_IC_DMA_RDLR_DMARDL_LSB    _u(0)
+#define I2C_IC_DMA_RDLR_DMARDL_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_SDA_SETUP
+// Description : I2C SDA Setup Register
+//
+//               This register controls the amount of time delay (in terms of
+//               number of ic_clk clock periods) introduced in the rising edge
+//               of SCL - relative to SDA changing - when DW_apb_i2c services a
+//               read request in a slave-transmitter operation. The relevant I2C
+//               requirement is tSU:DAT (note 4) as detailed in the I2C Bus
+//               Specification. This register must be programmed with a value
+//               equal to or greater than 2.
+//
+//               Writes to this register succeed only when IC_ENABLE[0] = 0.
+//
+//               Note: The length of setup time is calculated using
+//               [(IC_SDA_SETUP - 1) * (ic_clk_period)], so if the user requires
+//               10 ic_clk periods of setup time, they should program a value of
+//               11. The IC_SDA_SETUP register is only used by the DW_apb_i2c
+//               when operating as a slave transmitter.
+#define I2C_IC_SDA_SETUP_OFFSET _u(0x00000094)
+#define I2C_IC_SDA_SETUP_BITS   _u(0x000000ff)
+#define I2C_IC_SDA_SETUP_RESET  _u(0x00000064)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_SDA_SETUP_SDA_SETUP
+// Description : SDA Setup. It is recommended that if the required delay is
+//               1000ns, then for an ic_clk frequency of 10 MHz, IC_SDA_SETUP
+//               should be programmed to a value of 11. IC_SDA_SETUP must be
+//               programmed with a minimum value of 2.
+#define I2C_IC_SDA_SETUP_SDA_SETUP_RESET  _u(0x64)
+#define I2C_IC_SDA_SETUP_SDA_SETUP_BITS   _u(0x000000ff)
+#define I2C_IC_SDA_SETUP_SDA_SETUP_MSB    _u(7)
+#define I2C_IC_SDA_SETUP_SDA_SETUP_LSB    _u(0)
+#define I2C_IC_SDA_SETUP_SDA_SETUP_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_ACK_GENERAL_CALL
+// Description : I2C ACK General Call Register
+//
+//               The register controls whether DW_apb_i2c responds with a ACK or
+//               NACK when it receives an I2C General Call address.
+//
+//               This register is applicable only when the DW_apb_i2c is in
+//               slave mode.
+#define I2C_IC_ACK_GENERAL_CALL_OFFSET _u(0x00000098)
+#define I2C_IC_ACK_GENERAL_CALL_BITS   _u(0x00000001)
+#define I2C_IC_ACK_GENERAL_CALL_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL
+// Description : ACK General Call. When set to 1, DW_apb_i2c responds with a ACK
+//               (by asserting ic_data_oe) when it receives a General Call.
+//               Otherwise, DW_apb_i2c responds with a NACK (by negating
+//               ic_data_oe).
+//               0x0 -> Generate NACK for a General Call
+//               0x1 -> Generate ACK for a General Call
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_RESET  _u(0x1)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_BITS   _u(0x00000001)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_MSB    _u(0)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_LSB    _u(0)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_ACCESS "RW"
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_VALUE_DISABLED _u(0x0)
+#define I2C_IC_ACK_GENERAL_CALL_ACK_GEN_CALL_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_ENABLE_STATUS
+// Description : I2C Enable Status Register
+//
+//               The register is used to report the DW_apb_i2c hardware status
+//               when the IC_ENABLE[0] register is set from 1 to 0; that is,
+//               when DW_apb_i2c is disabled.
+//
+//               If IC_ENABLE[0] has been set to 1, bits 2:1 are forced to 0,
+//               and bit 0 is forced to 1.
+//
+//               If IC_ENABLE[0] has been set to 0, bits 2:1 is only be valid as
+//               soon as bit 0 is read as '0'.
+//
+//               Note: When IC_ENABLE[0] has been set to 0, a delay occurs for
+//               bit 0 to be read as 0 because disabling the DW_apb_i2c depends
+//               on I2C bus activities.
+#define I2C_IC_ENABLE_STATUS_OFFSET _u(0x0000009c)
+#define I2C_IC_ENABLE_STATUS_BITS   _u(0x00000007)
+#define I2C_IC_ENABLE_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST
+// Description : Slave Received Data Lost. This bit indicates if a Slave-
+//               Receiver operation has been aborted with at least one data byte
+//               received from an I2C transfer due to the setting bit 0 of
+//               IC_ENABLE from 1 to 0. When read as 1, DW_apb_i2c is deemed to
+//               have been actively engaged in an aborted I2C transfer (with
+//               matching address) and the data phase of the I2C transfer has
+//               been entered, even though a data byte has been responded with a
+//               NACK.
+//
+//               Note:  If the remote I2C master terminates the transfer with a
+//               STOP condition before the DW_apb_i2c has a chance to NACK a
+//               transfer, and IC_ENABLE[0] has been set to 0, then this bit is
+//               also set to 1.
+//
+//               When read as 0, DW_apb_i2c is deemed to have been disabled
+//               without being actively involved in the data phase of a Slave-
+//               Receiver transfer.
+//
+//               Note:  The CPU can safely read this bit when IC_EN (bit 0) is
+//               read as 0.
+//
+//               Reset value: 0x0
+//               0x0 -> Slave RX Data is not lost
+//               0x1 -> Slave RX Data is lost
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_BITS   _u(0x00000004)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_MSB    _u(2)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_LSB    _u(2)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_ACCESS "RO"
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_RX_DATA_LOST_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY
+// Description : Slave Disabled While Busy (Transmit, Receive). This bit
+//               indicates if a potential or active Slave operation has been
+//               aborted due to the setting bit 0 of the IC_ENABLE register from
+//               1 to 0. This bit is set when the CPU writes a 0 to the
+//               IC_ENABLE register while:
+//
+//               (a) DW_apb_i2c is receiving the address byte of the Slave-
+//               Transmitter operation from a remote master;
+//
+//               OR,
+//
+//               (b) address and data bytes of the Slave-Receiver operation from
+//               a remote master.
+//
+//               When read as 1, DW_apb_i2c is deemed to have forced a NACK
+//               during any part of an I2C transfer, irrespective of whether the
+//               I2C address matches the slave address set in DW_apb_i2c (IC_SAR
+//               register) OR if the transfer is completed before IC_ENABLE is
+//               set to 0 but has not taken effect.
+//
+//               Note:  If the remote I2C master terminates the transfer with a
+//               STOP condition before the DW_apb_i2c has a chance to NACK a
+//               transfer, and IC_ENABLE[0] has been set to 0, then this bit
+//               will also be set to 1.
+//
+//               When read as 0, DW_apb_i2c is deemed to have been disabled when
+//               there is master activity, or when the I2C bus is idle.
+//
+//               Note:  The CPU can safely read this bit when IC_EN (bit 0) is
+//               read as 0.
+//
+//               Reset value: 0x0
+//               0x0 -> Slave is disabled when it is idle
+//               0x1 -> Slave is disabled when it is active
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_BITS   _u(0x00000002)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_MSB    _u(1)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_LSB    _u(1)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_ACCESS "RO"
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_VALUE_INACTIVE _u(0x0)
+#define I2C_IC_ENABLE_STATUS_SLV_DISABLED_WHILE_BUSY_VALUE_ACTIVE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_ENABLE_STATUS_IC_EN
+// Description : ic_en Status. This bit always reflects the value driven on the
+//               output port ic_en. - When read as 1, DW_apb_i2c is deemed to be
+//               in an enabled state. - When read as 0, DW_apb_i2c is deemed
+//               completely inactive. Note:  The CPU can safely read this bit
+//               anytime. When this bit is read as 0, the CPU can safely read
+//               SLV_RX_DATA_LOST (bit 2) and SLV_DISABLED_WHILE_BUSY (bit 1).
+//
+//               Reset value: 0x0
+//               0x0 -> I2C disabled
+//               0x1 -> I2C enabled
+#define I2C_IC_ENABLE_STATUS_IC_EN_RESET  _u(0x0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_BITS   _u(0x00000001)
+#define I2C_IC_ENABLE_STATUS_IC_EN_MSB    _u(0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_LSB    _u(0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_ACCESS "RO"
+#define I2C_IC_ENABLE_STATUS_IC_EN_VALUE_DISABLED _u(0x0)
+#define I2C_IC_ENABLE_STATUS_IC_EN_VALUE_ENABLED _u(0x1)
+// =============================================================================
+// Register    : I2C_IC_FS_SPKLEN
+// Description : I2C SS, FS or FM+ spike suppression limit
+//
+//               This register is used to store the duration, measured in ic_clk
+//               cycles, of the longest spike that is filtered out by the spike
+//               suppression logic when the component is operating in SS, FS or
+//               FM+ modes. The relevant I2C requirement is tSP (table 4) as
+//               detailed in the I2C Bus Specification. This register must be
+//               programmed with a minimum value of 1.
+#define I2C_IC_FS_SPKLEN_OFFSET _u(0x000000a0)
+#define I2C_IC_FS_SPKLEN_BITS   _u(0x000000ff)
+#define I2C_IC_FS_SPKLEN_RESET  _u(0x00000007)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_FS_SPKLEN_IC_FS_SPKLEN
+// Description : This register must be set before any I2C bus transaction can
+//               take place to ensure stable operation. This register sets the
+//               duration, measured in ic_clk cycles, of the longest spike in
+//               the SCL or SDA lines that will be filtered out by the spike
+//               suppression logic. This register can be written only when the
+//               I2C interface is disabled which corresponds to the IC_ENABLE[0]
+//               register being set to 0. Writes at other times have no effect.
+//               The minimum valid value is 1; hardware prevents values less
+//               than this being written, and if attempted results in 1 being
+//               set. or more information, refer to 'Spike Suppression'.
+#define I2C_IC_FS_SPKLEN_IC_FS_SPKLEN_RESET  _u(0x07)
+#define I2C_IC_FS_SPKLEN_IC_FS_SPKLEN_BITS   _u(0x000000ff)
+#define I2C_IC_FS_SPKLEN_IC_FS_SPKLEN_MSB    _u(7)
+#define I2C_IC_FS_SPKLEN_IC_FS_SPKLEN_LSB    _u(0)
+#define I2C_IC_FS_SPKLEN_IC_FS_SPKLEN_ACCESS "RW"
+// =============================================================================
+// Register    : I2C_IC_CLR_RESTART_DET
+// Description : Clear RESTART_DET Interrupt Register
+#define I2C_IC_CLR_RESTART_DET_OFFSET _u(0x000000a8)
+#define I2C_IC_CLR_RESTART_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RESTART_DET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET
+// Description : Read this register to clear the RESTART_DET interrupt (bit 12)
+//               of IC_RAW_INTR_STAT register.
+//
+//               Reset value: 0x0
+#define I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET_RESET  _u(0x0)
+#define I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET_BITS   _u(0x00000001)
+#define I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET_MSB    _u(0)
+#define I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET_LSB    _u(0)
+#define I2C_IC_CLR_RESTART_DET_CLR_RESTART_DET_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_COMP_PARAM_1
+// Description : Component Parameter Register 1
+//
+//               Note This register is not implemented and therefore reads as 0.
+//               If it was implemented it would be a constant read-only register
+//               that contains encoded information about the component's
+//               parameter settings. Fields shown below are the settings for
+//               those parameters
+#define I2C_IC_COMP_PARAM_1_OFFSET _u(0x000000f4)
+#define I2C_IC_COMP_PARAM_1_BITS   _u(0x00ffffff)
+#define I2C_IC_COMP_PARAM_1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH
+// Description : TX Buffer Depth = 16
+#define I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH_RESET  _u(0x00)
+#define I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH_BITS   _u(0x00ff0000)
+#define I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH_MSB    _u(23)
+#define I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH_LSB    _u(16)
+#define I2C_IC_COMP_PARAM_1_TX_BUFFER_DEPTH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH
+// Description : RX Buffer Depth = 16
+#define I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH_RESET  _u(0x00)
+#define I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH_BITS   _u(0x0000ff00)
+#define I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH_MSB    _u(15)
+#define I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH_LSB    _u(8)
+#define I2C_IC_COMP_PARAM_1_RX_BUFFER_DEPTH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS
+// Description : Encoded parameters not visible
+#define I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS_BITS   _u(0x00000080)
+#define I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS_MSB    _u(7)
+#define I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS_LSB    _u(7)
+#define I2C_IC_COMP_PARAM_1_ADD_ENCODED_PARAMS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_HAS_DMA
+// Description : DMA handshaking signals are enabled
+#define I2C_IC_COMP_PARAM_1_HAS_DMA_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_HAS_DMA_BITS   _u(0x00000040)
+#define I2C_IC_COMP_PARAM_1_HAS_DMA_MSB    _u(6)
+#define I2C_IC_COMP_PARAM_1_HAS_DMA_LSB    _u(6)
+#define I2C_IC_COMP_PARAM_1_HAS_DMA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_INTR_IO
+// Description : COMBINED Interrupt outputs
+#define I2C_IC_COMP_PARAM_1_INTR_IO_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_INTR_IO_BITS   _u(0x00000020)
+#define I2C_IC_COMP_PARAM_1_INTR_IO_MSB    _u(5)
+#define I2C_IC_COMP_PARAM_1_INTR_IO_LSB    _u(5)
+#define I2C_IC_COMP_PARAM_1_INTR_IO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES
+// Description : Programmable count values for each mode.
+#define I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES_BITS   _u(0x00000010)
+#define I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES_MSB    _u(4)
+#define I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES_LSB    _u(4)
+#define I2C_IC_COMP_PARAM_1_HC_COUNT_VALUES_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE
+// Description : MAX SPEED MODE = FAST MODE
+#define I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE_BITS   _u(0x0000000c)
+#define I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE_MSB    _u(3)
+#define I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE_LSB    _u(2)
+#define I2C_IC_COMP_PARAM_1_MAX_SPEED_MODE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH
+// Description : APB data bus width is 32 bits
+#define I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH_RESET  _u(0x0)
+#define I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH_BITS   _u(0x00000003)
+#define I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH_MSB    _u(1)
+#define I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH_LSB    _u(0)
+#define I2C_IC_COMP_PARAM_1_APB_DATA_WIDTH_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_COMP_VERSION
+// Description : I2C Component Version Register
+#define I2C_IC_COMP_VERSION_OFFSET _u(0x000000f8)
+#define I2C_IC_COMP_VERSION_BITS   _u(0xffffffff)
+#define I2C_IC_COMP_VERSION_RESET  _u(0x3230312a)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_VERSION_IC_COMP_VERSION
+#define I2C_IC_COMP_VERSION_IC_COMP_VERSION_RESET  _u(0x3230312a)
+#define I2C_IC_COMP_VERSION_IC_COMP_VERSION_BITS   _u(0xffffffff)
+#define I2C_IC_COMP_VERSION_IC_COMP_VERSION_MSB    _u(31)
+#define I2C_IC_COMP_VERSION_IC_COMP_VERSION_LSB    _u(0)
+#define I2C_IC_COMP_VERSION_IC_COMP_VERSION_ACCESS "RO"
+// =============================================================================
+// Register    : I2C_IC_COMP_TYPE
+// Description : I2C Component Type Register
+#define I2C_IC_COMP_TYPE_OFFSET _u(0x000000fc)
+#define I2C_IC_COMP_TYPE_BITS   _u(0xffffffff)
+#define I2C_IC_COMP_TYPE_RESET  _u(0x44570140)
+// -----------------------------------------------------------------------------
+// Field       : I2C_IC_COMP_TYPE_IC_COMP_TYPE
+// Description : Designware Component Type number = 0x44_57_01_40. This assigned
+//               unique hex value is constant and is derived from the two ASCII
+//               letters 'DW' followed by a 16-bit unsigned number.
+#define I2C_IC_COMP_TYPE_IC_COMP_TYPE_RESET  _u(0x44570140)
+#define I2C_IC_COMP_TYPE_IC_COMP_TYPE_BITS   _u(0xffffffff)
+#define I2C_IC_COMP_TYPE_IC_COMP_TYPE_MSB    _u(31)
+#define I2C_IC_COMP_TYPE_IC_COMP_TYPE_LSB    _u(0)
+#define I2C_IC_COMP_TYPE_IC_COMP_TYPE_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_I2C_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/intctrl.h b/lib/pico-sdk/rp2350/hardware/regs/intctrl.h
new file mode 100644
index 0000000..96ce815
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/intctrl.h
@@ -0,0 +1,184 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _INTCTRL_H
+#define _INTCTRL_H
+
+/**
+ * \file rp2350/intctrl.h
+ */
+
+#ifdef __ASSEMBLER__
+#define TIMER0_IRQ_0 0
+#define TIMER0_IRQ_1 1
+#define TIMER0_IRQ_2 2
+#define TIMER0_IRQ_3 3
+#define TIMER1_IRQ_0 4
+#define TIMER1_IRQ_1 5
+#define TIMER1_IRQ_2 6
+#define TIMER1_IRQ_3 7
+#define PWM_IRQ_WRAP_0 8
+#define PWM_IRQ_WRAP_1 9
+#define DMA_IRQ_0 10
+#define DMA_IRQ_1 11
+#define DMA_IRQ_2 12
+#define DMA_IRQ_3 13
+#define USBCTRL_IRQ 14
+#define PIO0_IRQ_0 15
+#define PIO0_IRQ_1 16
+#define PIO1_IRQ_0 17
+#define PIO1_IRQ_1 18
+#define PIO2_IRQ_0 19
+#define PIO2_IRQ_1 20
+#define IO_IRQ_BANK0 21
+#define IO_IRQ_BANK0_NS 22
+#define IO_IRQ_QSPI 23
+#define IO_IRQ_QSPI_NS 24
+#define SIO_IRQ_FIFO 25
+#define SIO_IRQ_BELL 26
+#define SIO_IRQ_FIFO_NS 27
+#define SIO_IRQ_BELL_NS 28
+#define SIO_IRQ_MTIMECMP 29
+#define CLOCKS_IRQ 30
+#define SPI0_IRQ 31
+#define SPI1_IRQ 32
+#define UART0_IRQ 33
+#define UART1_IRQ 34
+#define ADC_IRQ_FIFO 35
+#define I2C0_IRQ 36
+#define I2C1_IRQ 37
+#define OTP_IRQ 38
+#define TRNG_IRQ 39
+#define PROC0_IRQ_CTI 40
+#define PROC1_IRQ_CTI 41
+#define PLL_SYS_IRQ 42
+#define PLL_USB_IRQ 43
+#define POWMAN_IRQ_POW 44
+#define POWMAN_IRQ_TIMER 45
+#define SPAREIRQ_IRQ_0 46
+#define SPAREIRQ_IRQ_1 47
+#define SPAREIRQ_IRQ_2 48
+#define SPAREIRQ_IRQ_3 49
+#define SPAREIRQ_IRQ_4 50
+#define SPAREIRQ_IRQ_5 51
+#else
+/**
+ * \brief Interrupt numbers on RP2350 (used as typedef \ref irq_num_t)
+ * \ingroup hardware_irq
+ */
+typedef enum irq_num_rp2350 {
+    TIMER0_IRQ_0 = 0, ///< Select TIMER0's IRQ 0 output
+    TIMER0_IRQ_1 = 1, ///< Select TIMER0's IRQ 1 output
+    TIMER0_IRQ_2 = 2, ///< Select TIMER0's IRQ 2 output
+    TIMER0_IRQ_3 = 3, ///< Select TIMER0's IRQ 3 output
+    TIMER1_IRQ_0 = 4, ///< Select TIMER1's IRQ 0 output
+    TIMER1_IRQ_1 = 5, ///< Select TIMER1's IRQ 1 output
+    TIMER1_IRQ_2 = 6, ///< Select TIMER1's IRQ 2 output
+    TIMER1_IRQ_3 = 7, ///< Select TIMER1's IRQ 3 output
+    PWM_IRQ_WRAP_0 = 8, ///< Select PWM's IRQ_WRAP 0 output
+    PWM_IRQ_WRAP_1 = 9, ///< Select PWM's IRQ_WRAP 1 output
+    DMA_IRQ_0 = 10, ///< Select DMA's IRQ 0 output
+    DMA_IRQ_1 = 11, ///< Select DMA's IRQ 1 output
+    DMA_IRQ_2 = 12, ///< Select DMA's IRQ 2 output
+    DMA_IRQ_3 = 13, ///< Select DMA's IRQ 3 output
+    USBCTRL_IRQ = 14, ///< Select USBCTRL's IRQ output
+    PIO0_IRQ_0 = 15, ///< Select PIO0's IRQ 0 output
+    PIO0_IRQ_1 = 16, ///< Select PIO0's IRQ 1 output
+    PIO1_IRQ_0 = 17, ///< Select PIO1's IRQ 0 output
+    PIO1_IRQ_1 = 18, ///< Select PIO1's IRQ 1 output
+    PIO2_IRQ_0 = 19, ///< Select PIO2's IRQ 0 output
+    PIO2_IRQ_1 = 20, ///< Select PIO2's IRQ 1 output
+    IO_IRQ_BANK0 = 21, ///< Select IO_BANK0's IRQ output
+    IO_IRQ_BANK0_NS = 22, ///< Select IO_BANK0_NS's IRQ output
+    IO_IRQ_QSPI = 23, ///< Select IO_QSPI's IRQ output
+    IO_IRQ_QSPI_NS = 24, ///< Select IO_QSPI_NS's IRQ output
+    SIO_IRQ_FIFO = 25, ///< Select SIO's IRQ_FIFO output
+    SIO_IRQ_BELL = 26, ///< Select SIO's IRQ_BELL output
+    SIO_IRQ_FIFO_NS = 27, ///< Select SIO_NS's IRQ_FIFO output
+    SIO_IRQ_BELL_NS = 28, ///< Select SIO_NS's IRQ_BELL output
+    SIO_IRQ_MTIMECMP = 29, ///< Select SIO_IRQ_MTIMECMP's IRQ output
+    CLOCKS_IRQ = 30, ///< Select CLOCKS's IRQ output
+    SPI0_IRQ = 31, ///< Select SPI0's IRQ output
+    SPI1_IRQ = 32, ///< Select SPI1's IRQ output
+    UART0_IRQ = 33, ///< Select UART0's IRQ output
+    UART1_IRQ = 34, ///< Select UART1's IRQ output
+    ADC_IRQ_FIFO = 35, ///< Select ADC's IRQ_FIFO output
+    I2C0_IRQ = 36, ///< Select I2C0's IRQ output
+    I2C1_IRQ = 37, ///< Select I2C1's IRQ output
+    OTP_IRQ = 38, ///< Select OTP's IRQ output
+    TRNG_IRQ = 39, ///< Select TRNG's IRQ output
+    PROC0_IRQ_CTI = 40, ///< Select PROC0's IRQ_CTI output
+    PROC1_IRQ_CTI = 41, ///< Select PROC1's IRQ_CTI output
+    PLL_SYS_IRQ = 42, ///< Select PLL_SYS's IRQ output
+    PLL_USB_IRQ = 43, ///< Select PLL_USB's IRQ output
+    POWMAN_IRQ_POW = 44, ///< Select POWMAN's IRQ_POW output
+    POWMAN_IRQ_TIMER = 45, ///< Select POWMAN's IRQ_TIMER output
+    SPARE_IRQ_0 = 46, ///< Select SPARE IRQ 0
+    SPARE_IRQ_1 = 47, ///< Select SPARE IRQ 1
+    SPARE_IRQ_2 = 48, ///< Select SPARE IRQ 2
+    SPARE_IRQ_3 = 49, ///< Select SPARE IRQ 3
+    SPARE_IRQ_4 = 50, ///< Select SPARE IRQ 4
+    SPARE_IRQ_5 = 51, ///< Select SPARE IRQ 5
+    IRQ_COUNT
+} irq_num_t;
+#endif
+
+#define isr_timer0_0 isr_irq0
+#define isr_timer0_1 isr_irq1
+#define isr_timer0_2 isr_irq2
+#define isr_timer0_3 isr_irq3
+#define isr_timer1_0 isr_irq4
+#define isr_timer1_1 isr_irq5
+#define isr_timer1_2 isr_irq6
+#define isr_timer1_3 isr_irq7
+#define isr_pwm_wrap_0 isr_irq8
+#define isr_pwm_wrap_1 isr_irq9
+#define isr_dma_0 isr_irq10
+#define isr_dma_1 isr_irq11
+#define isr_dma_2 isr_irq12
+#define isr_dma_3 isr_irq13
+#define isr_usbctrl isr_irq14
+#define isr_pio0_0 isr_irq15
+#define isr_pio0_1 isr_irq16
+#define isr_pio1_0 isr_irq17
+#define isr_pio1_1 isr_irq18
+#define isr_pio2_0 isr_irq19
+#define isr_pio2_1 isr_irq20
+#define isr_io_bank0 isr_irq21
+#define isr_io_bank0_ns isr_irq22
+#define isr_io_qspi isr_irq23
+#define isr_io_qspi_ns isr_irq24
+#define isr_sio_fifo isr_irq25
+#define isr_sio_bell isr_irq26
+#define isr_sio_fifo_ns isr_irq27
+#define isr_sio_bell_ns isr_irq28
+#define isr_sio_mtimecmp isr_irq29
+#define isr_clocks isr_irq30
+#define isr_spi0 isr_irq31
+#define isr_spi1 isr_irq32
+#define isr_uart0 isr_irq33
+#define isr_uart1 isr_irq34
+#define isr_adc_fifo isr_irq35
+#define isr_i2c0 isr_irq36
+#define isr_i2c1 isr_irq37
+#define isr_otp isr_irq38
+#define isr_trng isr_irq39
+#define isr_proc0_cti isr_irq40
+#define isr_proc1_cti isr_irq41
+#define isr_pll_sys isr_irq42
+#define isr_pll_usb isr_irq43
+#define isr_powman_pow isr_irq44
+#define isr_powman_timer isr_irq45
+#define isr_spare_0 isr_irq46
+#define isr_spare_1 isr_irq47
+#define isr_spare_2 isr_irq48
+#define isr_spare_3 isr_irq49
+#define isr_spare_4 isr_irq50
+#define isr_spare_5 isr_irq51
+
+#endif // _INTCTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/io_bank0.h b/lib/pico-sdk/rp2350/hardware/regs/io_bank0.h
new file mode 100644
index 0000000..6c2f96e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/io_bank0.h
@@ -0,0 +1,22339 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : IO_BANK0
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_IO_BANK0_H
+#define _HARDWARE_REGS_IO_BANK0_H
+// =============================================================================
+// Register    : IO_BANK0_GPIO0_STATUS
+#define IO_BANK0_GPIO0_STATUS_OFFSET _u(0x00000000)
+#define IO_BANK0_GPIO0_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO0_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO0_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO0_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO0_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO0_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO0_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO0_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO0_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO0_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO0_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO0_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO0_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO0_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO0_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO0_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO0_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO0_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO0_CTRL
+#define IO_BANK0_GPIO0_CTRL_OFFSET _u(0x00000004)
+#define IO_BANK0_GPIO0_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO0_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO0_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO0_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO0_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO0_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO0_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO0_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO0_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> jtag_tck
+//               0x01 -> spi0_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_0
+//               0x05 -> siob_proc_0
+//               0x06 -> pio0_0
+//               0x07 -> pio1_0
+//               0x08 -> pio2_0
+//               0x09 -> xip_ss_n_1
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_JTAG_TCK _u(0x00)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PWM_A_0 _u(0x04)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_SIOB_PROC_0 _u(0x05)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO0_0 _u(0x06)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO1_0 _u(0x07)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_PIO2_0 _u(0x08)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_XIP_SS_N_1 _u(0x09)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO0_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO1_STATUS
+#define IO_BANK0_GPIO1_STATUS_OFFSET _u(0x00000008)
+#define IO_BANK0_GPIO1_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO1_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO1_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO1_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO1_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO1_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO1_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO1_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO1_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO1_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO1_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO1_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO1_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO1_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO1_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO1_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO1_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO1_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO1_CTRL
+#define IO_BANK0_GPIO1_CTRL_OFFSET _u(0x0000000c)
+#define IO_BANK0_GPIO1_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO1_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO1_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO1_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO1_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO1_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO1_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO1_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO1_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> jtag_tms
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_0
+//               0x05 -> siob_proc_1
+//               0x06 -> pio0_1
+//               0x07 -> pio1_1
+//               0x08 -> pio2_1
+//               0x09 -> coresight_traceclk
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_JTAG_TMS _u(0x00)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PWM_B_0 _u(0x04)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_SIOB_PROC_1 _u(0x05)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO0_1 _u(0x06)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO1_1 _u(0x07)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_PIO2_1 _u(0x08)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_CORESIGHT_TRACECLK _u(0x09)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO1_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO2_STATUS
+#define IO_BANK0_GPIO2_STATUS_OFFSET _u(0x00000010)
+#define IO_BANK0_GPIO2_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO2_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO2_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO2_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO2_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO2_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO2_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO2_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO2_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO2_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO2_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO2_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO2_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO2_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO2_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO2_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO2_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO2_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO2_CTRL
+#define IO_BANK0_GPIO2_CTRL_OFFSET _u(0x00000014)
+#define IO_BANK0_GPIO2_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO2_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO2_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO2_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO2_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO2_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO2_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO2_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO2_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> jtag_tdi
+//               0x01 -> spi0_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_1
+//               0x05 -> siob_proc_2
+//               0x06 -> pio0_2
+//               0x07 -> pio1_2
+//               0x08 -> pio2_2
+//               0x09 -> coresight_tracedata_0
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_JTAG_TDI _u(0x00)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PWM_A_1 _u(0x04)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_SIOB_PROC_2 _u(0x05)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO0_2 _u(0x06)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO1_2 _u(0x07)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_PIO2_2 _u(0x08)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_CORESIGHT_TRACEDATA_0 _u(0x09)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO2_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO3_STATUS
+#define IO_BANK0_GPIO3_STATUS_OFFSET _u(0x00000018)
+#define IO_BANK0_GPIO3_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO3_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO3_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO3_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO3_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO3_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO3_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO3_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO3_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO3_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO3_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO3_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO3_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO3_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO3_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO3_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO3_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO3_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO3_CTRL
+#define IO_BANK0_GPIO3_CTRL_OFFSET _u(0x0000001c)
+#define IO_BANK0_GPIO3_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO3_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO3_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO3_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO3_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO3_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO3_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO3_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO3_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> jtag_tdo
+//               0x01 -> spi0_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_1
+//               0x05 -> siob_proc_3
+//               0x06 -> pio0_3
+//               0x07 -> pio1_3
+//               0x08 -> pio2_3
+//               0x09 -> coresight_tracedata_1
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_JTAG_TDO _u(0x00)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PWM_B_1 _u(0x04)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_SIOB_PROC_3 _u(0x05)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO0_3 _u(0x06)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO1_3 _u(0x07)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_PIO2_3 _u(0x08)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_CORESIGHT_TRACEDATA_1 _u(0x09)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO3_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO4_STATUS
+#define IO_BANK0_GPIO4_STATUS_OFFSET _u(0x00000020)
+#define IO_BANK0_GPIO4_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO4_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO4_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO4_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO4_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO4_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO4_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO4_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO4_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO4_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO4_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO4_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO4_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO4_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO4_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO4_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO4_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO4_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO4_CTRL
+#define IO_BANK0_GPIO4_CTRL_OFFSET _u(0x00000024)
+#define IO_BANK0_GPIO4_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO4_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO4_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO4_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO4_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO4_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO4_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO4_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO4_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_2
+//               0x05 -> siob_proc_4
+//               0x06 -> pio0_4
+//               0x07 -> pio1_4
+//               0x08 -> pio2_4
+//               0x09 -> coresight_tracedata_2
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PWM_A_2 _u(0x04)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_SIOB_PROC_4 _u(0x05)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO0_4 _u(0x06)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO1_4 _u(0x07)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_PIO2_4 _u(0x08)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_CORESIGHT_TRACEDATA_2 _u(0x09)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO4_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO5_STATUS
+#define IO_BANK0_GPIO5_STATUS_OFFSET _u(0x00000028)
+#define IO_BANK0_GPIO5_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO5_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO5_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO5_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO5_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO5_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO5_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO5_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO5_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO5_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO5_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO5_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO5_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO5_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO5_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO5_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO5_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO5_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO5_CTRL
+#define IO_BANK0_GPIO5_CTRL_OFFSET _u(0x0000002c)
+#define IO_BANK0_GPIO5_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO5_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO5_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO5_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO5_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO5_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO5_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO5_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO5_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_2
+//               0x05 -> siob_proc_5
+//               0x06 -> pio0_5
+//               0x07 -> pio1_5
+//               0x08 -> pio2_5
+//               0x09 -> coresight_tracedata_3
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PWM_B_2 _u(0x04)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_SIOB_PROC_5 _u(0x05)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO0_5 _u(0x06)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO1_5 _u(0x07)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_PIO2_5 _u(0x08)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_CORESIGHT_TRACEDATA_3 _u(0x09)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO5_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO6_STATUS
+#define IO_BANK0_GPIO6_STATUS_OFFSET _u(0x00000030)
+#define IO_BANK0_GPIO6_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO6_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO6_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO6_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO6_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO6_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO6_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO6_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO6_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO6_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO6_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO6_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO6_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO6_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO6_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO6_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO6_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO6_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO6_CTRL
+#define IO_BANK0_GPIO6_CTRL_OFFSET _u(0x00000034)
+#define IO_BANK0_GPIO6_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO6_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO6_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO6_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO6_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO6_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO6_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO6_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO6_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_3
+//               0x05 -> siob_proc_6
+//               0x06 -> pio0_6
+//               0x07 -> pio1_6
+//               0x08 -> pio2_6
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PWM_A_3 _u(0x04)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_SIOB_PROC_6 _u(0x05)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO0_6 _u(0x06)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO1_6 _u(0x07)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_PIO2_6 _u(0x08)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO6_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO7_STATUS
+#define IO_BANK0_GPIO7_STATUS_OFFSET _u(0x00000038)
+#define IO_BANK0_GPIO7_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO7_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO7_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO7_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO7_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO7_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO7_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO7_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO7_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO7_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO7_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO7_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO7_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO7_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO7_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO7_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO7_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO7_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO7_CTRL
+#define IO_BANK0_GPIO7_CTRL_OFFSET _u(0x0000003c)
+#define IO_BANK0_GPIO7_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO7_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO7_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO7_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO7_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO7_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO7_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO7_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO7_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_3
+//               0x05 -> siob_proc_7
+//               0x06 -> pio0_7
+//               0x07 -> pio1_7
+//               0x08 -> pio2_7
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PWM_B_3 _u(0x04)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_SIOB_PROC_7 _u(0x05)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO0_7 _u(0x06)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO1_7 _u(0x07)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_PIO2_7 _u(0x08)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO7_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO8_STATUS
+#define IO_BANK0_GPIO8_STATUS_OFFSET _u(0x00000040)
+#define IO_BANK0_GPIO8_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO8_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO8_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO8_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO8_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO8_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO8_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO8_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO8_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO8_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO8_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO8_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO8_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO8_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO8_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO8_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO8_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO8_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO8_CTRL
+#define IO_BANK0_GPIO8_CTRL_OFFSET _u(0x00000044)
+#define IO_BANK0_GPIO8_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO8_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO8_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO8_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO8_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO8_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO8_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO8_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO8_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_4
+//               0x05 -> siob_proc_8
+//               0x06 -> pio0_8
+//               0x07 -> pio1_8
+//               0x08 -> pio2_8
+//               0x09 -> xip_ss_n_1
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PWM_A_4 _u(0x04)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_SIOB_PROC_8 _u(0x05)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO0_8 _u(0x06)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO1_8 _u(0x07)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_PIO2_8 _u(0x08)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_XIP_SS_N_1 _u(0x09)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO8_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO9_STATUS
+#define IO_BANK0_GPIO9_STATUS_OFFSET _u(0x00000048)
+#define IO_BANK0_GPIO9_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO9_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO9_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO9_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO9_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO9_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO9_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO9_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO9_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO9_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO9_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO9_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO9_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO9_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO9_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO9_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO9_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO9_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO9_CTRL
+#define IO_BANK0_GPIO9_CTRL_OFFSET _u(0x0000004c)
+#define IO_BANK0_GPIO9_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO9_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO9_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO9_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO9_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO9_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO9_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO9_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO9_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_4
+//               0x05 -> siob_proc_9
+//               0x06 -> pio0_9
+//               0x07 -> pio1_9
+//               0x08 -> pio2_9
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PWM_B_4 _u(0x04)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_SIOB_PROC_9 _u(0x05)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO0_9 _u(0x06)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO1_9 _u(0x07)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_PIO2_9 _u(0x08)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO9_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO10_STATUS
+#define IO_BANK0_GPIO10_STATUS_OFFSET _u(0x00000050)
+#define IO_BANK0_GPIO10_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO10_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO10_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO10_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO10_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO10_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO10_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO10_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO10_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO10_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO10_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO10_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO10_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO10_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO10_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO10_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO10_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO10_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO10_CTRL
+#define IO_BANK0_GPIO10_CTRL_OFFSET _u(0x00000054)
+#define IO_BANK0_GPIO10_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO10_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO10_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO10_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO10_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO10_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO10_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO10_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO10_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_5
+//               0x05 -> siob_proc_10
+//               0x06 -> pio0_10
+//               0x07 -> pio1_10
+//               0x08 -> pio2_10
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PWM_A_5 _u(0x04)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_SIOB_PROC_10 _u(0x05)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO0_10 _u(0x06)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO1_10 _u(0x07)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_PIO2_10 _u(0x08)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO10_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO11_STATUS
+#define IO_BANK0_GPIO11_STATUS_OFFSET _u(0x00000058)
+#define IO_BANK0_GPIO11_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO11_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO11_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO11_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO11_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO11_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO11_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO11_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO11_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO11_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO11_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO11_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO11_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO11_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO11_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO11_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO11_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO11_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO11_CTRL
+#define IO_BANK0_GPIO11_CTRL_OFFSET _u(0x0000005c)
+#define IO_BANK0_GPIO11_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO11_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO11_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO11_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO11_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO11_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO11_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO11_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO11_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_5
+//               0x05 -> siob_proc_11
+//               0x06 -> pio0_11
+//               0x07 -> pio1_11
+//               0x08 -> pio2_11
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PWM_B_5 _u(0x04)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_SIOB_PROC_11 _u(0x05)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO0_11 _u(0x06)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO1_11 _u(0x07)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_PIO2_11 _u(0x08)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO11_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO12_STATUS
+#define IO_BANK0_GPIO12_STATUS_OFFSET _u(0x00000060)
+#define IO_BANK0_GPIO12_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO12_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO12_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO12_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO12_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO12_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO12_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO12_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO12_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO12_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO12_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO12_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO12_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO12_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO12_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO12_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO12_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO12_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO12_CTRL
+#define IO_BANK0_GPIO12_CTRL_OFFSET _u(0x00000064)
+#define IO_BANK0_GPIO12_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO12_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO12_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO12_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO12_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO12_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO12_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO12_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO12_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_0
+//               0x01 -> spi1_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_6
+//               0x05 -> siob_proc_12
+//               0x06 -> pio0_12
+//               0x07 -> pio1_12
+//               0x08 -> pio2_12
+//               0x09 -> clocks_gpin_0
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_HSTX_0 _u(0x00)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PWM_A_6 _u(0x04)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_SIOB_PROC_12 _u(0x05)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO0_12 _u(0x06)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO1_12 _u(0x07)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_PIO2_12 _u(0x08)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_0 _u(0x09)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO12_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO13_STATUS
+#define IO_BANK0_GPIO13_STATUS_OFFSET _u(0x00000068)
+#define IO_BANK0_GPIO13_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO13_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO13_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO13_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO13_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO13_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO13_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO13_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO13_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO13_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO13_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO13_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO13_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO13_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO13_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO13_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO13_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO13_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO13_CTRL
+#define IO_BANK0_GPIO13_CTRL_OFFSET _u(0x0000006c)
+#define IO_BANK0_GPIO13_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO13_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO13_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO13_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO13_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO13_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO13_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO13_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO13_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_1
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_6
+//               0x05 -> siob_proc_13
+//               0x06 -> pio0_13
+//               0x07 -> pio1_13
+//               0x08 -> pio2_13
+//               0x09 -> clocks_gpout_0
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_HSTX_1 _u(0x00)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PWM_B_6 _u(0x04)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_SIOB_PROC_13 _u(0x05)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO0_13 _u(0x06)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO1_13 _u(0x07)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_PIO2_13 _u(0x08)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_0 _u(0x09)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO13_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO14_STATUS
+#define IO_BANK0_GPIO14_STATUS_OFFSET _u(0x00000070)
+#define IO_BANK0_GPIO14_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO14_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO14_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO14_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO14_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO14_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO14_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO14_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO14_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO14_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO14_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO14_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO14_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO14_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO14_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO14_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO14_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO14_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO14_CTRL
+#define IO_BANK0_GPIO14_CTRL_OFFSET _u(0x00000074)
+#define IO_BANK0_GPIO14_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO14_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO14_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO14_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO14_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO14_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO14_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO14_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO14_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_2
+//               0x01 -> spi1_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_7
+//               0x05 -> siob_proc_14
+//               0x06 -> pio0_14
+//               0x07 -> pio1_14
+//               0x08 -> pio2_14
+//               0x09 -> clocks_gpin_1
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_HSTX_2 _u(0x00)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PWM_A_7 _u(0x04)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_SIOB_PROC_14 _u(0x05)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO0_14 _u(0x06)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO1_14 _u(0x07)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_PIO2_14 _u(0x08)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_1 _u(0x09)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO14_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO15_STATUS
+#define IO_BANK0_GPIO15_STATUS_OFFSET _u(0x00000078)
+#define IO_BANK0_GPIO15_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO15_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO15_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO15_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO15_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO15_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO15_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO15_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO15_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO15_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO15_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO15_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO15_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO15_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO15_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO15_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO15_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO15_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO15_CTRL
+#define IO_BANK0_GPIO15_CTRL_OFFSET _u(0x0000007c)
+#define IO_BANK0_GPIO15_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO15_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO15_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO15_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO15_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO15_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO15_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO15_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO15_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_3
+//               0x01 -> spi1_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_7
+//               0x05 -> siob_proc_15
+//               0x06 -> pio0_15
+//               0x07 -> pio1_15
+//               0x08 -> pio2_15
+//               0x09 -> clocks_gpout_1
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_HSTX_3 _u(0x00)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PWM_B_7 _u(0x04)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_SIOB_PROC_15 _u(0x05)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO0_15 _u(0x06)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO1_15 _u(0x07)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_PIO2_15 _u(0x08)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_1 _u(0x09)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO15_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO16_STATUS
+#define IO_BANK0_GPIO16_STATUS_OFFSET _u(0x00000080)
+#define IO_BANK0_GPIO16_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO16_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO16_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO16_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO16_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO16_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO16_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO16_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO16_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO16_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO16_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO16_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO16_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO16_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO16_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO16_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO16_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO16_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO16_CTRL
+#define IO_BANK0_GPIO16_CTRL_OFFSET _u(0x00000084)
+#define IO_BANK0_GPIO16_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO16_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO16_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO16_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO16_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO16_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO16_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO16_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO16_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_4
+//               0x01 -> spi0_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_0
+//               0x05 -> siob_proc_16
+//               0x06 -> pio0_16
+//               0x07 -> pio1_16
+//               0x08 -> pio2_16
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_HSTX_4 _u(0x00)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PWM_A_0 _u(0x04)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_SIOB_PROC_16 _u(0x05)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO0_16 _u(0x06)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO1_16 _u(0x07)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_PIO2_16 _u(0x08)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO16_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO17_STATUS
+#define IO_BANK0_GPIO17_STATUS_OFFSET _u(0x00000088)
+#define IO_BANK0_GPIO17_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO17_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO17_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO17_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO17_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO17_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO17_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO17_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO17_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO17_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO17_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO17_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO17_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO17_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO17_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO17_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO17_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO17_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO17_CTRL
+#define IO_BANK0_GPIO17_CTRL_OFFSET _u(0x0000008c)
+#define IO_BANK0_GPIO17_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO17_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO17_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO17_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO17_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO17_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO17_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO17_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO17_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_5
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_0
+//               0x05 -> siob_proc_17
+//               0x06 -> pio0_17
+//               0x07 -> pio1_17
+//               0x08 -> pio2_17
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_HSTX_5 _u(0x00)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PWM_B_0 _u(0x04)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_SIOB_PROC_17 _u(0x05)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO0_17 _u(0x06)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO1_17 _u(0x07)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_PIO2_17 _u(0x08)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO17_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO18_STATUS
+#define IO_BANK0_GPIO18_STATUS_OFFSET _u(0x00000090)
+#define IO_BANK0_GPIO18_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO18_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO18_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO18_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO18_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO18_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO18_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO18_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO18_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO18_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO18_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO18_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO18_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO18_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO18_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO18_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO18_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO18_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO18_CTRL
+#define IO_BANK0_GPIO18_CTRL_OFFSET _u(0x00000094)
+#define IO_BANK0_GPIO18_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO18_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO18_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO18_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO18_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO18_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO18_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO18_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO18_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_6
+//               0x01 -> spi0_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_1
+//               0x05 -> siob_proc_18
+//               0x06 -> pio0_18
+//               0x07 -> pio1_18
+//               0x08 -> pio2_18
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_HSTX_6 _u(0x00)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PWM_A_1 _u(0x04)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_SIOB_PROC_18 _u(0x05)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO0_18 _u(0x06)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO1_18 _u(0x07)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_PIO2_18 _u(0x08)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO18_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO19_STATUS
+#define IO_BANK0_GPIO19_STATUS_OFFSET _u(0x00000098)
+#define IO_BANK0_GPIO19_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO19_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO19_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO19_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO19_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO19_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO19_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO19_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO19_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO19_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO19_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO19_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO19_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO19_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO19_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO19_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO19_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO19_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO19_CTRL
+#define IO_BANK0_GPIO19_CTRL_OFFSET _u(0x0000009c)
+#define IO_BANK0_GPIO19_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO19_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO19_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO19_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO19_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO19_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO19_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO19_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO19_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> hstx_7
+//               0x01 -> spi0_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_1
+//               0x05 -> siob_proc_19
+//               0x06 -> pio0_19
+//               0x07 -> pio1_19
+//               0x08 -> pio2_19
+//               0x09 -> xip_ss_n_1
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_HSTX_7 _u(0x00)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PWM_B_1 _u(0x04)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_SIOB_PROC_19 _u(0x05)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO0_19 _u(0x06)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO1_19 _u(0x07)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_PIO2_19 _u(0x08)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_XIP_SS_N_1 _u(0x09)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO19_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO20_STATUS
+#define IO_BANK0_GPIO20_STATUS_OFFSET _u(0x000000a0)
+#define IO_BANK0_GPIO20_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO20_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO20_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO20_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO20_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO20_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO20_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO20_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO20_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO20_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO20_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO20_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO20_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO20_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO20_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO20_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO20_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO20_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO20_CTRL
+#define IO_BANK0_GPIO20_CTRL_OFFSET _u(0x000000a4)
+#define IO_BANK0_GPIO20_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO20_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO20_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO20_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO20_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO20_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO20_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO20_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO20_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_2
+//               0x05 -> siob_proc_20
+//               0x06 -> pio0_20
+//               0x07 -> pio1_20
+//               0x08 -> pio2_20
+//               0x09 -> clocks_gpin_0
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PWM_A_2 _u(0x04)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_SIOB_PROC_20 _u(0x05)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO0_20 _u(0x06)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO1_20 _u(0x07)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_PIO2_20 _u(0x08)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_0 _u(0x09)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO20_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO21_STATUS
+#define IO_BANK0_GPIO21_STATUS_OFFSET _u(0x000000a8)
+#define IO_BANK0_GPIO21_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO21_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO21_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO21_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO21_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO21_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO21_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO21_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO21_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO21_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO21_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO21_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO21_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO21_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO21_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO21_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO21_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO21_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO21_CTRL
+#define IO_BANK0_GPIO21_CTRL_OFFSET _u(0x000000ac)
+#define IO_BANK0_GPIO21_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO21_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO21_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO21_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO21_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO21_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO21_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO21_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO21_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_2
+//               0x05 -> siob_proc_21
+//               0x06 -> pio0_21
+//               0x07 -> pio1_21
+//               0x08 -> pio2_21
+//               0x09 -> clocks_gpout_0
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PWM_B_2 _u(0x04)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_SIOB_PROC_21 _u(0x05)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO0_21 _u(0x06)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO1_21 _u(0x07)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_PIO2_21 _u(0x08)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_0 _u(0x09)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO21_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO22_STATUS
+#define IO_BANK0_GPIO22_STATUS_OFFSET _u(0x000000b0)
+#define IO_BANK0_GPIO22_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO22_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO22_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO22_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO22_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO22_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO22_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO22_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO22_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO22_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO22_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO22_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO22_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO22_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO22_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO22_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO22_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO22_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO22_CTRL
+#define IO_BANK0_GPIO22_CTRL_OFFSET _u(0x000000b4)
+#define IO_BANK0_GPIO22_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO22_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO22_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO22_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO22_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO22_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO22_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO22_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO22_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_3
+//               0x05 -> siob_proc_22
+//               0x06 -> pio0_22
+//               0x07 -> pio1_22
+//               0x08 -> pio2_22
+//               0x09 -> clocks_gpin_1
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PWM_A_3 _u(0x04)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_SIOB_PROC_22 _u(0x05)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO0_22 _u(0x06)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO1_22 _u(0x07)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_PIO2_22 _u(0x08)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_CLOCKS_GPIN_1 _u(0x09)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO22_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO23_STATUS
+#define IO_BANK0_GPIO23_STATUS_OFFSET _u(0x000000b8)
+#define IO_BANK0_GPIO23_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO23_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO23_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO23_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO23_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO23_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO23_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO23_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO23_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO23_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO23_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO23_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO23_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO23_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO23_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO23_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO23_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO23_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO23_CTRL
+#define IO_BANK0_GPIO23_CTRL_OFFSET _u(0x000000bc)
+#define IO_BANK0_GPIO23_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO23_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO23_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO23_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO23_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO23_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO23_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO23_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO23_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_3
+//               0x05 -> siob_proc_23
+//               0x06 -> pio0_23
+//               0x07 -> pio1_23
+//               0x08 -> pio2_23
+//               0x09 -> clocks_gpout_1
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PWM_B_3 _u(0x04)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_SIOB_PROC_23 _u(0x05)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO0_23 _u(0x06)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO1_23 _u(0x07)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_PIO2_23 _u(0x08)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_1 _u(0x09)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO23_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO24_STATUS
+#define IO_BANK0_GPIO24_STATUS_OFFSET _u(0x000000c0)
+#define IO_BANK0_GPIO24_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO24_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO24_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO24_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO24_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO24_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO24_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO24_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO24_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO24_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO24_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO24_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO24_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO24_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO24_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO24_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO24_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO24_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO24_CTRL
+#define IO_BANK0_GPIO24_CTRL_OFFSET _u(0x000000c4)
+#define IO_BANK0_GPIO24_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO24_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO24_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO24_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO24_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO24_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO24_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO24_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO24_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_4
+//               0x05 -> siob_proc_24
+//               0x06 -> pio0_24
+//               0x07 -> pio1_24
+//               0x08 -> pio2_24
+//               0x09 -> clocks_gpout_2
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PWM_A_4 _u(0x04)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_SIOB_PROC_24 _u(0x05)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO0_24 _u(0x06)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO1_24 _u(0x07)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_PIO2_24 _u(0x08)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_2 _u(0x09)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO24_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO25_STATUS
+#define IO_BANK0_GPIO25_STATUS_OFFSET _u(0x000000c8)
+#define IO_BANK0_GPIO25_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO25_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO25_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO25_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO25_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO25_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO25_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO25_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO25_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO25_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO25_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO25_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO25_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO25_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO25_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO25_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO25_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO25_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO25_CTRL
+#define IO_BANK0_GPIO25_CTRL_OFFSET _u(0x000000cc)
+#define IO_BANK0_GPIO25_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO25_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO25_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO25_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO25_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO25_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO25_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO25_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO25_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_4
+//               0x05 -> siob_proc_25
+//               0x06 -> pio0_25
+//               0x07 -> pio1_25
+//               0x08 -> pio2_25
+//               0x09 -> clocks_gpout_3
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PWM_B_4 _u(0x04)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_SIOB_PROC_25 _u(0x05)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO0_25 _u(0x06)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO1_25 _u(0x07)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_PIO2_25 _u(0x08)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_CLOCKS_GPOUT_3 _u(0x09)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO25_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO26_STATUS
+#define IO_BANK0_GPIO26_STATUS_OFFSET _u(0x000000d0)
+#define IO_BANK0_GPIO26_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO26_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO26_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO26_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO26_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO26_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO26_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO26_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO26_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO26_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO26_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO26_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO26_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO26_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO26_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO26_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO26_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO26_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO26_CTRL
+#define IO_BANK0_GPIO26_CTRL_OFFSET _u(0x000000d4)
+#define IO_BANK0_GPIO26_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO26_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO26_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO26_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO26_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO26_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO26_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO26_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO26_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_5
+//               0x05 -> siob_proc_26
+//               0x06 -> pio0_26
+//               0x07 -> pio1_26
+//               0x08 -> pio2_26
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PWM_A_5 _u(0x04)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_SIOB_PROC_26 _u(0x05)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO0_26 _u(0x06)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO1_26 _u(0x07)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_PIO2_26 _u(0x08)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO26_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO27_STATUS
+#define IO_BANK0_GPIO27_STATUS_OFFSET _u(0x000000d8)
+#define IO_BANK0_GPIO27_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO27_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO27_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO27_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO27_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO27_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO27_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO27_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO27_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO27_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO27_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO27_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO27_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO27_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO27_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO27_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO27_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO27_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO27_CTRL
+#define IO_BANK0_GPIO27_CTRL_OFFSET _u(0x000000dc)
+#define IO_BANK0_GPIO27_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO27_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO27_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO27_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO27_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO27_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO27_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO27_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO27_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_5
+//               0x05 -> siob_proc_27
+//               0x06 -> pio0_27
+//               0x07 -> pio1_27
+//               0x08 -> pio2_27
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PWM_B_5 _u(0x04)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_SIOB_PROC_27 _u(0x05)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO0_27 _u(0x06)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO1_27 _u(0x07)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_PIO2_27 _u(0x08)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO27_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO28_STATUS
+#define IO_BANK0_GPIO28_STATUS_OFFSET _u(0x000000e0)
+#define IO_BANK0_GPIO28_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO28_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO28_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO28_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO28_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO28_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO28_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO28_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO28_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO28_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO28_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO28_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO28_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO28_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO28_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO28_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO28_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO28_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO28_CTRL
+#define IO_BANK0_GPIO28_CTRL_OFFSET _u(0x000000e4)
+#define IO_BANK0_GPIO28_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO28_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO28_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO28_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO28_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO28_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO28_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO28_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO28_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_6
+//               0x05 -> siob_proc_28
+//               0x06 -> pio0_28
+//               0x07 -> pio1_28
+//               0x08 -> pio2_28
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PWM_A_6 _u(0x04)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_SIOB_PROC_28 _u(0x05)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO0_28 _u(0x06)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO1_28 _u(0x07)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_PIO2_28 _u(0x08)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO28_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO29_STATUS
+#define IO_BANK0_GPIO29_STATUS_OFFSET _u(0x000000e8)
+#define IO_BANK0_GPIO29_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO29_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO29_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO29_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO29_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO29_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO29_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO29_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO29_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO29_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO29_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO29_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO29_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO29_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO29_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO29_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO29_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO29_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO29_CTRL
+#define IO_BANK0_GPIO29_CTRL_OFFSET _u(0x000000ec)
+#define IO_BANK0_GPIO29_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO29_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO29_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO29_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO29_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO29_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO29_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO29_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO29_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_6
+//               0x05 -> siob_proc_29
+//               0x06 -> pio0_29
+//               0x07 -> pio1_29
+//               0x08 -> pio2_29
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PWM_B_6 _u(0x04)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_SIOB_PROC_29 _u(0x05)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO0_29 _u(0x06)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO1_29 _u(0x07)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_PIO2_29 _u(0x08)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO29_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO30_STATUS
+#define IO_BANK0_GPIO30_STATUS_OFFSET _u(0x000000f0)
+#define IO_BANK0_GPIO30_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO30_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO30_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO30_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO30_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO30_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO30_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO30_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO30_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO30_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO30_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO30_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO30_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO30_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO30_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO30_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO30_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO30_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO30_CTRL
+#define IO_BANK0_GPIO30_CTRL_OFFSET _u(0x000000f4)
+#define IO_BANK0_GPIO30_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO30_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO30_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO30_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO30_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO30_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO30_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO30_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO30_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO30_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO30_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO30_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO30_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO30_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO30_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_7
+//               0x05 -> siob_proc_30
+//               0x06 -> pio0_30
+//               0x07 -> pio1_30
+//               0x08 -> pio2_30
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_PWM_A_7 _u(0x04)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_SIOB_PROC_30 _u(0x05)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_PIO0_30 _u(0x06)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_PIO1_30 _u(0x07)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_PIO2_30 _u(0x08)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO30_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO31_STATUS
+#define IO_BANK0_GPIO31_STATUS_OFFSET _u(0x000000f8)
+#define IO_BANK0_GPIO31_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO31_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO31_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO31_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO31_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO31_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO31_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO31_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO31_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO31_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO31_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO31_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO31_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO31_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO31_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO31_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO31_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO31_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO31_CTRL
+#define IO_BANK0_GPIO31_CTRL_OFFSET _u(0x000000fc)
+#define IO_BANK0_GPIO31_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO31_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO31_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO31_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO31_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO31_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO31_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO31_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO31_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO31_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO31_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO31_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO31_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO31_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO31_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_7
+//               0x05 -> siob_proc_31
+//               0x06 -> pio0_31
+//               0x07 -> pio1_31
+//               0x08 -> pio2_31
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_PWM_B_7 _u(0x04)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_SIOB_PROC_31 _u(0x05)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_PIO0_31 _u(0x06)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_PIO1_31 _u(0x07)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_PIO2_31 _u(0x08)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO31_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO32_STATUS
+#define IO_BANK0_GPIO32_STATUS_OFFSET _u(0x00000100)
+#define IO_BANK0_GPIO32_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO32_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO32_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO32_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO32_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO32_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO32_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO32_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO32_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO32_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO32_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO32_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO32_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO32_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO32_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO32_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO32_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO32_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO32_CTRL
+#define IO_BANK0_GPIO32_CTRL_OFFSET _u(0x00000104)
+#define IO_BANK0_GPIO32_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO32_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO32_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO32_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO32_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO32_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO32_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO32_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO32_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO32_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO32_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO32_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO32_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO32_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO32_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_8
+//               0x05 -> siob_proc_32
+//               0x06 -> pio0_32
+//               0x07 -> pio1_32
+//               0x08 -> pio2_32
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_PWM_A_8 _u(0x04)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_SIOB_PROC_32 _u(0x05)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_PIO0_32 _u(0x06)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_PIO1_32 _u(0x07)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_PIO2_32 _u(0x08)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO32_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO33_STATUS
+#define IO_BANK0_GPIO33_STATUS_OFFSET _u(0x00000108)
+#define IO_BANK0_GPIO33_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO33_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO33_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO33_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO33_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO33_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO33_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO33_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO33_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO33_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO33_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO33_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO33_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO33_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO33_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO33_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO33_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO33_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO33_CTRL
+#define IO_BANK0_GPIO33_CTRL_OFFSET _u(0x0000010c)
+#define IO_BANK0_GPIO33_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO33_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO33_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO33_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO33_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO33_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO33_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO33_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO33_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO33_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO33_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO33_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO33_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO33_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO33_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_8
+//               0x05 -> siob_proc_33
+//               0x06 -> pio0_33
+//               0x07 -> pio1_33
+//               0x08 -> pio2_33
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_PWM_B_8 _u(0x04)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_SIOB_PROC_33 _u(0x05)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_PIO0_33 _u(0x06)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_PIO1_33 _u(0x07)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_PIO2_33 _u(0x08)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO33_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO34_STATUS
+#define IO_BANK0_GPIO34_STATUS_OFFSET _u(0x00000110)
+#define IO_BANK0_GPIO34_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO34_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO34_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO34_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO34_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO34_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO34_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO34_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO34_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO34_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO34_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO34_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO34_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO34_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO34_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO34_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO34_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO34_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO34_CTRL
+#define IO_BANK0_GPIO34_CTRL_OFFSET _u(0x00000114)
+#define IO_BANK0_GPIO34_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO34_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO34_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO34_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO34_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO34_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO34_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO34_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO34_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO34_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO34_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO34_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO34_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO34_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO34_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_9
+//               0x05 -> siob_proc_34
+//               0x06 -> pio0_34
+//               0x07 -> pio1_34
+//               0x08 -> pio2_34
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_PWM_A_9 _u(0x04)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_SIOB_PROC_34 _u(0x05)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_PIO0_34 _u(0x06)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_PIO1_34 _u(0x07)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_PIO2_34 _u(0x08)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO34_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO35_STATUS
+#define IO_BANK0_GPIO35_STATUS_OFFSET _u(0x00000118)
+#define IO_BANK0_GPIO35_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO35_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO35_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO35_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO35_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO35_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO35_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO35_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO35_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO35_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO35_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO35_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO35_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO35_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO35_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO35_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO35_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO35_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO35_CTRL
+#define IO_BANK0_GPIO35_CTRL_OFFSET _u(0x0000011c)
+#define IO_BANK0_GPIO35_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO35_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO35_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO35_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO35_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO35_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO35_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO35_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO35_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO35_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO35_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO35_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO35_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO35_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO35_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_9
+//               0x05 -> siob_proc_35
+//               0x06 -> pio0_35
+//               0x07 -> pio1_35
+//               0x08 -> pio2_35
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_PWM_B_9 _u(0x04)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_SIOB_PROC_35 _u(0x05)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_PIO0_35 _u(0x06)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_PIO1_35 _u(0x07)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_PIO2_35 _u(0x08)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO35_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO36_STATUS
+#define IO_BANK0_GPIO36_STATUS_OFFSET _u(0x00000120)
+#define IO_BANK0_GPIO36_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO36_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO36_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO36_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO36_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO36_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO36_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO36_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO36_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO36_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO36_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO36_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO36_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO36_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO36_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO36_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO36_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO36_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO36_CTRL
+#define IO_BANK0_GPIO36_CTRL_OFFSET _u(0x00000124)
+#define IO_BANK0_GPIO36_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO36_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO36_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO36_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO36_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO36_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO36_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO36_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO36_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO36_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO36_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO36_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO36_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO36_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO36_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_10
+//               0x05 -> siob_proc_36
+//               0x06 -> pio0_36
+//               0x07 -> pio1_36
+//               0x08 -> pio2_36
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_SPI0_RX _u(0x01)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_PWM_A_10 _u(0x04)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_SIOB_PROC_36 _u(0x05)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_PIO0_36 _u(0x06)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_PIO1_36 _u(0x07)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_PIO2_36 _u(0x08)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO36_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO37_STATUS
+#define IO_BANK0_GPIO37_STATUS_OFFSET _u(0x00000128)
+#define IO_BANK0_GPIO37_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO37_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO37_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO37_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO37_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO37_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO37_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO37_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO37_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO37_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO37_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO37_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO37_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO37_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO37_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO37_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO37_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO37_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO37_CTRL
+#define IO_BANK0_GPIO37_CTRL_OFFSET _u(0x0000012c)
+#define IO_BANK0_GPIO37_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO37_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO37_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO37_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO37_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO37_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO37_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO37_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO37_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO37_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO37_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO37_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO37_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO37_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO37_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_10
+//               0x05 -> siob_proc_37
+//               0x06 -> pio0_37
+//               0x07 -> pio1_37
+//               0x08 -> pio2_37
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_SPI0_SS_N _u(0x01)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_PWM_B_10 _u(0x04)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_SIOB_PROC_37 _u(0x05)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_PIO0_37 _u(0x06)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_PIO1_37 _u(0x07)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_PIO2_37 _u(0x08)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO37_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO38_STATUS
+#define IO_BANK0_GPIO38_STATUS_OFFSET _u(0x00000130)
+#define IO_BANK0_GPIO38_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO38_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO38_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO38_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO38_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO38_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO38_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO38_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO38_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO38_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO38_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO38_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO38_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO38_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO38_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO38_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO38_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO38_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO38_CTRL
+#define IO_BANK0_GPIO38_CTRL_OFFSET _u(0x00000134)
+#define IO_BANK0_GPIO38_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO38_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO38_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO38_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO38_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO38_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO38_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO38_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO38_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO38_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO38_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO38_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO38_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO38_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO38_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_11
+//               0x05 -> siob_proc_38
+//               0x06 -> pio0_38
+//               0x07 -> pio1_38
+//               0x08 -> pio2_38
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_SPI0_SCLK _u(0x01)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_PWM_A_11 _u(0x04)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_SIOB_PROC_38 _u(0x05)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_PIO0_38 _u(0x06)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_PIO1_38 _u(0x07)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_PIO2_38 _u(0x08)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO38_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO39_STATUS
+#define IO_BANK0_GPIO39_STATUS_OFFSET _u(0x00000138)
+#define IO_BANK0_GPIO39_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO39_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO39_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO39_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO39_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO39_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO39_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO39_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO39_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO39_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO39_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO39_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO39_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO39_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO39_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO39_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO39_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO39_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO39_CTRL
+#define IO_BANK0_GPIO39_CTRL_OFFSET _u(0x0000013c)
+#define IO_BANK0_GPIO39_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO39_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO39_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO39_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO39_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO39_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO39_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO39_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO39_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO39_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO39_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO39_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO39_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO39_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO39_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi0_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_11
+//               0x05 -> siob_proc_39
+//               0x06 -> pio0_39
+//               0x07 -> pio1_39
+//               0x08 -> pio2_39
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_SPI0_TX _u(0x01)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_PWM_B_11 _u(0x04)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_SIOB_PROC_39 _u(0x05)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_PIO0_39 _u(0x06)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_PIO1_39 _u(0x07)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_PIO2_39 _u(0x08)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO39_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO40_STATUS
+#define IO_BANK0_GPIO40_STATUS_OFFSET _u(0x00000140)
+#define IO_BANK0_GPIO40_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO40_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO40_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO40_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO40_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO40_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO40_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO40_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO40_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO40_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO40_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO40_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO40_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO40_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO40_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO40_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO40_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO40_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO40_CTRL
+#define IO_BANK0_GPIO40_CTRL_OFFSET _u(0x00000144)
+#define IO_BANK0_GPIO40_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO40_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO40_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO40_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO40_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO40_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO40_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO40_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO40_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO40_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO40_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO40_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO40_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO40_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO40_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_rx
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_8
+//               0x05 -> siob_proc_40
+//               0x06 -> pio0_40
+//               0x07 -> pio1_40
+//               0x08 -> pio2_40
+//               0x0a -> usb_muxing_vbus_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_PWM_A_8 _u(0x04)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_SIOB_PROC_40 _u(0x05)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_PIO0_40 _u(0x06)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_PIO1_40 _u(0x07)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_PIO2_40 _u(0x08)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO40_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO41_STATUS
+#define IO_BANK0_GPIO41_STATUS_OFFSET _u(0x00000148)
+#define IO_BANK0_GPIO41_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO41_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO41_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO41_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO41_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO41_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO41_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO41_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO41_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO41_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO41_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO41_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO41_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO41_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO41_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO41_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO41_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO41_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO41_CTRL
+#define IO_BANK0_GPIO41_CTRL_OFFSET _u(0x0000014c)
+#define IO_BANK0_GPIO41_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO41_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO41_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO41_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO41_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO41_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO41_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO41_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO41_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO41_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO41_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO41_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO41_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO41_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO41_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_8
+//               0x05 -> siob_proc_41
+//               0x06 -> pio0_41
+//               0x07 -> pio1_41
+//               0x08 -> pio2_41
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_PWM_B_8 _u(0x04)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_SIOB_PROC_41 _u(0x05)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_PIO0_41 _u(0x06)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_PIO1_41 _u(0x07)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_PIO2_41 _u(0x08)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO41_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO42_STATUS
+#define IO_BANK0_GPIO42_STATUS_OFFSET _u(0x00000150)
+#define IO_BANK0_GPIO42_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO42_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO42_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO42_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO42_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO42_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO42_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO42_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO42_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO42_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO42_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO42_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO42_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO42_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO42_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO42_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO42_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO42_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO42_CTRL
+#define IO_BANK0_GPIO42_CTRL_OFFSET _u(0x00000154)
+#define IO_BANK0_GPIO42_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO42_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO42_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO42_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO42_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO42_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO42_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO42_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO42_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO42_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO42_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO42_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO42_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO42_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO42_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_9
+//               0x05 -> siob_proc_42
+//               0x06 -> pio0_42
+//               0x07 -> pio1_42
+//               0x08 -> pio2_42
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_PWM_A_9 _u(0x04)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_SIOB_PROC_42 _u(0x05)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_PIO0_42 _u(0x06)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_PIO1_42 _u(0x07)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_PIO2_42 _u(0x08)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_BANK0_GPIO42_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO43_STATUS
+#define IO_BANK0_GPIO43_STATUS_OFFSET _u(0x00000158)
+#define IO_BANK0_GPIO43_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO43_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO43_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO43_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO43_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO43_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO43_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO43_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO43_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO43_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO43_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO43_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO43_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO43_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO43_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO43_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO43_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO43_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO43_CTRL
+#define IO_BANK0_GPIO43_CTRL_OFFSET _u(0x0000015c)
+#define IO_BANK0_GPIO43_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO43_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO43_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO43_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO43_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO43_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO43_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO43_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO43_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO43_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO43_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO43_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO43_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO43_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO43_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_tx
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_9
+//               0x05 -> siob_proc_43
+//               0x06 -> pio0_43
+//               0x07 -> pio1_43
+//               0x08 -> pio2_43
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_PWM_B_9 _u(0x04)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_SIOB_PROC_43 _u(0x05)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_PIO0_43 _u(0x06)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_PIO1_43 _u(0x07)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_PIO2_43 _u(0x08)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_BANK0_GPIO43_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO44_STATUS
+#define IO_BANK0_GPIO44_STATUS_OFFSET _u(0x00000160)
+#define IO_BANK0_GPIO44_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO44_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO44_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO44_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO44_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO44_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO44_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO44_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO44_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO44_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO44_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO44_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO44_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO44_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO44_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO44_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO44_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO44_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO44_CTRL
+#define IO_BANK0_GPIO44_CTRL_OFFSET _u(0x00000164)
+#define IO_BANK0_GPIO44_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO44_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO44_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO44_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO44_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO44_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO44_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO44_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO44_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO44_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO44_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO44_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO44_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO44_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO44_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_rx
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x04 -> pwm_a_10
+//               0x05 -> siob_proc_44
+//               0x06 -> pio0_44
+//               0x07 -> pio1_44
+//               0x08 -> pio2_44
+//               0x0a -> usb_muxing_vbus_en
+//               0x1f -> null
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_SPI1_RX _u(0x01)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_PWM_A_10 _u(0x04)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_SIOB_PROC_44 _u(0x05)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_PIO0_44 _u(0x06)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_PIO1_44 _u(0x07)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_PIO2_44 _u(0x08)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO44_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO45_STATUS
+#define IO_BANK0_GPIO45_STATUS_OFFSET _u(0x00000168)
+#define IO_BANK0_GPIO45_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO45_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO45_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO45_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO45_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO45_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO45_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO45_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO45_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO45_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO45_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO45_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO45_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO45_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO45_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO45_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO45_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO45_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO45_CTRL
+#define IO_BANK0_GPIO45_CTRL_OFFSET _u(0x0000016c)
+#define IO_BANK0_GPIO45_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO45_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO45_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO45_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO45_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO45_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO45_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO45_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO45_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO45_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO45_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO45_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO45_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO45_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO45_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_ss_n
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x04 -> pwm_b_10
+//               0x05 -> siob_proc_45
+//               0x06 -> pio0_45
+//               0x07 -> pio1_45
+//               0x08 -> pio2_45
+//               0x0a -> usb_muxing_overcurr_detect
+//               0x1f -> null
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_SPI1_SS_N _u(0x01)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_PWM_B_10 _u(0x04)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_SIOB_PROC_45 _u(0x05)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_PIO0_45 _u(0x06)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_PIO1_45 _u(0x07)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_PIO2_45 _u(0x08)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_USB_MUXING_OVERCURR_DETECT _u(0x0a)
+#define IO_BANK0_GPIO45_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO46_STATUS
+#define IO_BANK0_GPIO46_STATUS_OFFSET _u(0x00000170)
+#define IO_BANK0_GPIO46_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO46_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO46_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO46_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO46_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO46_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO46_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO46_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO46_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO46_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO46_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO46_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO46_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO46_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO46_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO46_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO46_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO46_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO46_CTRL
+#define IO_BANK0_GPIO46_CTRL_OFFSET _u(0x00000174)
+#define IO_BANK0_GPIO46_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO46_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO46_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO46_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO46_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO46_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO46_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO46_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO46_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO46_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO46_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO46_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO46_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO46_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO46_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_sclk
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x04 -> pwm_a_11
+//               0x05 -> siob_proc_46
+//               0x06 -> pio0_46
+//               0x07 -> pio1_46
+//               0x08 -> pio2_46
+//               0x0a -> usb_muxing_vbus_detect
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_SPI1_SCLK _u(0x01)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_PWM_A_11 _u(0x04)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_SIOB_PROC_46 _u(0x05)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_PIO0_46 _u(0x06)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_PIO1_46 _u(0x07)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_PIO2_46 _u(0x08)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_DETECT _u(0x0a)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_BANK0_GPIO46_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_GPIO47_STATUS
+#define IO_BANK0_GPIO47_STATUS_OFFSET _u(0x00000178)
+#define IO_BANK0_GPIO47_STATUS_BITS   _u(0x04022200)
+#define IO_BANK0_GPIO47_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_BANK0_GPIO47_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_BANK0_GPIO47_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_BANK0_GPIO47_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_BANK0_GPIO47_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_BANK0_GPIO47_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_BANK0_GPIO47_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_BANK0_GPIO47_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_BANK0_GPIO47_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_BANK0_GPIO47_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_BANK0_GPIO47_STATUS_OETOPAD_MSB    _u(13)
+#define IO_BANK0_GPIO47_STATUS_OETOPAD_LSB    _u(13)
+#define IO_BANK0_GPIO47_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_BANK0_GPIO47_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_BANK0_GPIO47_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_BANK0_GPIO47_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_BANK0_GPIO47_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_GPIO47_CTRL
+#define IO_BANK0_GPIO47_CTRL_OFFSET _u(0x0000017c)
+#define IO_BANK0_GPIO47_CTRL_BITS   _u(0x3003f01f)
+#define IO_BANK0_GPIO47_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_MSB    _u(29)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_LSB    _u(28)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_ACCESS "RW"
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO47_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_BANK0_GPIO47_CTRL_INOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_BANK0_GPIO47_CTRL_INOVER_MSB    _u(17)
+#define IO_BANK0_GPIO47_CTRL_INOVER_LSB    _u(16)
+#define IO_BANK0_GPIO47_CTRL_INOVER_ACCESS "RW"
+#define IO_BANK0_GPIO47_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO47_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO47_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_BANK0_GPIO47_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_MSB    _u(15)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_LSB    _u(14)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_ACCESS "RW"
+#define IO_BANK0_GPIO47_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_BANK0_GPIO47_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_MSB    _u(13)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_LSB    _u(12)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_ACCESS "RW"
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_BANK0_GPIO47_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_GPIO47_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x01 -> spi1_tx
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x04 -> pwm_b_11
+//               0x05 -> siob_proc_47
+//               0x06 -> pio0_47
+//               0x07 -> pio1_47
+//               0x08 -> pio2_47
+//               0x09 -> xip_ss_n_1
+//               0x0a -> usb_muxing_vbus_en
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_SPI1_TX _u(0x01)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_PWM_B_11 _u(0x04)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_SIOB_PROC_47 _u(0x05)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_PIO0_47 _u(0x06)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_PIO1_47 _u(0x07)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_PIO2_47 _u(0x08)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_XIP_SS_N_1 _u(0x09)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_USB_MUXING_VBUS_EN _u(0x0a)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_BANK0_GPIO47_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC0_SECURE0
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_OFFSET _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC0_SECURE1
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_OFFSET _u(0x00000204)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_SECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_OFFSET _u(0x00000208)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_OFFSET _u(0x0000020c)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC0_NONSECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC1_SECURE0
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_OFFSET _u(0x00000210)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC1_SECURE1
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_OFFSET _u(0x00000214)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_SECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_OFFSET _u(0x00000218)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_OFFSET _u(0x0000021c)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_PROC1_NONSECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_OFFSET _u(0x00000220)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_OFFSET _u(0x00000224)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_OFFSET _u(0x00000228)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_BITS   _u(0xffffffff)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31_BITS   _u(0x80000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31_MSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31_LSB    _u(31)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO31_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30_BITS   _u(0x40000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30_MSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30_LSB    _u(30)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO30_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29_BITS   _u(0x20000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29_MSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29_LSB    _u(29)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO29_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28_BITS   _u(0x10000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28_MSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28_LSB    _u(28)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO28_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27_BITS   _u(0x08000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27_MSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27_LSB    _u(27)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO27_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26_BITS   _u(0x04000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26_MSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26_LSB    _u(26)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO26_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25_BITS   _u(0x02000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25_MSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25_LSB    _u(25)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO25_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24_BITS   _u(0x01000000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24_MSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24_LSB    _u(24)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO24_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23_BITS   _u(0x00800000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23_MSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23_LSB    _u(23)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO23_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22_BITS   _u(0x00400000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22_MSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22_LSB    _u(22)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO22_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21_BITS   _u(0x00200000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21_MSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21_LSB    _u(21)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO21_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20_BITS   _u(0x00100000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20_MSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20_LSB    _u(20)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO20_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19_BITS   _u(0x00080000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19_MSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19_LSB    _u(19)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO19_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18_BITS   _u(0x00040000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18_MSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18_LSB    _u(18)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO18_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17_BITS   _u(0x00020000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17_MSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17_LSB    _u(17)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO17_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16_BITS   _u(0x00010000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16_MSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16_LSB    _u(16)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO15_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO14_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO12_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_GPIO0_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_OFFSET _u(0x0000022c)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_BITS   _u(0x0000ffff)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47_BITS   _u(0x00008000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47_MSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47_LSB    _u(15)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO47_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46_BITS   _u(0x00004000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46_MSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46_LSB    _u(14)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO46_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45_BITS   _u(0x00002000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45_MSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45_LSB    _u(13)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO45_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44_BITS   _u(0x00001000)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44_MSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44_LSB    _u(12)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO44_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43_BITS   _u(0x00000800)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43_MSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43_LSB    _u(11)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO43_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42_BITS   _u(0x00000400)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42_MSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42_LSB    _u(10)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO42_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41_BITS   _u(0x00000200)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41_MSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41_LSB    _u(9)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO41_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40_BITS   _u(0x00000100)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40_MSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40_LSB    _u(8)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO40_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39_BITS   _u(0x00000080)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39_MSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39_LSB    _u(7)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO39_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38_BITS   _u(0x00000040)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38_MSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38_LSB    _u(6)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO38_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37_BITS   _u(0x00000020)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37_MSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37_LSB    _u(5)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO37_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36_BITS   _u(0x00000010)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36_MSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36_LSB    _u(4)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO36_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35_BITS   _u(0x00000008)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35_MSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35_LSB    _u(3)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO35_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34_BITS   _u(0x00000004)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34_MSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34_LSB    _u(2)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO34_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33_BITS   _u(0x00000002)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33_MSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33_LSB    _u(1)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO33_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32_RESET  _u(0x0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32_BITS   _u(0x00000001)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32_MSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32_LSB    _u(0)
+#define IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE1_GPIO32_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR0
+// Description : Raw Interrupts
+#define IO_BANK0_INTR0_OFFSET _u(0x00000230)
+#define IO_BANK0_INTR0_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO7_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR0_GPIO7_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO7_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR0_GPIO7_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO7_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR0_GPIO7_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO6_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR0_GPIO6_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO6_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR0_GPIO6_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO6_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR0_GPIO6_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO5_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR0_GPIO5_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO5_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR0_GPIO5_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO5_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR0_GPIO5_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO4_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR0_GPIO4_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO4_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR0_GPIO4_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO4_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR0_GPIO4_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO3_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR0_GPIO3_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO3_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR0_GPIO3_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO3_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR0_GPIO3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO2_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR0_GPIO2_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO2_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR0_GPIO2_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO2_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR0_GPIO2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO1_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR0_GPIO1_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO1_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR0_GPIO1_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO1_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR0_GPIO1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO0_EDGE_HIGH
+#define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR0_GPIO0_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO0_EDGE_LOW
+#define IO_BANK0_INTR0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR0_GPIO0_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR0_GPIO0_LEVEL_LOW
+#define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR0_GPIO0_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR1
+// Description : Raw Interrupts
+#define IO_BANK0_INTR1_OFFSET _u(0x00000234)
+#define IO_BANK0_INTR1_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO15_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR1_GPIO15_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO15_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR1_GPIO15_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO15_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR1_GPIO15_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO14_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR1_GPIO14_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO14_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR1_GPIO14_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO14_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR1_GPIO14_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO13_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR1_GPIO13_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO13_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR1_GPIO13_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO13_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR1_GPIO13_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO12_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR1_GPIO12_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO12_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR1_GPIO12_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO12_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR1_GPIO12_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO11_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR1_GPIO11_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO11_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR1_GPIO11_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO11_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR1_GPIO11_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO10_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR1_GPIO10_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO10_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR1_GPIO10_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO10_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR1_GPIO10_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO9_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR1_GPIO9_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO9_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR1_GPIO9_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO9_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR1_GPIO9_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO8_EDGE_HIGH
+#define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR1_GPIO8_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO8_EDGE_LOW
+#define IO_BANK0_INTR1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR1_GPIO8_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR1_GPIO8_LEVEL_LOW
+#define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR1_GPIO8_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR2
+// Description : Raw Interrupts
+#define IO_BANK0_INTR2_OFFSET _u(0x00000238)
+#define IO_BANK0_INTR2_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO23_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR2_GPIO23_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO23_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR2_GPIO23_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO23_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR2_GPIO23_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO22_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR2_GPIO22_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO22_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR2_GPIO22_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO22_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR2_GPIO22_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO21_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR2_GPIO21_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO21_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR2_GPIO21_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO21_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR2_GPIO21_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO20_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR2_GPIO20_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO20_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR2_GPIO20_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO20_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR2_GPIO20_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO19_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR2_GPIO19_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO19_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR2_GPIO19_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO19_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR2_GPIO19_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO18_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR2_GPIO18_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO18_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR2_GPIO18_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO18_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR2_GPIO18_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO17_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR2_GPIO17_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO17_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR2_GPIO17_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO17_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR2_GPIO17_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO16_EDGE_HIGH
+#define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR2_GPIO16_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO16_EDGE_LOW
+#define IO_BANK0_INTR2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR2_GPIO16_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR2_GPIO16_LEVEL_LOW
+#define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR2_GPIO16_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR3
+// Description : Raw Interrupts
+#define IO_BANK0_INTR3_OFFSET _u(0x0000023c)
+#define IO_BANK0_INTR3_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO31_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR3_GPIO31_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO31_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR3_GPIO31_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO31_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR3_GPIO31_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO30_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR3_GPIO30_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO30_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR3_GPIO30_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO30_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR3_GPIO30_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO29_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR3_GPIO29_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO29_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR3_GPIO29_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO29_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR3_GPIO29_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO28_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR3_GPIO28_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO28_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR3_GPIO28_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO28_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR3_GPIO28_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO27_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR3_GPIO27_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO27_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR3_GPIO27_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO27_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR3_GPIO27_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO26_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR3_GPIO26_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO26_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR3_GPIO26_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO26_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR3_GPIO26_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO25_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR3_GPIO25_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO25_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR3_GPIO25_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO25_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR3_GPIO25_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO24_EDGE_HIGH
+#define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR3_GPIO24_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO24_EDGE_LOW
+#define IO_BANK0_INTR3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR3_GPIO24_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR3_GPIO24_LEVEL_LOW
+#define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR3_GPIO24_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR4
+// Description : Raw Interrupts
+#define IO_BANK0_INTR4_OFFSET _u(0x00000240)
+#define IO_BANK0_INTR4_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO39_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR4_GPIO39_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO39_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR4_GPIO39_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO39_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR4_GPIO39_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO38_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR4_GPIO38_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO38_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR4_GPIO38_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO38_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR4_GPIO38_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO37_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR4_GPIO37_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO37_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR4_GPIO37_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO37_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR4_GPIO37_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO36_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR4_GPIO36_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO36_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR4_GPIO36_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO36_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR4_GPIO36_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO35_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR4_GPIO35_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO35_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR4_GPIO35_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO35_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR4_GPIO35_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO34_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR4_GPIO34_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO34_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR4_GPIO34_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO34_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR4_GPIO34_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO33_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR4_GPIO33_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO33_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR4_GPIO33_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO33_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR4_GPIO33_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO32_EDGE_HIGH
+#define IO_BANK0_INTR4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR4_GPIO32_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO32_EDGE_LOW
+#define IO_BANK0_INTR4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR4_GPIO32_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_INTR4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR4_GPIO32_LEVEL_LOW
+#define IO_BANK0_INTR4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR4_GPIO32_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_INTR5
+// Description : Raw Interrupts
+#define IO_BANK0_INTR5_OFFSET _u(0x00000244)
+#define IO_BANK0_INTR5_BITS   _u(0xffffffff)
+#define IO_BANK0_INTR5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO47_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_INTR5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_INTR5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_INTR5_GPIO47_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO47_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_INTR5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_INTR5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_INTR5_GPIO47_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO47_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_INTR5_GPIO47_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO46_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_INTR5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_INTR5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_INTR5_GPIO46_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO46_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_INTR5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_INTR5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_INTR5_GPIO46_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO46_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_INTR5_GPIO46_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO45_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_INTR5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_INTR5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_INTR5_GPIO45_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO45_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_INTR5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_INTR5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_INTR5_GPIO45_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO45_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_INTR5_GPIO45_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO44_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_INTR5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_INTR5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_INTR5_GPIO44_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO44_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_INTR5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_INTR5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_INTR5_GPIO44_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO44_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_INTR5_GPIO44_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO43_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_INTR5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_INTR5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_INTR5_GPIO43_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO43_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_INTR5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_INTR5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_INTR5_GPIO43_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO43_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_INTR5_GPIO43_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO42_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_INTR5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_INTR5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_INTR5_GPIO42_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO42_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_INTR5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_INTR5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_INTR5_GPIO42_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO42_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_INTR5_GPIO42_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO41_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_INTR5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_INTR5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_INTR5_GPIO41_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO41_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_INTR5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_INTR5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_INTR5_GPIO41_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO41_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_INTR5_GPIO41_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO40_EDGE_HIGH
+#define IO_BANK0_INTR5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_INTR5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_INTR5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_INTR5_GPIO40_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO40_EDGE_LOW
+#define IO_BANK0_INTR5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_INTR5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_INTR5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_INTR5_GPIO40_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_INTR5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_INTR5_GPIO40_LEVEL_LOW
+#define IO_BANK0_INTR5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_INTR5_GPIO40_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE0
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE0_OFFSET _u(0x00000248)
+#define IO_BANK0_PROC0_INTE0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE1
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE1_OFFSET _u(0x0000024c)
+#define IO_BANK0_PROC0_INTE1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE2
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE2_OFFSET _u(0x00000250)
+#define IO_BANK0_PROC0_INTE2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE3
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE3_OFFSET _u(0x00000254)
+#define IO_BANK0_PROC0_INTE3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE4
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE4_OFFSET _u(0x00000258)
+#define IO_BANK0_PROC0_INTE4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTE5
+// Description : Interrupt Enable for proc0
+#define IO_BANK0_PROC0_INTE5_OFFSET _u(0x0000025c)
+#define IO_BANK0_PROC0_INTE5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTE5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTE5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTE5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTE5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTE5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTE5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTE5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTE5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTE5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTE5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTE5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTE5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTE5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTE5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTE5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTE5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTE5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF0
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF0_OFFSET _u(0x00000260)
+#define IO_BANK0_PROC0_INTF0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF1
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF1_OFFSET _u(0x00000264)
+#define IO_BANK0_PROC0_INTF1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF2
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF2_OFFSET _u(0x00000268)
+#define IO_BANK0_PROC0_INTF2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF3
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF3_OFFSET _u(0x0000026c)
+#define IO_BANK0_PROC0_INTF3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF4
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF4_OFFSET _u(0x00000270)
+#define IO_BANK0_PROC0_INTF4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTF5
+// Description : Interrupt Force for proc0
+#define IO_BANK0_PROC0_INTF5_OFFSET _u(0x00000274)
+#define IO_BANK0_PROC0_INTF5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTF5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTF5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTF5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTF5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTF5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTF5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTF5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTF5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTF5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTF5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTF5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTF5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTF5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTF5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTF5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTF5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTF5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS0
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS0_OFFSET _u(0x00000278)
+#define IO_BANK0_PROC0_INTS0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS0_GPIO0_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS1
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS1_OFFSET _u(0x0000027c)
+#define IO_BANK0_PROC0_INTS1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS1_GPIO8_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS2
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS2_OFFSET _u(0x00000280)
+#define IO_BANK0_PROC0_INTS2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS2_GPIO16_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS3
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS3_OFFSET _u(0x00000284)
+#define IO_BANK0_PROC0_INTS3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS3_GPIO31_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS3_GPIO31_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS3_GPIO30_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS3_GPIO30_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS3_GPIO24_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS4
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS4_OFFSET _u(0x00000288)
+#define IO_BANK0_PROC0_INTS4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS4_GPIO39_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS4_GPIO39_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS4_GPIO38_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS4_GPIO38_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS4_GPIO37_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS4_GPIO37_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS4_GPIO36_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS4_GPIO36_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS4_GPIO35_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS4_GPIO35_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS4_GPIO34_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS4_GPIO34_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS4_GPIO33_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS4_GPIO33_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS4_GPIO32_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS4_GPIO32_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC0_INTS5
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_BANK0_PROC0_INTS5_OFFSET _u(0x0000028c)
+#define IO_BANK0_PROC0_INTS5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC0_INTS5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC0_INTS5_GPIO47_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC0_INTS5_GPIO47_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC0_INTS5_GPIO46_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC0_INTS5_GPIO46_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC0_INTS5_GPIO45_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC0_INTS5_GPIO45_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC0_INTS5_GPIO44_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC0_INTS5_GPIO44_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC0_INTS5_GPIO43_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC0_INTS5_GPIO43_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC0_INTS5_GPIO42_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC0_INTS5_GPIO42_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC0_INTS5_GPIO41_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC0_INTS5_GPIO41_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC0_INTS5_GPIO40_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC0_INTS5_GPIO40_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE0
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE0_OFFSET _u(0x00000290)
+#define IO_BANK0_PROC1_INTE0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE1
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE1_OFFSET _u(0x00000294)
+#define IO_BANK0_PROC1_INTE1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE2
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE2_OFFSET _u(0x00000298)
+#define IO_BANK0_PROC1_INTE2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE3
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE3_OFFSET _u(0x0000029c)
+#define IO_BANK0_PROC1_INTE3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE4
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE4_OFFSET _u(0x000002a0)
+#define IO_BANK0_PROC1_INTE4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTE5
+// Description : Interrupt Enable for proc1
+#define IO_BANK0_PROC1_INTE5_OFFSET _u(0x000002a4)
+#define IO_BANK0_PROC1_INTE5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTE5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTE5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTE5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTE5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTE5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTE5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTE5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTE5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTE5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTE5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTE5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTE5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTE5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTE5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTE5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTE5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTE5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF0
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF0_OFFSET _u(0x000002a8)
+#define IO_BANK0_PROC1_INTF0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF1
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF1_OFFSET _u(0x000002ac)
+#define IO_BANK0_PROC1_INTF1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF2
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF2_OFFSET _u(0x000002b0)
+#define IO_BANK0_PROC1_INTF2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF3
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF3_OFFSET _u(0x000002b4)
+#define IO_BANK0_PROC1_INTF3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF4
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF4_OFFSET _u(0x000002b8)
+#define IO_BANK0_PROC1_INTF4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTF5
+// Description : Interrupt Force for proc1
+#define IO_BANK0_PROC1_INTF5_OFFSET _u(0x000002bc)
+#define IO_BANK0_PROC1_INTF5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTF5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTF5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTF5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTF5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTF5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTF5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTF5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTF5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTF5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTF5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTF5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTF5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTF5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTF5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTF5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTF5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTF5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS0
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS0_OFFSET _u(0x000002c0)
+#define IO_BANK0_PROC1_INTS0_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS0_GPIO0_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS1
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS1_OFFSET _u(0x000002c4)
+#define IO_BANK0_PROC1_INTS1_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS1_GPIO8_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS2
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS2_OFFSET _u(0x000002c8)
+#define IO_BANK0_PROC1_INTS2_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS2_GPIO16_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS3
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS3_OFFSET _u(0x000002cc)
+#define IO_BANK0_PROC1_INTS3_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS3_GPIO31_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS3_GPIO31_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS3_GPIO30_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS3_GPIO30_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS3_GPIO24_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS4
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS4_OFFSET _u(0x000002d0)
+#define IO_BANK0_PROC1_INTS4_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS4_GPIO39_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS4_GPIO39_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS4_GPIO38_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS4_GPIO38_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS4_GPIO37_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS4_GPIO37_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS4_GPIO36_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS4_GPIO36_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS4_GPIO35_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS4_GPIO35_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS4_GPIO34_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS4_GPIO34_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS4_GPIO33_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS4_GPIO33_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS4_GPIO32_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS4_GPIO32_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_PROC1_INTS5
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_BANK0_PROC1_INTS5_OFFSET _u(0x000002d4)
+#define IO_BANK0_PROC1_INTS5_BITS   _u(0xffffffff)
+#define IO_BANK0_PROC1_INTS5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_PROC1_INTS5_GPIO47_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_PROC1_INTS5_GPIO47_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_PROC1_INTS5_GPIO46_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_PROC1_INTS5_GPIO46_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_PROC1_INTS5_GPIO45_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_PROC1_INTS5_GPIO45_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_PROC1_INTS5_GPIO44_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_PROC1_INTS5_GPIO44_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_PROC1_INTS5_GPIO43_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_PROC1_INTS5_GPIO43_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_PROC1_INTS5_GPIO42_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_PROC1_INTS5_GPIO42_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_PROC1_INTS5_GPIO41_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_PROC1_INTS5_GPIO41_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_PROC1_INTS5_GPIO40_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_PROC1_INTS5_GPIO40_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE0
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE0_OFFSET _u(0x000002d8)
+#define IO_BANK0_DORMANT_WAKE_INTE0_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE1
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE1_OFFSET _u(0x000002dc)
+#define IO_BANK0_DORMANT_WAKE_INTE1_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE2
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE2_OFFSET _u(0x000002e0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE3
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE3_OFFSET _u(0x000002e4)
+#define IO_BANK0_DORMANT_WAKE_INTE3_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE4
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE4_OFFSET _u(0x000002e8)
+#define IO_BANK0_DORMANT_WAKE_INTE4_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTE5
+// Description : Interrupt Enable for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTE5_OFFSET _u(0x000002ec)
+#define IO_BANK0_DORMANT_WAKE_INTE5_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTE5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTE5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF0
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF0_OFFSET _u(0x000002f0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO7_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO6_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO5_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO4_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF0_GPIO0_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF1
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF1_OFFSET _u(0x000002f4)
+#define IO_BANK0_DORMANT_WAKE_INTF1_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO15_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO14_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO13_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO12_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO11_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO10_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO9_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF1_GPIO8_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF2
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF2_OFFSET _u(0x000002f8)
+#define IO_BANK0_DORMANT_WAKE_INTF2_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO23_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO22_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO21_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO20_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO19_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO18_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO17_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF2_GPIO16_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF3
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF3_OFFSET _u(0x000002fc)
+#define IO_BANK0_DORMANT_WAKE_INTF3_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO31_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO30_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO29_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO28_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO27_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO26_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO25_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF3_GPIO24_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF4
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF4_OFFSET _u(0x00000300)
+#define IO_BANK0_DORMANT_WAKE_INTF4_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO39_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO38_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO37_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO36_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO35_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO34_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO33_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF4_GPIO32_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTF5
+// Description : Interrupt Force for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTF5_OFFSET _u(0x00000304)
+#define IO_BANK0_DORMANT_WAKE_INTF5_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTF5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO47_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO46_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO45_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO44_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO43_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO42_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO41_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTF5_GPIO40_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS0
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS0_OFFSET _u(0x00000308)
+#define IO_BANK0_DORMANT_WAKE_INTS0_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO7_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO6_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO5_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO4_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS0_GPIO0_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS1
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS1_OFFSET _u(0x0000030c)
+#define IO_BANK0_DORMANT_WAKE_INTS1_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO15_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO14_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO13_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO12_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO11_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO10_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO9_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS1_GPIO8_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS2
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS2_OFFSET _u(0x00000310)
+#define IO_BANK0_DORMANT_WAKE_INTS2_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO23_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO22_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO21_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO20_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO19_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO18_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO17_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS2_GPIO16_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS3
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS3_OFFSET _u(0x00000314)
+#define IO_BANK0_DORMANT_WAKE_INTS3_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO31_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO30_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO29_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO28_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO27_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO26_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO25_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS3_GPIO24_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS4
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS4_OFFSET _u(0x00000318)
+#define IO_BANK0_DORMANT_WAKE_INTS4_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO39_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO38_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO37_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO36_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO35_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO34_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO33_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS4_GPIO32_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_BANK0_DORMANT_WAKE_INTS5
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_BANK0_DORMANT_WAKE_INTS5_OFFSET _u(0x0000031c)
+#define IO_BANK0_DORMANT_WAKE_INTS5_BITS   _u(0xffffffff)
+#define IO_BANK0_DORMANT_WAKE_INTS5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH_MSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH_LSB    _u(31)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW_MSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW_LSB    _u(30)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH_MSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH_LSB    _u(29)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW_MSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW_LSB    _u(28)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO47_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH_MSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH_LSB    _u(27)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW_MSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW_LSB    _u(26)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH_MSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH_LSB    _u(25)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW_MSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW_LSB    _u(24)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO46_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH_MSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH_LSB    _u(23)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW_MSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW_LSB    _u(22)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH_MSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH_LSB    _u(21)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW_MSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW_LSB    _u(20)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO45_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH_MSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH_LSB    _u(19)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW_MSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW_LSB    _u(18)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH_MSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH_LSB    _u(17)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW_MSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW_LSB    _u(16)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO44_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH_MSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH_LSB    _u(15)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW_MSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW_LSB    _u(14)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH_MSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH_LSB    _u(13)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW_MSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW_LSB    _u(12)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO43_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH_MSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH_LSB    _u(11)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW_MSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW_LSB    _u(10)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH_MSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH_LSB    _u(9)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW_MSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW_LSB    _u(8)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO42_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH_MSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH_LSB    _u(7)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW_MSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW_LSB    _u(6)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH_MSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH_LSB    _u(5)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW_MSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW_LSB    _u(4)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO41_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH_MSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH_LSB    _u(3)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW_MSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW_LSB    _u(2)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH_MSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH_LSB    _u(1)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW_RESET  _u(0x0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW_MSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW_LSB    _u(0)
+#define IO_BANK0_DORMANT_WAKE_INTS5_GPIO40_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_IO_BANK0_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/io_qspi.h b/lib/pico-sdk/rp2350/hardware/regs/io_qspi.h
new file mode 100644
index 0000000..6681052
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/io_qspi.h
@@ -0,0 +1,3663 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : IO_QSPI
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_IO_QSPI_H
+#define _HARDWARE_REGS_IO_QSPI_H
+// =============================================================================
+// Register    : IO_QSPI_USBPHY_DP_STATUS
+#define IO_QSPI_USBPHY_DP_STATUS_OFFSET _u(0x00000000)
+#define IO_QSPI_USBPHY_DP_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_USBPHY_DP_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_USBPHY_DP_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_USBPHY_DP_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_USBPHY_DP_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_USBPHY_DP_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_USBPHY_DP_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_USBPHY_DP_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_USBPHY_DP_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_USBPHY_DP_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_USBPHY_DP_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_USBPHY_DP_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_USBPHY_DP_CTRL
+#define IO_QSPI_USBPHY_DP_CTRL_OFFSET _u(0x00000004)
+#define IO_QSPI_USBPHY_DP_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_USBPHY_DP_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DP_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DP_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_USBPHY_DP_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DP_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DP_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x02 -> uart1_tx
+//               0x03 -> i2c0_sda
+//               0x05 -> siob_proc_56
+//               0x1f -> null
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x02)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_VALUE_SIOB_PROC_56 _u(0x05)
+#define IO_QSPI_USBPHY_DP_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_USBPHY_DM_STATUS
+#define IO_QSPI_USBPHY_DM_STATUS_OFFSET _u(0x00000008)
+#define IO_QSPI_USBPHY_DM_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_USBPHY_DM_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_USBPHY_DM_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_USBPHY_DM_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_USBPHY_DM_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_USBPHY_DM_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_USBPHY_DM_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_USBPHY_DM_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_USBPHY_DM_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_USBPHY_DM_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_USBPHY_DM_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_USBPHY_DM_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_USBPHY_DM_CTRL
+#define IO_QSPI_USBPHY_DM_CTRL_OFFSET _u(0x0000000c)
+#define IO_QSPI_USBPHY_DM_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_USBPHY_DM_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DM_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DM_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_USBPHY_DM_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_USBPHY_DM_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_USBPHY_DM_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x02 -> uart1_rx
+//               0x03 -> i2c0_scl
+//               0x05 -> siob_proc_57
+//               0x1f -> null
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x02)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_VALUE_SIOB_PROC_57 _u(0x05)
+#define IO_QSPI_USBPHY_DM_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SCLK_STATUS
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OFFSET _u(0x00000010)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SCLK_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SCLK_CTRL
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OFFSET _u(0x00000014)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_sclk
+//               0x02 -> uart1_cts
+//               0x03 -> i2c1_sda
+//               0x05 -> siob_proc_58
+//               0x0b -> uart1_tx
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_XIP_SCLK _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_UART1_CTS _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_SIOB_PROC_58 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_UART1_TX _u(0x0b)
+#define IO_QSPI_GPIO_QSPI_SCLK_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SS_STATUS
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OFFSET _u(0x00000018)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SS_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SS_CTRL
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OFFSET _u(0x0000001c)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_ss_n_0
+//               0x02 -> uart1_rts
+//               0x03 -> i2c1_scl
+//               0x05 -> siob_proc_59
+//               0x0b -> uart1_rx
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_XIP_SS_N_0 _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_UART1_RTS _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_SIOB_PROC_59 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_UART1_RX _u(0x0b)
+#define IO_QSPI_GPIO_QSPI_SS_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD0_STATUS
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OFFSET _u(0x00000020)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD0_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD0_CTRL
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OFFSET _u(0x00000024)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_sd0
+//               0x02 -> uart0_tx
+//               0x03 -> i2c0_sda
+//               0x05 -> siob_proc_60
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_XIP_SD0 _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_I2C0_SDA _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_SIOB_PROC_60 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD0_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD1_STATUS
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OFFSET _u(0x00000028)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD1_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD1_CTRL
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OFFSET _u(0x0000002c)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_sd1
+//               0x02 -> uart0_rx
+//               0x03 -> i2c0_scl
+//               0x05 -> siob_proc_61
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_XIP_SD1 _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_I2C0_SCL _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_SIOB_PROC_61 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD1_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD2_STATUS
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OFFSET _u(0x00000030)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD2_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD2_CTRL
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OFFSET _u(0x00000034)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_sd2
+//               0x02 -> uart0_cts
+//               0x03 -> i2c1_sda
+//               0x05 -> siob_proc_62
+//               0x0b -> uart0_tx
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_XIP_SD2 _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_UART0_CTS _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_I2C1_SDA _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_SIOB_PROC_62 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_UART0_TX _u(0x0b)
+#define IO_QSPI_GPIO_QSPI_SD2_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD3_STATUS
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OFFSET _u(0x00000038)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_BITS   _u(0x04022200)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC
+// Description : interrupt to processors, after override is applied
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC_BITS   _u(0x04000000)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC_MSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC_LSB    _u(26)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_IRQTOPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD
+// Description : input signal from pad, before filtering and override are
+//               applied
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD_BITS   _u(0x00020000)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD_LSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_INFROMPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD
+// Description : output enable to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD_BITS   _u(0x00002000)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD_LSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OETOPAD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD
+// Description : output signal to pad after register override is applied
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD_BITS   _u(0x00000200)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD_MSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD_LSB    _u(9)
+#define IO_QSPI_GPIO_QSPI_SD3_STATUS_OUTTOPAD_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_GPIO_QSPI_SD3_CTRL
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OFFSET _u(0x0000003c)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_BITS   _u(0x3003f01f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_RESET  _u(0x0000001f)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER
+//               0x0 -> don't invert the interrupt
+//               0x1 -> invert the interrupt
+//               0x2 -> drive interrupt low
+//               0x3 -> drive interrupt high
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_BITS   _u(0x30000000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_MSB    _u(29)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_LSB    _u(28)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_IRQOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER
+//               0x0 -> don't invert the peri input
+//               0x1 -> invert the peri input
+//               0x2 -> drive peri input low
+//               0x3 -> drive peri input high
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_BITS   _u(0x00030000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_MSB    _u(17)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_LSB    _u(16)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_INOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER
+//               0x0 -> drive output enable from peripheral signal selected by funcsel
+//               0x1 -> drive output enable from inverse of peripheral signal selected by funcsel
+//               0x2 -> disable output
+//               0x3 -> enable output
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_BITS   _u(0x0000c000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_MSB    _u(15)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_LSB    _u(14)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_DISABLE _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OEOVER_VALUE_ENABLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER
+//               0x0 -> drive output from peripheral signal selected by funcsel
+//               0x1 -> drive output from inverse of peripheral signal selected by funcsel
+//               0x2 -> drive output low
+//               0x3 -> drive output high
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_RESET  _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_BITS   _u(0x00003000)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_MSB    _u(13)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_LSB    _u(12)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_NORMAL _u(0x0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_INVERT _u(0x1)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_LOW _u(0x2)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_OUTOVER_VALUE_HIGH _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL
+// Description : 0-31 -> selects pin function according to the gpio table
+//               31 == NULL
+//               0x00 -> xip_sd3
+//               0x02 -> uart0_rts
+//               0x03 -> i2c1_scl
+//               0x05 -> siob_proc_63
+//               0x0b -> uart0_rx
+//               0x1f -> null
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_RESET  _u(0x1f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_BITS   _u(0x0000001f)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_MSB    _u(4)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_LSB    _u(0)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_ACCESS "RW"
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_XIP_SD3 _u(0x00)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_UART0_RTS _u(0x02)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_I2C1_SCL _u(0x03)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_SIOB_PROC_63 _u(0x05)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_UART0_RX _u(0x0b)
+#define IO_QSPI_GPIO_QSPI_SD3_CTRL_FUNCSEL_VALUE_NULL _u(0x1f)
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_PROC0_SECURE
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_OFFSET _u(0x00000200)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC0_SECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_OFFSET _u(0x00000204)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_PROC1_SECURE
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_OFFSET _u(0x00000208)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC1_SECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_OFFSET _u(0x0000020c)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_OFFSET _u(0x00000210)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_OFFSET _u(0x00000214)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_BITS   _u(0x000000ff)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3_BITS   _u(0x00000080)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3_MSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3_LSB    _u(7)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2_BITS   _u(0x00000040)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2_MSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2_LSB    _u(6)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1_BITS   _u(0x00000020)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1_MSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1_LSB    _u(5)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0_BITS   _u(0x00000010)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0_MSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0_LSB    _u(4)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SD0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS_BITS   _u(0x00000008)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS_MSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS_LSB    _u(3)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK_BITS   _u(0x00000004)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK_MSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK_LSB    _u(2)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_GPIO_QSPI_SCLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM_BITS   _u(0x00000002)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM_MSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM_LSB    _u(1)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP_RESET  _u(0x0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP_BITS   _u(0x00000001)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP_MSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP_LSB    _u(0)
+#define IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_USBPHY_DP_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_INTR
+// Description : Raw Interrupts
+#define IO_QSPI_INTR_OFFSET _u(0x00000218)
+#define IO_QSPI_INTR_BITS   _u(0xffffffff)
+#define IO_QSPI_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_INTR_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_INTR_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_INTR_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_INTR_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_INTR_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_INTR_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_INTR_USBPHY_DM_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_INTR_USBPHY_DM_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_HIGH_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_INTR_USBPHY_DP_EDGE_LOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_INTR_USBPHY_DP_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_PROC0_INTE
+// Description : Interrupt Enable for proc0
+#define IO_QSPI_PROC0_INTE_OFFSET _u(0x0000021c)
+#define IO_QSPI_PROC0_INTE_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC0_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC0_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC0_INTE_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC0_INTE_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_PROC0_INTF
+// Description : Interrupt Force for proc0
+#define IO_QSPI_PROC0_INTF_OFFSET _u(0x00000220)
+#define IO_QSPI_PROC0_INTF_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC0_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC0_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC0_INTF_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC0_INTF_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_PROC0_INTS
+// Description : Interrupt status after masking & forcing for proc0
+#define IO_QSPI_PROC0_INTS_OFFSET _u(0x00000224)
+#define IO_QSPI_PROC0_INTS_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC0_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC0_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC0_INTS_USBPHY_DM_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC0_INTS_USBPHY_DP_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_PROC1_INTE
+// Description : Interrupt Enable for proc1
+#define IO_QSPI_PROC1_INTE_OFFSET _u(0x00000228)
+#define IO_QSPI_PROC1_INTE_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC1_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC1_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC1_INTE_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC1_INTE_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_PROC1_INTF
+// Description : Interrupt Force for proc1
+#define IO_QSPI_PROC1_INTF_OFFSET _u(0x0000022c)
+#define IO_QSPI_PROC1_INTF_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC1_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC1_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC1_INTF_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC1_INTF_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_PROC1_INTS
+// Description : Interrupt status after masking & forcing for proc1
+#define IO_QSPI_PROC1_INTS_OFFSET _u(0x00000230)
+#define IO_QSPI_PROC1_INTS_BITS   _u(0xffffffff)
+#define IO_QSPI_PROC1_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_PROC1_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_PROC1_INTS_USBPHY_DM_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_PROC1_INTS_USBPHY_DP_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+// Register    : IO_QSPI_DORMANT_WAKE_INTE
+// Description : Interrupt Enable for dormant_wake
+#define IO_QSPI_DORMANT_WAKE_INTE_OFFSET _u(0x00000234)
+#define IO_QSPI_DORMANT_WAKE_INTE_BITS   _u(0xffffffff)
+#define IO_QSPI_DORMANT_WAKE_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTE_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTE_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_DORMANT_WAKE_INTF
+// Description : Interrupt Force for dormant_wake
+#define IO_QSPI_DORMANT_WAKE_INTF_OFFSET _u(0x00000238)
+#define IO_QSPI_DORMANT_WAKE_INTF_BITS   _u(0xffffffff)
+#define IO_QSPI_DORMANT_WAKE_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTF_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DM_LEVEL_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_EDGE_LOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_HIGH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTF_USBPHY_DP_LEVEL_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : IO_QSPI_DORMANT_WAKE_INTS
+// Description : Interrupt status after masking & forcing for dormant_wake
+#define IO_QSPI_DORMANT_WAKE_INTS_OFFSET _u(0x0000023c)
+#define IO_QSPI_DORMANT_WAKE_INTS_BITS   _u(0xffffffff)
+#define IO_QSPI_DORMANT_WAKE_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_BITS   _u(0x80000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_MSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_LSB    _u(31)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_BITS   _u(0x40000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_MSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_LSB    _u(30)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_BITS   _u(0x20000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_MSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_LSB    _u(29)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_BITS   _u(0x10000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_MSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_LSB    _u(28)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD3_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_BITS   _u(0x08000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_MSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_LSB    _u(27)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_BITS   _u(0x04000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_MSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_LSB    _u(26)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_BITS   _u(0x02000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_MSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_LSB    _u(25)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_BITS   _u(0x01000000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_MSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_LSB    _u(24)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD2_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_BITS   _u(0x00800000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_MSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_LSB    _u(23)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_BITS   _u(0x00400000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_MSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_LSB    _u(22)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_BITS   _u(0x00200000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_MSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_LSB    _u(21)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_BITS   _u(0x00100000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_MSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_LSB    _u(20)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD1_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_BITS   _u(0x00080000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_MSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_LSB    _u(19)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_BITS   _u(0x00040000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_MSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_LSB    _u(18)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_BITS   _u(0x00020000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_MSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_LSB    _u(17)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_BITS   _u(0x00010000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_MSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_LSB    _u(16)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SD0_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_BITS   _u(0x00008000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_MSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_LSB    _u(15)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_BITS   _u(0x00004000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_MSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_LSB    _u(14)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_BITS   _u(0x00002000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_MSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_LSB    _u(13)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_BITS   _u(0x00001000)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_MSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_LSB    _u(12)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SS_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_BITS   _u(0x00000800)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_MSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_LSB    _u(11)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_BITS   _u(0x00000400)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_MSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_LSB    _u(10)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_BITS   _u(0x00000200)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_MSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_LSB    _u(9)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_BITS   _u(0x00000100)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_MSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_LSB    _u(8)
+#define IO_QSPI_DORMANT_WAKE_INTS_GPIO_QSPI_SCLK_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH_BITS   _u(0x00000080)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH_MSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH_LSB    _u(7)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW_BITS   _u(0x00000040)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW_MSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW_LSB    _u(6)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH_BITS   _u(0x00000020)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH_MSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH_LSB    _u(5)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW_BITS   _u(0x00000010)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW_MSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW_LSB    _u(4)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DM_LEVEL_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH_BITS   _u(0x00000008)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH_MSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH_LSB    _u(3)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW_BITS   _u(0x00000004)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW_MSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW_LSB    _u(2)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_EDGE_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH_BITS   _u(0x00000002)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH_MSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH_LSB    _u(1)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_HIGH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW_RESET  _u(0x0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW_BITS   _u(0x00000001)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW_MSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW_LSB    _u(0)
+#define IO_QSPI_DORMANT_WAKE_INTS_USBPHY_DP_LEVEL_LOW_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_IO_QSPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/m33.h b/lib/pico-sdk/rp2350/hardware/regs/m33.h
new file mode 100644
index 0000000..b555317
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/m33.h
@@ -0,0 +1,8988 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : M33
+// Version        : 1
+// Bus type       : apb
+// Description    : TEAL registers accessible through the debug interface
+// =============================================================================
+#ifndef _HARDWARE_REGS_M33_H
+#define _HARDWARE_REGS_M33_H
+// =============================================================================
+// Register    : M33_ITM_STIM0
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM0_OFFSET _u(0x00000000)
+#define M33_ITM_STIM0_BITS   _u(0xffffffff)
+#define M33_ITM_STIM0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM0_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM0_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM0_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM0_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM0_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM0_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM1
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM1_OFFSET _u(0x00000004)
+#define M33_ITM_STIM1_BITS   _u(0xffffffff)
+#define M33_ITM_STIM1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM1_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM1_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM1_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM1_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM1_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM1_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM2
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM2_OFFSET _u(0x00000008)
+#define M33_ITM_STIM2_BITS   _u(0xffffffff)
+#define M33_ITM_STIM2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM2_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM2_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM2_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM2_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM2_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM2_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM3
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM3_OFFSET _u(0x0000000c)
+#define M33_ITM_STIM3_BITS   _u(0xffffffff)
+#define M33_ITM_STIM3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM3_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM3_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM3_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM3_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM3_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM3_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM4
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM4_OFFSET _u(0x00000010)
+#define M33_ITM_STIM4_BITS   _u(0xffffffff)
+#define M33_ITM_STIM4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM4_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM4_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM4_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM4_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM4_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM4_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM5
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM5_OFFSET _u(0x00000014)
+#define M33_ITM_STIM5_BITS   _u(0xffffffff)
+#define M33_ITM_STIM5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM5_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM5_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM5_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM5_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM5_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM5_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM6
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM6_OFFSET _u(0x00000018)
+#define M33_ITM_STIM6_BITS   _u(0xffffffff)
+#define M33_ITM_STIM6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM6_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM6_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM6_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM6_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM6_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM6_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM7
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM7_OFFSET _u(0x0000001c)
+#define M33_ITM_STIM7_BITS   _u(0xffffffff)
+#define M33_ITM_STIM7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM7_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM7_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM7_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM7_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM7_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM7_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM8
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM8_OFFSET _u(0x00000020)
+#define M33_ITM_STIM8_BITS   _u(0xffffffff)
+#define M33_ITM_STIM8_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM8_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM8_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM8_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM8_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM8_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM8_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM9
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM9_OFFSET _u(0x00000024)
+#define M33_ITM_STIM9_BITS   _u(0xffffffff)
+#define M33_ITM_STIM9_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM9_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM9_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM9_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM9_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM9_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM9_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM10
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM10_OFFSET _u(0x00000028)
+#define M33_ITM_STIM10_BITS   _u(0xffffffff)
+#define M33_ITM_STIM10_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM10_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM10_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM10_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM10_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM10_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM10_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM11
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM11_OFFSET _u(0x0000002c)
+#define M33_ITM_STIM11_BITS   _u(0xffffffff)
+#define M33_ITM_STIM11_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM11_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM11_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM11_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM11_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM11_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM11_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM12
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM12_OFFSET _u(0x00000030)
+#define M33_ITM_STIM12_BITS   _u(0xffffffff)
+#define M33_ITM_STIM12_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM12_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM12_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM12_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM12_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM12_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM12_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM13
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM13_OFFSET _u(0x00000034)
+#define M33_ITM_STIM13_BITS   _u(0xffffffff)
+#define M33_ITM_STIM13_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM13_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM13_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM13_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM13_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM13_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM13_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM14
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM14_OFFSET _u(0x00000038)
+#define M33_ITM_STIM14_BITS   _u(0xffffffff)
+#define M33_ITM_STIM14_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM14_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM14_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM14_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM14_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM14_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM14_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM15
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM15_OFFSET _u(0x0000003c)
+#define M33_ITM_STIM15_BITS   _u(0xffffffff)
+#define M33_ITM_STIM15_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM15_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM15_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM15_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM15_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM15_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM15_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM16
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM16_OFFSET _u(0x00000040)
+#define M33_ITM_STIM16_BITS   _u(0xffffffff)
+#define M33_ITM_STIM16_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM16_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM16_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM16_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM16_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM16_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM16_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM17
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM17_OFFSET _u(0x00000044)
+#define M33_ITM_STIM17_BITS   _u(0xffffffff)
+#define M33_ITM_STIM17_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM17_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM17_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM17_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM17_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM17_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM17_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM18
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM18_OFFSET _u(0x00000048)
+#define M33_ITM_STIM18_BITS   _u(0xffffffff)
+#define M33_ITM_STIM18_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM18_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM18_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM18_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM18_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM18_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM18_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM19
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM19_OFFSET _u(0x0000004c)
+#define M33_ITM_STIM19_BITS   _u(0xffffffff)
+#define M33_ITM_STIM19_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM19_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM19_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM19_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM19_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM19_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM19_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM20
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM20_OFFSET _u(0x00000050)
+#define M33_ITM_STIM20_BITS   _u(0xffffffff)
+#define M33_ITM_STIM20_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM20_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM20_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM20_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM20_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM20_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM20_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM21
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM21_OFFSET _u(0x00000054)
+#define M33_ITM_STIM21_BITS   _u(0xffffffff)
+#define M33_ITM_STIM21_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM21_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM21_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM21_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM21_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM21_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM21_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM22
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM22_OFFSET _u(0x00000058)
+#define M33_ITM_STIM22_BITS   _u(0xffffffff)
+#define M33_ITM_STIM22_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM22_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM22_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM22_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM22_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM22_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM22_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM23
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM23_OFFSET _u(0x0000005c)
+#define M33_ITM_STIM23_BITS   _u(0xffffffff)
+#define M33_ITM_STIM23_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM23_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM23_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM23_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM23_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM23_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM23_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM24
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM24_OFFSET _u(0x00000060)
+#define M33_ITM_STIM24_BITS   _u(0xffffffff)
+#define M33_ITM_STIM24_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM24_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM24_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM24_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM24_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM24_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM24_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM25
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM25_OFFSET _u(0x00000064)
+#define M33_ITM_STIM25_BITS   _u(0xffffffff)
+#define M33_ITM_STIM25_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM25_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM25_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM25_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM25_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM25_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM25_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM26
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM26_OFFSET _u(0x00000068)
+#define M33_ITM_STIM26_BITS   _u(0xffffffff)
+#define M33_ITM_STIM26_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM26_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM26_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM26_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM26_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM26_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM26_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM27
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM27_OFFSET _u(0x0000006c)
+#define M33_ITM_STIM27_BITS   _u(0xffffffff)
+#define M33_ITM_STIM27_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM27_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM27_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM27_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM27_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM27_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM27_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM28
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM28_OFFSET _u(0x00000070)
+#define M33_ITM_STIM28_BITS   _u(0xffffffff)
+#define M33_ITM_STIM28_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM28_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM28_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM28_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM28_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM28_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM28_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM29
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM29_OFFSET _u(0x00000074)
+#define M33_ITM_STIM29_BITS   _u(0xffffffff)
+#define M33_ITM_STIM29_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM29_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM29_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM29_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM29_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM29_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM29_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM30
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM30_OFFSET _u(0x00000078)
+#define M33_ITM_STIM30_BITS   _u(0xffffffff)
+#define M33_ITM_STIM30_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM30_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM30_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM30_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM30_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM30_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM30_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_STIM31
+// Description : Provides the interface for generating Instrumentation packets
+#define M33_ITM_STIM31_OFFSET _u(0x0000007c)
+#define M33_ITM_STIM31_BITS   _u(0xffffffff)
+#define M33_ITM_STIM31_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_STIM31_STIMULUS
+// Description : Data to write to the Stimulus Port FIFO, for forwarding as an
+//               Instrumentation packet. The size of write access determines the
+//               type of Instrumentation packet generated.
+#define M33_ITM_STIM31_STIMULUS_RESET  _u(0x00000000)
+#define M33_ITM_STIM31_STIMULUS_BITS   _u(0xffffffff)
+#define M33_ITM_STIM31_STIMULUS_MSB    _u(31)
+#define M33_ITM_STIM31_STIMULUS_LSB    _u(0)
+#define M33_ITM_STIM31_STIMULUS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_TER0
+// Description : Provide an individual enable bit for each ITM_STIM register
+#define M33_ITM_TER0_OFFSET _u(0x00000e00)
+#define M33_ITM_TER0_BITS   _u(0xffffffff)
+#define M33_ITM_TER0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TER0_STIMENA
+// Description : For STIMENA[m] in ITM_TER*n, controls whether ITM_STIM(32*n +
+//               m) is enabled
+#define M33_ITM_TER0_STIMENA_RESET  _u(0x00000000)
+#define M33_ITM_TER0_STIMENA_BITS   _u(0xffffffff)
+#define M33_ITM_TER0_STIMENA_MSB    _u(31)
+#define M33_ITM_TER0_STIMENA_LSB    _u(0)
+#define M33_ITM_TER0_STIMENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_TPR
+// Description : Controls which stimulus ports can be accessed by unprivileged
+//               code
+#define M33_ITM_TPR_OFFSET _u(0x00000e40)
+#define M33_ITM_TPR_BITS   _u(0x0000000f)
+#define M33_ITM_TPR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TPR_PRIVMASK
+// Description : Bit mask to enable tracing on ITM stimulus ports
+#define M33_ITM_TPR_PRIVMASK_RESET  _u(0x0)
+#define M33_ITM_TPR_PRIVMASK_BITS   _u(0x0000000f)
+#define M33_ITM_TPR_PRIVMASK_MSB    _u(3)
+#define M33_ITM_TPR_PRIVMASK_LSB    _u(0)
+#define M33_ITM_TPR_PRIVMASK_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_TCR
+// Description : Configures and controls transfers through the ITM interface
+#define M33_ITM_TCR_OFFSET _u(0x00000e80)
+#define M33_ITM_TCR_BITS   _u(0x00ff0f3f)
+#define M33_ITM_TCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_BUSY
+// Description : Indicates whether the ITM is currently processing events
+#define M33_ITM_TCR_BUSY_RESET  _u(0x0)
+#define M33_ITM_TCR_BUSY_BITS   _u(0x00800000)
+#define M33_ITM_TCR_BUSY_MSB    _u(23)
+#define M33_ITM_TCR_BUSY_LSB    _u(23)
+#define M33_ITM_TCR_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_TRACEBUSID
+// Description : Identifier for multi-source trace stream formatting. If multi-
+//               source trace is in use, the debugger must write a unique non-
+//               zero trace ID value to this field
+#define M33_ITM_TCR_TRACEBUSID_RESET  _u(0x00)
+#define M33_ITM_TCR_TRACEBUSID_BITS   _u(0x007f0000)
+#define M33_ITM_TCR_TRACEBUSID_MSB    _u(22)
+#define M33_ITM_TCR_TRACEBUSID_LSB    _u(16)
+#define M33_ITM_TCR_TRACEBUSID_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_GTSFREQ
+// Description : Defines how often the ITM generates a global timestamp, based
+//               on the global timestamp clock frequency, or disables generation
+//               of global timestamps
+#define M33_ITM_TCR_GTSFREQ_RESET  _u(0x0)
+#define M33_ITM_TCR_GTSFREQ_BITS   _u(0x00000c00)
+#define M33_ITM_TCR_GTSFREQ_MSB    _u(11)
+#define M33_ITM_TCR_GTSFREQ_LSB    _u(10)
+#define M33_ITM_TCR_GTSFREQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_TSPRESCALE
+// Description : Local timestamp prescaler, used with the trace packet reference
+//               clock
+#define M33_ITM_TCR_TSPRESCALE_RESET  _u(0x0)
+#define M33_ITM_TCR_TSPRESCALE_BITS   _u(0x00000300)
+#define M33_ITM_TCR_TSPRESCALE_MSB    _u(9)
+#define M33_ITM_TCR_TSPRESCALE_LSB    _u(8)
+#define M33_ITM_TCR_TSPRESCALE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_STALLENA
+// Description : Stall the PE to guarantee delivery of Data Trace packets.
+#define M33_ITM_TCR_STALLENA_RESET  _u(0x0)
+#define M33_ITM_TCR_STALLENA_BITS   _u(0x00000020)
+#define M33_ITM_TCR_STALLENA_MSB    _u(5)
+#define M33_ITM_TCR_STALLENA_LSB    _u(5)
+#define M33_ITM_TCR_STALLENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_SWOENA
+// Description : Enables asynchronous clocking of the timestamp counter
+#define M33_ITM_TCR_SWOENA_RESET  _u(0x0)
+#define M33_ITM_TCR_SWOENA_BITS   _u(0x00000010)
+#define M33_ITM_TCR_SWOENA_MSB    _u(4)
+#define M33_ITM_TCR_SWOENA_LSB    _u(4)
+#define M33_ITM_TCR_SWOENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_TXENA
+// Description : Enables forwarding of hardware event packet from the DWT unit
+//               to the ITM for output to the TPIU
+#define M33_ITM_TCR_TXENA_RESET  _u(0x0)
+#define M33_ITM_TCR_TXENA_BITS   _u(0x00000008)
+#define M33_ITM_TCR_TXENA_MSB    _u(3)
+#define M33_ITM_TCR_TXENA_LSB    _u(3)
+#define M33_ITM_TCR_TXENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_SYNCENA
+// Description : Enables Synchronization packet transmission for a synchronous
+//               TPIU
+#define M33_ITM_TCR_SYNCENA_RESET  _u(0x0)
+#define M33_ITM_TCR_SYNCENA_BITS   _u(0x00000004)
+#define M33_ITM_TCR_SYNCENA_MSB    _u(2)
+#define M33_ITM_TCR_SYNCENA_LSB    _u(2)
+#define M33_ITM_TCR_SYNCENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_TSENA
+// Description : Enables Local timestamp generation
+#define M33_ITM_TCR_TSENA_RESET  _u(0x0)
+#define M33_ITM_TCR_TSENA_BITS   _u(0x00000002)
+#define M33_ITM_TCR_TSENA_MSB    _u(1)
+#define M33_ITM_TCR_TSENA_LSB    _u(1)
+#define M33_ITM_TCR_TSENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_TCR_ITMENA
+// Description : Enables the ITM
+#define M33_ITM_TCR_ITMENA_RESET  _u(0x0)
+#define M33_ITM_TCR_ITMENA_BITS   _u(0x00000001)
+#define M33_ITM_TCR_ITMENA_MSB    _u(0)
+#define M33_ITM_TCR_ITMENA_LSB    _u(0)
+#define M33_ITM_TCR_ITMENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_INT_ATREADY
+// Description : Integration Mode: Read ATB Ready
+#define M33_INT_ATREADY_OFFSET _u(0x00000ef0)
+#define M33_INT_ATREADY_BITS   _u(0x00000003)
+#define M33_INT_ATREADY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_INT_ATREADY_AFVALID
+// Description : A read of this bit returns the value of AFVALID
+#define M33_INT_ATREADY_AFVALID_RESET  _u(0x0)
+#define M33_INT_ATREADY_AFVALID_BITS   _u(0x00000002)
+#define M33_INT_ATREADY_AFVALID_MSB    _u(1)
+#define M33_INT_ATREADY_AFVALID_LSB    _u(1)
+#define M33_INT_ATREADY_AFVALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_INT_ATREADY_ATREADY
+// Description : A read of this bit returns the value of ATREADY
+#define M33_INT_ATREADY_ATREADY_RESET  _u(0x0)
+#define M33_INT_ATREADY_ATREADY_BITS   _u(0x00000001)
+#define M33_INT_ATREADY_ATREADY_MSB    _u(0)
+#define M33_INT_ATREADY_ATREADY_LSB    _u(0)
+#define M33_INT_ATREADY_ATREADY_ACCESS "RO"
+// =============================================================================
+// Register    : M33_INT_ATVALID
+// Description : Integration Mode: Write ATB Valid
+#define M33_INT_ATVALID_OFFSET _u(0x00000ef8)
+#define M33_INT_ATVALID_BITS   _u(0x00000003)
+#define M33_INT_ATVALID_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_INT_ATVALID_AFREADY
+// Description : A write to this bit gives the value of AFREADY
+#define M33_INT_ATVALID_AFREADY_RESET  _u(0x0)
+#define M33_INT_ATVALID_AFREADY_BITS   _u(0x00000002)
+#define M33_INT_ATVALID_AFREADY_MSB    _u(1)
+#define M33_INT_ATVALID_AFREADY_LSB    _u(1)
+#define M33_INT_ATVALID_AFREADY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_INT_ATVALID_ATREADY
+// Description : A write to this bit gives the value of ATVALID
+#define M33_INT_ATVALID_ATREADY_RESET  _u(0x0)
+#define M33_INT_ATVALID_ATREADY_BITS   _u(0x00000001)
+#define M33_INT_ATVALID_ATREADY_MSB    _u(0)
+#define M33_INT_ATVALID_ATREADY_LSB    _u(0)
+#define M33_INT_ATVALID_ATREADY_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_ITCTRL
+// Description : Integration Mode Control Register
+#define M33_ITM_ITCTRL_OFFSET _u(0x00000f00)
+#define M33_ITM_ITCTRL_BITS   _u(0x00000001)
+#define M33_ITM_ITCTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_ITCTRL_IME
+// Description : Integration mode enable bit - The possible values are:  0 - The
+//               trace unit is not in integration mode. 1 - The trace unit is in
+//               integration mode. This mode enables: A debug agent to perform
+//               topology detection. SoC test software to perform integration
+//               testing.
+#define M33_ITM_ITCTRL_IME_RESET  _u(0x0)
+#define M33_ITM_ITCTRL_IME_BITS   _u(0x00000001)
+#define M33_ITM_ITCTRL_IME_MSB    _u(0)
+#define M33_ITM_ITCTRL_IME_LSB    _u(0)
+#define M33_ITM_ITCTRL_IME_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_DEVARCH
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_DEVARCH_OFFSET _u(0x00000fbc)
+#define M33_ITM_DEVARCH_BITS   _u(0xffffffff)
+#define M33_ITM_DEVARCH_RESET  _u(0x47701a01)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVARCH_ARCHITECT
+// Description : Defines the architect of the component. Bits [31:28] are the
+//               JEP106 continuation code (JEP106 bank ID, minus 1) and bits
+//               [27:21] are the JEP106 ID code.
+#define M33_ITM_DEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_ITM_DEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_ITM_DEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_ITM_DEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_ITM_DEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVARCH_PRESENT
+// Description : Defines that the DEVARCH register is present
+#define M33_ITM_DEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_ITM_DEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_ITM_DEVARCH_PRESENT_MSB    _u(20)
+#define M33_ITM_DEVARCH_PRESENT_LSB    _u(20)
+#define M33_ITM_DEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVARCH_REVISION
+// Description : Defines the architecture revision of the component
+#define M33_ITM_DEVARCH_REVISION_RESET  _u(0x0)
+#define M33_ITM_DEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_ITM_DEVARCH_REVISION_MSB    _u(19)
+#define M33_ITM_DEVARCH_REVISION_LSB    _u(16)
+#define M33_ITM_DEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVARCH_ARCHVER
+// Description : Defines the architecture version of the component
+#define M33_ITM_DEVARCH_ARCHVER_RESET  _u(0x1)
+#define M33_ITM_DEVARCH_ARCHVER_BITS   _u(0x0000f000)
+#define M33_ITM_DEVARCH_ARCHVER_MSB    _u(15)
+#define M33_ITM_DEVARCH_ARCHVER_LSB    _u(12)
+#define M33_ITM_DEVARCH_ARCHVER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVARCH_ARCHPART
+// Description : Defines the architecture of the component
+#define M33_ITM_DEVARCH_ARCHPART_RESET  _u(0xa01)
+#define M33_ITM_DEVARCH_ARCHPART_BITS   _u(0x00000fff)
+#define M33_ITM_DEVARCH_ARCHPART_MSB    _u(11)
+#define M33_ITM_DEVARCH_ARCHPART_LSB    _u(0)
+#define M33_ITM_DEVARCH_ARCHPART_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_DEVTYPE
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_DEVTYPE_OFFSET _u(0x00000fcc)
+#define M33_ITM_DEVTYPE_BITS   _u(0x000000ff)
+#define M33_ITM_DEVTYPE_RESET  _u(0x00000043)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVTYPE_SUB
+// Description : Component sub-type
+#define M33_ITM_DEVTYPE_SUB_RESET  _u(0x4)
+#define M33_ITM_DEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_ITM_DEVTYPE_SUB_MSB    _u(7)
+#define M33_ITM_DEVTYPE_SUB_LSB    _u(4)
+#define M33_ITM_DEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_DEVTYPE_MAJOR
+// Description : Component major type
+#define M33_ITM_DEVTYPE_MAJOR_RESET  _u(0x3)
+#define M33_ITM_DEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_ITM_DEVTYPE_MAJOR_MSB    _u(3)
+#define M33_ITM_DEVTYPE_MAJOR_LSB    _u(0)
+#define M33_ITM_DEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_PIDR4
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR4_OFFSET _u(0x00000fd0)
+#define M33_ITM_PIDR4_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR4_SIZE
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR4_SIZE_RESET  _u(0x0)
+#define M33_ITM_PIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_ITM_PIDR4_SIZE_MSB    _u(7)
+#define M33_ITM_PIDR4_SIZE_LSB    _u(4)
+#define M33_ITM_PIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR4_DES_2
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR4_DES_2_RESET  _u(0x4)
+#define M33_ITM_PIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_ITM_PIDR4_DES_2_MSB    _u(3)
+#define M33_ITM_PIDR4_DES_2_LSB    _u(0)
+#define M33_ITM_PIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_PIDR5
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR5_OFFSET _u(0x00000fd4)
+#define M33_ITM_PIDR5_BITS   _u(0x00000000)
+#define M33_ITM_PIDR5_RESET  _u(0x00000000)
+#define M33_ITM_PIDR5_MSB    _u(31)
+#define M33_ITM_PIDR5_LSB    _u(0)
+#define M33_ITM_PIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_PIDR6
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR6_OFFSET _u(0x00000fd8)
+#define M33_ITM_PIDR6_BITS   _u(0x00000000)
+#define M33_ITM_PIDR6_RESET  _u(0x00000000)
+#define M33_ITM_PIDR6_MSB    _u(31)
+#define M33_ITM_PIDR6_LSB    _u(0)
+#define M33_ITM_PIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_PIDR7
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR7_OFFSET _u(0x00000fdc)
+#define M33_ITM_PIDR7_BITS   _u(0x00000000)
+#define M33_ITM_PIDR7_RESET  _u(0x00000000)
+#define M33_ITM_PIDR7_MSB    _u(31)
+#define M33_ITM_PIDR7_LSB    _u(0)
+#define M33_ITM_PIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITM_PIDR0
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR0_OFFSET _u(0x00000fe0)
+#define M33_ITM_PIDR0_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR0_PART_0
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR0_PART_0_RESET  _u(0x21)
+#define M33_ITM_PIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR0_PART_0_MSB    _u(7)
+#define M33_ITM_PIDR0_PART_0_LSB    _u(0)
+#define M33_ITM_PIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_PIDR1
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR1_OFFSET _u(0x00000fe4)
+#define M33_ITM_PIDR1_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR1_DES_0
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR1_DES_0_RESET  _u(0xb)
+#define M33_ITM_PIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_ITM_PIDR1_DES_0_MSB    _u(7)
+#define M33_ITM_PIDR1_DES_0_LSB    _u(4)
+#define M33_ITM_PIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR1_PART_1
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR1_PART_1_RESET  _u(0xd)
+#define M33_ITM_PIDR1_PART_1_BITS   _u(0x0000000f)
+#define M33_ITM_PIDR1_PART_1_MSB    _u(3)
+#define M33_ITM_PIDR1_PART_1_LSB    _u(0)
+#define M33_ITM_PIDR1_PART_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_PIDR2
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR2_OFFSET _u(0x00000fe8)
+#define M33_ITM_PIDR2_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR2_RESET  _u(0x0000000b)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR2_REVISION
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR2_REVISION_RESET  _u(0x0)
+#define M33_ITM_PIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_ITM_PIDR2_REVISION_MSB    _u(7)
+#define M33_ITM_PIDR2_REVISION_LSB    _u(4)
+#define M33_ITM_PIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR2_JEDEC
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR2_JEDEC_RESET  _u(0x1)
+#define M33_ITM_PIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_ITM_PIDR2_JEDEC_MSB    _u(3)
+#define M33_ITM_PIDR2_JEDEC_LSB    _u(3)
+#define M33_ITM_PIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR2_DES_1
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR2_DES_1_RESET  _u(0x3)
+#define M33_ITM_PIDR2_DES_1_BITS   _u(0x00000007)
+#define M33_ITM_PIDR2_DES_1_MSB    _u(2)
+#define M33_ITM_PIDR2_DES_1_LSB    _u(0)
+#define M33_ITM_PIDR2_DES_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_PIDR3
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_PIDR3_OFFSET _u(0x00000fec)
+#define M33_ITM_PIDR3_BITS   _u(0x000000ff)
+#define M33_ITM_PIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR3_REVAND
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR3_REVAND_RESET  _u(0x0)
+#define M33_ITM_PIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_ITM_PIDR3_REVAND_MSB    _u(7)
+#define M33_ITM_PIDR3_REVAND_LSB    _u(4)
+#define M33_ITM_PIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_PIDR3_CMOD
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_PIDR3_CMOD_RESET  _u(0x0)
+#define M33_ITM_PIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_ITM_PIDR3_CMOD_MSB    _u(3)
+#define M33_ITM_PIDR3_CMOD_LSB    _u(0)
+#define M33_ITM_PIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_CIDR0
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_CIDR0_OFFSET _u(0x00000ff0)
+#define M33_ITM_CIDR0_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_CIDR0_PRMBL_0
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_CIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_ITM_CIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR0_PRMBL_0_MSB    _u(7)
+#define M33_ITM_CIDR0_PRMBL_0_LSB    _u(0)
+#define M33_ITM_CIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_CIDR1
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_CIDR1_OFFSET _u(0x00000ff4)
+#define M33_ITM_CIDR1_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_CIDR1_CLASS
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_CIDR1_CLASS_RESET  _u(0x9)
+#define M33_ITM_CIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_ITM_CIDR1_CLASS_MSB    _u(7)
+#define M33_ITM_CIDR1_CLASS_LSB    _u(4)
+#define M33_ITM_CIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_CIDR1_PRMBL_1
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_CIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_ITM_CIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_ITM_CIDR1_PRMBL_1_MSB    _u(3)
+#define M33_ITM_CIDR1_PRMBL_1_LSB    _u(0)
+#define M33_ITM_CIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_CIDR2
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_CIDR2_OFFSET _u(0x00000ff8)
+#define M33_ITM_CIDR2_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_CIDR2_PRMBL_2
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_CIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_ITM_CIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR2_PRMBL_2_MSB    _u(7)
+#define M33_ITM_CIDR2_PRMBL_2_LSB    _u(0)
+#define M33_ITM_CIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITM_CIDR3
+// Description : Provides CoreSight discovery information for the ITM
+#define M33_ITM_CIDR3_OFFSET _u(0x00000ffc)
+#define M33_ITM_CIDR3_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITM_CIDR3_PRMBL_3
+// Description : See CoreSight Architecture Specification
+#define M33_ITM_CIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_ITM_CIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_ITM_CIDR3_PRMBL_3_MSB    _u(7)
+#define M33_ITM_CIDR3_PRMBL_3_LSB    _u(0)
+#define M33_ITM_CIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_CTRL
+// Description : Provides configuration and status information for the DWT unit,
+//               and used to control features of the unit
+#define M33_DWT_CTRL_OFFSET _u(0x00001000)
+#define M33_DWT_CTRL_BITS   _u(0xffff1fff)
+#define M33_DWT_CTRL_RESET  _u(0x73741824)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_NUMCOMP
+// Description : Number of DWT comparators implemented
+#define M33_DWT_CTRL_NUMCOMP_RESET  _u(0x7)
+#define M33_DWT_CTRL_NUMCOMP_BITS   _u(0xf0000000)
+#define M33_DWT_CTRL_NUMCOMP_MSB    _u(31)
+#define M33_DWT_CTRL_NUMCOMP_LSB    _u(28)
+#define M33_DWT_CTRL_NUMCOMP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_NOTRCPKT
+// Description : Indicates whether the implementation does not support trace
+#define M33_DWT_CTRL_NOTRCPKT_RESET  _u(0x0)
+#define M33_DWT_CTRL_NOTRCPKT_BITS   _u(0x08000000)
+#define M33_DWT_CTRL_NOTRCPKT_MSB    _u(27)
+#define M33_DWT_CTRL_NOTRCPKT_LSB    _u(27)
+#define M33_DWT_CTRL_NOTRCPKT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_NOEXTTRIG
+// Description : Reserved, RAZ
+#define M33_DWT_CTRL_NOEXTTRIG_RESET  _u(0x0)
+#define M33_DWT_CTRL_NOEXTTRIG_BITS   _u(0x04000000)
+#define M33_DWT_CTRL_NOEXTTRIG_MSB    _u(26)
+#define M33_DWT_CTRL_NOEXTTRIG_LSB    _u(26)
+#define M33_DWT_CTRL_NOEXTTRIG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_NOCYCCNT
+// Description : Indicates whether the implementation does not include a cycle
+//               counter
+#define M33_DWT_CTRL_NOCYCCNT_RESET  _u(0x1)
+#define M33_DWT_CTRL_NOCYCCNT_BITS   _u(0x02000000)
+#define M33_DWT_CTRL_NOCYCCNT_MSB    _u(25)
+#define M33_DWT_CTRL_NOCYCCNT_LSB    _u(25)
+#define M33_DWT_CTRL_NOCYCCNT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_NOPRFCNT
+// Description : Indicates whether the implementation does not include the
+//               profiling counters
+#define M33_DWT_CTRL_NOPRFCNT_RESET  _u(0x1)
+#define M33_DWT_CTRL_NOPRFCNT_BITS   _u(0x01000000)
+#define M33_DWT_CTRL_NOPRFCNT_MSB    _u(24)
+#define M33_DWT_CTRL_NOPRFCNT_LSB    _u(24)
+#define M33_DWT_CTRL_NOPRFCNT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_CYCDISS
+// Description : Controls whether the cycle counter is disabled in Secure state
+#define M33_DWT_CTRL_CYCDISS_RESET  _u(0x0)
+#define M33_DWT_CTRL_CYCDISS_BITS   _u(0x00800000)
+#define M33_DWT_CTRL_CYCDISS_MSB    _u(23)
+#define M33_DWT_CTRL_CYCDISS_LSB    _u(23)
+#define M33_DWT_CTRL_CYCDISS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_CYCEVTENA
+// Description : Enables Event Counter packet generation on POSTCNT underflow
+#define M33_DWT_CTRL_CYCEVTENA_RESET  _u(0x1)
+#define M33_DWT_CTRL_CYCEVTENA_BITS   _u(0x00400000)
+#define M33_DWT_CTRL_CYCEVTENA_MSB    _u(22)
+#define M33_DWT_CTRL_CYCEVTENA_LSB    _u(22)
+#define M33_DWT_CTRL_CYCEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_FOLDEVTENA
+// Description : Enables DWT_FOLDCNT counter
+#define M33_DWT_CTRL_FOLDEVTENA_RESET  _u(0x1)
+#define M33_DWT_CTRL_FOLDEVTENA_BITS   _u(0x00200000)
+#define M33_DWT_CTRL_FOLDEVTENA_MSB    _u(21)
+#define M33_DWT_CTRL_FOLDEVTENA_LSB    _u(21)
+#define M33_DWT_CTRL_FOLDEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_LSUEVTENA
+// Description : Enables DWT_LSUCNT counter
+#define M33_DWT_CTRL_LSUEVTENA_RESET  _u(0x1)
+#define M33_DWT_CTRL_LSUEVTENA_BITS   _u(0x00100000)
+#define M33_DWT_CTRL_LSUEVTENA_MSB    _u(20)
+#define M33_DWT_CTRL_LSUEVTENA_LSB    _u(20)
+#define M33_DWT_CTRL_LSUEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_SLEEPEVTENA
+// Description : Enable DWT_SLEEPCNT counter
+#define M33_DWT_CTRL_SLEEPEVTENA_RESET  _u(0x0)
+#define M33_DWT_CTRL_SLEEPEVTENA_BITS   _u(0x00080000)
+#define M33_DWT_CTRL_SLEEPEVTENA_MSB    _u(19)
+#define M33_DWT_CTRL_SLEEPEVTENA_LSB    _u(19)
+#define M33_DWT_CTRL_SLEEPEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_EXCEVTENA
+// Description : Enables DWT_EXCCNT counter
+#define M33_DWT_CTRL_EXCEVTENA_RESET  _u(0x1)
+#define M33_DWT_CTRL_EXCEVTENA_BITS   _u(0x00040000)
+#define M33_DWT_CTRL_EXCEVTENA_MSB    _u(18)
+#define M33_DWT_CTRL_EXCEVTENA_LSB    _u(18)
+#define M33_DWT_CTRL_EXCEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_CPIEVTENA
+// Description : Enables DWT_CPICNT counter
+#define M33_DWT_CTRL_CPIEVTENA_RESET  _u(0x0)
+#define M33_DWT_CTRL_CPIEVTENA_BITS   _u(0x00020000)
+#define M33_DWT_CTRL_CPIEVTENA_MSB    _u(17)
+#define M33_DWT_CTRL_CPIEVTENA_LSB    _u(17)
+#define M33_DWT_CTRL_CPIEVTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_EXTTRCENA
+// Description : Enables generation of Exception Trace packets
+#define M33_DWT_CTRL_EXTTRCENA_RESET  _u(0x0)
+#define M33_DWT_CTRL_EXTTRCENA_BITS   _u(0x00010000)
+#define M33_DWT_CTRL_EXTTRCENA_MSB    _u(16)
+#define M33_DWT_CTRL_EXTTRCENA_LSB    _u(16)
+#define M33_DWT_CTRL_EXTTRCENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_PCSAMPLENA
+// Description : Enables use of POSTCNT counter as a timer for Periodic PC
+//               Sample packet generation
+#define M33_DWT_CTRL_PCSAMPLENA_RESET  _u(0x1)
+#define M33_DWT_CTRL_PCSAMPLENA_BITS   _u(0x00001000)
+#define M33_DWT_CTRL_PCSAMPLENA_MSB    _u(12)
+#define M33_DWT_CTRL_PCSAMPLENA_LSB    _u(12)
+#define M33_DWT_CTRL_PCSAMPLENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_SYNCTAP
+// Description : Selects the position of the synchronization packet counter tap
+//               on the CYCCNT counter. This determines the Synchronization
+//               packet rate
+#define M33_DWT_CTRL_SYNCTAP_RESET  _u(0x2)
+#define M33_DWT_CTRL_SYNCTAP_BITS   _u(0x00000c00)
+#define M33_DWT_CTRL_SYNCTAP_MSB    _u(11)
+#define M33_DWT_CTRL_SYNCTAP_LSB    _u(10)
+#define M33_DWT_CTRL_SYNCTAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_CYCTAP
+// Description : Selects the position of the POSTCNT tap on the CYCCNT counter
+#define M33_DWT_CTRL_CYCTAP_RESET  _u(0x0)
+#define M33_DWT_CTRL_CYCTAP_BITS   _u(0x00000200)
+#define M33_DWT_CTRL_CYCTAP_MSB    _u(9)
+#define M33_DWT_CTRL_CYCTAP_LSB    _u(9)
+#define M33_DWT_CTRL_CYCTAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_POSTINIT
+// Description : Initial value for the POSTCNT counter
+#define M33_DWT_CTRL_POSTINIT_RESET  _u(0x1)
+#define M33_DWT_CTRL_POSTINIT_BITS   _u(0x000001e0)
+#define M33_DWT_CTRL_POSTINIT_MSB    _u(8)
+#define M33_DWT_CTRL_POSTINIT_LSB    _u(5)
+#define M33_DWT_CTRL_POSTINIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_POSTPRESET
+// Description : Reload value for the POSTCNT counter
+#define M33_DWT_CTRL_POSTPRESET_RESET  _u(0x2)
+#define M33_DWT_CTRL_POSTPRESET_BITS   _u(0x0000001e)
+#define M33_DWT_CTRL_POSTPRESET_MSB    _u(4)
+#define M33_DWT_CTRL_POSTPRESET_LSB    _u(1)
+#define M33_DWT_CTRL_POSTPRESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CTRL_CYCCNTENA
+// Description : Enables CYCCNT
+#define M33_DWT_CTRL_CYCCNTENA_RESET  _u(0x0)
+#define M33_DWT_CTRL_CYCCNTENA_BITS   _u(0x00000001)
+#define M33_DWT_CTRL_CYCCNTENA_MSB    _u(0)
+#define M33_DWT_CTRL_CYCCNTENA_LSB    _u(0)
+#define M33_DWT_CTRL_CYCCNTENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_CYCCNT
+// Description : Shows or sets the value of the processor cycle counter, CYCCNT
+#define M33_DWT_CYCCNT_OFFSET _u(0x00001004)
+#define M33_DWT_CYCCNT_BITS   _u(0xffffffff)
+#define M33_DWT_CYCCNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CYCCNT_CYCCNT
+// Description : Increments one on each processor clock cycle when
+//               DWT_CTRL.CYCCNTENA == 1 and DEMCR.TRCENA == 1. On overflow,
+//               CYCCNT wraps to zero
+#define M33_DWT_CYCCNT_CYCCNT_RESET  _u(0x00000000)
+#define M33_DWT_CYCCNT_CYCCNT_BITS   _u(0xffffffff)
+#define M33_DWT_CYCCNT_CYCCNT_MSB    _u(31)
+#define M33_DWT_CYCCNT_CYCCNT_LSB    _u(0)
+#define M33_DWT_CYCCNT_CYCCNT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_EXCCNT
+// Description : Counts the total cycles spent in exception processing
+#define M33_DWT_EXCCNT_OFFSET _u(0x0000100c)
+#define M33_DWT_EXCCNT_BITS   _u(0x000000ff)
+#define M33_DWT_EXCCNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_EXCCNT_EXCCNT
+// Description : Counts one on each cycle when all of the following are true: -
+//               DWT_CTRL.EXCEVTENA == 1 and DEMCR.TRCENA == 1. - No instruction
+//               is executed, see DWT_CPICNT. - An exception-entry or exception-
+//               exit related operation is in progress. - Either
+//               SecureNoninvasiveDebugAllowed() == TRUE, or NS-Req for the
+//               operation is set to Non-secure and NoninvasiveDebugAllowed() ==
+//               TRUE.
+#define M33_DWT_EXCCNT_EXCCNT_RESET  _u(0x00)
+#define M33_DWT_EXCCNT_EXCCNT_BITS   _u(0x000000ff)
+#define M33_DWT_EXCCNT_EXCCNT_MSB    _u(7)
+#define M33_DWT_EXCCNT_EXCCNT_LSB    _u(0)
+#define M33_DWT_EXCCNT_EXCCNT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_LSUCNT
+// Description : Increments on the additional cycles required to execute all
+//               load or store instructions
+#define M33_DWT_LSUCNT_OFFSET _u(0x00001014)
+#define M33_DWT_LSUCNT_BITS   _u(0x000000ff)
+#define M33_DWT_LSUCNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_LSUCNT_LSUCNT
+// Description : Counts one on each cycle when all of the following are true: -
+//               DWT_CTRL.LSUEVTENA == 1 and DEMCR.TRCENA == 1. - No instruction
+//               is executed, see DWT_CPICNT. - No exception-entry or exception-
+//               exit operation is in progress, see DWT_EXCCNT. - A load-store
+//               operation is in progress. - Either
+//               SecureNoninvasiveDebugAllowed() == TRUE, or NS-Req for the
+//               operation is set to Non-secure and NoninvasiveDebugAllowed() ==
+//               TRUE.
+#define M33_DWT_LSUCNT_LSUCNT_RESET  _u(0x00)
+#define M33_DWT_LSUCNT_LSUCNT_BITS   _u(0x000000ff)
+#define M33_DWT_LSUCNT_LSUCNT_MSB    _u(7)
+#define M33_DWT_LSUCNT_LSUCNT_LSB    _u(0)
+#define M33_DWT_LSUCNT_LSUCNT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_FOLDCNT
+// Description : Increments on the additional cycles required to execute all
+//               load or store instructions
+#define M33_DWT_FOLDCNT_OFFSET _u(0x00001018)
+#define M33_DWT_FOLDCNT_BITS   _u(0x000000ff)
+#define M33_DWT_FOLDCNT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FOLDCNT_FOLDCNT
+// Description : Counts on each cycle when all of the following are true: -
+//               DWT_CTRL.FOLDEVTENA == 1 and DEMCR.TRCENA == 1. - At least two
+//               instructions are executed, see DWT_CPICNT. - Either
+//               SecureNoninvasiveDebugAllowed() == TRUE, or the PE is in Non-
+//               secure state and NoninvasiveDebugAllowed() == TRUE. The counter
+//               is incremented by the number of instructions executed, minus
+//               one
+#define M33_DWT_FOLDCNT_FOLDCNT_RESET  _u(0x00)
+#define M33_DWT_FOLDCNT_FOLDCNT_BITS   _u(0x000000ff)
+#define M33_DWT_FOLDCNT_FOLDCNT_MSB    _u(7)
+#define M33_DWT_FOLDCNT_FOLDCNT_LSB    _u(0)
+#define M33_DWT_FOLDCNT_FOLDCNT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_COMP0
+// Description : Provides a reference value for use by watchpoint comparator 0
+#define M33_DWT_COMP0_OFFSET _u(0x00001020)
+#define M33_DWT_COMP0_BITS   _u(0xffffffff)
+#define M33_DWT_COMP0_RESET  _u(0x00000000)
+#define M33_DWT_COMP0_MSB    _u(31)
+#define M33_DWT_COMP0_LSB    _u(0)
+#define M33_DWT_COMP0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_FUNCTION0
+// Description : Controls the operation of watchpoint comparator 0
+#define M33_DWT_FUNCTION0_OFFSET _u(0x00001028)
+#define M33_DWT_FUNCTION0_BITS   _u(0xf9000c3f)
+#define M33_DWT_FUNCTION0_RESET  _u(0x58000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION0_ID
+// Description : Identifies the capabilities for MATCH for comparator *n
+#define M33_DWT_FUNCTION0_ID_RESET  _u(0x0b)
+#define M33_DWT_FUNCTION0_ID_BITS   _u(0xf8000000)
+#define M33_DWT_FUNCTION0_ID_MSB    _u(31)
+#define M33_DWT_FUNCTION0_ID_LSB    _u(27)
+#define M33_DWT_FUNCTION0_ID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION0_MATCHED
+// Description : Set to 1 when the comparator matches
+#define M33_DWT_FUNCTION0_MATCHED_RESET  _u(0x0)
+#define M33_DWT_FUNCTION0_MATCHED_BITS   _u(0x01000000)
+#define M33_DWT_FUNCTION0_MATCHED_MSB    _u(24)
+#define M33_DWT_FUNCTION0_MATCHED_LSB    _u(24)
+#define M33_DWT_FUNCTION0_MATCHED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION0_DATAVSIZE
+// Description : Defines the size of the object being watched for by Data Value
+//               and Data Address comparators
+#define M33_DWT_FUNCTION0_DATAVSIZE_RESET  _u(0x0)
+#define M33_DWT_FUNCTION0_DATAVSIZE_BITS   _u(0x00000c00)
+#define M33_DWT_FUNCTION0_DATAVSIZE_MSB    _u(11)
+#define M33_DWT_FUNCTION0_DATAVSIZE_LSB    _u(10)
+#define M33_DWT_FUNCTION0_DATAVSIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION0_ACTION
+// Description : Defines the action on a match. This field is ignored and the
+//               comparator generates no actions if it is disabled by MATCH
+#define M33_DWT_FUNCTION0_ACTION_RESET  _u(0x0)
+#define M33_DWT_FUNCTION0_ACTION_BITS   _u(0x00000030)
+#define M33_DWT_FUNCTION0_ACTION_MSB    _u(5)
+#define M33_DWT_FUNCTION0_ACTION_LSB    _u(4)
+#define M33_DWT_FUNCTION0_ACTION_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION0_MATCH
+// Description : Controls the type of match generated by this comparator
+#define M33_DWT_FUNCTION0_MATCH_RESET  _u(0x0)
+#define M33_DWT_FUNCTION0_MATCH_BITS   _u(0x0000000f)
+#define M33_DWT_FUNCTION0_MATCH_MSB    _u(3)
+#define M33_DWT_FUNCTION0_MATCH_LSB    _u(0)
+#define M33_DWT_FUNCTION0_MATCH_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_COMP1
+// Description : Provides a reference value for use by watchpoint comparator 1
+#define M33_DWT_COMP1_OFFSET _u(0x00001030)
+#define M33_DWT_COMP1_BITS   _u(0xffffffff)
+#define M33_DWT_COMP1_RESET  _u(0x00000000)
+#define M33_DWT_COMP1_MSB    _u(31)
+#define M33_DWT_COMP1_LSB    _u(0)
+#define M33_DWT_COMP1_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_FUNCTION1
+// Description : Controls the operation of watchpoint comparator 1
+#define M33_DWT_FUNCTION1_OFFSET _u(0x00001038)
+#define M33_DWT_FUNCTION1_BITS   _u(0xf9000c3f)
+#define M33_DWT_FUNCTION1_RESET  _u(0x89000828)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION1_ID
+// Description : Identifies the capabilities for MATCH for comparator *n
+#define M33_DWT_FUNCTION1_ID_RESET  _u(0x11)
+#define M33_DWT_FUNCTION1_ID_BITS   _u(0xf8000000)
+#define M33_DWT_FUNCTION1_ID_MSB    _u(31)
+#define M33_DWT_FUNCTION1_ID_LSB    _u(27)
+#define M33_DWT_FUNCTION1_ID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION1_MATCHED
+// Description : Set to 1 when the comparator matches
+#define M33_DWT_FUNCTION1_MATCHED_RESET  _u(0x1)
+#define M33_DWT_FUNCTION1_MATCHED_BITS   _u(0x01000000)
+#define M33_DWT_FUNCTION1_MATCHED_MSB    _u(24)
+#define M33_DWT_FUNCTION1_MATCHED_LSB    _u(24)
+#define M33_DWT_FUNCTION1_MATCHED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION1_DATAVSIZE
+// Description : Defines the size of the object being watched for by Data Value
+//               and Data Address comparators
+#define M33_DWT_FUNCTION1_DATAVSIZE_RESET  _u(0x2)
+#define M33_DWT_FUNCTION1_DATAVSIZE_BITS   _u(0x00000c00)
+#define M33_DWT_FUNCTION1_DATAVSIZE_MSB    _u(11)
+#define M33_DWT_FUNCTION1_DATAVSIZE_LSB    _u(10)
+#define M33_DWT_FUNCTION1_DATAVSIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION1_ACTION
+// Description : Defines the action on a match. This field is ignored and the
+//               comparator generates no actions if it is disabled by MATCH
+#define M33_DWT_FUNCTION1_ACTION_RESET  _u(0x2)
+#define M33_DWT_FUNCTION1_ACTION_BITS   _u(0x00000030)
+#define M33_DWT_FUNCTION1_ACTION_MSB    _u(5)
+#define M33_DWT_FUNCTION1_ACTION_LSB    _u(4)
+#define M33_DWT_FUNCTION1_ACTION_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION1_MATCH
+// Description : Controls the type of match generated by this comparator
+#define M33_DWT_FUNCTION1_MATCH_RESET  _u(0x8)
+#define M33_DWT_FUNCTION1_MATCH_BITS   _u(0x0000000f)
+#define M33_DWT_FUNCTION1_MATCH_MSB    _u(3)
+#define M33_DWT_FUNCTION1_MATCH_LSB    _u(0)
+#define M33_DWT_FUNCTION1_MATCH_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_COMP2
+// Description : Provides a reference value for use by watchpoint comparator 2
+#define M33_DWT_COMP2_OFFSET _u(0x00001040)
+#define M33_DWT_COMP2_BITS   _u(0xffffffff)
+#define M33_DWT_COMP2_RESET  _u(0x00000000)
+#define M33_DWT_COMP2_MSB    _u(31)
+#define M33_DWT_COMP2_LSB    _u(0)
+#define M33_DWT_COMP2_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_FUNCTION2
+// Description : Controls the operation of watchpoint comparator 2
+#define M33_DWT_FUNCTION2_OFFSET _u(0x00001048)
+#define M33_DWT_FUNCTION2_BITS   _u(0xf9000c3f)
+#define M33_DWT_FUNCTION2_RESET  _u(0x50000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION2_ID
+// Description : Identifies the capabilities for MATCH for comparator *n
+#define M33_DWT_FUNCTION2_ID_RESET  _u(0x0a)
+#define M33_DWT_FUNCTION2_ID_BITS   _u(0xf8000000)
+#define M33_DWT_FUNCTION2_ID_MSB    _u(31)
+#define M33_DWT_FUNCTION2_ID_LSB    _u(27)
+#define M33_DWT_FUNCTION2_ID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION2_MATCHED
+// Description : Set to 1 when the comparator matches
+#define M33_DWT_FUNCTION2_MATCHED_RESET  _u(0x0)
+#define M33_DWT_FUNCTION2_MATCHED_BITS   _u(0x01000000)
+#define M33_DWT_FUNCTION2_MATCHED_MSB    _u(24)
+#define M33_DWT_FUNCTION2_MATCHED_LSB    _u(24)
+#define M33_DWT_FUNCTION2_MATCHED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION2_DATAVSIZE
+// Description : Defines the size of the object being watched for by Data Value
+//               and Data Address comparators
+#define M33_DWT_FUNCTION2_DATAVSIZE_RESET  _u(0x0)
+#define M33_DWT_FUNCTION2_DATAVSIZE_BITS   _u(0x00000c00)
+#define M33_DWT_FUNCTION2_DATAVSIZE_MSB    _u(11)
+#define M33_DWT_FUNCTION2_DATAVSIZE_LSB    _u(10)
+#define M33_DWT_FUNCTION2_DATAVSIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION2_ACTION
+// Description : Defines the action on a match. This field is ignored and the
+//               comparator generates no actions if it is disabled by MATCH
+#define M33_DWT_FUNCTION2_ACTION_RESET  _u(0x0)
+#define M33_DWT_FUNCTION2_ACTION_BITS   _u(0x00000030)
+#define M33_DWT_FUNCTION2_ACTION_MSB    _u(5)
+#define M33_DWT_FUNCTION2_ACTION_LSB    _u(4)
+#define M33_DWT_FUNCTION2_ACTION_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION2_MATCH
+// Description : Controls the type of match generated by this comparator
+#define M33_DWT_FUNCTION2_MATCH_RESET  _u(0x0)
+#define M33_DWT_FUNCTION2_MATCH_BITS   _u(0x0000000f)
+#define M33_DWT_FUNCTION2_MATCH_MSB    _u(3)
+#define M33_DWT_FUNCTION2_MATCH_LSB    _u(0)
+#define M33_DWT_FUNCTION2_MATCH_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_COMP3
+// Description : Provides a reference value for use by watchpoint comparator 3
+#define M33_DWT_COMP3_OFFSET _u(0x00001050)
+#define M33_DWT_COMP3_BITS   _u(0xffffffff)
+#define M33_DWT_COMP3_RESET  _u(0x00000000)
+#define M33_DWT_COMP3_MSB    _u(31)
+#define M33_DWT_COMP3_LSB    _u(0)
+#define M33_DWT_COMP3_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_FUNCTION3
+// Description : Controls the operation of watchpoint comparator 3
+#define M33_DWT_FUNCTION3_OFFSET _u(0x00001058)
+#define M33_DWT_FUNCTION3_BITS   _u(0xf9000c3f)
+#define M33_DWT_FUNCTION3_RESET  _u(0x20000800)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION3_ID
+// Description : Identifies the capabilities for MATCH for comparator *n
+#define M33_DWT_FUNCTION3_ID_RESET  _u(0x04)
+#define M33_DWT_FUNCTION3_ID_BITS   _u(0xf8000000)
+#define M33_DWT_FUNCTION3_ID_MSB    _u(31)
+#define M33_DWT_FUNCTION3_ID_LSB    _u(27)
+#define M33_DWT_FUNCTION3_ID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION3_MATCHED
+// Description : Set to 1 when the comparator matches
+#define M33_DWT_FUNCTION3_MATCHED_RESET  _u(0x0)
+#define M33_DWT_FUNCTION3_MATCHED_BITS   _u(0x01000000)
+#define M33_DWT_FUNCTION3_MATCHED_MSB    _u(24)
+#define M33_DWT_FUNCTION3_MATCHED_LSB    _u(24)
+#define M33_DWT_FUNCTION3_MATCHED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION3_DATAVSIZE
+// Description : Defines the size of the object being watched for by Data Value
+//               and Data Address comparators
+#define M33_DWT_FUNCTION3_DATAVSIZE_RESET  _u(0x2)
+#define M33_DWT_FUNCTION3_DATAVSIZE_BITS   _u(0x00000c00)
+#define M33_DWT_FUNCTION3_DATAVSIZE_MSB    _u(11)
+#define M33_DWT_FUNCTION3_DATAVSIZE_LSB    _u(10)
+#define M33_DWT_FUNCTION3_DATAVSIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION3_ACTION
+// Description : Defines the action on a match. This field is ignored and the
+//               comparator generates no actions if it is disabled by MATCH
+#define M33_DWT_FUNCTION3_ACTION_RESET  _u(0x0)
+#define M33_DWT_FUNCTION3_ACTION_BITS   _u(0x00000030)
+#define M33_DWT_FUNCTION3_ACTION_MSB    _u(5)
+#define M33_DWT_FUNCTION3_ACTION_LSB    _u(4)
+#define M33_DWT_FUNCTION3_ACTION_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_FUNCTION3_MATCH
+// Description : Controls the type of match generated by this comparator
+#define M33_DWT_FUNCTION3_MATCH_RESET  _u(0x0)
+#define M33_DWT_FUNCTION3_MATCH_BITS   _u(0x0000000f)
+#define M33_DWT_FUNCTION3_MATCH_MSB    _u(3)
+#define M33_DWT_FUNCTION3_MATCH_LSB    _u(0)
+#define M33_DWT_FUNCTION3_MATCH_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_DEVARCH
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_DEVARCH_OFFSET _u(0x00001fbc)
+#define M33_DWT_DEVARCH_BITS   _u(0xffffffff)
+#define M33_DWT_DEVARCH_RESET  _u(0x47701a02)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVARCH_ARCHITECT
+// Description : Defines the architect of the component. Bits [31:28] are the
+//               JEP106 continuation code (JEP106 bank ID, minus 1) and bits
+//               [27:21] are the JEP106 ID code.
+#define M33_DWT_DEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_DWT_DEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_DWT_DEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_DWT_DEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_DWT_DEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVARCH_PRESENT
+// Description : Defines that the DEVARCH register is present
+#define M33_DWT_DEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_DWT_DEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_DWT_DEVARCH_PRESENT_MSB    _u(20)
+#define M33_DWT_DEVARCH_PRESENT_LSB    _u(20)
+#define M33_DWT_DEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVARCH_REVISION
+// Description : Defines the architecture revision of the component
+#define M33_DWT_DEVARCH_REVISION_RESET  _u(0x0)
+#define M33_DWT_DEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_DWT_DEVARCH_REVISION_MSB    _u(19)
+#define M33_DWT_DEVARCH_REVISION_LSB    _u(16)
+#define M33_DWT_DEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVARCH_ARCHVER
+// Description : Defines the architecture version of the component
+#define M33_DWT_DEVARCH_ARCHVER_RESET  _u(0x1)
+#define M33_DWT_DEVARCH_ARCHVER_BITS   _u(0x0000f000)
+#define M33_DWT_DEVARCH_ARCHVER_MSB    _u(15)
+#define M33_DWT_DEVARCH_ARCHVER_LSB    _u(12)
+#define M33_DWT_DEVARCH_ARCHVER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVARCH_ARCHPART
+// Description : Defines the architecture of the component
+#define M33_DWT_DEVARCH_ARCHPART_RESET  _u(0xa02)
+#define M33_DWT_DEVARCH_ARCHPART_BITS   _u(0x00000fff)
+#define M33_DWT_DEVARCH_ARCHPART_MSB    _u(11)
+#define M33_DWT_DEVARCH_ARCHPART_LSB    _u(0)
+#define M33_DWT_DEVARCH_ARCHPART_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_DEVTYPE
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_DEVTYPE_OFFSET _u(0x00001fcc)
+#define M33_DWT_DEVTYPE_BITS   _u(0x000000ff)
+#define M33_DWT_DEVTYPE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVTYPE_SUB
+// Description : Component sub-type
+#define M33_DWT_DEVTYPE_SUB_RESET  _u(0x0)
+#define M33_DWT_DEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_DWT_DEVTYPE_SUB_MSB    _u(7)
+#define M33_DWT_DEVTYPE_SUB_LSB    _u(4)
+#define M33_DWT_DEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_DEVTYPE_MAJOR
+// Description : Component major type
+#define M33_DWT_DEVTYPE_MAJOR_RESET  _u(0x0)
+#define M33_DWT_DEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_DWT_DEVTYPE_MAJOR_MSB    _u(3)
+#define M33_DWT_DEVTYPE_MAJOR_LSB    _u(0)
+#define M33_DWT_DEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_PIDR4
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR4_OFFSET _u(0x00001fd0)
+#define M33_DWT_PIDR4_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR4_SIZE
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR4_SIZE_RESET  _u(0x0)
+#define M33_DWT_PIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_DWT_PIDR4_SIZE_MSB    _u(7)
+#define M33_DWT_PIDR4_SIZE_LSB    _u(4)
+#define M33_DWT_PIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR4_DES_2
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR4_DES_2_RESET  _u(0x4)
+#define M33_DWT_PIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_DWT_PIDR4_DES_2_MSB    _u(3)
+#define M33_DWT_PIDR4_DES_2_LSB    _u(0)
+#define M33_DWT_PIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_PIDR5
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR5_OFFSET _u(0x00001fd4)
+#define M33_DWT_PIDR5_BITS   _u(0x00000000)
+#define M33_DWT_PIDR5_RESET  _u(0x00000000)
+#define M33_DWT_PIDR5_MSB    _u(31)
+#define M33_DWT_PIDR5_LSB    _u(0)
+#define M33_DWT_PIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_PIDR6
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR6_OFFSET _u(0x00001fd8)
+#define M33_DWT_PIDR6_BITS   _u(0x00000000)
+#define M33_DWT_PIDR6_RESET  _u(0x00000000)
+#define M33_DWT_PIDR6_MSB    _u(31)
+#define M33_DWT_PIDR6_LSB    _u(0)
+#define M33_DWT_PIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_PIDR7
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR7_OFFSET _u(0x00001fdc)
+#define M33_DWT_PIDR7_BITS   _u(0x00000000)
+#define M33_DWT_PIDR7_RESET  _u(0x00000000)
+#define M33_DWT_PIDR7_MSB    _u(31)
+#define M33_DWT_PIDR7_LSB    _u(0)
+#define M33_DWT_PIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DWT_PIDR0
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR0_OFFSET _u(0x00001fe0)
+#define M33_DWT_PIDR0_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR0_PART_0
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR0_PART_0_RESET  _u(0x21)
+#define M33_DWT_PIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR0_PART_0_MSB    _u(7)
+#define M33_DWT_PIDR0_PART_0_LSB    _u(0)
+#define M33_DWT_PIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_PIDR1
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR1_OFFSET _u(0x00001fe4)
+#define M33_DWT_PIDR1_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR1_DES_0
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR1_DES_0_RESET  _u(0xb)
+#define M33_DWT_PIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_DWT_PIDR1_DES_0_MSB    _u(7)
+#define M33_DWT_PIDR1_DES_0_LSB    _u(4)
+#define M33_DWT_PIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR1_PART_1
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR1_PART_1_RESET  _u(0xd)
+#define M33_DWT_PIDR1_PART_1_BITS   _u(0x0000000f)
+#define M33_DWT_PIDR1_PART_1_MSB    _u(3)
+#define M33_DWT_PIDR1_PART_1_LSB    _u(0)
+#define M33_DWT_PIDR1_PART_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_PIDR2
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR2_OFFSET _u(0x00001fe8)
+#define M33_DWT_PIDR2_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR2_RESET  _u(0x0000000b)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR2_REVISION
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR2_REVISION_RESET  _u(0x0)
+#define M33_DWT_PIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_DWT_PIDR2_REVISION_MSB    _u(7)
+#define M33_DWT_PIDR2_REVISION_LSB    _u(4)
+#define M33_DWT_PIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR2_JEDEC
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR2_JEDEC_RESET  _u(0x1)
+#define M33_DWT_PIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_DWT_PIDR2_JEDEC_MSB    _u(3)
+#define M33_DWT_PIDR2_JEDEC_LSB    _u(3)
+#define M33_DWT_PIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR2_DES_1
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR2_DES_1_RESET  _u(0x3)
+#define M33_DWT_PIDR2_DES_1_BITS   _u(0x00000007)
+#define M33_DWT_PIDR2_DES_1_MSB    _u(2)
+#define M33_DWT_PIDR2_DES_1_LSB    _u(0)
+#define M33_DWT_PIDR2_DES_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_PIDR3
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_PIDR3_OFFSET _u(0x00001fec)
+#define M33_DWT_PIDR3_BITS   _u(0x000000ff)
+#define M33_DWT_PIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR3_REVAND
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR3_REVAND_RESET  _u(0x0)
+#define M33_DWT_PIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_DWT_PIDR3_REVAND_MSB    _u(7)
+#define M33_DWT_PIDR3_REVAND_LSB    _u(4)
+#define M33_DWT_PIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_PIDR3_CMOD
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_PIDR3_CMOD_RESET  _u(0x0)
+#define M33_DWT_PIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_DWT_PIDR3_CMOD_MSB    _u(3)
+#define M33_DWT_PIDR3_CMOD_LSB    _u(0)
+#define M33_DWT_PIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_CIDR0
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_CIDR0_OFFSET _u(0x00001ff0)
+#define M33_DWT_CIDR0_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CIDR0_PRMBL_0
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_CIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_DWT_CIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR0_PRMBL_0_MSB    _u(7)
+#define M33_DWT_CIDR0_PRMBL_0_LSB    _u(0)
+#define M33_DWT_CIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_CIDR1
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_CIDR1_OFFSET _u(0x00001ff4)
+#define M33_DWT_CIDR1_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CIDR1_CLASS
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_CIDR1_CLASS_RESET  _u(0x9)
+#define M33_DWT_CIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_DWT_CIDR1_CLASS_MSB    _u(7)
+#define M33_DWT_CIDR1_CLASS_LSB    _u(4)
+#define M33_DWT_CIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CIDR1_PRMBL_1
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_CIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_DWT_CIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_DWT_CIDR1_PRMBL_1_MSB    _u(3)
+#define M33_DWT_CIDR1_PRMBL_1_LSB    _u(0)
+#define M33_DWT_CIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_CIDR2
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_CIDR2_OFFSET _u(0x00001ff8)
+#define M33_DWT_CIDR2_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CIDR2_PRMBL_2
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_CIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_DWT_CIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR2_PRMBL_2_MSB    _u(7)
+#define M33_DWT_CIDR2_PRMBL_2_LSB    _u(0)
+#define M33_DWT_CIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DWT_CIDR3
+// Description : Provides CoreSight discovery information for the DWT
+#define M33_DWT_CIDR3_OFFSET _u(0x00001ffc)
+#define M33_DWT_CIDR3_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_DWT_CIDR3_PRMBL_3
+// Description : See CoreSight Architecture Specification
+#define M33_DWT_CIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_DWT_CIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_DWT_CIDR3_PRMBL_3_MSB    _u(7)
+#define M33_DWT_CIDR3_PRMBL_3_LSB    _u(0)
+#define M33_DWT_CIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_CTRL
+// Description : Provides FPB implementation information, and the global enable
+//               for the FPB unit
+#define M33_FP_CTRL_OFFSET _u(0x00002000)
+#define M33_FP_CTRL_BITS   _u(0xf0007ff3)
+#define M33_FP_CTRL_RESET  _u(0x60005580)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_REV
+// Description : Flash Patch and Breakpoint Unit architecture revision
+#define M33_FP_CTRL_REV_RESET  _u(0x6)
+#define M33_FP_CTRL_REV_BITS   _u(0xf0000000)
+#define M33_FP_CTRL_REV_MSB    _u(31)
+#define M33_FP_CTRL_REV_LSB    _u(28)
+#define M33_FP_CTRL_REV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_NUM_CODE_14_12_
+// Description : Indicates the number of implemented instruction address
+//               comparators. Zero indicates no Instruction Address comparators
+//               are implemented. The Instruction Address comparators are
+//               numbered from 0 to NUM_CODE - 1
+#define M33_FP_CTRL_NUM_CODE_14_12__RESET  _u(0x5)
+#define M33_FP_CTRL_NUM_CODE_14_12__BITS   _u(0x00007000)
+#define M33_FP_CTRL_NUM_CODE_14_12__MSB    _u(14)
+#define M33_FP_CTRL_NUM_CODE_14_12__LSB    _u(12)
+#define M33_FP_CTRL_NUM_CODE_14_12__ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_NUM_LIT
+// Description : Indicates the number of implemented literal address
+//               comparators. The Literal Address comparators are numbered from
+//               NUM_CODE to NUM_CODE + NUM_LIT - 1
+#define M33_FP_CTRL_NUM_LIT_RESET  _u(0x5)
+#define M33_FP_CTRL_NUM_LIT_BITS   _u(0x00000f00)
+#define M33_FP_CTRL_NUM_LIT_MSB    _u(11)
+#define M33_FP_CTRL_NUM_LIT_LSB    _u(8)
+#define M33_FP_CTRL_NUM_LIT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_NUM_CODE_7_4_
+// Description : Indicates the number of implemented instruction address
+//               comparators. Zero indicates no Instruction Address comparators
+//               are implemented. The Instruction Address comparators are
+//               numbered from 0 to NUM_CODE - 1
+#define M33_FP_CTRL_NUM_CODE_7_4__RESET  _u(0x8)
+#define M33_FP_CTRL_NUM_CODE_7_4__BITS   _u(0x000000f0)
+#define M33_FP_CTRL_NUM_CODE_7_4__MSB    _u(7)
+#define M33_FP_CTRL_NUM_CODE_7_4__LSB    _u(4)
+#define M33_FP_CTRL_NUM_CODE_7_4__ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_KEY
+// Description : Writes to the FP_CTRL are ignored unless KEY is concurrently
+//               written to one
+#define M33_FP_CTRL_KEY_RESET  _u(0x0)
+#define M33_FP_CTRL_KEY_BITS   _u(0x00000002)
+#define M33_FP_CTRL_KEY_MSB    _u(1)
+#define M33_FP_CTRL_KEY_LSB    _u(1)
+#define M33_FP_CTRL_KEY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CTRL_ENABLE
+// Description : Enables the FPB
+#define M33_FP_CTRL_ENABLE_RESET  _u(0x0)
+#define M33_FP_CTRL_ENABLE_BITS   _u(0x00000001)
+#define M33_FP_CTRL_ENABLE_MSB    _u(0)
+#define M33_FP_CTRL_ENABLE_LSB    _u(0)
+#define M33_FP_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_REMAP
+// Description : Indicates whether the implementation supports Flash Patch remap
+//               and, if it does, holds the target address for remap
+#define M33_FP_REMAP_OFFSET _u(0x00002004)
+#define M33_FP_REMAP_BITS   _u(0x3fffffe0)
+#define M33_FP_REMAP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_REMAP_RMPSPT
+// Description : Indicates whether the FPB unit supports the Flash Patch remap
+//               function
+#define M33_FP_REMAP_RMPSPT_RESET  _u(0x0)
+#define M33_FP_REMAP_RMPSPT_BITS   _u(0x20000000)
+#define M33_FP_REMAP_RMPSPT_MSB    _u(29)
+#define M33_FP_REMAP_RMPSPT_LSB    _u(29)
+#define M33_FP_REMAP_RMPSPT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_REMAP_REMAP
+// Description : Holds the bits[28:5] of the Flash Patch remap address
+#define M33_FP_REMAP_REMAP_RESET  _u(0x000000)
+#define M33_FP_REMAP_REMAP_BITS   _u(0x1fffffe0)
+#define M33_FP_REMAP_REMAP_MSB    _u(28)
+#define M33_FP_REMAP_REMAP_LSB    _u(5)
+#define M33_FP_REMAP_REMAP_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_COMP0
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP0_OFFSET _u(0x00002008)
+#define M33_FP_COMP0_BITS   _u(0x00000001)
+#define M33_FP_COMP0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP0_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP0_BE_RESET  _u(0x0)
+#define M33_FP_COMP0_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP0_BE_MSB    _u(0)
+#define M33_FP_COMP0_BE_LSB    _u(0)
+#define M33_FP_COMP0_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP1
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP1_OFFSET _u(0x0000200c)
+#define M33_FP_COMP1_BITS   _u(0x00000001)
+#define M33_FP_COMP1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP1_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP1_BE_RESET  _u(0x0)
+#define M33_FP_COMP1_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP1_BE_MSB    _u(0)
+#define M33_FP_COMP1_BE_LSB    _u(0)
+#define M33_FP_COMP1_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP2
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP2_OFFSET _u(0x00002010)
+#define M33_FP_COMP2_BITS   _u(0x00000001)
+#define M33_FP_COMP2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP2_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP2_BE_RESET  _u(0x0)
+#define M33_FP_COMP2_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP2_BE_MSB    _u(0)
+#define M33_FP_COMP2_BE_LSB    _u(0)
+#define M33_FP_COMP2_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP3
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP3_OFFSET _u(0x00002014)
+#define M33_FP_COMP3_BITS   _u(0x00000001)
+#define M33_FP_COMP3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP3_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP3_BE_RESET  _u(0x0)
+#define M33_FP_COMP3_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP3_BE_MSB    _u(0)
+#define M33_FP_COMP3_BE_LSB    _u(0)
+#define M33_FP_COMP3_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP4
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP4_OFFSET _u(0x00002018)
+#define M33_FP_COMP4_BITS   _u(0x00000001)
+#define M33_FP_COMP4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP4_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP4_BE_RESET  _u(0x0)
+#define M33_FP_COMP4_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP4_BE_MSB    _u(0)
+#define M33_FP_COMP4_BE_LSB    _u(0)
+#define M33_FP_COMP4_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP5
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP5_OFFSET _u(0x0000201c)
+#define M33_FP_COMP5_BITS   _u(0x00000001)
+#define M33_FP_COMP5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP5_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP5_BE_RESET  _u(0x0)
+#define M33_FP_COMP5_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP5_BE_MSB    _u(0)
+#define M33_FP_COMP5_BE_LSB    _u(0)
+#define M33_FP_COMP5_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP6
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP6_OFFSET _u(0x00002020)
+#define M33_FP_COMP6_BITS   _u(0x00000001)
+#define M33_FP_COMP6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP6_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP6_BE_RESET  _u(0x0)
+#define M33_FP_COMP6_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP6_BE_MSB    _u(0)
+#define M33_FP_COMP6_BE_LSB    _u(0)
+#define M33_FP_COMP6_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_COMP7
+// Description : Holds an address for comparison. The effect of the match
+//               depends on the configuration of the FPB and whether the
+//               comparator is an instruction address comparator or a literal
+//               address comparator
+#define M33_FP_COMP7_OFFSET _u(0x00002024)
+#define M33_FP_COMP7_BITS   _u(0x00000001)
+#define M33_FP_COMP7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_COMP7_BE
+// Description : Selects between flashpatch and breakpoint functionality
+#define M33_FP_COMP7_BE_RESET  _u(0x0)
+#define M33_FP_COMP7_BE_BITS   _u(0x00000001)
+#define M33_FP_COMP7_BE_MSB    _u(0)
+#define M33_FP_COMP7_BE_LSB    _u(0)
+#define M33_FP_COMP7_BE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_DEVARCH
+// Description : Provides CoreSight discovery information for the FPB
+#define M33_FP_DEVARCH_OFFSET _u(0x00002fbc)
+#define M33_FP_DEVARCH_BITS   _u(0xffffffff)
+#define M33_FP_DEVARCH_RESET  _u(0x47701a03)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVARCH_ARCHITECT
+// Description : Defines the architect of the component. Bits [31:28] are the
+//               JEP106 continuation code (JEP106 bank ID, minus 1) and bits
+//               [27:21] are the JEP106 ID code.
+#define M33_FP_DEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_FP_DEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_FP_DEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_FP_DEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_FP_DEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVARCH_PRESENT
+// Description : Defines that the DEVARCH register is present
+#define M33_FP_DEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_FP_DEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_FP_DEVARCH_PRESENT_MSB    _u(20)
+#define M33_FP_DEVARCH_PRESENT_LSB    _u(20)
+#define M33_FP_DEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVARCH_REVISION
+// Description : Defines the architecture revision of the component
+#define M33_FP_DEVARCH_REVISION_RESET  _u(0x0)
+#define M33_FP_DEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_FP_DEVARCH_REVISION_MSB    _u(19)
+#define M33_FP_DEVARCH_REVISION_LSB    _u(16)
+#define M33_FP_DEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVARCH_ARCHVER
+// Description : Defines the architecture version of the component
+#define M33_FP_DEVARCH_ARCHVER_RESET  _u(0x1)
+#define M33_FP_DEVARCH_ARCHVER_BITS   _u(0x0000f000)
+#define M33_FP_DEVARCH_ARCHVER_MSB    _u(15)
+#define M33_FP_DEVARCH_ARCHVER_LSB    _u(12)
+#define M33_FP_DEVARCH_ARCHVER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVARCH_ARCHPART
+// Description : Defines the architecture of the component
+#define M33_FP_DEVARCH_ARCHPART_RESET  _u(0xa03)
+#define M33_FP_DEVARCH_ARCHPART_BITS   _u(0x00000fff)
+#define M33_FP_DEVARCH_ARCHPART_MSB    _u(11)
+#define M33_FP_DEVARCH_ARCHPART_LSB    _u(0)
+#define M33_FP_DEVARCH_ARCHPART_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_DEVTYPE
+// Description : Provides CoreSight discovery information for the FPB
+#define M33_FP_DEVTYPE_OFFSET _u(0x00002fcc)
+#define M33_FP_DEVTYPE_BITS   _u(0x000000ff)
+#define M33_FP_DEVTYPE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVTYPE_SUB
+// Description : Component sub-type
+#define M33_FP_DEVTYPE_SUB_RESET  _u(0x0)
+#define M33_FP_DEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_FP_DEVTYPE_SUB_MSB    _u(7)
+#define M33_FP_DEVTYPE_SUB_LSB    _u(4)
+#define M33_FP_DEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_DEVTYPE_MAJOR
+// Description : Component major type
+#define M33_FP_DEVTYPE_MAJOR_RESET  _u(0x0)
+#define M33_FP_DEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_FP_DEVTYPE_MAJOR_MSB    _u(3)
+#define M33_FP_DEVTYPE_MAJOR_LSB    _u(0)
+#define M33_FP_DEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_PIDR4
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR4_OFFSET _u(0x00002fd0)
+#define M33_FP_PIDR4_BITS   _u(0x000000ff)
+#define M33_FP_PIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR4_SIZE
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR4_SIZE_RESET  _u(0x0)
+#define M33_FP_PIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_FP_PIDR4_SIZE_MSB    _u(7)
+#define M33_FP_PIDR4_SIZE_LSB    _u(4)
+#define M33_FP_PIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR4_DES_2
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR4_DES_2_RESET  _u(0x4)
+#define M33_FP_PIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_FP_PIDR4_DES_2_MSB    _u(3)
+#define M33_FP_PIDR4_DES_2_LSB    _u(0)
+#define M33_FP_PIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_PIDR5
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR5_OFFSET _u(0x00002fd4)
+#define M33_FP_PIDR5_BITS   _u(0x00000000)
+#define M33_FP_PIDR5_RESET  _u(0x00000000)
+#define M33_FP_PIDR5_MSB    _u(31)
+#define M33_FP_PIDR5_LSB    _u(0)
+#define M33_FP_PIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_PIDR6
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR6_OFFSET _u(0x00002fd8)
+#define M33_FP_PIDR6_BITS   _u(0x00000000)
+#define M33_FP_PIDR6_RESET  _u(0x00000000)
+#define M33_FP_PIDR6_MSB    _u(31)
+#define M33_FP_PIDR6_LSB    _u(0)
+#define M33_FP_PIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_PIDR7
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR7_OFFSET _u(0x00002fdc)
+#define M33_FP_PIDR7_BITS   _u(0x00000000)
+#define M33_FP_PIDR7_RESET  _u(0x00000000)
+#define M33_FP_PIDR7_MSB    _u(31)
+#define M33_FP_PIDR7_LSB    _u(0)
+#define M33_FP_PIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FP_PIDR0
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR0_OFFSET _u(0x00002fe0)
+#define M33_FP_PIDR0_BITS   _u(0x000000ff)
+#define M33_FP_PIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR0_PART_0
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR0_PART_0_RESET  _u(0x21)
+#define M33_FP_PIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_FP_PIDR0_PART_0_MSB    _u(7)
+#define M33_FP_PIDR0_PART_0_LSB    _u(0)
+#define M33_FP_PIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_PIDR1
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR1_OFFSET _u(0x00002fe4)
+#define M33_FP_PIDR1_BITS   _u(0x000000ff)
+#define M33_FP_PIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR1_DES_0
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR1_DES_0_RESET  _u(0xb)
+#define M33_FP_PIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_FP_PIDR1_DES_0_MSB    _u(7)
+#define M33_FP_PIDR1_DES_0_LSB    _u(4)
+#define M33_FP_PIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR1_PART_1
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR1_PART_1_RESET  _u(0xd)
+#define M33_FP_PIDR1_PART_1_BITS   _u(0x0000000f)
+#define M33_FP_PIDR1_PART_1_MSB    _u(3)
+#define M33_FP_PIDR1_PART_1_LSB    _u(0)
+#define M33_FP_PIDR1_PART_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_PIDR2
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR2_OFFSET _u(0x00002fe8)
+#define M33_FP_PIDR2_BITS   _u(0x000000ff)
+#define M33_FP_PIDR2_RESET  _u(0x0000000b)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR2_REVISION
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR2_REVISION_RESET  _u(0x0)
+#define M33_FP_PIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_FP_PIDR2_REVISION_MSB    _u(7)
+#define M33_FP_PIDR2_REVISION_LSB    _u(4)
+#define M33_FP_PIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR2_JEDEC
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR2_JEDEC_RESET  _u(0x1)
+#define M33_FP_PIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_FP_PIDR2_JEDEC_MSB    _u(3)
+#define M33_FP_PIDR2_JEDEC_LSB    _u(3)
+#define M33_FP_PIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR2_DES_1
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR2_DES_1_RESET  _u(0x3)
+#define M33_FP_PIDR2_DES_1_BITS   _u(0x00000007)
+#define M33_FP_PIDR2_DES_1_MSB    _u(2)
+#define M33_FP_PIDR2_DES_1_LSB    _u(0)
+#define M33_FP_PIDR2_DES_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_PIDR3
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_PIDR3_OFFSET _u(0x00002fec)
+#define M33_FP_PIDR3_BITS   _u(0x000000ff)
+#define M33_FP_PIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR3_REVAND
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR3_REVAND_RESET  _u(0x0)
+#define M33_FP_PIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_FP_PIDR3_REVAND_MSB    _u(7)
+#define M33_FP_PIDR3_REVAND_LSB    _u(4)
+#define M33_FP_PIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_PIDR3_CMOD
+// Description : See CoreSight Architecture Specification
+#define M33_FP_PIDR3_CMOD_RESET  _u(0x0)
+#define M33_FP_PIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_FP_PIDR3_CMOD_MSB    _u(3)
+#define M33_FP_PIDR3_CMOD_LSB    _u(0)
+#define M33_FP_PIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_CIDR0
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_CIDR0_OFFSET _u(0x00002ff0)
+#define M33_FP_CIDR0_BITS   _u(0x000000ff)
+#define M33_FP_CIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CIDR0_PRMBL_0
+// Description : See CoreSight Architecture Specification
+#define M33_FP_CIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_FP_CIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_FP_CIDR0_PRMBL_0_MSB    _u(7)
+#define M33_FP_CIDR0_PRMBL_0_LSB    _u(0)
+#define M33_FP_CIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_CIDR1
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_CIDR1_OFFSET _u(0x00002ff4)
+#define M33_FP_CIDR1_BITS   _u(0x000000ff)
+#define M33_FP_CIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CIDR1_CLASS
+// Description : See CoreSight Architecture Specification
+#define M33_FP_CIDR1_CLASS_RESET  _u(0x9)
+#define M33_FP_CIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_FP_CIDR1_CLASS_MSB    _u(7)
+#define M33_FP_CIDR1_CLASS_LSB    _u(4)
+#define M33_FP_CIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CIDR1_PRMBL_1
+// Description : See CoreSight Architecture Specification
+#define M33_FP_CIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_FP_CIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_FP_CIDR1_PRMBL_1_MSB    _u(3)
+#define M33_FP_CIDR1_PRMBL_1_LSB    _u(0)
+#define M33_FP_CIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_CIDR2
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_CIDR2_OFFSET _u(0x00002ff8)
+#define M33_FP_CIDR2_BITS   _u(0x000000ff)
+#define M33_FP_CIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CIDR2_PRMBL_2
+// Description : See CoreSight Architecture Specification
+#define M33_FP_CIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_FP_CIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_FP_CIDR2_PRMBL_2_MSB    _u(7)
+#define M33_FP_CIDR2_PRMBL_2_LSB    _u(0)
+#define M33_FP_CIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_FP_CIDR3
+// Description : Provides CoreSight discovery information for the FP
+#define M33_FP_CIDR3_OFFSET _u(0x00002ffc)
+#define M33_FP_CIDR3_BITS   _u(0x000000ff)
+#define M33_FP_CIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_FP_CIDR3_PRMBL_3
+// Description : See CoreSight Architecture Specification
+#define M33_FP_CIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_FP_CIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_FP_CIDR3_PRMBL_3_MSB    _u(7)
+#define M33_FP_CIDR3_PRMBL_3_LSB    _u(0)
+#define M33_FP_CIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ICTR
+// Description : Provides information about the interrupt controller
+#define M33_ICTR_OFFSET _u(0x0000e004)
+#define M33_ICTR_BITS   _u(0x0000000f)
+#define M33_ICTR_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : M33_ICTR_INTLINESNUM
+// Description : Indicates the number of the highest implemented register in
+//               each of the NVIC control register sets, or in the case of
+//               NVIC_IPR*n, 4×INTLINESNUM
+#define M33_ICTR_INTLINESNUM_RESET  _u(0x1)
+#define M33_ICTR_INTLINESNUM_BITS   _u(0x0000000f)
+#define M33_ICTR_INTLINESNUM_MSB    _u(3)
+#define M33_ICTR_INTLINESNUM_LSB    _u(0)
+#define M33_ICTR_INTLINESNUM_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ACTLR
+// Description : Provides IMPLEMENTATION DEFINED configuration and control
+//               options
+#define M33_ACTLR_OFFSET _u(0x0000e008)
+#define M33_ACTLR_BITS   _u(0x20001605)
+#define M33_ACTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_EXTEXCLALL
+// Description : External Exclusives Allowed with no MPU
+#define M33_ACTLR_EXTEXCLALL_RESET  _u(0x0)
+#define M33_ACTLR_EXTEXCLALL_BITS   _u(0x20000000)
+#define M33_ACTLR_EXTEXCLALL_MSB    _u(29)
+#define M33_ACTLR_EXTEXCLALL_LSB    _u(29)
+#define M33_ACTLR_EXTEXCLALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_DISITMATBFLUSH
+// Description : Disable ATB Flush
+#define M33_ACTLR_DISITMATBFLUSH_RESET  _u(0x0)
+#define M33_ACTLR_DISITMATBFLUSH_BITS   _u(0x00001000)
+#define M33_ACTLR_DISITMATBFLUSH_MSB    _u(12)
+#define M33_ACTLR_DISITMATBFLUSH_LSB    _u(12)
+#define M33_ACTLR_DISITMATBFLUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_FPEXCODIS
+// Description : Disable FPU exception outputs
+#define M33_ACTLR_FPEXCODIS_RESET  _u(0x0)
+#define M33_ACTLR_FPEXCODIS_BITS   _u(0x00000400)
+#define M33_ACTLR_FPEXCODIS_MSB    _u(10)
+#define M33_ACTLR_FPEXCODIS_LSB    _u(10)
+#define M33_ACTLR_FPEXCODIS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_DISOOFP
+// Description : Disable out-of-order FP instruction completion
+#define M33_ACTLR_DISOOFP_RESET  _u(0x0)
+#define M33_ACTLR_DISOOFP_BITS   _u(0x00000200)
+#define M33_ACTLR_DISOOFP_MSB    _u(9)
+#define M33_ACTLR_DISOOFP_LSB    _u(9)
+#define M33_ACTLR_DISOOFP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_DISFOLD
+// Description : Disable dual-issue.
+#define M33_ACTLR_DISFOLD_RESET  _u(0x0)
+#define M33_ACTLR_DISFOLD_BITS   _u(0x00000004)
+#define M33_ACTLR_DISFOLD_MSB    _u(2)
+#define M33_ACTLR_DISFOLD_LSB    _u(2)
+#define M33_ACTLR_DISFOLD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ACTLR_DISMCYCINT
+// Description : Disable dual-issue.
+#define M33_ACTLR_DISMCYCINT_RESET  _u(0x0)
+#define M33_ACTLR_DISMCYCINT_BITS   _u(0x00000001)
+#define M33_ACTLR_DISMCYCINT_MSB    _u(0)
+#define M33_ACTLR_DISMCYCINT_LSB    _u(0)
+#define M33_ACTLR_DISMCYCINT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SYST_CSR
+// Description : Use the SysTick Control and Status Register to enable the
+//               SysTick features.
+#define M33_SYST_CSR_OFFSET _u(0x0000e010)
+#define M33_SYST_CSR_BITS   _u(0x00010007)
+#define M33_SYST_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CSR_COUNTFLAG
+// Description : Returns 1 if timer counted to 0 since last time this was read.
+//               Clears on read by application or debugger.
+#define M33_SYST_CSR_COUNTFLAG_RESET  _u(0x0)
+#define M33_SYST_CSR_COUNTFLAG_BITS   _u(0x00010000)
+#define M33_SYST_CSR_COUNTFLAG_MSB    _u(16)
+#define M33_SYST_CSR_COUNTFLAG_LSB    _u(16)
+#define M33_SYST_CSR_COUNTFLAG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CSR_CLKSOURCE
+// Description : SysTick clock source. Always reads as one if SYST_CALIB reports
+//               NOREF.
+//               Selects the SysTick timer clock source:
+//               0 = External reference clock.
+//               1 = Processor clock.
+#define M33_SYST_CSR_CLKSOURCE_RESET  _u(0x0)
+#define M33_SYST_CSR_CLKSOURCE_BITS   _u(0x00000004)
+#define M33_SYST_CSR_CLKSOURCE_MSB    _u(2)
+#define M33_SYST_CSR_CLKSOURCE_LSB    _u(2)
+#define M33_SYST_CSR_CLKSOURCE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CSR_TICKINT
+// Description : Enables SysTick exception request:
+//               0 = Counting down to zero does not assert the SysTick exception
+//               request.
+//               1 = Counting down to zero to asserts the SysTick exception
+//               request.
+#define M33_SYST_CSR_TICKINT_RESET  _u(0x0)
+#define M33_SYST_CSR_TICKINT_BITS   _u(0x00000002)
+#define M33_SYST_CSR_TICKINT_MSB    _u(1)
+#define M33_SYST_CSR_TICKINT_LSB    _u(1)
+#define M33_SYST_CSR_TICKINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CSR_ENABLE
+// Description : Enable SysTick counter:
+//               0 = Counter disabled.
+//               1 = Counter enabled.
+#define M33_SYST_CSR_ENABLE_RESET  _u(0x0)
+#define M33_SYST_CSR_ENABLE_BITS   _u(0x00000001)
+#define M33_SYST_CSR_ENABLE_MSB    _u(0)
+#define M33_SYST_CSR_ENABLE_LSB    _u(0)
+#define M33_SYST_CSR_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SYST_RVR
+// Description : Use the SysTick Reload Value Register to specify the start
+//               value to load into the current value register when the counter
+//               reaches 0. It can be any value between 0 and 0x00FFFFFF. A
+//               start value of 0 is possible, but has no effect because the
+//               SysTick interrupt and COUNTFLAG are activated when counting
+//               from 1 to 0. The reset value of this register is UNKNOWN.
+//               To generate a multi-shot timer with a period of N processor
+//               clock cycles, use a RELOAD value of N-1. For example, if the
+//               SysTick interrupt is required every 100 clock pulses, set
+//               RELOAD to 99.
+#define M33_SYST_RVR_OFFSET _u(0x0000e014)
+#define M33_SYST_RVR_BITS   _u(0x00ffffff)
+#define M33_SYST_RVR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_RVR_RELOAD
+// Description : Value to load into the SysTick Current Value Register when the
+//               counter reaches 0.
+#define M33_SYST_RVR_RELOAD_RESET  _u(0x000000)
+#define M33_SYST_RVR_RELOAD_BITS   _u(0x00ffffff)
+#define M33_SYST_RVR_RELOAD_MSB    _u(23)
+#define M33_SYST_RVR_RELOAD_LSB    _u(0)
+#define M33_SYST_RVR_RELOAD_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SYST_CVR
+// Description : Use the SysTick Current Value Register to find the current
+//               value in the register. The reset value of this register is
+//               UNKNOWN.
+#define M33_SYST_CVR_OFFSET _u(0x0000e018)
+#define M33_SYST_CVR_BITS   _u(0x00ffffff)
+#define M33_SYST_CVR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CVR_CURRENT
+// Description : Reads return the current value of the SysTick counter. This
+//               register is write-clear. Writing to it with any value clears
+//               the register to 0. Clearing this register also clears the
+//               COUNTFLAG bit of the SysTick Control and Status Register.
+#define M33_SYST_CVR_CURRENT_RESET  _u(0x000000)
+#define M33_SYST_CVR_CURRENT_BITS   _u(0x00ffffff)
+#define M33_SYST_CVR_CURRENT_MSB    _u(23)
+#define M33_SYST_CVR_CURRENT_LSB    _u(0)
+#define M33_SYST_CVR_CURRENT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SYST_CALIB
+// Description : Use the SysTick Calibration Value Register to enable software
+//               to scale to any required speed using divide and multiply.
+#define M33_SYST_CALIB_OFFSET _u(0x0000e01c)
+#define M33_SYST_CALIB_BITS   _u(0xc0ffffff)
+#define M33_SYST_CALIB_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CALIB_NOREF
+// Description : If reads as 1, the Reference clock is not provided - the
+//               CLKSOURCE bit of the SysTick Control and Status register will
+//               be forced to 1 and cannot be cleared to 0.
+#define M33_SYST_CALIB_NOREF_RESET  _u(0x0)
+#define M33_SYST_CALIB_NOREF_BITS   _u(0x80000000)
+#define M33_SYST_CALIB_NOREF_MSB    _u(31)
+#define M33_SYST_CALIB_NOREF_LSB    _u(31)
+#define M33_SYST_CALIB_NOREF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CALIB_SKEW
+// Description : If reads as 1, the calibration value for 10ms is inexact (due
+//               to clock frequency).
+#define M33_SYST_CALIB_SKEW_RESET  _u(0x0)
+#define M33_SYST_CALIB_SKEW_BITS   _u(0x40000000)
+#define M33_SYST_CALIB_SKEW_MSB    _u(30)
+#define M33_SYST_CALIB_SKEW_LSB    _u(30)
+#define M33_SYST_CALIB_SKEW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SYST_CALIB_TENMS
+// Description : An optional Reload value to be used for 10ms (100Hz) timing,
+//               subject to system clock skew errors. If the value reads as 0,
+//               the calibration value is not known.
+#define M33_SYST_CALIB_TENMS_RESET  _u(0x000000)
+#define M33_SYST_CALIB_TENMS_BITS   _u(0x00ffffff)
+#define M33_SYST_CALIB_TENMS_MSB    _u(23)
+#define M33_SYST_CALIB_TENMS_LSB    _u(0)
+#define M33_SYST_CALIB_TENMS_ACCESS "RO"
+// =============================================================================
+// Register    : M33_NVIC_ISER0
+// Description : Enables or reads the enabled state of each group of 32
+//               interrupts
+#define M33_NVIC_ISER0_OFFSET _u(0x0000e100)
+#define M33_NVIC_ISER0_BITS   _u(0xffffffff)
+#define M33_NVIC_ISER0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ISER0_SETENA
+// Description : For SETENA[m] in NVIC_ISER*n, indicates whether interrupt 32*n
+//               + m is enabled
+#define M33_NVIC_ISER0_SETENA_RESET  _u(0x00000000)
+#define M33_NVIC_ISER0_SETENA_BITS   _u(0xffffffff)
+#define M33_NVIC_ISER0_SETENA_MSB    _u(31)
+#define M33_NVIC_ISER0_SETENA_LSB    _u(0)
+#define M33_NVIC_ISER0_SETENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ISER1
+// Description : Enables or reads the enabled state of each group of 32
+//               interrupts
+#define M33_NVIC_ISER1_OFFSET _u(0x0000e104)
+#define M33_NVIC_ISER1_BITS   _u(0xffffffff)
+#define M33_NVIC_ISER1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ISER1_SETENA
+// Description : For SETENA[m] in NVIC_ISER*n, indicates whether interrupt 32*n
+//               + m is enabled
+#define M33_NVIC_ISER1_SETENA_RESET  _u(0x00000000)
+#define M33_NVIC_ISER1_SETENA_BITS   _u(0xffffffff)
+#define M33_NVIC_ISER1_SETENA_MSB    _u(31)
+#define M33_NVIC_ISER1_SETENA_LSB    _u(0)
+#define M33_NVIC_ISER1_SETENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ICER0
+// Description : Clears or reads the enabled state of each group of 32
+//               interrupts
+#define M33_NVIC_ICER0_OFFSET _u(0x0000e180)
+#define M33_NVIC_ICER0_BITS   _u(0xffffffff)
+#define M33_NVIC_ICER0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ICER0_CLRENA
+// Description : For CLRENA[m] in NVIC_ICER*n, indicates whether interrupt 32*n
+//               + m is enabled
+#define M33_NVIC_ICER0_CLRENA_RESET  _u(0x00000000)
+#define M33_NVIC_ICER0_CLRENA_BITS   _u(0xffffffff)
+#define M33_NVIC_ICER0_CLRENA_MSB    _u(31)
+#define M33_NVIC_ICER0_CLRENA_LSB    _u(0)
+#define M33_NVIC_ICER0_CLRENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ICER1
+// Description : Clears or reads the enabled state of each group of 32
+//               interrupts
+#define M33_NVIC_ICER1_OFFSET _u(0x0000e184)
+#define M33_NVIC_ICER1_BITS   _u(0xffffffff)
+#define M33_NVIC_ICER1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ICER1_CLRENA
+// Description : For CLRENA[m] in NVIC_ICER*n, indicates whether interrupt 32*n
+//               + m is enabled
+#define M33_NVIC_ICER1_CLRENA_RESET  _u(0x00000000)
+#define M33_NVIC_ICER1_CLRENA_BITS   _u(0xffffffff)
+#define M33_NVIC_ICER1_CLRENA_MSB    _u(31)
+#define M33_NVIC_ICER1_CLRENA_LSB    _u(0)
+#define M33_NVIC_ICER1_CLRENA_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ISPR0
+// Description : Enables or reads the pending state of each group of 32
+//               interrupts
+#define M33_NVIC_ISPR0_OFFSET _u(0x0000e200)
+#define M33_NVIC_ISPR0_BITS   _u(0xffffffff)
+#define M33_NVIC_ISPR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ISPR0_SETPEND
+// Description : For SETPEND[m] in NVIC_ISPR*n, indicates whether interrupt 32*n
+//               + m is pending
+#define M33_NVIC_ISPR0_SETPEND_RESET  _u(0x00000000)
+#define M33_NVIC_ISPR0_SETPEND_BITS   _u(0xffffffff)
+#define M33_NVIC_ISPR0_SETPEND_MSB    _u(31)
+#define M33_NVIC_ISPR0_SETPEND_LSB    _u(0)
+#define M33_NVIC_ISPR0_SETPEND_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ISPR1
+// Description : Enables or reads the pending state of each group of 32
+//               interrupts
+#define M33_NVIC_ISPR1_OFFSET _u(0x0000e204)
+#define M33_NVIC_ISPR1_BITS   _u(0xffffffff)
+#define M33_NVIC_ISPR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ISPR1_SETPEND
+// Description : For SETPEND[m] in NVIC_ISPR*n, indicates whether interrupt 32*n
+//               + m is pending
+#define M33_NVIC_ISPR1_SETPEND_RESET  _u(0x00000000)
+#define M33_NVIC_ISPR1_SETPEND_BITS   _u(0xffffffff)
+#define M33_NVIC_ISPR1_SETPEND_MSB    _u(31)
+#define M33_NVIC_ISPR1_SETPEND_LSB    _u(0)
+#define M33_NVIC_ISPR1_SETPEND_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ICPR0
+// Description : Clears or reads the pending state of each group of 32
+//               interrupts
+#define M33_NVIC_ICPR0_OFFSET _u(0x0000e280)
+#define M33_NVIC_ICPR0_BITS   _u(0xffffffff)
+#define M33_NVIC_ICPR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ICPR0_CLRPEND
+// Description : For CLRPEND[m] in NVIC_ICPR*n, indicates whether interrupt 32*n
+//               + m is pending
+#define M33_NVIC_ICPR0_CLRPEND_RESET  _u(0x00000000)
+#define M33_NVIC_ICPR0_CLRPEND_BITS   _u(0xffffffff)
+#define M33_NVIC_ICPR0_CLRPEND_MSB    _u(31)
+#define M33_NVIC_ICPR0_CLRPEND_LSB    _u(0)
+#define M33_NVIC_ICPR0_CLRPEND_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ICPR1
+// Description : Clears or reads the pending state of each group of 32
+//               interrupts
+#define M33_NVIC_ICPR1_OFFSET _u(0x0000e284)
+#define M33_NVIC_ICPR1_BITS   _u(0xffffffff)
+#define M33_NVIC_ICPR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ICPR1_CLRPEND
+// Description : For CLRPEND[m] in NVIC_ICPR*n, indicates whether interrupt 32*n
+//               + m is pending
+#define M33_NVIC_ICPR1_CLRPEND_RESET  _u(0x00000000)
+#define M33_NVIC_ICPR1_CLRPEND_BITS   _u(0xffffffff)
+#define M33_NVIC_ICPR1_CLRPEND_MSB    _u(31)
+#define M33_NVIC_ICPR1_CLRPEND_LSB    _u(0)
+#define M33_NVIC_ICPR1_CLRPEND_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IABR0
+// Description : For each group of 32 interrupts, shows the active state of each
+//               interrupt
+#define M33_NVIC_IABR0_OFFSET _u(0x0000e300)
+#define M33_NVIC_IABR0_BITS   _u(0xffffffff)
+#define M33_NVIC_IABR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IABR0_ACTIVE
+// Description : For ACTIVE[m] in NVIC_IABR*n, indicates the active state for
+//               interrupt 32*n+m
+#define M33_NVIC_IABR0_ACTIVE_RESET  _u(0x00000000)
+#define M33_NVIC_IABR0_ACTIVE_BITS   _u(0xffffffff)
+#define M33_NVIC_IABR0_ACTIVE_MSB    _u(31)
+#define M33_NVIC_IABR0_ACTIVE_LSB    _u(0)
+#define M33_NVIC_IABR0_ACTIVE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IABR1
+// Description : For each group of 32 interrupts, shows the active state of each
+//               interrupt
+#define M33_NVIC_IABR1_OFFSET _u(0x0000e304)
+#define M33_NVIC_IABR1_BITS   _u(0xffffffff)
+#define M33_NVIC_IABR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IABR1_ACTIVE
+// Description : For ACTIVE[m] in NVIC_IABR*n, indicates the active state for
+//               interrupt 32*n+m
+#define M33_NVIC_IABR1_ACTIVE_RESET  _u(0x00000000)
+#define M33_NVIC_IABR1_ACTIVE_BITS   _u(0xffffffff)
+#define M33_NVIC_IABR1_ACTIVE_MSB    _u(31)
+#define M33_NVIC_IABR1_ACTIVE_LSB    _u(0)
+#define M33_NVIC_IABR1_ACTIVE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ITNS0
+// Description : For each group of 32 interrupts, determines whether each
+//               interrupt targets Non-secure or Secure state
+#define M33_NVIC_ITNS0_OFFSET _u(0x0000e380)
+#define M33_NVIC_ITNS0_BITS   _u(0xffffffff)
+#define M33_NVIC_ITNS0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ITNS0_ITNS
+// Description : For ITNS[m] in NVIC_ITNS*n, `IAAMO the target Security state
+//               for interrupt 32*n+m
+#define M33_NVIC_ITNS0_ITNS_RESET  _u(0x00000000)
+#define M33_NVIC_ITNS0_ITNS_BITS   _u(0xffffffff)
+#define M33_NVIC_ITNS0_ITNS_MSB    _u(31)
+#define M33_NVIC_ITNS0_ITNS_LSB    _u(0)
+#define M33_NVIC_ITNS0_ITNS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_ITNS1
+// Description : For each group of 32 interrupts, determines whether each
+//               interrupt targets Non-secure or Secure state
+#define M33_NVIC_ITNS1_OFFSET _u(0x0000e384)
+#define M33_NVIC_ITNS1_BITS   _u(0xffffffff)
+#define M33_NVIC_ITNS1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_ITNS1_ITNS
+// Description : For ITNS[m] in NVIC_ITNS*n, `IAAMO the target Security state
+//               for interrupt 32*n+m
+#define M33_NVIC_ITNS1_ITNS_RESET  _u(0x00000000)
+#define M33_NVIC_ITNS1_ITNS_BITS   _u(0xffffffff)
+#define M33_NVIC_ITNS1_ITNS_MSB    _u(31)
+#define M33_NVIC_ITNS1_ITNS_LSB    _u(0)
+#define M33_NVIC_ITNS1_ITNS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR0
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR0_OFFSET _u(0x0000e400)
+#define M33_NVIC_IPR0_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR0_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR0_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR0_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR0_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR0_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR0_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR0_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR0_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR0_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR0_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR0_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR0_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR0_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR0_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR0_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR0_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR0_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR0_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR0_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR0_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR0_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR0_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR0_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR0_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR1
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR1_OFFSET _u(0x0000e404)
+#define M33_NVIC_IPR1_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR1_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR1_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR1_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR1_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR1_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR1_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR1_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR1_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR1_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR1_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR1_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR1_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR1_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR1_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR1_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR1_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR1_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR1_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR1_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR1_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR1_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR1_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR1_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR1_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR2
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR2_OFFSET _u(0x0000e408)
+#define M33_NVIC_IPR2_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR2_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR2_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR2_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR2_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR2_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR2_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR2_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR2_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR2_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR2_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR2_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR2_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR2_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR2_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR2_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR2_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR2_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR2_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR2_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR2_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR2_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR2_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR2_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR2_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR3
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR3_OFFSET _u(0x0000e40c)
+#define M33_NVIC_IPR3_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR3_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR3_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR3_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR3_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR3_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR3_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR3_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR3_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR3_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR3_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR3_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR3_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR3_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR3_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR3_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR3_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR3_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR3_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR3_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR3_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR3_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR3_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR3_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR3_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR4
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR4_OFFSET _u(0x0000e410)
+#define M33_NVIC_IPR4_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR4_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR4_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR4_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR4_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR4_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR4_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR4_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR4_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR4_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR4_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR4_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR4_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR4_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR4_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR4_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR4_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR4_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR4_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR4_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR4_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR4_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR4_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR4_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR4_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR5
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR5_OFFSET _u(0x0000e414)
+#define M33_NVIC_IPR5_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR5_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR5_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR5_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR5_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR5_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR5_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR5_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR5_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR5_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR5_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR5_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR5_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR5_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR5_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR5_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR5_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR5_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR5_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR5_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR5_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR5_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR5_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR5_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR5_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR6
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR6_OFFSET _u(0x0000e418)
+#define M33_NVIC_IPR6_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR6_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR6_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR6_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR6_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR6_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR6_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR6_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR6_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR6_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR6_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR6_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR6_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR6_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR6_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR6_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR6_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR6_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR6_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR6_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR6_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR6_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR6_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR6_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR6_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR7
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR7_OFFSET _u(0x0000e41c)
+#define M33_NVIC_IPR7_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR7_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR7_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR7_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR7_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR7_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR7_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR7_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR7_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR7_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR7_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR7_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR7_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR7_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR7_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR7_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR7_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR7_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR7_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR7_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR7_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR7_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR7_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR7_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR7_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR8
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR8_OFFSET _u(0x0000e420)
+#define M33_NVIC_IPR8_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR8_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR8_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR8_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR8_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR8_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR8_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR8_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR8_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR8_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR8_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR8_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR8_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR8_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR8_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR8_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR8_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR8_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR8_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR8_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR8_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR8_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR8_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR8_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR8_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR8_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR9
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR9_OFFSET _u(0x0000e424)
+#define M33_NVIC_IPR9_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR9_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR9_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR9_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR9_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR9_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR9_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR9_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR9_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR9_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR9_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR9_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR9_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR9_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR9_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR9_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR9_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR9_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR9_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR9_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR9_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR9_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR9_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR9_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR9_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR9_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR10
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR10_OFFSET _u(0x0000e428)
+#define M33_NVIC_IPR10_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR10_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR10_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR10_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR10_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR10_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR10_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR10_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR10_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR10_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR10_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR10_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR10_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR10_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR10_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR10_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR10_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR10_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR10_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR10_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR10_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR10_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR10_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR10_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR10_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR10_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR11
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR11_OFFSET _u(0x0000e42c)
+#define M33_NVIC_IPR11_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR11_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR11_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR11_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR11_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR11_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR11_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR11_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR11_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR11_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR11_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR11_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR11_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR11_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR11_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR11_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR11_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR11_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR11_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR11_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR11_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR11_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR11_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR11_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR11_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR11_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR12
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR12_OFFSET _u(0x0000e430)
+#define M33_NVIC_IPR12_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR12_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR12_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR12_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR12_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR12_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR12_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR12_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR12_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR12_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR12_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR12_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR12_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR12_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR12_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR12_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR12_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR12_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR12_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR12_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR12_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR12_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR12_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR12_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR12_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR12_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR13
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR13_OFFSET _u(0x0000e434)
+#define M33_NVIC_IPR13_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR13_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR13_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR13_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR13_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR13_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR13_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR13_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR13_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR13_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR13_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR13_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR13_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR13_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR13_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR13_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR13_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR13_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR13_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR13_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR13_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR13_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR13_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR13_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR13_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR13_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR14
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR14_OFFSET _u(0x0000e438)
+#define M33_NVIC_IPR14_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR14_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR14_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR14_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR14_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR14_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR14_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR14_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR14_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR14_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR14_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR14_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR14_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR14_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR14_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR14_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR14_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR14_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR14_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR14_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR14_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR14_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR14_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR14_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR14_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR14_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NVIC_IPR15
+// Description : Sets or reads interrupt priorities
+#define M33_NVIC_IPR15_OFFSET _u(0x0000e43c)
+#define M33_NVIC_IPR15_BITS   _u(0xf0f0f0f0)
+#define M33_NVIC_IPR15_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR15_PRI_N3
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+3,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR15_PRI_N3_RESET  _u(0x0)
+#define M33_NVIC_IPR15_PRI_N3_BITS   _u(0xf0000000)
+#define M33_NVIC_IPR15_PRI_N3_MSB    _u(31)
+#define M33_NVIC_IPR15_PRI_N3_LSB    _u(28)
+#define M33_NVIC_IPR15_PRI_N3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR15_PRI_N2
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+2,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR15_PRI_N2_RESET  _u(0x0)
+#define M33_NVIC_IPR15_PRI_N2_BITS   _u(0x00f00000)
+#define M33_NVIC_IPR15_PRI_N2_MSB    _u(23)
+#define M33_NVIC_IPR15_PRI_N2_LSB    _u(20)
+#define M33_NVIC_IPR15_PRI_N2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR15_PRI_N1
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+1,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR15_PRI_N1_RESET  _u(0x0)
+#define M33_NVIC_IPR15_PRI_N1_BITS   _u(0x0000f000)
+#define M33_NVIC_IPR15_PRI_N1_MSB    _u(15)
+#define M33_NVIC_IPR15_PRI_N1_LSB    _u(12)
+#define M33_NVIC_IPR15_PRI_N1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NVIC_IPR15_PRI_N0
+// Description : For register NVIC_IPRn, the priority of interrupt number 4*n+0,
+//               or RES0 if the PE does not implement this interrupt
+#define M33_NVIC_IPR15_PRI_N0_RESET  _u(0x0)
+#define M33_NVIC_IPR15_PRI_N0_BITS   _u(0x000000f0)
+#define M33_NVIC_IPR15_PRI_N0_MSB    _u(7)
+#define M33_NVIC_IPR15_PRI_N0_LSB    _u(4)
+#define M33_NVIC_IPR15_PRI_N0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CPUID
+// Description : Provides identification information for the PE, including an
+//               implementer code for the device and a device ID number
+#define M33_CPUID_OFFSET _u(0x0000ed00)
+#define M33_CPUID_BITS   _u(0xffffffff)
+#define M33_CPUID_RESET  _u(0x411fd210)
+// -----------------------------------------------------------------------------
+// Field       : M33_CPUID_IMPLEMENTER
+// Description : This field must hold an implementer code that has been assigned
+//               by ARM
+#define M33_CPUID_IMPLEMENTER_RESET  _u(0x41)
+#define M33_CPUID_IMPLEMENTER_BITS   _u(0xff000000)
+#define M33_CPUID_IMPLEMENTER_MSB    _u(31)
+#define M33_CPUID_IMPLEMENTER_LSB    _u(24)
+#define M33_CPUID_IMPLEMENTER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPUID_VARIANT
+// Description : IMPLEMENTATION DEFINED variant number. Typically, this field is
+//               used to distinguish between different product variants, or
+//               major revisions of a product
+#define M33_CPUID_VARIANT_RESET  _u(0x1)
+#define M33_CPUID_VARIANT_BITS   _u(0x00f00000)
+#define M33_CPUID_VARIANT_MSB    _u(23)
+#define M33_CPUID_VARIANT_LSB    _u(20)
+#define M33_CPUID_VARIANT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPUID_ARCHITECTURE
+// Description : Defines the Architecture implemented by the PE
+#define M33_CPUID_ARCHITECTURE_RESET  _u(0xf)
+#define M33_CPUID_ARCHITECTURE_BITS   _u(0x000f0000)
+#define M33_CPUID_ARCHITECTURE_MSB    _u(19)
+#define M33_CPUID_ARCHITECTURE_LSB    _u(16)
+#define M33_CPUID_ARCHITECTURE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPUID_PARTNO
+// Description : IMPLEMENTATION DEFINED primary part number for the device
+#define M33_CPUID_PARTNO_RESET  _u(0xd21)
+#define M33_CPUID_PARTNO_BITS   _u(0x0000fff0)
+#define M33_CPUID_PARTNO_MSB    _u(15)
+#define M33_CPUID_PARTNO_LSB    _u(4)
+#define M33_CPUID_PARTNO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPUID_REVISION
+// Description : IMPLEMENTATION DEFINED revision number for the device
+#define M33_CPUID_REVISION_RESET  _u(0x0)
+#define M33_CPUID_REVISION_BITS   _u(0x0000000f)
+#define M33_CPUID_REVISION_MSB    _u(3)
+#define M33_CPUID_REVISION_LSB    _u(0)
+#define M33_CPUID_REVISION_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ICSR
+// Description : Controls and provides status information for NMI, PendSV,
+//               SysTick and interrupts
+#define M33_ICSR_OFFSET _u(0x0000ed04)
+#define M33_ICSR_BITS   _u(0xdfdff9ff)
+#define M33_ICSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDNMISET
+// Description : Indicates whether the NMI exception is pending
+#define M33_ICSR_PENDNMISET_RESET  _u(0x0)
+#define M33_ICSR_PENDNMISET_BITS   _u(0x80000000)
+#define M33_ICSR_PENDNMISET_MSB    _u(31)
+#define M33_ICSR_PENDNMISET_LSB    _u(31)
+#define M33_ICSR_PENDNMISET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDNMICLR
+// Description : Allows the NMI exception pend state to be cleared
+#define M33_ICSR_PENDNMICLR_RESET  _u(0x0)
+#define M33_ICSR_PENDNMICLR_BITS   _u(0x40000000)
+#define M33_ICSR_PENDNMICLR_MSB    _u(30)
+#define M33_ICSR_PENDNMICLR_LSB    _u(30)
+#define M33_ICSR_PENDNMICLR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDSVSET
+// Description : Indicates whether the PendSV `FTSSS exception is pending
+#define M33_ICSR_PENDSVSET_RESET  _u(0x0)
+#define M33_ICSR_PENDSVSET_BITS   _u(0x10000000)
+#define M33_ICSR_PENDSVSET_MSB    _u(28)
+#define M33_ICSR_PENDSVSET_LSB    _u(28)
+#define M33_ICSR_PENDSVSET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDSVCLR
+// Description : Allows the PendSV exception pend state to be cleared `FTSSS
+#define M33_ICSR_PENDSVCLR_RESET  _u(0x0)
+#define M33_ICSR_PENDSVCLR_BITS   _u(0x08000000)
+#define M33_ICSR_PENDSVCLR_MSB    _u(27)
+#define M33_ICSR_PENDSVCLR_LSB    _u(27)
+#define M33_ICSR_PENDSVCLR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDSTSET
+// Description : Indicates whether the SysTick `FTSSS exception is pending
+#define M33_ICSR_PENDSTSET_RESET  _u(0x0)
+#define M33_ICSR_PENDSTSET_BITS   _u(0x04000000)
+#define M33_ICSR_PENDSTSET_MSB    _u(26)
+#define M33_ICSR_PENDSTSET_LSB    _u(26)
+#define M33_ICSR_PENDSTSET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_PENDSTCLR
+// Description : Allows the SysTick exception pend state to be cleared `FTSSS
+#define M33_ICSR_PENDSTCLR_RESET  _u(0x0)
+#define M33_ICSR_PENDSTCLR_BITS   _u(0x02000000)
+#define M33_ICSR_PENDSTCLR_MSB    _u(25)
+#define M33_ICSR_PENDSTCLR_LSB    _u(25)
+#define M33_ICSR_PENDSTCLR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_STTNS
+// Description : Controls whether in a single SysTick implementation, the
+//               SysTick is Secure or Non-secure
+#define M33_ICSR_STTNS_RESET  _u(0x0)
+#define M33_ICSR_STTNS_BITS   _u(0x01000000)
+#define M33_ICSR_STTNS_MSB    _u(24)
+#define M33_ICSR_STTNS_LSB    _u(24)
+#define M33_ICSR_STTNS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_ISRPREEMPT
+// Description : Indicates whether a pending exception will be serviced on exit
+//               from debug halt state
+#define M33_ICSR_ISRPREEMPT_RESET  _u(0x0)
+#define M33_ICSR_ISRPREEMPT_BITS   _u(0x00800000)
+#define M33_ICSR_ISRPREEMPT_MSB    _u(23)
+#define M33_ICSR_ISRPREEMPT_LSB    _u(23)
+#define M33_ICSR_ISRPREEMPT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_ISRPENDING
+// Description : Indicates whether an external interrupt, generated by the NVIC,
+//               is pending
+#define M33_ICSR_ISRPENDING_RESET  _u(0x0)
+#define M33_ICSR_ISRPENDING_BITS   _u(0x00400000)
+#define M33_ICSR_ISRPENDING_MSB    _u(22)
+#define M33_ICSR_ISRPENDING_LSB    _u(22)
+#define M33_ICSR_ISRPENDING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_VECTPENDING
+// Description : The exception number of the highest priority pending and
+//               enabled interrupt
+#define M33_ICSR_VECTPENDING_RESET  _u(0x000)
+#define M33_ICSR_VECTPENDING_BITS   _u(0x001ff000)
+#define M33_ICSR_VECTPENDING_MSB    _u(20)
+#define M33_ICSR_VECTPENDING_LSB    _u(12)
+#define M33_ICSR_VECTPENDING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_RETTOBASE
+// Description : In Handler mode, indicates whether there is more than one
+//               active exception
+#define M33_ICSR_RETTOBASE_RESET  _u(0x0)
+#define M33_ICSR_RETTOBASE_BITS   _u(0x00000800)
+#define M33_ICSR_RETTOBASE_MSB    _u(11)
+#define M33_ICSR_RETTOBASE_LSB    _u(11)
+#define M33_ICSR_RETTOBASE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ICSR_VECTACTIVE
+// Description : The exception number of the current executing exception
+#define M33_ICSR_VECTACTIVE_RESET  _u(0x000)
+#define M33_ICSR_VECTACTIVE_BITS   _u(0x000001ff)
+#define M33_ICSR_VECTACTIVE_MSB    _u(8)
+#define M33_ICSR_VECTACTIVE_LSB    _u(0)
+#define M33_ICSR_VECTACTIVE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_VTOR
+// Description : The VTOR indicates the offset of the vector table base address
+//               from memory address 0x00000000.
+#define M33_VTOR_OFFSET _u(0x0000ed08)
+#define M33_VTOR_BITS   _u(0xffffff80)
+#define M33_VTOR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_VTOR_TBLOFF
+// Description : Vector table base offset field. It contains bits[31:7] of the
+//               offset of the table base from the bottom of the memory map.
+#define M33_VTOR_TBLOFF_RESET  _u(0x0000000)
+#define M33_VTOR_TBLOFF_BITS   _u(0xffffff80)
+#define M33_VTOR_TBLOFF_MSB    _u(31)
+#define M33_VTOR_TBLOFF_LSB    _u(7)
+#define M33_VTOR_TBLOFF_ACCESS "RW"
+// =============================================================================
+// Register    : M33_AIRCR
+// Description : Use the Application Interrupt and Reset Control Register to:
+//               determine data endianness, clear all active state information
+//               from debug halt mode, request a system reset.
+#define M33_AIRCR_OFFSET _u(0x0000ed0c)
+#define M33_AIRCR_BITS   _u(0xffffe70e)
+#define M33_AIRCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_VECTKEY
+// Description : Register key:
+//               Reads as Unknown
+//               On writes, write 0x05FA to VECTKEY, otherwise the write is
+//               ignored.
+#define M33_AIRCR_VECTKEY_RESET  _u(0x0000)
+#define M33_AIRCR_VECTKEY_BITS   _u(0xffff0000)
+#define M33_AIRCR_VECTKEY_MSB    _u(31)
+#define M33_AIRCR_VECTKEY_LSB    _u(16)
+#define M33_AIRCR_VECTKEY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_ENDIANESS
+// Description : Data endianness implemented:
+//               0 = Little-endian.
+#define M33_AIRCR_ENDIANESS_RESET  _u(0x0)
+#define M33_AIRCR_ENDIANESS_BITS   _u(0x00008000)
+#define M33_AIRCR_ENDIANESS_MSB    _u(15)
+#define M33_AIRCR_ENDIANESS_LSB    _u(15)
+#define M33_AIRCR_ENDIANESS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_PRIS
+// Description : Prioritize Secure exceptions. The value of this bit defines
+//               whether Secure exception priority boosting is enabled.
+//               0	Priority ranges of Secure and Non-secure exceptions are
+//               identical.
+//               1	Non-secure exceptions are de-prioritized.
+#define M33_AIRCR_PRIS_RESET  _u(0x0)
+#define M33_AIRCR_PRIS_BITS   _u(0x00004000)
+#define M33_AIRCR_PRIS_MSB    _u(14)
+#define M33_AIRCR_PRIS_LSB    _u(14)
+#define M33_AIRCR_PRIS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_BFHFNMINS
+// Description : BusFault, HardFault, and NMI Non-secure enable.
+//               0	BusFault, HardFault, and NMI are Secure.
+//               1	BusFault and NMI are Non-secure and exceptions can target
+//               Non-secure HardFault.
+#define M33_AIRCR_BFHFNMINS_RESET  _u(0x0)
+#define M33_AIRCR_BFHFNMINS_BITS   _u(0x00002000)
+#define M33_AIRCR_BFHFNMINS_MSB    _u(13)
+#define M33_AIRCR_BFHFNMINS_LSB    _u(13)
+#define M33_AIRCR_BFHFNMINS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_PRIGROUP
+// Description : Interrupt priority grouping field. This field determines the
+//               split of group priority from subpriority.
+//               See https://developer.arm.com/documentation/100235/0004/the-
+//               cortex-m33-peripherals/system-control-block/application-
+//               interrupt-and-reset-control-register?lang=en
+#define M33_AIRCR_PRIGROUP_RESET  _u(0x0)
+#define M33_AIRCR_PRIGROUP_BITS   _u(0x00000700)
+#define M33_AIRCR_PRIGROUP_MSB    _u(10)
+#define M33_AIRCR_PRIGROUP_LSB    _u(8)
+#define M33_AIRCR_PRIGROUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_SYSRESETREQS
+// Description : System reset request, Secure state only.
+//               0	SYSRESETREQ functionality is available to both Security
+//               states.
+//               1 SYSRESETREQ functionality is only available to Secure state.
+#define M33_AIRCR_SYSRESETREQS_RESET  _u(0x0)
+#define M33_AIRCR_SYSRESETREQS_BITS   _u(0x00000008)
+#define M33_AIRCR_SYSRESETREQS_MSB    _u(3)
+#define M33_AIRCR_SYSRESETREQS_LSB    _u(3)
+#define M33_AIRCR_SYSRESETREQS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_SYSRESETREQ
+// Description : Writing 1 to this bit causes the SYSRESETREQ signal to the
+//               outer system to be asserted to request a reset. The intention
+//               is to force a large system reset of all major components except
+//               for debug. The C_HALT bit in the DHCSR is cleared as a result
+//               of the system reset requested. The debugger does not lose
+//               contact with the device.
+#define M33_AIRCR_SYSRESETREQ_RESET  _u(0x0)
+#define M33_AIRCR_SYSRESETREQ_BITS   _u(0x00000004)
+#define M33_AIRCR_SYSRESETREQ_MSB    _u(2)
+#define M33_AIRCR_SYSRESETREQ_LSB    _u(2)
+#define M33_AIRCR_SYSRESETREQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_AIRCR_VECTCLRACTIVE
+// Description : Clears all active state information for fixed and configurable
+//               exceptions. This bit: is self-clearing, can only be set by the
+//               DAP when the core is halted.  When set: clears all active
+//               exception status of the processor, forces a return to Thread
+//               mode, forces an IPSR of 0. A debugger must re-initialize the
+//               stack.
+#define M33_AIRCR_VECTCLRACTIVE_RESET  _u(0x0)
+#define M33_AIRCR_VECTCLRACTIVE_BITS   _u(0x00000002)
+#define M33_AIRCR_VECTCLRACTIVE_MSB    _u(1)
+#define M33_AIRCR_VECTCLRACTIVE_LSB    _u(1)
+#define M33_AIRCR_VECTCLRACTIVE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SCR
+// Description : System Control Register. Use the System Control Register for
+//               power-management functions: signal to the system when the
+//               processor can enter a low power state, control how the
+//               processor enters and exits low power states.
+#define M33_SCR_OFFSET _u(0x0000ed10)
+#define M33_SCR_BITS   _u(0x0000001e)
+#define M33_SCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SCR_SEVONPEND
+// Description : Send Event on Pending bit:
+//               0 = Only enabled interrupts or events can wakeup the processor,
+//               disabled interrupts are excluded.
+//               1 = Enabled events and all interrupts, including disabled
+//               interrupts, can wakeup the processor.
+//               When an event or interrupt becomes pending, the event signal
+//               wakes up the processor from WFE. If the
+//               processor is not waiting for an event, the event is registered
+//               and affects the next WFE.
+//               The processor also wakes up on execution of an SEV instruction
+//               or an external event.
+#define M33_SCR_SEVONPEND_RESET  _u(0x0)
+#define M33_SCR_SEVONPEND_BITS   _u(0x00000010)
+#define M33_SCR_SEVONPEND_MSB    _u(4)
+#define M33_SCR_SEVONPEND_LSB    _u(4)
+#define M33_SCR_SEVONPEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SCR_SLEEPDEEPS
+// Description : 0 SLEEPDEEP is available to both security states
+//               1 SLEEPDEEP is only available to Secure state
+#define M33_SCR_SLEEPDEEPS_RESET  _u(0x0)
+#define M33_SCR_SLEEPDEEPS_BITS   _u(0x00000008)
+#define M33_SCR_SLEEPDEEPS_MSB    _u(3)
+#define M33_SCR_SLEEPDEEPS_LSB    _u(3)
+#define M33_SCR_SLEEPDEEPS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SCR_SLEEPDEEP
+// Description : Controls whether the processor uses sleep or deep sleep as its
+//               low power mode:
+//               0 = Sleep.
+//               1 = Deep sleep.
+#define M33_SCR_SLEEPDEEP_RESET  _u(0x0)
+#define M33_SCR_SLEEPDEEP_BITS   _u(0x00000004)
+#define M33_SCR_SLEEPDEEP_MSB    _u(2)
+#define M33_SCR_SLEEPDEEP_LSB    _u(2)
+#define M33_SCR_SLEEPDEEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SCR_SLEEPONEXIT
+// Description : Indicates sleep-on-exit when returning from Handler mode to
+//               Thread mode:
+//               0 = Do not sleep when returning to Thread mode.
+//               1 = Enter sleep, or deep sleep, on return from an ISR to Thread
+//               mode.
+//               Setting this bit to 1 enables an interrupt driven application
+//               to avoid returning to an empty main application.
+#define M33_SCR_SLEEPONEXIT_RESET  _u(0x0)
+#define M33_SCR_SLEEPONEXIT_BITS   _u(0x00000002)
+#define M33_SCR_SLEEPONEXIT_MSB    _u(1)
+#define M33_SCR_SLEEPONEXIT_LSB    _u(1)
+#define M33_SCR_SLEEPONEXIT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CCR
+// Description : Sets or returns configuration and control data
+#define M33_CCR_OFFSET _u(0x0000ed14)
+#define M33_CCR_BITS   _u(0x0007071b)
+#define M33_CCR_RESET  _u(0x00000201)
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_BP
+// Description : Enables program flow prediction `FTSSS
+#define M33_CCR_BP_RESET  _u(0x0)
+#define M33_CCR_BP_BITS   _u(0x00040000)
+#define M33_CCR_BP_MSB    _u(18)
+#define M33_CCR_BP_LSB    _u(18)
+#define M33_CCR_BP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_IC
+// Description : This is a global enable bit for instruction caches in the
+//               selected Security state
+#define M33_CCR_IC_RESET  _u(0x0)
+#define M33_CCR_IC_BITS   _u(0x00020000)
+#define M33_CCR_IC_MSB    _u(17)
+#define M33_CCR_IC_LSB    _u(17)
+#define M33_CCR_IC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_DC
+// Description : Enables data caching of all data accesses to Normal memory
+//               `FTSSS
+#define M33_CCR_DC_RESET  _u(0x0)
+#define M33_CCR_DC_BITS   _u(0x00010000)
+#define M33_CCR_DC_MSB    _u(16)
+#define M33_CCR_DC_LSB    _u(16)
+#define M33_CCR_DC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_STKOFHFNMIGN
+// Description : Controls the effect of a stack limit violation while executing
+//               at a requested priority less than 0
+#define M33_CCR_STKOFHFNMIGN_RESET  _u(0x0)
+#define M33_CCR_STKOFHFNMIGN_BITS   _u(0x00000400)
+#define M33_CCR_STKOFHFNMIGN_MSB    _u(10)
+#define M33_CCR_STKOFHFNMIGN_LSB    _u(10)
+#define M33_CCR_STKOFHFNMIGN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_RES1
+// Description : Reserved, RES1
+#define M33_CCR_RES1_RESET  _u(0x1)
+#define M33_CCR_RES1_BITS   _u(0x00000200)
+#define M33_CCR_RES1_MSB    _u(9)
+#define M33_CCR_RES1_LSB    _u(9)
+#define M33_CCR_RES1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_BFHFNMIGN
+// Description : Determines the effect of precise BusFaults on handlers running
+//               at a requested priority less than 0
+#define M33_CCR_BFHFNMIGN_RESET  _u(0x0)
+#define M33_CCR_BFHFNMIGN_BITS   _u(0x00000100)
+#define M33_CCR_BFHFNMIGN_MSB    _u(8)
+#define M33_CCR_BFHFNMIGN_LSB    _u(8)
+#define M33_CCR_BFHFNMIGN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_DIV_0_TRP
+// Description : Controls the generation of a DIVBYZERO UsageFault when
+//               attempting to perform integer division by zero
+#define M33_CCR_DIV_0_TRP_RESET  _u(0x0)
+#define M33_CCR_DIV_0_TRP_BITS   _u(0x00000010)
+#define M33_CCR_DIV_0_TRP_MSB    _u(4)
+#define M33_CCR_DIV_0_TRP_LSB    _u(4)
+#define M33_CCR_DIV_0_TRP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_UNALIGN_TRP
+// Description : Controls the trapping of unaligned word or halfword accesses
+#define M33_CCR_UNALIGN_TRP_RESET  _u(0x0)
+#define M33_CCR_UNALIGN_TRP_BITS   _u(0x00000008)
+#define M33_CCR_UNALIGN_TRP_MSB    _u(3)
+#define M33_CCR_UNALIGN_TRP_LSB    _u(3)
+#define M33_CCR_UNALIGN_TRP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_USERSETMPEND
+// Description : Determines whether unprivileged accesses are permitted to pend
+//               interrupts via the STIR
+#define M33_CCR_USERSETMPEND_RESET  _u(0x0)
+#define M33_CCR_USERSETMPEND_BITS   _u(0x00000002)
+#define M33_CCR_USERSETMPEND_MSB    _u(1)
+#define M33_CCR_USERSETMPEND_LSB    _u(1)
+#define M33_CCR_USERSETMPEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CCR_RES1_1
+// Description : Reserved, RES1
+#define M33_CCR_RES1_1_RESET  _u(0x1)
+#define M33_CCR_RES1_1_BITS   _u(0x00000001)
+#define M33_CCR_RES1_1_MSB    _u(0)
+#define M33_CCR_RES1_1_LSB    _u(0)
+#define M33_CCR_RES1_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_SHPR1
+// Description : Sets or returns priority for system handlers 4 - 7
+#define M33_SHPR1_OFFSET _u(0x0000ed18)
+#define M33_SHPR1_BITS   _u(0xe0e0e0e0)
+#define M33_SHPR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR1_PRI_7_3
+// Description : Priority of system handler 7, SecureFault
+#define M33_SHPR1_PRI_7_3_RESET  _u(0x0)
+#define M33_SHPR1_PRI_7_3_BITS   _u(0xe0000000)
+#define M33_SHPR1_PRI_7_3_MSB    _u(31)
+#define M33_SHPR1_PRI_7_3_LSB    _u(29)
+#define M33_SHPR1_PRI_7_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR1_PRI_6_3
+// Description : Priority of system handler 6, SecureFault
+#define M33_SHPR1_PRI_6_3_RESET  _u(0x0)
+#define M33_SHPR1_PRI_6_3_BITS   _u(0x00e00000)
+#define M33_SHPR1_PRI_6_3_MSB    _u(23)
+#define M33_SHPR1_PRI_6_3_LSB    _u(21)
+#define M33_SHPR1_PRI_6_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR1_PRI_5_3
+// Description : Priority of system handler 5, SecureFault
+#define M33_SHPR1_PRI_5_3_RESET  _u(0x0)
+#define M33_SHPR1_PRI_5_3_BITS   _u(0x0000e000)
+#define M33_SHPR1_PRI_5_3_MSB    _u(15)
+#define M33_SHPR1_PRI_5_3_LSB    _u(13)
+#define M33_SHPR1_PRI_5_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR1_PRI_4_3
+// Description : Priority of system handler 4, SecureFault
+#define M33_SHPR1_PRI_4_3_RESET  _u(0x0)
+#define M33_SHPR1_PRI_4_3_BITS   _u(0x000000e0)
+#define M33_SHPR1_PRI_4_3_MSB    _u(7)
+#define M33_SHPR1_PRI_4_3_LSB    _u(5)
+#define M33_SHPR1_PRI_4_3_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SHPR2
+// Description : Sets or returns priority for system handlers 8 - 11
+#define M33_SHPR2_OFFSET _u(0x0000ed1c)
+#define M33_SHPR2_BITS   _u(0xe0ffffff)
+#define M33_SHPR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR2_PRI_11_3
+// Description : Priority of system handler 11, SecureFault
+#define M33_SHPR2_PRI_11_3_RESET  _u(0x0)
+#define M33_SHPR2_PRI_11_3_BITS   _u(0xe0000000)
+#define M33_SHPR2_PRI_11_3_MSB    _u(31)
+#define M33_SHPR2_PRI_11_3_LSB    _u(29)
+#define M33_SHPR2_PRI_11_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR2_PRI_10
+// Description : Reserved, RES0
+#define M33_SHPR2_PRI_10_RESET  _u(0x00)
+#define M33_SHPR2_PRI_10_BITS   _u(0x00ff0000)
+#define M33_SHPR2_PRI_10_MSB    _u(23)
+#define M33_SHPR2_PRI_10_LSB    _u(16)
+#define M33_SHPR2_PRI_10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR2_PRI_9
+// Description : Reserved, RES0
+#define M33_SHPR2_PRI_9_RESET  _u(0x00)
+#define M33_SHPR2_PRI_9_BITS   _u(0x0000ff00)
+#define M33_SHPR2_PRI_9_MSB    _u(15)
+#define M33_SHPR2_PRI_9_LSB    _u(8)
+#define M33_SHPR2_PRI_9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR2_PRI_8
+// Description : Reserved, RES0
+#define M33_SHPR2_PRI_8_RESET  _u(0x00)
+#define M33_SHPR2_PRI_8_BITS   _u(0x000000ff)
+#define M33_SHPR2_PRI_8_MSB    _u(7)
+#define M33_SHPR2_PRI_8_LSB    _u(0)
+#define M33_SHPR2_PRI_8_ACCESS "RO"
+// =============================================================================
+// Register    : M33_SHPR3
+// Description : Sets or returns priority for system handlers 12 - 15
+#define M33_SHPR3_OFFSET _u(0x0000ed20)
+#define M33_SHPR3_BITS   _u(0xe0e0ffe0)
+#define M33_SHPR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR3_PRI_15_3
+// Description : Priority of system handler 15, SecureFault
+#define M33_SHPR3_PRI_15_3_RESET  _u(0x0)
+#define M33_SHPR3_PRI_15_3_BITS   _u(0xe0000000)
+#define M33_SHPR3_PRI_15_3_MSB    _u(31)
+#define M33_SHPR3_PRI_15_3_LSB    _u(29)
+#define M33_SHPR3_PRI_15_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR3_PRI_14_3
+// Description : Priority of system handler 14, SecureFault
+#define M33_SHPR3_PRI_14_3_RESET  _u(0x0)
+#define M33_SHPR3_PRI_14_3_BITS   _u(0x00e00000)
+#define M33_SHPR3_PRI_14_3_MSB    _u(23)
+#define M33_SHPR3_PRI_14_3_LSB    _u(21)
+#define M33_SHPR3_PRI_14_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR3_PRI_13
+// Description : Reserved, RES0
+#define M33_SHPR3_PRI_13_RESET  _u(0x00)
+#define M33_SHPR3_PRI_13_BITS   _u(0x0000ff00)
+#define M33_SHPR3_PRI_13_MSB    _u(15)
+#define M33_SHPR3_PRI_13_LSB    _u(8)
+#define M33_SHPR3_PRI_13_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHPR3_PRI_12_3
+// Description : Priority of system handler 12, SecureFault
+#define M33_SHPR3_PRI_12_3_RESET  _u(0x0)
+#define M33_SHPR3_PRI_12_3_BITS   _u(0x000000e0)
+#define M33_SHPR3_PRI_12_3_MSB    _u(7)
+#define M33_SHPR3_PRI_12_3_LSB    _u(5)
+#define M33_SHPR3_PRI_12_3_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SHCSR
+// Description : Provides access to the active and pending status of system
+//               exceptions
+#define M33_SHCSR_OFFSET _u(0x0000ed24)
+#define M33_SHCSR_BITS   _u(0x003ffdbf)
+#define M33_SHCSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_HARDFAULTPENDED
+// Description : `IAAMO the pending state of the HardFault exception `CTTSSS
+#define M33_SHCSR_HARDFAULTPENDED_RESET  _u(0x0)
+#define M33_SHCSR_HARDFAULTPENDED_BITS   _u(0x00200000)
+#define M33_SHCSR_HARDFAULTPENDED_MSB    _u(21)
+#define M33_SHCSR_HARDFAULTPENDED_LSB    _u(21)
+#define M33_SHCSR_HARDFAULTPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SECUREFAULTPENDED
+// Description : `IAAMO the pending state of the SecureFault exception
+#define M33_SHCSR_SECUREFAULTPENDED_RESET  _u(0x0)
+#define M33_SHCSR_SECUREFAULTPENDED_BITS   _u(0x00100000)
+#define M33_SHCSR_SECUREFAULTPENDED_MSB    _u(20)
+#define M33_SHCSR_SECUREFAULTPENDED_LSB    _u(20)
+#define M33_SHCSR_SECUREFAULTPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SECUREFAULTENA
+// Description : `DW the SecureFault exception is enabled
+#define M33_SHCSR_SECUREFAULTENA_RESET  _u(0x0)
+#define M33_SHCSR_SECUREFAULTENA_BITS   _u(0x00080000)
+#define M33_SHCSR_SECUREFAULTENA_MSB    _u(19)
+#define M33_SHCSR_SECUREFAULTENA_LSB    _u(19)
+#define M33_SHCSR_SECUREFAULTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_USGFAULTENA
+// Description : `DW the UsageFault exception is enabled `FTSSS
+#define M33_SHCSR_USGFAULTENA_RESET  _u(0x0)
+#define M33_SHCSR_USGFAULTENA_BITS   _u(0x00040000)
+#define M33_SHCSR_USGFAULTENA_MSB    _u(18)
+#define M33_SHCSR_USGFAULTENA_LSB    _u(18)
+#define M33_SHCSR_USGFAULTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_BUSFAULTENA
+// Description : `DW the BusFault exception is enabled
+#define M33_SHCSR_BUSFAULTENA_RESET  _u(0x0)
+#define M33_SHCSR_BUSFAULTENA_BITS   _u(0x00020000)
+#define M33_SHCSR_BUSFAULTENA_MSB    _u(17)
+#define M33_SHCSR_BUSFAULTENA_LSB    _u(17)
+#define M33_SHCSR_BUSFAULTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_MEMFAULTENA
+// Description : `DW the MemManage exception is enabled `FTSSS
+#define M33_SHCSR_MEMFAULTENA_RESET  _u(0x0)
+#define M33_SHCSR_MEMFAULTENA_BITS   _u(0x00010000)
+#define M33_SHCSR_MEMFAULTENA_MSB    _u(16)
+#define M33_SHCSR_MEMFAULTENA_LSB    _u(16)
+#define M33_SHCSR_MEMFAULTENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SVCALLPENDED
+// Description : `IAAMO the pending state of the SVCall exception `FTSSS
+#define M33_SHCSR_SVCALLPENDED_RESET  _u(0x0)
+#define M33_SHCSR_SVCALLPENDED_BITS   _u(0x00008000)
+#define M33_SHCSR_SVCALLPENDED_MSB    _u(15)
+#define M33_SHCSR_SVCALLPENDED_LSB    _u(15)
+#define M33_SHCSR_SVCALLPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_BUSFAULTPENDED
+// Description : `IAAMO the pending state of the BusFault exception
+#define M33_SHCSR_BUSFAULTPENDED_RESET  _u(0x0)
+#define M33_SHCSR_BUSFAULTPENDED_BITS   _u(0x00004000)
+#define M33_SHCSR_BUSFAULTPENDED_MSB    _u(14)
+#define M33_SHCSR_BUSFAULTPENDED_LSB    _u(14)
+#define M33_SHCSR_BUSFAULTPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_MEMFAULTPENDED
+// Description : `IAAMO the pending state of the MemManage exception `FTSSS
+#define M33_SHCSR_MEMFAULTPENDED_RESET  _u(0x0)
+#define M33_SHCSR_MEMFAULTPENDED_BITS   _u(0x00002000)
+#define M33_SHCSR_MEMFAULTPENDED_MSB    _u(13)
+#define M33_SHCSR_MEMFAULTPENDED_LSB    _u(13)
+#define M33_SHCSR_MEMFAULTPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_USGFAULTPENDED
+// Description : The UsageFault exception is banked between Security states,
+//               `IAAMO the pending state of the UsageFault exception `FTSSS
+#define M33_SHCSR_USGFAULTPENDED_RESET  _u(0x0)
+#define M33_SHCSR_USGFAULTPENDED_BITS   _u(0x00001000)
+#define M33_SHCSR_USGFAULTPENDED_MSB    _u(12)
+#define M33_SHCSR_USGFAULTPENDED_LSB    _u(12)
+#define M33_SHCSR_USGFAULTPENDED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SYSTICKACT
+// Description : `IAAMO the active state of the SysTick exception `FTSSS
+#define M33_SHCSR_SYSTICKACT_RESET  _u(0x0)
+#define M33_SHCSR_SYSTICKACT_BITS   _u(0x00000800)
+#define M33_SHCSR_SYSTICKACT_MSB    _u(11)
+#define M33_SHCSR_SYSTICKACT_LSB    _u(11)
+#define M33_SHCSR_SYSTICKACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_PENDSVACT
+// Description : `IAAMO the active state of the PendSV exception `FTSSS
+#define M33_SHCSR_PENDSVACT_RESET  _u(0x0)
+#define M33_SHCSR_PENDSVACT_BITS   _u(0x00000400)
+#define M33_SHCSR_PENDSVACT_MSB    _u(10)
+#define M33_SHCSR_PENDSVACT_LSB    _u(10)
+#define M33_SHCSR_PENDSVACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_MONITORACT
+// Description : `IAAMO the active state of the DebugMonitor exception
+#define M33_SHCSR_MONITORACT_RESET  _u(0x0)
+#define M33_SHCSR_MONITORACT_BITS   _u(0x00000100)
+#define M33_SHCSR_MONITORACT_MSB    _u(8)
+#define M33_SHCSR_MONITORACT_LSB    _u(8)
+#define M33_SHCSR_MONITORACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SVCALLACT
+// Description : `IAAMO the active state of the SVCall exception `FTSSS
+#define M33_SHCSR_SVCALLACT_RESET  _u(0x0)
+#define M33_SHCSR_SVCALLACT_BITS   _u(0x00000080)
+#define M33_SHCSR_SVCALLACT_MSB    _u(7)
+#define M33_SHCSR_SVCALLACT_LSB    _u(7)
+#define M33_SHCSR_SVCALLACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_NMIACT
+// Description : `IAAMO the active state of the NMI exception
+#define M33_SHCSR_NMIACT_RESET  _u(0x0)
+#define M33_SHCSR_NMIACT_BITS   _u(0x00000020)
+#define M33_SHCSR_NMIACT_MSB    _u(5)
+#define M33_SHCSR_NMIACT_LSB    _u(5)
+#define M33_SHCSR_NMIACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_SECUREFAULTACT
+// Description : `IAAMO the active state of the SecureFault exception
+#define M33_SHCSR_SECUREFAULTACT_RESET  _u(0x0)
+#define M33_SHCSR_SECUREFAULTACT_BITS   _u(0x00000010)
+#define M33_SHCSR_SECUREFAULTACT_MSB    _u(4)
+#define M33_SHCSR_SECUREFAULTACT_LSB    _u(4)
+#define M33_SHCSR_SECUREFAULTACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_USGFAULTACT
+// Description : `IAAMO the active state of the UsageFault exception `FTSSS
+#define M33_SHCSR_USGFAULTACT_RESET  _u(0x0)
+#define M33_SHCSR_USGFAULTACT_BITS   _u(0x00000008)
+#define M33_SHCSR_USGFAULTACT_MSB    _u(3)
+#define M33_SHCSR_USGFAULTACT_LSB    _u(3)
+#define M33_SHCSR_USGFAULTACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_HARDFAULTACT
+// Description : Indicates and allows limited modification of the active state
+//               of the HardFault exception `FTSSS
+#define M33_SHCSR_HARDFAULTACT_RESET  _u(0x0)
+#define M33_SHCSR_HARDFAULTACT_BITS   _u(0x00000004)
+#define M33_SHCSR_HARDFAULTACT_MSB    _u(2)
+#define M33_SHCSR_HARDFAULTACT_LSB    _u(2)
+#define M33_SHCSR_HARDFAULTACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_BUSFAULTACT
+// Description : `IAAMO the active state of the BusFault exception
+#define M33_SHCSR_BUSFAULTACT_RESET  _u(0x0)
+#define M33_SHCSR_BUSFAULTACT_BITS   _u(0x00000002)
+#define M33_SHCSR_BUSFAULTACT_MSB    _u(1)
+#define M33_SHCSR_BUSFAULTACT_LSB    _u(1)
+#define M33_SHCSR_BUSFAULTACT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SHCSR_MEMFAULTACT
+// Description : `IAAMO the active state of the MemManage exception `FTSSS
+#define M33_SHCSR_MEMFAULTACT_RESET  _u(0x0)
+#define M33_SHCSR_MEMFAULTACT_BITS   _u(0x00000001)
+#define M33_SHCSR_MEMFAULTACT_MSB    _u(0)
+#define M33_SHCSR_MEMFAULTACT_LSB    _u(0)
+#define M33_SHCSR_MEMFAULTACT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CFSR
+// Description : Contains the three Configurable Fault Status Registers.
+//
+//               31:16 UFSR: Provides information on UsageFault exceptions
+//
+//               15:8 BFSR: Provides information on BusFault exceptions
+//
+//               7:0 MMFSR: Provides information on MemManage exceptions
+#define M33_CFSR_OFFSET _u(0x0000ed28)
+#define M33_CFSR_BITS   _u(0x031fbfff)
+#define M33_CFSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_DIVBYZERO
+// Description : Sticky flag indicating whether an integer division by zero
+//               error has occurred
+#define M33_CFSR_UFSR_DIVBYZERO_RESET  _u(0x0)
+#define M33_CFSR_UFSR_DIVBYZERO_BITS   _u(0x02000000)
+#define M33_CFSR_UFSR_DIVBYZERO_MSB    _u(25)
+#define M33_CFSR_UFSR_DIVBYZERO_LSB    _u(25)
+#define M33_CFSR_UFSR_DIVBYZERO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_UNALIGNED
+// Description : Sticky flag indicating whether an unaligned access error has
+//               occurred
+#define M33_CFSR_UFSR_UNALIGNED_RESET  _u(0x0)
+#define M33_CFSR_UFSR_UNALIGNED_BITS   _u(0x01000000)
+#define M33_CFSR_UFSR_UNALIGNED_MSB    _u(24)
+#define M33_CFSR_UFSR_UNALIGNED_LSB    _u(24)
+#define M33_CFSR_UFSR_UNALIGNED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_STKOF
+// Description : Sticky flag indicating whether a stack overflow error has
+//               occurred
+#define M33_CFSR_UFSR_STKOF_RESET  _u(0x0)
+#define M33_CFSR_UFSR_STKOF_BITS   _u(0x00100000)
+#define M33_CFSR_UFSR_STKOF_MSB    _u(20)
+#define M33_CFSR_UFSR_STKOF_LSB    _u(20)
+#define M33_CFSR_UFSR_STKOF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_NOCP
+// Description : Sticky flag indicating whether a coprocessor disabled or not
+//               present error has occurred
+#define M33_CFSR_UFSR_NOCP_RESET  _u(0x0)
+#define M33_CFSR_UFSR_NOCP_BITS   _u(0x00080000)
+#define M33_CFSR_UFSR_NOCP_MSB    _u(19)
+#define M33_CFSR_UFSR_NOCP_LSB    _u(19)
+#define M33_CFSR_UFSR_NOCP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_INVPC
+// Description : Sticky flag indicating whether an integrity check error has
+//               occurred
+#define M33_CFSR_UFSR_INVPC_RESET  _u(0x0)
+#define M33_CFSR_UFSR_INVPC_BITS   _u(0x00040000)
+#define M33_CFSR_UFSR_INVPC_MSB    _u(18)
+#define M33_CFSR_UFSR_INVPC_LSB    _u(18)
+#define M33_CFSR_UFSR_INVPC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_INVSTATE
+// Description : Sticky flag indicating whether an EPSR.T or EPSR.IT validity
+//               error has occurred
+#define M33_CFSR_UFSR_INVSTATE_RESET  _u(0x0)
+#define M33_CFSR_UFSR_INVSTATE_BITS   _u(0x00020000)
+#define M33_CFSR_UFSR_INVSTATE_MSB    _u(17)
+#define M33_CFSR_UFSR_INVSTATE_LSB    _u(17)
+#define M33_CFSR_UFSR_INVSTATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_UFSR_UNDEFINSTR
+// Description : Sticky flag indicating whether an undefined instruction error
+//               has occurred
+#define M33_CFSR_UFSR_UNDEFINSTR_RESET  _u(0x0)
+#define M33_CFSR_UFSR_UNDEFINSTR_BITS   _u(0x00010000)
+#define M33_CFSR_UFSR_UNDEFINSTR_MSB    _u(16)
+#define M33_CFSR_UFSR_UNDEFINSTR_LSB    _u(16)
+#define M33_CFSR_UFSR_UNDEFINSTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_BFARVALID
+// Description : Indicates validity of the contents of the BFAR register
+#define M33_CFSR_BFSR_BFARVALID_RESET  _u(0x0)
+#define M33_CFSR_BFSR_BFARVALID_BITS   _u(0x00008000)
+#define M33_CFSR_BFSR_BFARVALID_MSB    _u(15)
+#define M33_CFSR_BFSR_BFARVALID_LSB    _u(15)
+#define M33_CFSR_BFSR_BFARVALID_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_LSPERR
+// Description : Records whether a BusFault occurred during FP lazy state
+//               preservation
+#define M33_CFSR_BFSR_LSPERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_LSPERR_BITS   _u(0x00002000)
+#define M33_CFSR_BFSR_LSPERR_MSB    _u(13)
+#define M33_CFSR_BFSR_LSPERR_LSB    _u(13)
+#define M33_CFSR_BFSR_LSPERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_STKERR
+// Description : Records whether a derived BusFault occurred during exception
+//               entry stacking
+#define M33_CFSR_BFSR_STKERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_STKERR_BITS   _u(0x00001000)
+#define M33_CFSR_BFSR_STKERR_MSB    _u(12)
+#define M33_CFSR_BFSR_STKERR_LSB    _u(12)
+#define M33_CFSR_BFSR_STKERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_UNSTKERR
+// Description : Records whether a derived BusFault occurred during exception
+//               return unstacking
+#define M33_CFSR_BFSR_UNSTKERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_UNSTKERR_BITS   _u(0x00000800)
+#define M33_CFSR_BFSR_UNSTKERR_MSB    _u(11)
+#define M33_CFSR_BFSR_UNSTKERR_LSB    _u(11)
+#define M33_CFSR_BFSR_UNSTKERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_IMPRECISERR
+// Description : Records whether an imprecise data access error has occurred
+#define M33_CFSR_BFSR_IMPRECISERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_IMPRECISERR_BITS   _u(0x00000400)
+#define M33_CFSR_BFSR_IMPRECISERR_MSB    _u(10)
+#define M33_CFSR_BFSR_IMPRECISERR_LSB    _u(10)
+#define M33_CFSR_BFSR_IMPRECISERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_PRECISERR
+// Description : Records whether a precise data access error has occurred
+#define M33_CFSR_BFSR_PRECISERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_PRECISERR_BITS   _u(0x00000200)
+#define M33_CFSR_BFSR_PRECISERR_MSB    _u(9)
+#define M33_CFSR_BFSR_PRECISERR_LSB    _u(9)
+#define M33_CFSR_BFSR_PRECISERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_BFSR_IBUSERR
+// Description : Records whether a BusFault on an instruction prefetch has
+//               occurred
+#define M33_CFSR_BFSR_IBUSERR_RESET  _u(0x0)
+#define M33_CFSR_BFSR_IBUSERR_BITS   _u(0x00000100)
+#define M33_CFSR_BFSR_IBUSERR_MSB    _u(8)
+#define M33_CFSR_BFSR_IBUSERR_LSB    _u(8)
+#define M33_CFSR_BFSR_IBUSERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CFSR_MMFSR
+// Description : Provides information on MemManage exceptions
+#define M33_CFSR_MMFSR_RESET  _u(0x00)
+#define M33_CFSR_MMFSR_BITS   _u(0x000000ff)
+#define M33_CFSR_MMFSR_MSB    _u(7)
+#define M33_CFSR_MMFSR_LSB    _u(0)
+#define M33_CFSR_MMFSR_ACCESS "RW"
+// =============================================================================
+// Register    : M33_HFSR
+// Description : Shows the cause of any HardFaults
+#define M33_HFSR_OFFSET _u(0x0000ed2c)
+#define M33_HFSR_BITS   _u(0xc0000002)
+#define M33_HFSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_HFSR_DEBUGEVT
+// Description : Indicates when a Debug event has occurred
+#define M33_HFSR_DEBUGEVT_RESET  _u(0x0)
+#define M33_HFSR_DEBUGEVT_BITS   _u(0x80000000)
+#define M33_HFSR_DEBUGEVT_MSB    _u(31)
+#define M33_HFSR_DEBUGEVT_LSB    _u(31)
+#define M33_HFSR_DEBUGEVT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_HFSR_FORCED
+// Description : Indicates that a fault with configurable priority has been
+//               escalated to a HardFault exception, because it could not be
+//               made active, because of priority, or because it was disabled
+#define M33_HFSR_FORCED_RESET  _u(0x0)
+#define M33_HFSR_FORCED_BITS   _u(0x40000000)
+#define M33_HFSR_FORCED_MSB    _u(30)
+#define M33_HFSR_FORCED_LSB    _u(30)
+#define M33_HFSR_FORCED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_HFSR_VECTTBL
+// Description : Indicates when a fault has occurred because of a vector table
+//               read error on exception processing
+#define M33_HFSR_VECTTBL_RESET  _u(0x0)
+#define M33_HFSR_VECTTBL_BITS   _u(0x00000002)
+#define M33_HFSR_VECTTBL_MSB    _u(1)
+#define M33_HFSR_VECTTBL_LSB    _u(1)
+#define M33_HFSR_VECTTBL_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DFSR
+// Description : Shows which debug event occurred
+#define M33_DFSR_OFFSET _u(0x0000ed30)
+#define M33_DFSR_BITS   _u(0x0000001f)
+#define M33_DFSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DFSR_EXTERNAL
+// Description : Sticky flag indicating whether an External debug request debug
+//               event has occurred
+#define M33_DFSR_EXTERNAL_RESET  _u(0x0)
+#define M33_DFSR_EXTERNAL_BITS   _u(0x00000010)
+#define M33_DFSR_EXTERNAL_MSB    _u(4)
+#define M33_DFSR_EXTERNAL_LSB    _u(4)
+#define M33_DFSR_EXTERNAL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DFSR_VCATCH
+// Description : Sticky flag indicating whether a Vector catch debug event has
+//               occurred
+#define M33_DFSR_VCATCH_RESET  _u(0x0)
+#define M33_DFSR_VCATCH_BITS   _u(0x00000008)
+#define M33_DFSR_VCATCH_MSB    _u(3)
+#define M33_DFSR_VCATCH_LSB    _u(3)
+#define M33_DFSR_VCATCH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DFSR_DWTTRAP
+// Description : Sticky flag indicating whether a Watchpoint debug event has
+//               occurred
+#define M33_DFSR_DWTTRAP_RESET  _u(0x0)
+#define M33_DFSR_DWTTRAP_BITS   _u(0x00000004)
+#define M33_DFSR_DWTTRAP_MSB    _u(2)
+#define M33_DFSR_DWTTRAP_LSB    _u(2)
+#define M33_DFSR_DWTTRAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DFSR_BKPT
+// Description : Sticky flag indicating whether a Breakpoint debug event has
+//               occurred
+#define M33_DFSR_BKPT_RESET  _u(0x0)
+#define M33_DFSR_BKPT_BITS   _u(0x00000002)
+#define M33_DFSR_BKPT_MSB    _u(1)
+#define M33_DFSR_BKPT_LSB    _u(1)
+#define M33_DFSR_BKPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DFSR_HALTED
+// Description : Sticky flag indicating that a Halt request debug event or Step
+//               debug event has occurred
+#define M33_DFSR_HALTED_RESET  _u(0x0)
+#define M33_DFSR_HALTED_BITS   _u(0x00000001)
+#define M33_DFSR_HALTED_MSB    _u(0)
+#define M33_DFSR_HALTED_LSB    _u(0)
+#define M33_DFSR_HALTED_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MMFAR
+// Description : Shows the address of the memory location that caused an MPU
+//               fault
+#define M33_MMFAR_OFFSET _u(0x0000ed34)
+#define M33_MMFAR_BITS   _u(0xffffffff)
+#define M33_MMFAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MMFAR_ADDRESS
+// Description : This register is updated with the address of a location that
+//               produced a MemManage fault. The MMFSR shows the cause of the
+//               fault, and whether this field is valid. This field is valid
+//               only when MMFSR.MMARVALID is set, otherwise it is UNKNOWN
+#define M33_MMFAR_ADDRESS_RESET  _u(0x00000000)
+#define M33_MMFAR_ADDRESS_BITS   _u(0xffffffff)
+#define M33_MMFAR_ADDRESS_MSB    _u(31)
+#define M33_MMFAR_ADDRESS_LSB    _u(0)
+#define M33_MMFAR_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_BFAR
+// Description : Shows the address associated with a precise data access
+//               BusFault
+#define M33_BFAR_OFFSET _u(0x0000ed38)
+#define M33_BFAR_BITS   _u(0xffffffff)
+#define M33_BFAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_BFAR_ADDRESS
+// Description : This register is updated with the address of a location that
+//               produced a BusFault. The BFSR shows the reason for the fault.
+//               This field is valid only when BFSR.BFARVALID is set, otherwise
+//               it is UNKNOWN
+#define M33_BFAR_ADDRESS_RESET  _u(0x00000000)
+#define M33_BFAR_ADDRESS_BITS   _u(0xffffffff)
+#define M33_BFAR_ADDRESS_MSB    _u(31)
+#define M33_BFAR_ADDRESS_LSB    _u(0)
+#define M33_BFAR_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ID_PFR0
+// Description : Gives top-level information about the instruction set supported
+//               by the PE
+#define M33_ID_PFR0_OFFSET _u(0x0000ed40)
+#define M33_ID_PFR0_BITS   _u(0x000000ff)
+#define M33_ID_PFR0_RESET  _u(0x00000030)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_PFR0_STATE1
+// Description : T32 instruction set support
+#define M33_ID_PFR0_STATE1_RESET  _u(0x3)
+#define M33_ID_PFR0_STATE1_BITS   _u(0x000000f0)
+#define M33_ID_PFR0_STATE1_MSB    _u(7)
+#define M33_ID_PFR0_STATE1_LSB    _u(4)
+#define M33_ID_PFR0_STATE1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_PFR0_STATE0
+// Description : A32 instruction set support
+#define M33_ID_PFR0_STATE0_RESET  _u(0x0)
+#define M33_ID_PFR0_STATE0_BITS   _u(0x0000000f)
+#define M33_ID_PFR0_STATE0_MSB    _u(3)
+#define M33_ID_PFR0_STATE0_LSB    _u(0)
+#define M33_ID_PFR0_STATE0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_PFR1
+// Description : Gives information about the programmers' model and Extensions
+//               support
+#define M33_ID_PFR1_OFFSET _u(0x0000ed44)
+#define M33_ID_PFR1_BITS   _u(0x00000ff0)
+#define M33_ID_PFR1_RESET  _u(0x00000520)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_PFR1_MPROGMOD
+// Description : Identifies support for the M-Profile programmers' model support
+#define M33_ID_PFR1_MPROGMOD_RESET  _u(0x5)
+#define M33_ID_PFR1_MPROGMOD_BITS   _u(0x00000f00)
+#define M33_ID_PFR1_MPROGMOD_MSB    _u(11)
+#define M33_ID_PFR1_MPROGMOD_LSB    _u(8)
+#define M33_ID_PFR1_MPROGMOD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_PFR1_SECURITY
+// Description : Identifies whether the Security Extension is implemented
+#define M33_ID_PFR1_SECURITY_RESET  _u(0x2)
+#define M33_ID_PFR1_SECURITY_BITS   _u(0x000000f0)
+#define M33_ID_PFR1_SECURITY_MSB    _u(7)
+#define M33_ID_PFR1_SECURITY_LSB    _u(4)
+#define M33_ID_PFR1_SECURITY_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_DFR0
+// Description : Provides top level information about the debug system
+#define M33_ID_DFR0_OFFSET _u(0x0000ed48)
+#define M33_ID_DFR0_BITS   _u(0x00f00000)
+#define M33_ID_DFR0_RESET  _u(0x00200000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_DFR0_MPROFDBG
+// Description : Indicates the supported M-profile debug architecture
+#define M33_ID_DFR0_MPROFDBG_RESET  _u(0x2)
+#define M33_ID_DFR0_MPROFDBG_BITS   _u(0x00f00000)
+#define M33_ID_DFR0_MPROFDBG_MSB    _u(23)
+#define M33_ID_DFR0_MPROFDBG_LSB    _u(20)
+#define M33_ID_DFR0_MPROFDBG_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_AFR0
+// Description : Provides information about the IMPLEMENTATION DEFINED features
+//               of the PE
+#define M33_ID_AFR0_OFFSET _u(0x0000ed4c)
+#define M33_ID_AFR0_BITS   _u(0x0000ffff)
+#define M33_ID_AFR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_AFR0_IMPDEF3
+// Description : IMPLEMENTATION DEFINED meaning
+#define M33_ID_AFR0_IMPDEF3_RESET  _u(0x0)
+#define M33_ID_AFR0_IMPDEF3_BITS   _u(0x0000f000)
+#define M33_ID_AFR0_IMPDEF3_MSB    _u(15)
+#define M33_ID_AFR0_IMPDEF3_LSB    _u(12)
+#define M33_ID_AFR0_IMPDEF3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_AFR0_IMPDEF2
+// Description : IMPLEMENTATION DEFINED meaning
+#define M33_ID_AFR0_IMPDEF2_RESET  _u(0x0)
+#define M33_ID_AFR0_IMPDEF2_BITS   _u(0x00000f00)
+#define M33_ID_AFR0_IMPDEF2_MSB    _u(11)
+#define M33_ID_AFR0_IMPDEF2_LSB    _u(8)
+#define M33_ID_AFR0_IMPDEF2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_AFR0_IMPDEF1
+// Description : IMPLEMENTATION DEFINED meaning
+#define M33_ID_AFR0_IMPDEF1_RESET  _u(0x0)
+#define M33_ID_AFR0_IMPDEF1_BITS   _u(0x000000f0)
+#define M33_ID_AFR0_IMPDEF1_MSB    _u(7)
+#define M33_ID_AFR0_IMPDEF1_LSB    _u(4)
+#define M33_ID_AFR0_IMPDEF1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_AFR0_IMPDEF0
+// Description : IMPLEMENTATION DEFINED meaning
+#define M33_ID_AFR0_IMPDEF0_RESET  _u(0x0)
+#define M33_ID_AFR0_IMPDEF0_BITS   _u(0x0000000f)
+#define M33_ID_AFR0_IMPDEF0_MSB    _u(3)
+#define M33_ID_AFR0_IMPDEF0_LSB    _u(0)
+#define M33_ID_AFR0_IMPDEF0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_MMFR0
+// Description : Provides information about the implemented memory model and
+//               memory management support
+#define M33_ID_MMFR0_OFFSET _u(0x0000ed50)
+#define M33_ID_MMFR0_BITS   _u(0x00fffff0)
+#define M33_ID_MMFR0_RESET  _u(0x00101f40)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR0_AUXREG
+// Description : Indicates support for Auxiliary Control Registers
+#define M33_ID_MMFR0_AUXREG_RESET  _u(0x1)
+#define M33_ID_MMFR0_AUXREG_BITS   _u(0x00f00000)
+#define M33_ID_MMFR0_AUXREG_MSB    _u(23)
+#define M33_ID_MMFR0_AUXREG_LSB    _u(20)
+#define M33_ID_MMFR0_AUXREG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR0_TCM
+// Description : Indicates support for tightly coupled memories (TCMs)
+#define M33_ID_MMFR0_TCM_RESET  _u(0x0)
+#define M33_ID_MMFR0_TCM_BITS   _u(0x000f0000)
+#define M33_ID_MMFR0_TCM_MSB    _u(19)
+#define M33_ID_MMFR0_TCM_LSB    _u(16)
+#define M33_ID_MMFR0_TCM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR0_SHARELVL
+// Description : Indicates the number of shareability levels implemented
+#define M33_ID_MMFR0_SHARELVL_RESET  _u(0x1)
+#define M33_ID_MMFR0_SHARELVL_BITS   _u(0x0000f000)
+#define M33_ID_MMFR0_SHARELVL_MSB    _u(15)
+#define M33_ID_MMFR0_SHARELVL_LSB    _u(12)
+#define M33_ID_MMFR0_SHARELVL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR0_OUTERSHR
+// Description : Indicates the outermost shareability domain implemented
+#define M33_ID_MMFR0_OUTERSHR_RESET  _u(0xf)
+#define M33_ID_MMFR0_OUTERSHR_BITS   _u(0x00000f00)
+#define M33_ID_MMFR0_OUTERSHR_MSB    _u(11)
+#define M33_ID_MMFR0_OUTERSHR_LSB    _u(8)
+#define M33_ID_MMFR0_OUTERSHR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR0_PMSA
+// Description : Indicates support for the protected memory system architecture
+//               (PMSA)
+#define M33_ID_MMFR0_PMSA_RESET  _u(0x4)
+#define M33_ID_MMFR0_PMSA_BITS   _u(0x000000f0)
+#define M33_ID_MMFR0_PMSA_MSB    _u(7)
+#define M33_ID_MMFR0_PMSA_LSB    _u(4)
+#define M33_ID_MMFR0_PMSA_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_MMFR1
+// Description : Provides information about the implemented memory model and
+//               memory management support
+#define M33_ID_MMFR1_OFFSET _u(0x0000ed54)
+#define M33_ID_MMFR1_BITS   _u(0x00000000)
+#define M33_ID_MMFR1_RESET  _u(0x00000000)
+#define M33_ID_MMFR1_MSB    _u(31)
+#define M33_ID_MMFR1_LSB    _u(0)
+#define M33_ID_MMFR1_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ID_MMFR2
+// Description : Provides information about the implemented memory model and
+//               memory management support
+#define M33_ID_MMFR2_OFFSET _u(0x0000ed58)
+#define M33_ID_MMFR2_BITS   _u(0x0f000000)
+#define M33_ID_MMFR2_RESET  _u(0x01000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR2_WFISTALL
+// Description : Indicates the support for Wait For Interrupt (WFI) stalling
+#define M33_ID_MMFR2_WFISTALL_RESET  _u(0x1)
+#define M33_ID_MMFR2_WFISTALL_BITS   _u(0x0f000000)
+#define M33_ID_MMFR2_WFISTALL_MSB    _u(27)
+#define M33_ID_MMFR2_WFISTALL_LSB    _u(24)
+#define M33_ID_MMFR2_WFISTALL_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_MMFR3
+// Description : Provides information about the implemented memory model and
+//               memory management support
+#define M33_ID_MMFR3_OFFSET _u(0x0000ed5c)
+#define M33_ID_MMFR3_BITS   _u(0x00000fff)
+#define M33_ID_MMFR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR3_BPMAINT
+// Description : Indicates the supported branch predictor maintenance
+#define M33_ID_MMFR3_BPMAINT_RESET  _u(0x0)
+#define M33_ID_MMFR3_BPMAINT_BITS   _u(0x00000f00)
+#define M33_ID_MMFR3_BPMAINT_MSB    _u(11)
+#define M33_ID_MMFR3_BPMAINT_LSB    _u(8)
+#define M33_ID_MMFR3_BPMAINT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR3_CMAINTSW
+// Description : Indicates the supported cache maintenance operations by set/way
+#define M33_ID_MMFR3_CMAINTSW_RESET  _u(0x0)
+#define M33_ID_MMFR3_CMAINTSW_BITS   _u(0x000000f0)
+#define M33_ID_MMFR3_CMAINTSW_MSB    _u(7)
+#define M33_ID_MMFR3_CMAINTSW_LSB    _u(4)
+#define M33_ID_MMFR3_CMAINTSW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_MMFR3_CMAINTVA
+// Description : Indicates the supported cache maintenance operations by address
+#define M33_ID_MMFR3_CMAINTVA_RESET  _u(0x0)
+#define M33_ID_MMFR3_CMAINTVA_BITS   _u(0x0000000f)
+#define M33_ID_MMFR3_CMAINTVA_MSB    _u(3)
+#define M33_ID_MMFR3_CMAINTVA_LSB    _u(0)
+#define M33_ID_MMFR3_CMAINTVA_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR0
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR0_OFFSET _u(0x0000ed60)
+#define M33_ID_ISAR0_BITS   _u(0x0ffffff0)
+#define M33_ID_ISAR0_RESET  _u(0x08092300)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_DIVIDE
+// Description : Indicates the supported Divide instructions
+#define M33_ID_ISAR0_DIVIDE_RESET  _u(0x8)
+#define M33_ID_ISAR0_DIVIDE_BITS   _u(0x0f000000)
+#define M33_ID_ISAR0_DIVIDE_MSB    _u(27)
+#define M33_ID_ISAR0_DIVIDE_LSB    _u(24)
+#define M33_ID_ISAR0_DIVIDE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_DEBUG
+// Description : Indicates the implemented Debug instructions
+#define M33_ID_ISAR0_DEBUG_RESET  _u(0x0)
+#define M33_ID_ISAR0_DEBUG_BITS   _u(0x00f00000)
+#define M33_ID_ISAR0_DEBUG_MSB    _u(23)
+#define M33_ID_ISAR0_DEBUG_LSB    _u(20)
+#define M33_ID_ISAR0_DEBUG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_COPROC
+// Description : Indicates the supported Coprocessor instructions
+#define M33_ID_ISAR0_COPROC_RESET  _u(0x9)
+#define M33_ID_ISAR0_COPROC_BITS   _u(0x000f0000)
+#define M33_ID_ISAR0_COPROC_MSB    _u(19)
+#define M33_ID_ISAR0_COPROC_LSB    _u(16)
+#define M33_ID_ISAR0_COPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_CMPBRANCH
+// Description : Indicates the supported combined Compare and Branch
+//               instructions
+#define M33_ID_ISAR0_CMPBRANCH_RESET  _u(0x2)
+#define M33_ID_ISAR0_CMPBRANCH_BITS   _u(0x0000f000)
+#define M33_ID_ISAR0_CMPBRANCH_MSB    _u(15)
+#define M33_ID_ISAR0_CMPBRANCH_LSB    _u(12)
+#define M33_ID_ISAR0_CMPBRANCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_BITFIELD
+// Description : Indicates the supported bit field instructions
+#define M33_ID_ISAR0_BITFIELD_RESET  _u(0x3)
+#define M33_ID_ISAR0_BITFIELD_BITS   _u(0x00000f00)
+#define M33_ID_ISAR0_BITFIELD_MSB    _u(11)
+#define M33_ID_ISAR0_BITFIELD_LSB    _u(8)
+#define M33_ID_ISAR0_BITFIELD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR0_BITCOUNT
+// Description : Indicates the supported bit count instructions
+#define M33_ID_ISAR0_BITCOUNT_RESET  _u(0x0)
+#define M33_ID_ISAR0_BITCOUNT_BITS   _u(0x000000f0)
+#define M33_ID_ISAR0_BITCOUNT_MSB    _u(7)
+#define M33_ID_ISAR0_BITCOUNT_LSB    _u(4)
+#define M33_ID_ISAR0_BITCOUNT_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR1
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR1_OFFSET _u(0x0000ed64)
+#define M33_ID_ISAR1_BITS   _u(0x0ffff000)
+#define M33_ID_ISAR1_RESET  _u(0x05725000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR1_INTERWORK
+// Description : Indicates the implemented Interworking instructions
+#define M33_ID_ISAR1_INTERWORK_RESET  _u(0x5)
+#define M33_ID_ISAR1_INTERWORK_BITS   _u(0x0f000000)
+#define M33_ID_ISAR1_INTERWORK_MSB    _u(27)
+#define M33_ID_ISAR1_INTERWORK_LSB    _u(24)
+#define M33_ID_ISAR1_INTERWORK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR1_IMMEDIATE
+// Description : Indicates the implemented for data-processing instructions with
+//               long immediates
+#define M33_ID_ISAR1_IMMEDIATE_RESET  _u(0x7)
+#define M33_ID_ISAR1_IMMEDIATE_BITS   _u(0x00f00000)
+#define M33_ID_ISAR1_IMMEDIATE_MSB    _u(23)
+#define M33_ID_ISAR1_IMMEDIATE_LSB    _u(20)
+#define M33_ID_ISAR1_IMMEDIATE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR1_IFTHEN
+// Description : Indicates the implemented If-Then instructions
+#define M33_ID_ISAR1_IFTHEN_RESET  _u(0x2)
+#define M33_ID_ISAR1_IFTHEN_BITS   _u(0x000f0000)
+#define M33_ID_ISAR1_IFTHEN_MSB    _u(19)
+#define M33_ID_ISAR1_IFTHEN_LSB    _u(16)
+#define M33_ID_ISAR1_IFTHEN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR1_EXTEND
+// Description : Indicates the implemented Extend instructions
+#define M33_ID_ISAR1_EXTEND_RESET  _u(0x5)
+#define M33_ID_ISAR1_EXTEND_BITS   _u(0x0000f000)
+#define M33_ID_ISAR1_EXTEND_MSB    _u(15)
+#define M33_ID_ISAR1_EXTEND_LSB    _u(12)
+#define M33_ID_ISAR1_EXTEND_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR2
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR2_OFFSET _u(0x0000ed68)
+#define M33_ID_ISAR2_BITS   _u(0xf0ffffff)
+#define M33_ID_ISAR2_RESET  _u(0x30173426)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_REVERSAL
+// Description : Indicates the implemented Reversal instructions
+#define M33_ID_ISAR2_REVERSAL_RESET  _u(0x3)
+#define M33_ID_ISAR2_REVERSAL_BITS   _u(0xf0000000)
+#define M33_ID_ISAR2_REVERSAL_MSB    _u(31)
+#define M33_ID_ISAR2_REVERSAL_LSB    _u(28)
+#define M33_ID_ISAR2_REVERSAL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_MULTU
+// Description : Indicates the implemented advanced unsigned Multiply
+//               instructions
+#define M33_ID_ISAR2_MULTU_RESET  _u(0x1)
+#define M33_ID_ISAR2_MULTU_BITS   _u(0x00f00000)
+#define M33_ID_ISAR2_MULTU_MSB    _u(23)
+#define M33_ID_ISAR2_MULTU_LSB    _u(20)
+#define M33_ID_ISAR2_MULTU_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_MULTS
+// Description : Indicates the implemented advanced signed Multiply instructions
+#define M33_ID_ISAR2_MULTS_RESET  _u(0x7)
+#define M33_ID_ISAR2_MULTS_BITS   _u(0x000f0000)
+#define M33_ID_ISAR2_MULTS_MSB    _u(19)
+#define M33_ID_ISAR2_MULTS_LSB    _u(16)
+#define M33_ID_ISAR2_MULTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_MULT
+// Description : Indicates the implemented additional Multiply instructions
+#define M33_ID_ISAR2_MULT_RESET  _u(0x3)
+#define M33_ID_ISAR2_MULT_BITS   _u(0x0000f000)
+#define M33_ID_ISAR2_MULT_MSB    _u(15)
+#define M33_ID_ISAR2_MULT_LSB    _u(12)
+#define M33_ID_ISAR2_MULT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_MULTIACCESSINT
+// Description : Indicates the support for interruptible multi-access
+//               instructions
+#define M33_ID_ISAR2_MULTIACCESSINT_RESET  _u(0x4)
+#define M33_ID_ISAR2_MULTIACCESSINT_BITS   _u(0x00000f00)
+#define M33_ID_ISAR2_MULTIACCESSINT_MSB    _u(11)
+#define M33_ID_ISAR2_MULTIACCESSINT_LSB    _u(8)
+#define M33_ID_ISAR2_MULTIACCESSINT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_MEMHINT
+// Description : Indicates the implemented Memory Hint instructions
+#define M33_ID_ISAR2_MEMHINT_RESET  _u(0x2)
+#define M33_ID_ISAR2_MEMHINT_BITS   _u(0x000000f0)
+#define M33_ID_ISAR2_MEMHINT_MSB    _u(7)
+#define M33_ID_ISAR2_MEMHINT_LSB    _u(4)
+#define M33_ID_ISAR2_MEMHINT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR2_LOADSTORE
+// Description : Indicates the implemented additional load/store instructions
+#define M33_ID_ISAR2_LOADSTORE_RESET  _u(0x6)
+#define M33_ID_ISAR2_LOADSTORE_BITS   _u(0x0000000f)
+#define M33_ID_ISAR2_LOADSTORE_MSB    _u(3)
+#define M33_ID_ISAR2_LOADSTORE_LSB    _u(0)
+#define M33_ID_ISAR2_LOADSTORE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR3
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR3_OFFSET _u(0x0000ed6c)
+#define M33_ID_ISAR3_BITS   _u(0x0fffffff)
+#define M33_ID_ISAR3_RESET  _u(0x07895729)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_TRUENOP
+// Description : Indicates the implemented true NOP instructions
+#define M33_ID_ISAR3_TRUENOP_RESET  _u(0x7)
+#define M33_ID_ISAR3_TRUENOP_BITS   _u(0x0f000000)
+#define M33_ID_ISAR3_TRUENOP_MSB    _u(27)
+#define M33_ID_ISAR3_TRUENOP_LSB    _u(24)
+#define M33_ID_ISAR3_TRUENOP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_T32COPY
+// Description : Indicates the support for T32 non flag-setting MOV instructions
+#define M33_ID_ISAR3_T32COPY_RESET  _u(0x8)
+#define M33_ID_ISAR3_T32COPY_BITS   _u(0x00f00000)
+#define M33_ID_ISAR3_T32COPY_MSB    _u(23)
+#define M33_ID_ISAR3_T32COPY_LSB    _u(20)
+#define M33_ID_ISAR3_T32COPY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_TABBRANCH
+// Description : Indicates the implemented Table Branch instructions
+#define M33_ID_ISAR3_TABBRANCH_RESET  _u(0x9)
+#define M33_ID_ISAR3_TABBRANCH_BITS   _u(0x000f0000)
+#define M33_ID_ISAR3_TABBRANCH_MSB    _u(19)
+#define M33_ID_ISAR3_TABBRANCH_LSB    _u(16)
+#define M33_ID_ISAR3_TABBRANCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_SYNCHPRIM
+// Description : Used in conjunction with ID_ISAR4.SynchPrim_frac to indicate
+//               the implemented Synchronization Primitive instructions
+#define M33_ID_ISAR3_SYNCHPRIM_RESET  _u(0x5)
+#define M33_ID_ISAR3_SYNCHPRIM_BITS   _u(0x0000f000)
+#define M33_ID_ISAR3_SYNCHPRIM_MSB    _u(15)
+#define M33_ID_ISAR3_SYNCHPRIM_LSB    _u(12)
+#define M33_ID_ISAR3_SYNCHPRIM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_SVC
+// Description : Indicates the implemented SVC instructions
+#define M33_ID_ISAR3_SVC_RESET  _u(0x7)
+#define M33_ID_ISAR3_SVC_BITS   _u(0x00000f00)
+#define M33_ID_ISAR3_SVC_MSB    _u(11)
+#define M33_ID_ISAR3_SVC_LSB    _u(8)
+#define M33_ID_ISAR3_SVC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_SIMD
+// Description : Indicates the implemented SIMD instructions
+#define M33_ID_ISAR3_SIMD_RESET  _u(0x2)
+#define M33_ID_ISAR3_SIMD_BITS   _u(0x000000f0)
+#define M33_ID_ISAR3_SIMD_MSB    _u(7)
+#define M33_ID_ISAR3_SIMD_LSB    _u(4)
+#define M33_ID_ISAR3_SIMD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR3_SATURATE
+// Description : Indicates the implemented saturating instructions
+#define M33_ID_ISAR3_SATURATE_RESET  _u(0x9)
+#define M33_ID_ISAR3_SATURATE_BITS   _u(0x0000000f)
+#define M33_ID_ISAR3_SATURATE_MSB    _u(3)
+#define M33_ID_ISAR3_SATURATE_LSB    _u(0)
+#define M33_ID_ISAR3_SATURATE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR4
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR4_OFFSET _u(0x0000ed70)
+#define M33_ID_ISAR4_BITS   _u(0x0fff0fff)
+#define M33_ID_ISAR4_RESET  _u(0x01310132)
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_PSR_M
+// Description : Indicates the implemented M profile instructions to modify the
+//               PSRs
+#define M33_ID_ISAR4_PSR_M_RESET  _u(0x1)
+#define M33_ID_ISAR4_PSR_M_BITS   _u(0x0f000000)
+#define M33_ID_ISAR4_PSR_M_MSB    _u(27)
+#define M33_ID_ISAR4_PSR_M_LSB    _u(24)
+#define M33_ID_ISAR4_PSR_M_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_SYNCPRIM_FRAC
+// Description : Used in conjunction with ID_ISAR3.SynchPrim to indicate the
+//               implemented Synchronization Primitive instructions
+#define M33_ID_ISAR4_SYNCPRIM_FRAC_RESET  _u(0x3)
+#define M33_ID_ISAR4_SYNCPRIM_FRAC_BITS   _u(0x00f00000)
+#define M33_ID_ISAR4_SYNCPRIM_FRAC_MSB    _u(23)
+#define M33_ID_ISAR4_SYNCPRIM_FRAC_LSB    _u(20)
+#define M33_ID_ISAR4_SYNCPRIM_FRAC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_BARRIER
+// Description : Indicates the implemented Barrier instructions
+#define M33_ID_ISAR4_BARRIER_RESET  _u(0x1)
+#define M33_ID_ISAR4_BARRIER_BITS   _u(0x000f0000)
+#define M33_ID_ISAR4_BARRIER_MSB    _u(19)
+#define M33_ID_ISAR4_BARRIER_LSB    _u(16)
+#define M33_ID_ISAR4_BARRIER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_WRITEBACK
+// Description : Indicates the support for writeback addressing modes
+#define M33_ID_ISAR4_WRITEBACK_RESET  _u(0x1)
+#define M33_ID_ISAR4_WRITEBACK_BITS   _u(0x00000f00)
+#define M33_ID_ISAR4_WRITEBACK_MSB    _u(11)
+#define M33_ID_ISAR4_WRITEBACK_LSB    _u(8)
+#define M33_ID_ISAR4_WRITEBACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_WITHSHIFTS
+// Description : Indicates the support for writeback addressing modes
+#define M33_ID_ISAR4_WITHSHIFTS_RESET  _u(0x3)
+#define M33_ID_ISAR4_WITHSHIFTS_BITS   _u(0x000000f0)
+#define M33_ID_ISAR4_WITHSHIFTS_MSB    _u(7)
+#define M33_ID_ISAR4_WITHSHIFTS_LSB    _u(4)
+#define M33_ID_ISAR4_WITHSHIFTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_ID_ISAR4_UNPRIV
+// Description : Indicates the implemented unprivileged instructions
+#define M33_ID_ISAR4_UNPRIV_RESET  _u(0x2)
+#define M33_ID_ISAR4_UNPRIV_BITS   _u(0x0000000f)
+#define M33_ID_ISAR4_UNPRIV_MSB    _u(3)
+#define M33_ID_ISAR4_UNPRIV_LSB    _u(0)
+#define M33_ID_ISAR4_UNPRIV_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ID_ISAR5
+// Description : Provides information about the instruction set implemented by
+//               the PE
+#define M33_ID_ISAR5_OFFSET _u(0x0000ed74)
+#define M33_ID_ISAR5_BITS   _u(0x00000000)
+#define M33_ID_ISAR5_RESET  _u(0x00000000)
+#define M33_ID_ISAR5_MSB    _u(31)
+#define M33_ID_ISAR5_LSB    _u(0)
+#define M33_ID_ISAR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTR
+// Description : Provides information about the architecture of the caches. CTR
+//               is RES0 if CLIDR is zero.
+#define M33_CTR_OFFSET _u(0x0000ed7c)
+#define M33_CTR_BITS   _u(0x8fffc00f)
+#define M33_CTR_RESET  _u(0x8000c000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_RES1
+// Description : Reserved, RES1
+#define M33_CTR_RES1_RESET  _u(0x1)
+#define M33_CTR_RES1_BITS   _u(0x80000000)
+#define M33_CTR_RES1_MSB    _u(31)
+#define M33_CTR_RES1_LSB    _u(31)
+#define M33_CTR_RES1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_CWG
+// Description : Log2 of the number of words of the maximum size of memory that
+//               can be overwritten as a result of the eviction of a cache entry
+//               that has had a memory location in it modified
+#define M33_CTR_CWG_RESET  _u(0x0)
+#define M33_CTR_CWG_BITS   _u(0x0f000000)
+#define M33_CTR_CWG_MSB    _u(27)
+#define M33_CTR_CWG_LSB    _u(24)
+#define M33_CTR_CWG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_ERG
+// Description : Log2 of the number of words of the maximum size of the
+//               reservation granule that has been implemented for the Load-
+//               Exclusive and Store-Exclusive instructions
+#define M33_CTR_ERG_RESET  _u(0x0)
+#define M33_CTR_ERG_BITS   _u(0x00f00000)
+#define M33_CTR_ERG_MSB    _u(23)
+#define M33_CTR_ERG_LSB    _u(20)
+#define M33_CTR_ERG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_DMINLINE
+// Description : Log2 of the number of words in the smallest cache line of all
+//               the data caches and unified caches that are controlled by the
+//               PE
+#define M33_CTR_DMINLINE_RESET  _u(0x0)
+#define M33_CTR_DMINLINE_BITS   _u(0x000f0000)
+#define M33_CTR_DMINLINE_MSB    _u(19)
+#define M33_CTR_DMINLINE_LSB    _u(16)
+#define M33_CTR_DMINLINE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_RES1_1
+// Description : Reserved, RES1
+#define M33_CTR_RES1_1_RESET  _u(0x3)
+#define M33_CTR_RES1_1_BITS   _u(0x0000c000)
+#define M33_CTR_RES1_1_MSB    _u(15)
+#define M33_CTR_RES1_1_LSB    _u(14)
+#define M33_CTR_RES1_1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTR_IMINLINE
+// Description : Log2 of the number of words in the smallest cache line of all
+//               the instruction caches that are controlled by the PE
+#define M33_CTR_IMINLINE_RESET  _u(0x0)
+#define M33_CTR_IMINLINE_BITS   _u(0x0000000f)
+#define M33_CTR_IMINLINE_MSB    _u(3)
+#define M33_CTR_IMINLINE_LSB    _u(0)
+#define M33_CTR_IMINLINE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CPACR
+// Description : Specifies the access privileges for coprocessors and the FP
+//               Extension
+#define M33_CPACR_OFFSET _u(0x0000ed88)
+#define M33_CPACR_BITS   _u(0x00f0ffff)
+#define M33_CPACR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP11
+// Description : The value in this field is ignored. If the implementation does
+//               not include the FP Extension, this field is RAZ/WI. If the
+//               value of this bit is not programmed to the same value as the
+//               CP10 field, then the value is UNKNOWN
+#define M33_CPACR_CP11_RESET  _u(0x0)
+#define M33_CPACR_CP11_BITS   _u(0x00c00000)
+#define M33_CPACR_CP11_MSB    _u(23)
+#define M33_CPACR_CP11_LSB    _u(22)
+#define M33_CPACR_CP11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP10
+// Description : Defines the access rights for the floating-point functionality
+#define M33_CPACR_CP10_RESET  _u(0x0)
+#define M33_CPACR_CP10_BITS   _u(0x00300000)
+#define M33_CPACR_CP10_MSB    _u(21)
+#define M33_CPACR_CP10_LSB    _u(20)
+#define M33_CPACR_CP10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP7
+// Description : Controls access privileges for coprocessor 7
+#define M33_CPACR_CP7_RESET  _u(0x0)
+#define M33_CPACR_CP7_BITS   _u(0x0000c000)
+#define M33_CPACR_CP7_MSB    _u(15)
+#define M33_CPACR_CP7_LSB    _u(14)
+#define M33_CPACR_CP7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP6
+// Description : Controls access privileges for coprocessor 6
+#define M33_CPACR_CP6_RESET  _u(0x0)
+#define M33_CPACR_CP6_BITS   _u(0x00003000)
+#define M33_CPACR_CP6_MSB    _u(13)
+#define M33_CPACR_CP6_LSB    _u(12)
+#define M33_CPACR_CP6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP5
+// Description : Controls access privileges for coprocessor 5
+#define M33_CPACR_CP5_RESET  _u(0x0)
+#define M33_CPACR_CP5_BITS   _u(0x00000c00)
+#define M33_CPACR_CP5_MSB    _u(11)
+#define M33_CPACR_CP5_LSB    _u(10)
+#define M33_CPACR_CP5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP4
+// Description : Controls access privileges for coprocessor 4
+#define M33_CPACR_CP4_RESET  _u(0x0)
+#define M33_CPACR_CP4_BITS   _u(0x00000300)
+#define M33_CPACR_CP4_MSB    _u(9)
+#define M33_CPACR_CP4_LSB    _u(8)
+#define M33_CPACR_CP4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP3
+// Description : Controls access privileges for coprocessor 3
+#define M33_CPACR_CP3_RESET  _u(0x0)
+#define M33_CPACR_CP3_BITS   _u(0x000000c0)
+#define M33_CPACR_CP3_MSB    _u(7)
+#define M33_CPACR_CP3_LSB    _u(6)
+#define M33_CPACR_CP3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP2
+// Description : Controls access privileges for coprocessor 2
+#define M33_CPACR_CP2_RESET  _u(0x0)
+#define M33_CPACR_CP2_BITS   _u(0x00000030)
+#define M33_CPACR_CP2_MSB    _u(5)
+#define M33_CPACR_CP2_LSB    _u(4)
+#define M33_CPACR_CP2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP1
+// Description : Controls access privileges for coprocessor 1
+#define M33_CPACR_CP1_RESET  _u(0x0)
+#define M33_CPACR_CP1_BITS   _u(0x0000000c)
+#define M33_CPACR_CP1_MSB    _u(3)
+#define M33_CPACR_CP1_LSB    _u(2)
+#define M33_CPACR_CP1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CPACR_CP0
+// Description : Controls access privileges for coprocessor 0
+#define M33_CPACR_CP0_RESET  _u(0x0)
+#define M33_CPACR_CP0_BITS   _u(0x00000003)
+#define M33_CPACR_CP0_MSB    _u(1)
+#define M33_CPACR_CP0_LSB    _u(0)
+#define M33_CPACR_CP0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_NSACR
+// Description : Defines the Non-secure access permissions for both the FP
+//               Extension and coprocessors CP0 to CP7
+#define M33_NSACR_OFFSET _u(0x0000ed8c)
+#define M33_NSACR_BITS   _u(0x00000cff)
+#define M33_NSACR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP11
+// Description : Enables Non-secure access to the Floating-point Extension
+#define M33_NSACR_CP11_RESET  _u(0x0)
+#define M33_NSACR_CP11_BITS   _u(0x00000800)
+#define M33_NSACR_CP11_MSB    _u(11)
+#define M33_NSACR_CP11_LSB    _u(11)
+#define M33_NSACR_CP11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP10
+// Description : Enables Non-secure access to the Floating-point Extension
+#define M33_NSACR_CP10_RESET  _u(0x0)
+#define M33_NSACR_CP10_BITS   _u(0x00000400)
+#define M33_NSACR_CP10_MSB    _u(10)
+#define M33_NSACR_CP10_LSB    _u(10)
+#define M33_NSACR_CP10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP7
+// Description : Enables Non-secure access to coprocessor CP7
+#define M33_NSACR_CP7_RESET  _u(0x0)
+#define M33_NSACR_CP7_BITS   _u(0x00000080)
+#define M33_NSACR_CP7_MSB    _u(7)
+#define M33_NSACR_CP7_LSB    _u(7)
+#define M33_NSACR_CP7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP6
+// Description : Enables Non-secure access to coprocessor CP6
+#define M33_NSACR_CP6_RESET  _u(0x0)
+#define M33_NSACR_CP6_BITS   _u(0x00000040)
+#define M33_NSACR_CP6_MSB    _u(6)
+#define M33_NSACR_CP6_LSB    _u(6)
+#define M33_NSACR_CP6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP5
+// Description : Enables Non-secure access to coprocessor CP5
+#define M33_NSACR_CP5_RESET  _u(0x0)
+#define M33_NSACR_CP5_BITS   _u(0x00000020)
+#define M33_NSACR_CP5_MSB    _u(5)
+#define M33_NSACR_CP5_LSB    _u(5)
+#define M33_NSACR_CP5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP4
+// Description : Enables Non-secure access to coprocessor CP4
+#define M33_NSACR_CP4_RESET  _u(0x0)
+#define M33_NSACR_CP4_BITS   _u(0x00000010)
+#define M33_NSACR_CP4_MSB    _u(4)
+#define M33_NSACR_CP4_LSB    _u(4)
+#define M33_NSACR_CP4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP3
+// Description : Enables Non-secure access to coprocessor CP3
+#define M33_NSACR_CP3_RESET  _u(0x0)
+#define M33_NSACR_CP3_BITS   _u(0x00000008)
+#define M33_NSACR_CP3_MSB    _u(3)
+#define M33_NSACR_CP3_LSB    _u(3)
+#define M33_NSACR_CP3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP2
+// Description : Enables Non-secure access to coprocessor CP2
+#define M33_NSACR_CP2_RESET  _u(0x0)
+#define M33_NSACR_CP2_BITS   _u(0x00000004)
+#define M33_NSACR_CP2_MSB    _u(2)
+#define M33_NSACR_CP2_LSB    _u(2)
+#define M33_NSACR_CP2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP1
+// Description : Enables Non-secure access to coprocessor CP1
+#define M33_NSACR_CP1_RESET  _u(0x0)
+#define M33_NSACR_CP1_BITS   _u(0x00000002)
+#define M33_NSACR_CP1_MSB    _u(1)
+#define M33_NSACR_CP1_LSB    _u(1)
+#define M33_NSACR_CP1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_NSACR_CP0
+// Description : Enables Non-secure access to coprocessor CP0
+#define M33_NSACR_CP0_RESET  _u(0x0)
+#define M33_NSACR_CP0_BITS   _u(0x00000001)
+#define M33_NSACR_CP0_MSB    _u(0)
+#define M33_NSACR_CP0_LSB    _u(0)
+#define M33_NSACR_CP0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_TYPE
+// Description : The MPU Type Register indicates how many regions the MPU `FTSSS
+//               supports
+#define M33_MPU_TYPE_OFFSET _u(0x0000ed90)
+#define M33_MPU_TYPE_BITS   _u(0x0000ff01)
+#define M33_MPU_TYPE_RESET  _u(0x00000800)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_TYPE_DREGION
+// Description : Number of regions supported by the MPU
+#define M33_MPU_TYPE_DREGION_RESET  _u(0x08)
+#define M33_MPU_TYPE_DREGION_BITS   _u(0x0000ff00)
+#define M33_MPU_TYPE_DREGION_MSB    _u(15)
+#define M33_MPU_TYPE_DREGION_LSB    _u(8)
+#define M33_MPU_TYPE_DREGION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_TYPE_SEPARATE
+// Description : Indicates support for separate instructions and data address
+//               regions
+#define M33_MPU_TYPE_SEPARATE_RESET  _u(0x0)
+#define M33_MPU_TYPE_SEPARATE_BITS   _u(0x00000001)
+#define M33_MPU_TYPE_SEPARATE_MSB    _u(0)
+#define M33_MPU_TYPE_SEPARATE_LSB    _u(0)
+#define M33_MPU_TYPE_SEPARATE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_MPU_CTRL
+// Description : Enables the MPU and, when the MPU is enabled, controls whether
+//               the default memory map is enabled as a background region for
+//               privileged accesses, and whether the MPU is enabled for
+//               HardFaults, NMIs, and exception handlers when FAULTMASK is set
+//               to 1
+#define M33_MPU_CTRL_OFFSET _u(0x0000ed94)
+#define M33_MPU_CTRL_BITS   _u(0x00000007)
+#define M33_MPU_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_CTRL_PRIVDEFENA
+// Description : Controls whether the default memory map is enabled for
+//               privileged software
+#define M33_MPU_CTRL_PRIVDEFENA_RESET  _u(0x0)
+#define M33_MPU_CTRL_PRIVDEFENA_BITS   _u(0x00000004)
+#define M33_MPU_CTRL_PRIVDEFENA_MSB    _u(2)
+#define M33_MPU_CTRL_PRIVDEFENA_LSB    _u(2)
+#define M33_MPU_CTRL_PRIVDEFENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_CTRL_HFNMIENA
+// Description : Controls whether handlers executing with priority less than 0
+//               access memory with the MPU enabled or disabled. This applies to
+//               HardFaults, NMIs, and exception handlers when FAULTMASK is set
+//               to 1
+#define M33_MPU_CTRL_HFNMIENA_RESET  _u(0x0)
+#define M33_MPU_CTRL_HFNMIENA_BITS   _u(0x00000002)
+#define M33_MPU_CTRL_HFNMIENA_MSB    _u(1)
+#define M33_MPU_CTRL_HFNMIENA_LSB    _u(1)
+#define M33_MPU_CTRL_HFNMIENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_CTRL_ENABLE
+// Description : Enables the MPU
+#define M33_MPU_CTRL_ENABLE_RESET  _u(0x0)
+#define M33_MPU_CTRL_ENABLE_BITS   _u(0x00000001)
+#define M33_MPU_CTRL_ENABLE_MSB    _u(0)
+#define M33_MPU_CTRL_ENABLE_LSB    _u(0)
+#define M33_MPU_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RNR
+// Description : Selects the region currently accessed by MPU_RBAR and MPU_RLAR
+#define M33_MPU_RNR_OFFSET _u(0x0000ed98)
+#define M33_MPU_RNR_BITS   _u(0x00000007)
+#define M33_MPU_RNR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RNR_REGION
+// Description : Indicates the memory region accessed by MPU_RBAR and MPU_RLAR
+#define M33_MPU_RNR_REGION_RESET  _u(0x0)
+#define M33_MPU_RNR_REGION_BITS   _u(0x00000007)
+#define M33_MPU_RNR_REGION_MSB    _u(2)
+#define M33_MPU_RNR_REGION_LSB    _u(0)
+#define M33_MPU_RNR_REGION_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RBAR
+// Description : Provides indirect read and write access to the base address of
+//               the currently selected MPU region `FTSSS
+#define M33_MPU_RBAR_OFFSET _u(0x0000ed9c)
+#define M33_MPU_RBAR_BITS   _u(0xffffffff)
+#define M33_MPU_RBAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_BASE
+// Description : Contains bits [31:5] of the lower inclusive limit of the
+//               selected MPU memory region. This value is zero extended to
+//               provide the base address to be checked against
+#define M33_MPU_RBAR_BASE_RESET  _u(0x0000000)
+#define M33_MPU_RBAR_BASE_BITS   _u(0xffffffe0)
+#define M33_MPU_RBAR_BASE_MSB    _u(31)
+#define M33_MPU_RBAR_BASE_LSB    _u(5)
+#define M33_MPU_RBAR_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_SH
+// Description : Defines the Shareability domain of this region for Normal
+//               memory
+#define M33_MPU_RBAR_SH_RESET  _u(0x0)
+#define M33_MPU_RBAR_SH_BITS   _u(0x00000018)
+#define M33_MPU_RBAR_SH_MSB    _u(4)
+#define M33_MPU_RBAR_SH_LSB    _u(3)
+#define M33_MPU_RBAR_SH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_AP
+// Description : Defines the access permissions for this region
+#define M33_MPU_RBAR_AP_RESET  _u(0x0)
+#define M33_MPU_RBAR_AP_BITS   _u(0x00000006)
+#define M33_MPU_RBAR_AP_MSB    _u(2)
+#define M33_MPU_RBAR_AP_LSB    _u(1)
+#define M33_MPU_RBAR_AP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_XN
+// Description : Defines whether code can be executed from this region
+#define M33_MPU_RBAR_XN_RESET  _u(0x0)
+#define M33_MPU_RBAR_XN_BITS   _u(0x00000001)
+#define M33_MPU_RBAR_XN_MSB    _u(0)
+#define M33_MPU_RBAR_XN_LSB    _u(0)
+#define M33_MPU_RBAR_XN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RLAR
+// Description : Provides indirect read and write access to the limit address of
+//               the currently selected MPU region `FTSSS
+#define M33_MPU_RLAR_OFFSET _u(0x0000eda0)
+#define M33_MPU_RLAR_BITS   _u(0xffffffef)
+#define M33_MPU_RLAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_LIMIT
+// Description : Contains bits [31:5] of the upper inclusive limit of the
+//               selected MPU memory region. This value is postfixed with 0x1F
+//               to provide the limit address to be checked against
+#define M33_MPU_RLAR_LIMIT_RESET  _u(0x0000000)
+#define M33_MPU_RLAR_LIMIT_BITS   _u(0xffffffe0)
+#define M33_MPU_RLAR_LIMIT_MSB    _u(31)
+#define M33_MPU_RLAR_LIMIT_LSB    _u(5)
+#define M33_MPU_RLAR_LIMIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_ATTRINDX
+// Description : Associates a set of attributes in the MPU_MAIR0 and MPU_MAIR1
+//               fields
+#define M33_MPU_RLAR_ATTRINDX_RESET  _u(0x0)
+#define M33_MPU_RLAR_ATTRINDX_BITS   _u(0x0000000e)
+#define M33_MPU_RLAR_ATTRINDX_MSB    _u(3)
+#define M33_MPU_RLAR_ATTRINDX_LSB    _u(1)
+#define M33_MPU_RLAR_ATTRINDX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_EN
+// Description : Region enable
+#define M33_MPU_RLAR_EN_RESET  _u(0x0)
+#define M33_MPU_RLAR_EN_BITS   _u(0x00000001)
+#define M33_MPU_RLAR_EN_MSB    _u(0)
+#define M33_MPU_RLAR_EN_LSB    _u(0)
+#define M33_MPU_RLAR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RBAR_A1
+// Description : Provides indirect read and write access to the base address of
+//               the MPU region selected by MPU_RNR[7:2]:(1[1:0]) `FTSSS
+#define M33_MPU_RBAR_A1_OFFSET _u(0x0000eda4)
+#define M33_MPU_RBAR_A1_BITS   _u(0xffffffff)
+#define M33_MPU_RBAR_A1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A1_BASE
+// Description : Contains bits [31:5] of the lower inclusive limit of the
+//               selected MPU memory region. This value is zero extended to
+//               provide the base address to be checked against
+#define M33_MPU_RBAR_A1_BASE_RESET  _u(0x0000000)
+#define M33_MPU_RBAR_A1_BASE_BITS   _u(0xffffffe0)
+#define M33_MPU_RBAR_A1_BASE_MSB    _u(31)
+#define M33_MPU_RBAR_A1_BASE_LSB    _u(5)
+#define M33_MPU_RBAR_A1_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A1_SH
+// Description : Defines the Shareability domain of this region for Normal
+//               memory
+#define M33_MPU_RBAR_A1_SH_RESET  _u(0x0)
+#define M33_MPU_RBAR_A1_SH_BITS   _u(0x00000018)
+#define M33_MPU_RBAR_A1_SH_MSB    _u(4)
+#define M33_MPU_RBAR_A1_SH_LSB    _u(3)
+#define M33_MPU_RBAR_A1_SH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A1_AP
+// Description : Defines the access permissions for this region
+#define M33_MPU_RBAR_A1_AP_RESET  _u(0x0)
+#define M33_MPU_RBAR_A1_AP_BITS   _u(0x00000006)
+#define M33_MPU_RBAR_A1_AP_MSB    _u(2)
+#define M33_MPU_RBAR_A1_AP_LSB    _u(1)
+#define M33_MPU_RBAR_A1_AP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A1_XN
+// Description : Defines whether code can be executed from this region
+#define M33_MPU_RBAR_A1_XN_RESET  _u(0x0)
+#define M33_MPU_RBAR_A1_XN_BITS   _u(0x00000001)
+#define M33_MPU_RBAR_A1_XN_MSB    _u(0)
+#define M33_MPU_RBAR_A1_XN_LSB    _u(0)
+#define M33_MPU_RBAR_A1_XN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RLAR_A1
+// Description : Provides indirect read and write access to the limit address of
+//               the currently selected MPU region selected by
+//               MPU_RNR[7:2]:(1[1:0]) `FTSSS
+#define M33_MPU_RLAR_A1_OFFSET _u(0x0000eda8)
+#define M33_MPU_RLAR_A1_BITS   _u(0xffffffef)
+#define M33_MPU_RLAR_A1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A1_LIMIT
+// Description : Contains bits [31:5] of the upper inclusive limit of the
+//               selected MPU memory region. This value is postfixed with 0x1F
+//               to provide the limit address to be checked against
+#define M33_MPU_RLAR_A1_LIMIT_RESET  _u(0x0000000)
+#define M33_MPU_RLAR_A1_LIMIT_BITS   _u(0xffffffe0)
+#define M33_MPU_RLAR_A1_LIMIT_MSB    _u(31)
+#define M33_MPU_RLAR_A1_LIMIT_LSB    _u(5)
+#define M33_MPU_RLAR_A1_LIMIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A1_ATTRINDX
+// Description : Associates a set of attributes in the MPU_MAIR0 and MPU_MAIR1
+//               fields
+#define M33_MPU_RLAR_A1_ATTRINDX_RESET  _u(0x0)
+#define M33_MPU_RLAR_A1_ATTRINDX_BITS   _u(0x0000000e)
+#define M33_MPU_RLAR_A1_ATTRINDX_MSB    _u(3)
+#define M33_MPU_RLAR_A1_ATTRINDX_LSB    _u(1)
+#define M33_MPU_RLAR_A1_ATTRINDX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A1_EN
+// Description : Region enable
+#define M33_MPU_RLAR_A1_EN_RESET  _u(0x0)
+#define M33_MPU_RLAR_A1_EN_BITS   _u(0x00000001)
+#define M33_MPU_RLAR_A1_EN_MSB    _u(0)
+#define M33_MPU_RLAR_A1_EN_LSB    _u(0)
+#define M33_MPU_RLAR_A1_EN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RBAR_A2
+// Description : Provides indirect read and write access to the base address of
+//               the MPU region selected by MPU_RNR[7:2]:(2[1:0]) `FTSSS
+#define M33_MPU_RBAR_A2_OFFSET _u(0x0000edac)
+#define M33_MPU_RBAR_A2_BITS   _u(0xffffffff)
+#define M33_MPU_RBAR_A2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A2_BASE
+// Description : Contains bits [31:5] of the lower inclusive limit of the
+//               selected MPU memory region. This value is zero extended to
+//               provide the base address to be checked against
+#define M33_MPU_RBAR_A2_BASE_RESET  _u(0x0000000)
+#define M33_MPU_RBAR_A2_BASE_BITS   _u(0xffffffe0)
+#define M33_MPU_RBAR_A2_BASE_MSB    _u(31)
+#define M33_MPU_RBAR_A2_BASE_LSB    _u(5)
+#define M33_MPU_RBAR_A2_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A2_SH
+// Description : Defines the Shareability domain of this region for Normal
+//               memory
+#define M33_MPU_RBAR_A2_SH_RESET  _u(0x0)
+#define M33_MPU_RBAR_A2_SH_BITS   _u(0x00000018)
+#define M33_MPU_RBAR_A2_SH_MSB    _u(4)
+#define M33_MPU_RBAR_A2_SH_LSB    _u(3)
+#define M33_MPU_RBAR_A2_SH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A2_AP
+// Description : Defines the access permissions for this region
+#define M33_MPU_RBAR_A2_AP_RESET  _u(0x0)
+#define M33_MPU_RBAR_A2_AP_BITS   _u(0x00000006)
+#define M33_MPU_RBAR_A2_AP_MSB    _u(2)
+#define M33_MPU_RBAR_A2_AP_LSB    _u(1)
+#define M33_MPU_RBAR_A2_AP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A2_XN
+// Description : Defines whether code can be executed from this region
+#define M33_MPU_RBAR_A2_XN_RESET  _u(0x0)
+#define M33_MPU_RBAR_A2_XN_BITS   _u(0x00000001)
+#define M33_MPU_RBAR_A2_XN_MSB    _u(0)
+#define M33_MPU_RBAR_A2_XN_LSB    _u(0)
+#define M33_MPU_RBAR_A2_XN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RLAR_A2
+// Description : Provides indirect read and write access to the limit address of
+//               the currently selected MPU region selected by
+//               MPU_RNR[7:2]:(2[1:0]) `FTSSS
+#define M33_MPU_RLAR_A2_OFFSET _u(0x0000edb0)
+#define M33_MPU_RLAR_A2_BITS   _u(0xffffffef)
+#define M33_MPU_RLAR_A2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A2_LIMIT
+// Description : Contains bits [31:5] of the upper inclusive limit of the
+//               selected MPU memory region. This value is postfixed with 0x1F
+//               to provide the limit address to be checked against
+#define M33_MPU_RLAR_A2_LIMIT_RESET  _u(0x0000000)
+#define M33_MPU_RLAR_A2_LIMIT_BITS   _u(0xffffffe0)
+#define M33_MPU_RLAR_A2_LIMIT_MSB    _u(31)
+#define M33_MPU_RLAR_A2_LIMIT_LSB    _u(5)
+#define M33_MPU_RLAR_A2_LIMIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A2_ATTRINDX
+// Description : Associates a set of attributes in the MPU_MAIR0 and MPU_MAIR1
+//               fields
+#define M33_MPU_RLAR_A2_ATTRINDX_RESET  _u(0x0)
+#define M33_MPU_RLAR_A2_ATTRINDX_BITS   _u(0x0000000e)
+#define M33_MPU_RLAR_A2_ATTRINDX_MSB    _u(3)
+#define M33_MPU_RLAR_A2_ATTRINDX_LSB    _u(1)
+#define M33_MPU_RLAR_A2_ATTRINDX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A2_EN
+// Description : Region enable
+#define M33_MPU_RLAR_A2_EN_RESET  _u(0x0)
+#define M33_MPU_RLAR_A2_EN_BITS   _u(0x00000001)
+#define M33_MPU_RLAR_A2_EN_MSB    _u(0)
+#define M33_MPU_RLAR_A2_EN_LSB    _u(0)
+#define M33_MPU_RLAR_A2_EN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RBAR_A3
+// Description : Provides indirect read and write access to the base address of
+//               the MPU region selected by MPU_RNR[7:2]:(3[1:0]) `FTSSS
+#define M33_MPU_RBAR_A3_OFFSET _u(0x0000edb4)
+#define M33_MPU_RBAR_A3_BITS   _u(0xffffffff)
+#define M33_MPU_RBAR_A3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A3_BASE
+// Description : Contains bits [31:5] of the lower inclusive limit of the
+//               selected MPU memory region. This value is zero extended to
+//               provide the base address to be checked against
+#define M33_MPU_RBAR_A3_BASE_RESET  _u(0x0000000)
+#define M33_MPU_RBAR_A3_BASE_BITS   _u(0xffffffe0)
+#define M33_MPU_RBAR_A3_BASE_MSB    _u(31)
+#define M33_MPU_RBAR_A3_BASE_LSB    _u(5)
+#define M33_MPU_RBAR_A3_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A3_SH
+// Description : Defines the Shareability domain of this region for Normal
+//               memory
+#define M33_MPU_RBAR_A3_SH_RESET  _u(0x0)
+#define M33_MPU_RBAR_A3_SH_BITS   _u(0x00000018)
+#define M33_MPU_RBAR_A3_SH_MSB    _u(4)
+#define M33_MPU_RBAR_A3_SH_LSB    _u(3)
+#define M33_MPU_RBAR_A3_SH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A3_AP
+// Description : Defines the access permissions for this region
+#define M33_MPU_RBAR_A3_AP_RESET  _u(0x0)
+#define M33_MPU_RBAR_A3_AP_BITS   _u(0x00000006)
+#define M33_MPU_RBAR_A3_AP_MSB    _u(2)
+#define M33_MPU_RBAR_A3_AP_LSB    _u(1)
+#define M33_MPU_RBAR_A3_AP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RBAR_A3_XN
+// Description : Defines whether code can be executed from this region
+#define M33_MPU_RBAR_A3_XN_RESET  _u(0x0)
+#define M33_MPU_RBAR_A3_XN_BITS   _u(0x00000001)
+#define M33_MPU_RBAR_A3_XN_MSB    _u(0)
+#define M33_MPU_RBAR_A3_XN_LSB    _u(0)
+#define M33_MPU_RBAR_A3_XN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_RLAR_A3
+// Description : Provides indirect read and write access to the limit address of
+//               the currently selected MPU region selected by
+//               MPU_RNR[7:2]:(3[1:0]) `FTSSS
+#define M33_MPU_RLAR_A3_OFFSET _u(0x0000edb8)
+#define M33_MPU_RLAR_A3_BITS   _u(0xffffffef)
+#define M33_MPU_RLAR_A3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A3_LIMIT
+// Description : Contains bits [31:5] of the upper inclusive limit of the
+//               selected MPU memory region. This value is postfixed with 0x1F
+//               to provide the limit address to be checked against
+#define M33_MPU_RLAR_A3_LIMIT_RESET  _u(0x0000000)
+#define M33_MPU_RLAR_A3_LIMIT_BITS   _u(0xffffffe0)
+#define M33_MPU_RLAR_A3_LIMIT_MSB    _u(31)
+#define M33_MPU_RLAR_A3_LIMIT_LSB    _u(5)
+#define M33_MPU_RLAR_A3_LIMIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A3_ATTRINDX
+// Description : Associates a set of attributes in the MPU_MAIR0 and MPU_MAIR1
+//               fields
+#define M33_MPU_RLAR_A3_ATTRINDX_RESET  _u(0x0)
+#define M33_MPU_RLAR_A3_ATTRINDX_BITS   _u(0x0000000e)
+#define M33_MPU_RLAR_A3_ATTRINDX_MSB    _u(3)
+#define M33_MPU_RLAR_A3_ATTRINDX_LSB    _u(1)
+#define M33_MPU_RLAR_A3_ATTRINDX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_RLAR_A3_EN
+// Description : Region enable
+#define M33_MPU_RLAR_A3_EN_RESET  _u(0x0)
+#define M33_MPU_RLAR_A3_EN_BITS   _u(0x00000001)
+#define M33_MPU_RLAR_A3_EN_MSB    _u(0)
+#define M33_MPU_RLAR_A3_EN_LSB    _u(0)
+#define M33_MPU_RLAR_A3_EN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_MAIR0
+// Description : Along with MPU_MAIR1, provides the memory attribute encodings
+//               corresponding to the AttrIndex values
+#define M33_MPU_MAIR0_OFFSET _u(0x0000edc0)
+#define M33_MPU_MAIR0_BITS   _u(0xffffffff)
+#define M33_MPU_MAIR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR0_ATTR3
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               3
+#define M33_MPU_MAIR0_ATTR3_RESET  _u(0x00)
+#define M33_MPU_MAIR0_ATTR3_BITS   _u(0xff000000)
+#define M33_MPU_MAIR0_ATTR3_MSB    _u(31)
+#define M33_MPU_MAIR0_ATTR3_LSB    _u(24)
+#define M33_MPU_MAIR0_ATTR3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR0_ATTR2
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               2
+#define M33_MPU_MAIR0_ATTR2_RESET  _u(0x00)
+#define M33_MPU_MAIR0_ATTR2_BITS   _u(0x00ff0000)
+#define M33_MPU_MAIR0_ATTR2_MSB    _u(23)
+#define M33_MPU_MAIR0_ATTR2_LSB    _u(16)
+#define M33_MPU_MAIR0_ATTR2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR0_ATTR1
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               1
+#define M33_MPU_MAIR0_ATTR1_RESET  _u(0x00)
+#define M33_MPU_MAIR0_ATTR1_BITS   _u(0x0000ff00)
+#define M33_MPU_MAIR0_ATTR1_MSB    _u(15)
+#define M33_MPU_MAIR0_ATTR1_LSB    _u(8)
+#define M33_MPU_MAIR0_ATTR1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR0_ATTR0
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               0
+#define M33_MPU_MAIR0_ATTR0_RESET  _u(0x00)
+#define M33_MPU_MAIR0_ATTR0_BITS   _u(0x000000ff)
+#define M33_MPU_MAIR0_ATTR0_MSB    _u(7)
+#define M33_MPU_MAIR0_ATTR0_LSB    _u(0)
+#define M33_MPU_MAIR0_ATTR0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MPU_MAIR1
+// Description : Along with MPU_MAIR0, provides the memory attribute encodings
+//               corresponding to the AttrIndex values
+#define M33_MPU_MAIR1_OFFSET _u(0x0000edc4)
+#define M33_MPU_MAIR1_BITS   _u(0xffffffff)
+#define M33_MPU_MAIR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR1_ATTR7
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               7
+#define M33_MPU_MAIR1_ATTR7_RESET  _u(0x00)
+#define M33_MPU_MAIR1_ATTR7_BITS   _u(0xff000000)
+#define M33_MPU_MAIR1_ATTR7_MSB    _u(31)
+#define M33_MPU_MAIR1_ATTR7_LSB    _u(24)
+#define M33_MPU_MAIR1_ATTR7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR1_ATTR6
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               6
+#define M33_MPU_MAIR1_ATTR6_RESET  _u(0x00)
+#define M33_MPU_MAIR1_ATTR6_BITS   _u(0x00ff0000)
+#define M33_MPU_MAIR1_ATTR6_MSB    _u(23)
+#define M33_MPU_MAIR1_ATTR6_LSB    _u(16)
+#define M33_MPU_MAIR1_ATTR6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR1_ATTR5
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               5
+#define M33_MPU_MAIR1_ATTR5_RESET  _u(0x00)
+#define M33_MPU_MAIR1_ATTR5_BITS   _u(0x0000ff00)
+#define M33_MPU_MAIR1_ATTR5_MSB    _u(15)
+#define M33_MPU_MAIR1_ATTR5_LSB    _u(8)
+#define M33_MPU_MAIR1_ATTR5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_MPU_MAIR1_ATTR4
+// Description : Memory attribute encoding for MPU regions with an AttrIndex of
+//               4
+#define M33_MPU_MAIR1_ATTR4_RESET  _u(0x00)
+#define M33_MPU_MAIR1_ATTR4_BITS   _u(0x000000ff)
+#define M33_MPU_MAIR1_ATTR4_MSB    _u(7)
+#define M33_MPU_MAIR1_ATTR4_LSB    _u(0)
+#define M33_MPU_MAIR1_ATTR4_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SAU_CTRL
+// Description : Allows enabling of the Security Attribution Unit
+#define M33_SAU_CTRL_OFFSET _u(0x0000edd0)
+#define M33_SAU_CTRL_BITS   _u(0x00000003)
+#define M33_SAU_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_CTRL_ALLNS
+// Description : When SAU_CTRL.ENABLE is 0 this bit controls if the memory is
+//               marked as Non-secure or Secure
+#define M33_SAU_CTRL_ALLNS_RESET  _u(0x0)
+#define M33_SAU_CTRL_ALLNS_BITS   _u(0x00000002)
+#define M33_SAU_CTRL_ALLNS_MSB    _u(1)
+#define M33_SAU_CTRL_ALLNS_LSB    _u(1)
+#define M33_SAU_CTRL_ALLNS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_CTRL_ENABLE
+// Description : Enables the SAU
+#define M33_SAU_CTRL_ENABLE_RESET  _u(0x0)
+#define M33_SAU_CTRL_ENABLE_BITS   _u(0x00000001)
+#define M33_SAU_CTRL_ENABLE_MSB    _u(0)
+#define M33_SAU_CTRL_ENABLE_LSB    _u(0)
+#define M33_SAU_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SAU_TYPE
+// Description : Indicates the number of regions implemented by the Security
+//               Attribution Unit
+#define M33_SAU_TYPE_OFFSET _u(0x0000edd4)
+#define M33_SAU_TYPE_BITS   _u(0x000000ff)
+#define M33_SAU_TYPE_RESET  _u(0x00000008)
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_TYPE_SREGION
+// Description : The number of implemented SAU regions
+#define M33_SAU_TYPE_SREGION_RESET  _u(0x08)
+#define M33_SAU_TYPE_SREGION_BITS   _u(0x000000ff)
+#define M33_SAU_TYPE_SREGION_MSB    _u(7)
+#define M33_SAU_TYPE_SREGION_LSB    _u(0)
+#define M33_SAU_TYPE_SREGION_ACCESS "RO"
+// =============================================================================
+// Register    : M33_SAU_RNR
+// Description : Selects the region currently accessed by SAU_RBAR and SAU_RLAR
+#define M33_SAU_RNR_OFFSET _u(0x0000edd8)
+#define M33_SAU_RNR_BITS   _u(0x000000ff)
+#define M33_SAU_RNR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_RNR_REGION
+// Description : Indicates the SAU region accessed by SAU_RBAR and SAU_RLAR
+#define M33_SAU_RNR_REGION_RESET  _u(0x00)
+#define M33_SAU_RNR_REGION_BITS   _u(0x000000ff)
+#define M33_SAU_RNR_REGION_MSB    _u(7)
+#define M33_SAU_RNR_REGION_LSB    _u(0)
+#define M33_SAU_RNR_REGION_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SAU_RBAR
+// Description : Provides indirect read and write access to the base address of
+//               the currently selected SAU region
+#define M33_SAU_RBAR_OFFSET _u(0x0000eddc)
+#define M33_SAU_RBAR_BITS   _u(0xffffffe0)
+#define M33_SAU_RBAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_RBAR_BADDR
+// Description : Holds bits [31:5] of the base address for the selected SAU
+//               region
+#define M33_SAU_RBAR_BADDR_RESET  _u(0x0000000)
+#define M33_SAU_RBAR_BADDR_BITS   _u(0xffffffe0)
+#define M33_SAU_RBAR_BADDR_MSB    _u(31)
+#define M33_SAU_RBAR_BADDR_LSB    _u(5)
+#define M33_SAU_RBAR_BADDR_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SAU_RLAR
+// Description : Provides indirect read and write access to the limit address of
+//               the currently selected SAU region
+#define M33_SAU_RLAR_OFFSET _u(0x0000ede0)
+#define M33_SAU_RLAR_BITS   _u(0xffffffe3)
+#define M33_SAU_RLAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_RLAR_LADDR
+// Description : Holds bits [31:5] of the limit address for the selected SAU
+//               region
+#define M33_SAU_RLAR_LADDR_RESET  _u(0x0000000)
+#define M33_SAU_RLAR_LADDR_BITS   _u(0xffffffe0)
+#define M33_SAU_RLAR_LADDR_MSB    _u(31)
+#define M33_SAU_RLAR_LADDR_LSB    _u(5)
+#define M33_SAU_RLAR_LADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_RLAR_NSC
+// Description : Controls whether Non-secure state is permitted to execute an SG
+//               instruction from this region
+#define M33_SAU_RLAR_NSC_RESET  _u(0x0)
+#define M33_SAU_RLAR_NSC_BITS   _u(0x00000002)
+#define M33_SAU_RLAR_NSC_MSB    _u(1)
+#define M33_SAU_RLAR_NSC_LSB    _u(1)
+#define M33_SAU_RLAR_NSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SAU_RLAR_ENABLE
+// Description : SAU region enable
+#define M33_SAU_RLAR_ENABLE_RESET  _u(0x0)
+#define M33_SAU_RLAR_ENABLE_BITS   _u(0x00000001)
+#define M33_SAU_RLAR_ENABLE_MSB    _u(0)
+#define M33_SAU_RLAR_ENABLE_LSB    _u(0)
+#define M33_SAU_RLAR_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SFSR
+// Description : Provides information about any security related faults
+#define M33_SFSR_OFFSET _u(0x0000ede4)
+#define M33_SFSR_BITS   _u(0x000000ff)
+#define M33_SFSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_LSERR
+// Description : Sticky flag indicating that an error occurred during lazy state
+//               activation or deactivation
+#define M33_SFSR_LSERR_RESET  _u(0x0)
+#define M33_SFSR_LSERR_BITS   _u(0x00000080)
+#define M33_SFSR_LSERR_MSB    _u(7)
+#define M33_SFSR_LSERR_LSB    _u(7)
+#define M33_SFSR_LSERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_SFARVALID
+// Description : This bit is set when the SFAR register contains a valid value.
+//               As with similar fields, such as BFSR.BFARVALID and
+//               MMFSR.MMARVALID, this bit can be cleared by other exceptions,
+//               such as BusFault
+#define M33_SFSR_SFARVALID_RESET  _u(0x0)
+#define M33_SFSR_SFARVALID_BITS   _u(0x00000040)
+#define M33_SFSR_SFARVALID_MSB    _u(6)
+#define M33_SFSR_SFARVALID_LSB    _u(6)
+#define M33_SFSR_SFARVALID_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_LSPERR
+// Description : Stick flag indicating that an SAU or IDAU violation occurred
+//               during the lazy preservation of floating-point state
+#define M33_SFSR_LSPERR_RESET  _u(0x0)
+#define M33_SFSR_LSPERR_BITS   _u(0x00000020)
+#define M33_SFSR_LSPERR_MSB    _u(5)
+#define M33_SFSR_LSPERR_LSB    _u(5)
+#define M33_SFSR_LSPERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_INVTRAN
+// Description : Sticky flag indicating that an exception was raised due to a
+//               branch that was not flagged as being domain crossing causing a
+//               transition from Secure to Non-secure memory
+#define M33_SFSR_INVTRAN_RESET  _u(0x0)
+#define M33_SFSR_INVTRAN_BITS   _u(0x00000010)
+#define M33_SFSR_INVTRAN_MSB    _u(4)
+#define M33_SFSR_INVTRAN_LSB    _u(4)
+#define M33_SFSR_INVTRAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_AUVIOL
+// Description : Sticky flag indicating that an attempt was made to access parts
+//               of the address space that are marked as Secure with NS-Req for
+//               the transaction set to Non-secure. This bit is not set if the
+//               violation occurred during lazy state preservation. See LSPERR
+#define M33_SFSR_AUVIOL_RESET  _u(0x0)
+#define M33_SFSR_AUVIOL_BITS   _u(0x00000008)
+#define M33_SFSR_AUVIOL_MSB    _u(3)
+#define M33_SFSR_AUVIOL_LSB    _u(3)
+#define M33_SFSR_AUVIOL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_INVER
+// Description : This can be caused by EXC_RETURN.DCRS being set to 0 when
+//               returning from an exception in the Non-secure state, or by
+//               EXC_RETURN.ES being set to 1 when returning from an exception
+//               in the Non-secure state
+#define M33_SFSR_INVER_RESET  _u(0x0)
+#define M33_SFSR_INVER_BITS   _u(0x00000004)
+#define M33_SFSR_INVER_MSB    _u(2)
+#define M33_SFSR_INVER_LSB    _u(2)
+#define M33_SFSR_INVER_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_INVIS
+// Description : This bit is set if the integrity signature in an exception
+//               stack frame is found to be invalid during the unstacking
+//               operation
+#define M33_SFSR_INVIS_RESET  _u(0x0)
+#define M33_SFSR_INVIS_BITS   _u(0x00000002)
+#define M33_SFSR_INVIS_MSB    _u(1)
+#define M33_SFSR_INVIS_LSB    _u(1)
+#define M33_SFSR_INVIS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_SFSR_INVEP
+// Description : This bit is set if a function call from the Non-secure state or
+//               exception targets a non-SG instruction in the Secure state.
+//               This bit is also set if the target address is a SG instruction,
+//               but there is no matching SAU/IDAU region with the NSC flag set
+#define M33_SFSR_INVEP_RESET  _u(0x0)
+#define M33_SFSR_INVEP_BITS   _u(0x00000001)
+#define M33_SFSR_INVEP_MSB    _u(0)
+#define M33_SFSR_INVEP_LSB    _u(0)
+#define M33_SFSR_INVEP_ACCESS "RW"
+// =============================================================================
+// Register    : M33_SFAR
+// Description : Shows the address of the memory location that caused a Security
+//               violation
+#define M33_SFAR_OFFSET _u(0x0000ede8)
+#define M33_SFAR_BITS   _u(0xffffffff)
+#define M33_SFAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_SFAR_ADDRESS
+// Description : The address of an access that caused a attribution unit
+//               violation. This field is only valid when SFSR.SFARVALID is set.
+//               This allows the actual flip flops associated with this register
+//               to be shared with other fault address registers. If an
+//               implementation chooses to share the storage in this way, care
+//               must be taken to not leak Secure address information to the
+//               Non-secure state. One way of achieving this is to share the
+//               SFAR register with the MMFAR_S register, which is not
+//               accessible to the Non-secure state
+#define M33_SFAR_ADDRESS_RESET  _u(0x00000000)
+#define M33_SFAR_ADDRESS_BITS   _u(0xffffffff)
+#define M33_SFAR_ADDRESS_MSB    _u(31)
+#define M33_SFAR_ADDRESS_LSB    _u(0)
+#define M33_SFAR_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DHCSR
+// Description : Controls halting debug
+#define M33_DHCSR_OFFSET _u(0x0000edf0)
+#define M33_DHCSR_BITS   _u(0x071f002f)
+#define M33_DHCSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_RESTART_ST
+// Description : Indicates the PE has processed a request to clear DHCSR.C_HALT
+//               to 0. That is, either a write to DHCSR that clears DHCSR.C_HALT
+//               from 1 to 0, or an External Restart Request
+#define M33_DHCSR_S_RESTART_ST_RESET  _u(0x0)
+#define M33_DHCSR_S_RESTART_ST_BITS   _u(0x04000000)
+#define M33_DHCSR_S_RESTART_ST_MSB    _u(26)
+#define M33_DHCSR_S_RESTART_ST_LSB    _u(26)
+#define M33_DHCSR_S_RESTART_ST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_RESET_ST
+// Description : Indicates whether the PE has been reset since the last read of
+//               the DHCSR
+#define M33_DHCSR_S_RESET_ST_RESET  _u(0x0)
+#define M33_DHCSR_S_RESET_ST_BITS   _u(0x02000000)
+#define M33_DHCSR_S_RESET_ST_MSB    _u(25)
+#define M33_DHCSR_S_RESET_ST_LSB    _u(25)
+#define M33_DHCSR_S_RESET_ST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_RETIRE_ST
+// Description : Set to 1 every time the PE retires one of more instructions
+#define M33_DHCSR_S_RETIRE_ST_RESET  _u(0x0)
+#define M33_DHCSR_S_RETIRE_ST_BITS   _u(0x01000000)
+#define M33_DHCSR_S_RETIRE_ST_MSB    _u(24)
+#define M33_DHCSR_S_RETIRE_ST_LSB    _u(24)
+#define M33_DHCSR_S_RETIRE_ST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_SDE
+// Description : Indicates whether Secure invasive debug is allowed
+#define M33_DHCSR_S_SDE_RESET  _u(0x0)
+#define M33_DHCSR_S_SDE_BITS   _u(0x00100000)
+#define M33_DHCSR_S_SDE_MSB    _u(20)
+#define M33_DHCSR_S_SDE_LSB    _u(20)
+#define M33_DHCSR_S_SDE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_LOCKUP
+// Description : Indicates whether the PE is in Lockup state
+#define M33_DHCSR_S_LOCKUP_RESET  _u(0x0)
+#define M33_DHCSR_S_LOCKUP_BITS   _u(0x00080000)
+#define M33_DHCSR_S_LOCKUP_MSB    _u(19)
+#define M33_DHCSR_S_LOCKUP_LSB    _u(19)
+#define M33_DHCSR_S_LOCKUP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_SLEEP
+// Description : Indicates whether the PE is sleeping
+#define M33_DHCSR_S_SLEEP_RESET  _u(0x0)
+#define M33_DHCSR_S_SLEEP_BITS   _u(0x00040000)
+#define M33_DHCSR_S_SLEEP_MSB    _u(18)
+#define M33_DHCSR_S_SLEEP_LSB    _u(18)
+#define M33_DHCSR_S_SLEEP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_HALT
+// Description : Indicates whether the PE is in Debug state
+#define M33_DHCSR_S_HALT_RESET  _u(0x0)
+#define M33_DHCSR_S_HALT_BITS   _u(0x00020000)
+#define M33_DHCSR_S_HALT_MSB    _u(17)
+#define M33_DHCSR_S_HALT_LSB    _u(17)
+#define M33_DHCSR_S_HALT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_S_REGRDY
+// Description : Handshake flag to transfers through the DCRDR
+#define M33_DHCSR_S_REGRDY_RESET  _u(0x0)
+#define M33_DHCSR_S_REGRDY_BITS   _u(0x00010000)
+#define M33_DHCSR_S_REGRDY_MSB    _u(16)
+#define M33_DHCSR_S_REGRDY_LSB    _u(16)
+#define M33_DHCSR_S_REGRDY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_C_SNAPSTALL
+// Description : Allow imprecise entry to Debug state
+#define M33_DHCSR_C_SNAPSTALL_RESET  _u(0x0)
+#define M33_DHCSR_C_SNAPSTALL_BITS   _u(0x00000020)
+#define M33_DHCSR_C_SNAPSTALL_MSB    _u(5)
+#define M33_DHCSR_C_SNAPSTALL_LSB    _u(5)
+#define M33_DHCSR_C_SNAPSTALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_C_MASKINTS
+// Description : When debug is enabled, the debugger can write to this bit to
+//               mask PendSV, SysTick and external configurable interrupts
+#define M33_DHCSR_C_MASKINTS_RESET  _u(0x0)
+#define M33_DHCSR_C_MASKINTS_BITS   _u(0x00000008)
+#define M33_DHCSR_C_MASKINTS_MSB    _u(3)
+#define M33_DHCSR_C_MASKINTS_LSB    _u(3)
+#define M33_DHCSR_C_MASKINTS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_C_STEP
+// Description : Enable single instruction step
+#define M33_DHCSR_C_STEP_RESET  _u(0x0)
+#define M33_DHCSR_C_STEP_BITS   _u(0x00000004)
+#define M33_DHCSR_C_STEP_MSB    _u(2)
+#define M33_DHCSR_C_STEP_LSB    _u(2)
+#define M33_DHCSR_C_STEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_C_HALT
+// Description : PE enter Debug state halt request
+#define M33_DHCSR_C_HALT_RESET  _u(0x0)
+#define M33_DHCSR_C_HALT_BITS   _u(0x00000002)
+#define M33_DHCSR_C_HALT_MSB    _u(1)
+#define M33_DHCSR_C_HALT_LSB    _u(1)
+#define M33_DHCSR_C_HALT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DHCSR_C_DEBUGEN
+// Description : Enable Halting debug
+#define M33_DHCSR_C_DEBUGEN_RESET  _u(0x0)
+#define M33_DHCSR_C_DEBUGEN_BITS   _u(0x00000001)
+#define M33_DHCSR_C_DEBUGEN_MSB    _u(0)
+#define M33_DHCSR_C_DEBUGEN_LSB    _u(0)
+#define M33_DHCSR_C_DEBUGEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DCRSR
+// Description : With the DCRDR, provides debug access to the general-purpose
+//               registers, special-purpose registers, and the FP extension
+//               registers. A write to the DCRSR specifies the register to
+//               transfer, whether the transfer is a read or write, and starts
+//               the transfer
+#define M33_DCRSR_OFFSET _u(0x0000edf4)
+#define M33_DCRSR_BITS   _u(0x0001007f)
+#define M33_DCRSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCRSR_REGWNR
+// Description : Specifies the access type for the transfer
+#define M33_DCRSR_REGWNR_RESET  _u(0x0)
+#define M33_DCRSR_REGWNR_BITS   _u(0x00010000)
+#define M33_DCRSR_REGWNR_MSB    _u(16)
+#define M33_DCRSR_REGWNR_LSB    _u(16)
+#define M33_DCRSR_REGWNR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DCRSR_REGSEL
+// Description : Specifies the general-purpose register, special-purpose
+//               register, or FP register to transfer
+#define M33_DCRSR_REGSEL_RESET  _u(0x00)
+#define M33_DCRSR_REGSEL_BITS   _u(0x0000007f)
+#define M33_DCRSR_REGSEL_MSB    _u(6)
+#define M33_DCRSR_REGSEL_LSB    _u(0)
+#define M33_DCRSR_REGSEL_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DCRDR
+// Description : With the DCRSR, provides debug access to the general-purpose
+//               registers, special-purpose registers, and the FP Extension
+//               registers. If the Main Extension is implemented, it can also be
+//               used for message passing between an external debugger and a
+//               debug agent running on the PE
+#define M33_DCRDR_OFFSET _u(0x0000edf8)
+#define M33_DCRDR_BITS   _u(0xffffffff)
+#define M33_DCRDR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCRDR_DBGTMP
+// Description : Provides debug access for reading and writing the general-
+//               purpose registers, special-purpose registers, and Floating-
+//               point Extension registers
+#define M33_DCRDR_DBGTMP_RESET  _u(0x00000000)
+#define M33_DCRDR_DBGTMP_BITS   _u(0xffffffff)
+#define M33_DCRDR_DBGTMP_MSB    _u(31)
+#define M33_DCRDR_DBGTMP_LSB    _u(0)
+#define M33_DCRDR_DBGTMP_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DEMCR
+// Description : Manages vector catch behavior and DebugMonitor handling when
+//               debugging
+#define M33_DEMCR_OFFSET _u(0x0000edfc)
+#define M33_DEMCR_BITS   _u(0x011f0ff1)
+#define M33_DEMCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_TRCENA
+// Description : Global enable for all DWT and ITM features
+#define M33_DEMCR_TRCENA_RESET  _u(0x0)
+#define M33_DEMCR_TRCENA_BITS   _u(0x01000000)
+#define M33_DEMCR_TRCENA_MSB    _u(24)
+#define M33_DEMCR_TRCENA_LSB    _u(24)
+#define M33_DEMCR_TRCENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_SDME
+// Description : Indicates whether the DebugMonitor targets the Secure or the
+//               Non-secure state and whether debug events are allowed in Secure
+//               state
+#define M33_DEMCR_SDME_RESET  _u(0x0)
+#define M33_DEMCR_SDME_BITS   _u(0x00100000)
+#define M33_DEMCR_SDME_MSB    _u(20)
+#define M33_DEMCR_SDME_LSB    _u(20)
+#define M33_DEMCR_SDME_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_MON_REQ
+// Description : DebugMonitor semaphore bit
+#define M33_DEMCR_MON_REQ_RESET  _u(0x0)
+#define M33_DEMCR_MON_REQ_BITS   _u(0x00080000)
+#define M33_DEMCR_MON_REQ_MSB    _u(19)
+#define M33_DEMCR_MON_REQ_LSB    _u(19)
+#define M33_DEMCR_MON_REQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_MON_STEP
+// Description : Enable DebugMonitor stepping
+#define M33_DEMCR_MON_STEP_RESET  _u(0x0)
+#define M33_DEMCR_MON_STEP_BITS   _u(0x00040000)
+#define M33_DEMCR_MON_STEP_MSB    _u(18)
+#define M33_DEMCR_MON_STEP_LSB    _u(18)
+#define M33_DEMCR_MON_STEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_MON_PEND
+// Description : Sets or clears the pending state of the DebugMonitor exception
+#define M33_DEMCR_MON_PEND_RESET  _u(0x0)
+#define M33_DEMCR_MON_PEND_BITS   _u(0x00020000)
+#define M33_DEMCR_MON_PEND_MSB    _u(17)
+#define M33_DEMCR_MON_PEND_LSB    _u(17)
+#define M33_DEMCR_MON_PEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_MON_EN
+// Description : Enable the DebugMonitor exception
+#define M33_DEMCR_MON_EN_RESET  _u(0x0)
+#define M33_DEMCR_MON_EN_BITS   _u(0x00010000)
+#define M33_DEMCR_MON_EN_MSB    _u(16)
+#define M33_DEMCR_MON_EN_LSB    _u(16)
+#define M33_DEMCR_MON_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_SFERR
+// Description : SecureFault exception halting debug vector catch enable
+#define M33_DEMCR_VC_SFERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_SFERR_BITS   _u(0x00000800)
+#define M33_DEMCR_VC_SFERR_MSB    _u(11)
+#define M33_DEMCR_VC_SFERR_LSB    _u(11)
+#define M33_DEMCR_VC_SFERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_HARDERR
+// Description : HardFault exception halting debug vector catch enable
+#define M33_DEMCR_VC_HARDERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_HARDERR_BITS   _u(0x00000400)
+#define M33_DEMCR_VC_HARDERR_MSB    _u(10)
+#define M33_DEMCR_VC_HARDERR_LSB    _u(10)
+#define M33_DEMCR_VC_HARDERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_INTERR
+// Description : Enable halting debug vector catch for faults during exception
+//               entry and return
+#define M33_DEMCR_VC_INTERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_INTERR_BITS   _u(0x00000200)
+#define M33_DEMCR_VC_INTERR_MSB    _u(9)
+#define M33_DEMCR_VC_INTERR_LSB    _u(9)
+#define M33_DEMCR_VC_INTERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_BUSERR
+// Description : BusFault exception halting debug vector catch enable
+#define M33_DEMCR_VC_BUSERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_BUSERR_BITS   _u(0x00000100)
+#define M33_DEMCR_VC_BUSERR_MSB    _u(8)
+#define M33_DEMCR_VC_BUSERR_LSB    _u(8)
+#define M33_DEMCR_VC_BUSERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_STATERR
+// Description : Enable halting debug trap on a UsageFault exception caused by a
+//               state information error, for example an Undefined Instruction
+//               exception
+#define M33_DEMCR_VC_STATERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_STATERR_BITS   _u(0x00000080)
+#define M33_DEMCR_VC_STATERR_MSB    _u(7)
+#define M33_DEMCR_VC_STATERR_LSB    _u(7)
+#define M33_DEMCR_VC_STATERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_CHKERR
+// Description : Enable halting debug trap on a UsageFault exception caused by a
+//               checking error, for example an alignment check error
+#define M33_DEMCR_VC_CHKERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_CHKERR_BITS   _u(0x00000040)
+#define M33_DEMCR_VC_CHKERR_MSB    _u(6)
+#define M33_DEMCR_VC_CHKERR_LSB    _u(6)
+#define M33_DEMCR_VC_CHKERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_NOCPERR
+// Description : Enable halting debug trap on a UsageFault caused by an access
+//               to a coprocessor
+#define M33_DEMCR_VC_NOCPERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_NOCPERR_BITS   _u(0x00000020)
+#define M33_DEMCR_VC_NOCPERR_MSB    _u(5)
+#define M33_DEMCR_VC_NOCPERR_LSB    _u(5)
+#define M33_DEMCR_VC_NOCPERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_MMERR
+// Description : Enable halting debug trap on a MemManage exception
+#define M33_DEMCR_VC_MMERR_RESET  _u(0x0)
+#define M33_DEMCR_VC_MMERR_BITS   _u(0x00000010)
+#define M33_DEMCR_VC_MMERR_MSB    _u(4)
+#define M33_DEMCR_VC_MMERR_LSB    _u(4)
+#define M33_DEMCR_VC_MMERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEMCR_VC_CORERESET
+// Description : Enable Reset Vector Catch. This causes a warm reset to halt a
+//               running system
+#define M33_DEMCR_VC_CORERESET_RESET  _u(0x0)
+#define M33_DEMCR_VC_CORERESET_BITS   _u(0x00000001)
+#define M33_DEMCR_VC_CORERESET_MSB    _u(0)
+#define M33_DEMCR_VC_CORERESET_LSB    _u(0)
+#define M33_DEMCR_VC_CORERESET_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DSCSR
+// Description : Provides control and status information for Secure debug
+#define M33_DSCSR_OFFSET _u(0x0000ee08)
+#define M33_DSCSR_BITS   _u(0x00030003)
+#define M33_DSCSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DSCSR_CDSKEY
+// Description : Writes to the CDS bit are ignored unless CDSKEY is concurrently
+//               written to zero
+#define M33_DSCSR_CDSKEY_RESET  _u(0x0)
+#define M33_DSCSR_CDSKEY_BITS   _u(0x00020000)
+#define M33_DSCSR_CDSKEY_MSB    _u(17)
+#define M33_DSCSR_CDSKEY_LSB    _u(17)
+#define M33_DSCSR_CDSKEY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DSCSR_CDS
+// Description : This field indicates the current Security state of the
+//               processor
+#define M33_DSCSR_CDS_RESET  _u(0x0)
+#define M33_DSCSR_CDS_BITS   _u(0x00010000)
+#define M33_DSCSR_CDS_MSB    _u(16)
+#define M33_DSCSR_CDS_LSB    _u(16)
+#define M33_DSCSR_CDS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DSCSR_SBRSEL
+// Description : If SBRSELEN is 1 this bit selects whether the Non-secure or the
+//               Secure version of the memory-mapped Banked registers are
+//               accessible to the debugger
+#define M33_DSCSR_SBRSEL_RESET  _u(0x0)
+#define M33_DSCSR_SBRSEL_BITS   _u(0x00000002)
+#define M33_DSCSR_SBRSEL_MSB    _u(1)
+#define M33_DSCSR_SBRSEL_LSB    _u(1)
+#define M33_DSCSR_SBRSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_DSCSR_SBRSELEN
+// Description : Controls whether the SBRSEL field or the current Security state
+//               of the processor selects which version of the memory-mapped
+//               Banked registers are accessed to the debugger
+#define M33_DSCSR_SBRSELEN_RESET  _u(0x0)
+#define M33_DSCSR_SBRSELEN_BITS   _u(0x00000001)
+#define M33_DSCSR_SBRSELEN_MSB    _u(0)
+#define M33_DSCSR_SBRSELEN_LSB    _u(0)
+#define M33_DSCSR_SBRSELEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_STIR
+// Description : Provides a mechanism for software to generate an interrupt
+#define M33_STIR_OFFSET _u(0x0000ef00)
+#define M33_STIR_BITS   _u(0x000001ff)
+#define M33_STIR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_STIR_INTID
+// Description : Indicates the interrupt to be pended. The value written is
+//               (ExceptionNumber - 16)
+#define M33_STIR_INTID_RESET  _u(0x000)
+#define M33_STIR_INTID_BITS   _u(0x000001ff)
+#define M33_STIR_INTID_MSB    _u(8)
+#define M33_STIR_INTID_LSB    _u(0)
+#define M33_STIR_INTID_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FPCCR
+// Description : Holds control data for the Floating-point extension
+#define M33_FPCCR_OFFSET _u(0x0000ef34)
+#define M33_FPCCR_BITS   _u(0xfc0007ff)
+#define M33_FPCCR_RESET  _u(0x20000472)
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_ASPEN
+// Description : When this bit is set to 1, execution of a floating-point
+//               instruction sets the CONTROL.FPCA bit to 1
+#define M33_FPCCR_ASPEN_RESET  _u(0x0)
+#define M33_FPCCR_ASPEN_BITS   _u(0x80000000)
+#define M33_FPCCR_ASPEN_MSB    _u(31)
+#define M33_FPCCR_ASPEN_LSB    _u(31)
+#define M33_FPCCR_ASPEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_LSPEN
+// Description : Enables lazy context save of floating-point state
+#define M33_FPCCR_LSPEN_RESET  _u(0x0)
+#define M33_FPCCR_LSPEN_BITS   _u(0x40000000)
+#define M33_FPCCR_LSPEN_MSB    _u(30)
+#define M33_FPCCR_LSPEN_LSB    _u(30)
+#define M33_FPCCR_LSPEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_LSPENS
+// Description : This bit controls whether the LSPEN bit is writeable from the
+//               Non-secure state
+#define M33_FPCCR_LSPENS_RESET  _u(0x1)
+#define M33_FPCCR_LSPENS_BITS   _u(0x20000000)
+#define M33_FPCCR_LSPENS_MSB    _u(29)
+#define M33_FPCCR_LSPENS_LSB    _u(29)
+#define M33_FPCCR_LSPENS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_CLRONRET
+// Description : Clear floating-point caller saved registers on exception return
+#define M33_FPCCR_CLRONRET_RESET  _u(0x0)
+#define M33_FPCCR_CLRONRET_BITS   _u(0x10000000)
+#define M33_FPCCR_CLRONRET_MSB    _u(28)
+#define M33_FPCCR_CLRONRET_LSB    _u(28)
+#define M33_FPCCR_CLRONRET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_CLRONRETS
+// Description : This bit controls whether the CLRONRET bit is writeable from
+//               the Non-secure state
+#define M33_FPCCR_CLRONRETS_RESET  _u(0x0)
+#define M33_FPCCR_CLRONRETS_BITS   _u(0x08000000)
+#define M33_FPCCR_CLRONRETS_MSB    _u(27)
+#define M33_FPCCR_CLRONRETS_LSB    _u(27)
+#define M33_FPCCR_CLRONRETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_TS
+// Description : Treat floating-point registers as Secure enable
+#define M33_FPCCR_TS_RESET  _u(0x0)
+#define M33_FPCCR_TS_BITS   _u(0x04000000)
+#define M33_FPCCR_TS_MSB    _u(26)
+#define M33_FPCCR_TS_LSB    _u(26)
+#define M33_FPCCR_TS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_UFRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the UsageFault
+//               exception to pending
+#define M33_FPCCR_UFRDY_RESET  _u(0x1)
+#define M33_FPCCR_UFRDY_BITS   _u(0x00000400)
+#define M33_FPCCR_UFRDY_MSB    _u(10)
+#define M33_FPCCR_UFRDY_LSB    _u(10)
+#define M33_FPCCR_UFRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_SPLIMVIOL
+// Description : This bit is banked between the Security states and indicates
+//               whether the floating-point context violates the stack pointer
+//               limit that was active when lazy state preservation was
+//               activated. SPLIMVIOL modifies the lazy floating-point state
+//               preservation behavior
+#define M33_FPCCR_SPLIMVIOL_RESET  _u(0x0)
+#define M33_FPCCR_SPLIMVIOL_BITS   _u(0x00000200)
+#define M33_FPCCR_SPLIMVIOL_MSB    _u(9)
+#define M33_FPCCR_SPLIMVIOL_LSB    _u(9)
+#define M33_FPCCR_SPLIMVIOL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_MONRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the DebugMonitor
+//               exception to pending
+#define M33_FPCCR_MONRDY_RESET  _u(0x0)
+#define M33_FPCCR_MONRDY_BITS   _u(0x00000100)
+#define M33_FPCCR_MONRDY_MSB    _u(8)
+#define M33_FPCCR_MONRDY_LSB    _u(8)
+#define M33_FPCCR_MONRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_SFRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the SecureFault
+//               exception to pending. This bit is only present in the Secure
+//               version of the register, and behaves as RAZ/WI when accessed
+//               from the Non-secure state
+#define M33_FPCCR_SFRDY_RESET  _u(0x0)
+#define M33_FPCCR_SFRDY_BITS   _u(0x00000080)
+#define M33_FPCCR_SFRDY_MSB    _u(7)
+#define M33_FPCCR_SFRDY_LSB    _u(7)
+#define M33_FPCCR_SFRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_BFRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the BusFault
+//               exception to pending
+#define M33_FPCCR_BFRDY_RESET  _u(0x1)
+#define M33_FPCCR_BFRDY_BITS   _u(0x00000040)
+#define M33_FPCCR_BFRDY_MSB    _u(6)
+#define M33_FPCCR_BFRDY_LSB    _u(6)
+#define M33_FPCCR_BFRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_MMRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the MemManage
+//               exception to pending
+#define M33_FPCCR_MMRDY_RESET  _u(0x1)
+#define M33_FPCCR_MMRDY_BITS   _u(0x00000020)
+#define M33_FPCCR_MMRDY_MSB    _u(5)
+#define M33_FPCCR_MMRDY_LSB    _u(5)
+#define M33_FPCCR_MMRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_HFRDY
+// Description : Indicates whether the software executing when the PE allocated
+//               the floating-point stack frame was able to set the HardFault
+//               exception to pending
+#define M33_FPCCR_HFRDY_RESET  _u(0x1)
+#define M33_FPCCR_HFRDY_BITS   _u(0x00000010)
+#define M33_FPCCR_HFRDY_MSB    _u(4)
+#define M33_FPCCR_HFRDY_LSB    _u(4)
+#define M33_FPCCR_HFRDY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_THREAD
+// Description : Indicates the PE mode when it allocated the floating-point
+//               stack frame
+#define M33_FPCCR_THREAD_RESET  _u(0x0)
+#define M33_FPCCR_THREAD_BITS   _u(0x00000008)
+#define M33_FPCCR_THREAD_MSB    _u(3)
+#define M33_FPCCR_THREAD_LSB    _u(3)
+#define M33_FPCCR_THREAD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_S
+// Description : Security status of the floating-point context. This bit is only
+//               present in the Secure version of the register, and behaves as
+//               RAZ/WI when accessed from the Non-secure state. This bit is
+//               updated whenever lazy state preservation is activated, or when
+//               a floating-point instruction is executed
+#define M33_FPCCR_S_RESET  _u(0x0)
+#define M33_FPCCR_S_BITS   _u(0x00000004)
+#define M33_FPCCR_S_MSB    _u(2)
+#define M33_FPCCR_S_LSB    _u(2)
+#define M33_FPCCR_S_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_USER
+// Description : Indicates the privilege level of the software executing when
+//               the PE allocated the floating-point stack frame
+#define M33_FPCCR_USER_RESET  _u(0x1)
+#define M33_FPCCR_USER_BITS   _u(0x00000002)
+#define M33_FPCCR_USER_MSB    _u(1)
+#define M33_FPCCR_USER_LSB    _u(1)
+#define M33_FPCCR_USER_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCCR_LSPACT
+// Description : Indicates whether lazy preservation of the floating-point state
+//               is active
+#define M33_FPCCR_LSPACT_RESET  _u(0x0)
+#define M33_FPCCR_LSPACT_BITS   _u(0x00000001)
+#define M33_FPCCR_LSPACT_MSB    _u(0)
+#define M33_FPCCR_LSPACT_LSB    _u(0)
+#define M33_FPCCR_LSPACT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FPCAR
+// Description : Holds the location of the unpopulated floating-point register
+//               space allocated on an exception stack frame
+#define M33_FPCAR_OFFSET _u(0x0000ef38)
+#define M33_FPCAR_BITS   _u(0xfffffff8)
+#define M33_FPCAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FPCAR_ADDRESS
+// Description : The location of the unpopulated floating-point register space
+//               allocated on an exception stack frame
+#define M33_FPCAR_ADDRESS_RESET  _u(0x00000000)
+#define M33_FPCAR_ADDRESS_BITS   _u(0xfffffff8)
+#define M33_FPCAR_ADDRESS_MSB    _u(31)
+#define M33_FPCAR_ADDRESS_LSB    _u(3)
+#define M33_FPCAR_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : M33_FPDSCR
+// Description : Holds the default values for the floating-point status control
+//               data that the PE assigns to the FPSCR when it creates a new
+//               floating-point context
+#define M33_FPDSCR_OFFSET _u(0x0000ef3c)
+#define M33_FPDSCR_BITS   _u(0x07c00000)
+#define M33_FPDSCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_FPDSCR_AHP
+// Description : Default value for FPSCR.AHP
+#define M33_FPDSCR_AHP_RESET  _u(0x0)
+#define M33_FPDSCR_AHP_BITS   _u(0x04000000)
+#define M33_FPDSCR_AHP_MSB    _u(26)
+#define M33_FPDSCR_AHP_LSB    _u(26)
+#define M33_FPDSCR_AHP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPDSCR_DN
+// Description : Default value for FPSCR.DN
+#define M33_FPDSCR_DN_RESET  _u(0x0)
+#define M33_FPDSCR_DN_BITS   _u(0x02000000)
+#define M33_FPDSCR_DN_MSB    _u(25)
+#define M33_FPDSCR_DN_LSB    _u(25)
+#define M33_FPDSCR_DN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPDSCR_FZ
+// Description : Default value for FPSCR.FZ
+#define M33_FPDSCR_FZ_RESET  _u(0x0)
+#define M33_FPDSCR_FZ_BITS   _u(0x01000000)
+#define M33_FPDSCR_FZ_MSB    _u(24)
+#define M33_FPDSCR_FZ_LSB    _u(24)
+#define M33_FPDSCR_FZ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_FPDSCR_RMODE
+// Description : Default value for FPSCR.RMode
+#define M33_FPDSCR_RMODE_RESET  _u(0x0)
+#define M33_FPDSCR_RMODE_BITS   _u(0x00c00000)
+#define M33_FPDSCR_RMODE_MSB    _u(23)
+#define M33_FPDSCR_RMODE_LSB    _u(22)
+#define M33_FPDSCR_RMODE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_MVFR0
+// Description : Describes the features provided by the Floating-point Extension
+#define M33_MVFR0_OFFSET _u(0x0000ef40)
+#define M33_MVFR0_BITS   _u(0xf0ff0fff)
+#define M33_MVFR0_RESET  _u(0x60540601)
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_FPROUND
+// Description : Indicates the rounding modes supported by the FP Extension
+#define M33_MVFR0_FPROUND_RESET  _u(0x6)
+#define M33_MVFR0_FPROUND_BITS   _u(0xf0000000)
+#define M33_MVFR0_FPROUND_MSB    _u(31)
+#define M33_MVFR0_FPROUND_LSB    _u(28)
+#define M33_MVFR0_FPROUND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_FPSQRT
+// Description : Indicates the support for FP square root operations
+#define M33_MVFR0_FPSQRT_RESET  _u(0x5)
+#define M33_MVFR0_FPSQRT_BITS   _u(0x00f00000)
+#define M33_MVFR0_FPSQRT_MSB    _u(23)
+#define M33_MVFR0_FPSQRT_LSB    _u(20)
+#define M33_MVFR0_FPSQRT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_FPDIVIDE
+// Description : Indicates the support for FP divide operations
+#define M33_MVFR0_FPDIVIDE_RESET  _u(0x4)
+#define M33_MVFR0_FPDIVIDE_BITS   _u(0x000f0000)
+#define M33_MVFR0_FPDIVIDE_MSB    _u(19)
+#define M33_MVFR0_FPDIVIDE_LSB    _u(16)
+#define M33_MVFR0_FPDIVIDE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_FPDP
+// Description : Indicates support for FP double-precision operations
+#define M33_MVFR0_FPDP_RESET  _u(0x6)
+#define M33_MVFR0_FPDP_BITS   _u(0x00000f00)
+#define M33_MVFR0_FPDP_MSB    _u(11)
+#define M33_MVFR0_FPDP_LSB    _u(8)
+#define M33_MVFR0_FPDP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_FPSP
+// Description : Indicates support for FP single-precision operations
+#define M33_MVFR0_FPSP_RESET  _u(0x0)
+#define M33_MVFR0_FPSP_BITS   _u(0x000000f0)
+#define M33_MVFR0_FPSP_MSB    _u(7)
+#define M33_MVFR0_FPSP_LSB    _u(4)
+#define M33_MVFR0_FPSP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR0_SIMDREG
+// Description : Indicates size of FP register file
+#define M33_MVFR0_SIMDREG_RESET  _u(0x1)
+#define M33_MVFR0_SIMDREG_BITS   _u(0x0000000f)
+#define M33_MVFR0_SIMDREG_MSB    _u(3)
+#define M33_MVFR0_SIMDREG_LSB    _u(0)
+#define M33_MVFR0_SIMDREG_ACCESS "RO"
+// =============================================================================
+// Register    : M33_MVFR1
+// Description : Describes the features provided by the Floating-point Extension
+#define M33_MVFR1_OFFSET _u(0x0000ef44)
+#define M33_MVFR1_BITS   _u(0xff0000ff)
+#define M33_MVFR1_RESET  _u(0x85000089)
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR1_FMAC
+// Description : Indicates whether the FP Extension implements the fused
+//               multiply accumulate instructions
+#define M33_MVFR1_FMAC_RESET  _u(0x8)
+#define M33_MVFR1_FMAC_BITS   _u(0xf0000000)
+#define M33_MVFR1_FMAC_MSB    _u(31)
+#define M33_MVFR1_FMAC_LSB    _u(28)
+#define M33_MVFR1_FMAC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR1_FPHP
+// Description : Indicates whether the FP Extension implements half-precision FP
+//               conversion instructions
+#define M33_MVFR1_FPHP_RESET  _u(0x5)
+#define M33_MVFR1_FPHP_BITS   _u(0x0f000000)
+#define M33_MVFR1_FPHP_MSB    _u(27)
+#define M33_MVFR1_FPHP_LSB    _u(24)
+#define M33_MVFR1_FPHP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR1_FPDNAN
+// Description : Indicates whether the FP hardware implementation supports NaN
+//               propagation
+#define M33_MVFR1_FPDNAN_RESET  _u(0x8)
+#define M33_MVFR1_FPDNAN_BITS   _u(0x000000f0)
+#define M33_MVFR1_FPDNAN_MSB    _u(7)
+#define M33_MVFR1_FPDNAN_LSB    _u(4)
+#define M33_MVFR1_FPDNAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR1_FPFTZ
+// Description : Indicates whether subnormals are always flushed-to-zero
+#define M33_MVFR1_FPFTZ_RESET  _u(0x9)
+#define M33_MVFR1_FPFTZ_BITS   _u(0x0000000f)
+#define M33_MVFR1_FPFTZ_MSB    _u(3)
+#define M33_MVFR1_FPFTZ_LSB    _u(0)
+#define M33_MVFR1_FPFTZ_ACCESS "RO"
+// =============================================================================
+// Register    : M33_MVFR2
+// Description : Describes the features provided by the Floating-point Extension
+#define M33_MVFR2_OFFSET _u(0x0000ef48)
+#define M33_MVFR2_BITS   _u(0x000000f0)
+#define M33_MVFR2_RESET  _u(0x00000060)
+// -----------------------------------------------------------------------------
+// Field       : M33_MVFR2_FPMISC
+// Description : Indicates support for miscellaneous FP features
+#define M33_MVFR2_FPMISC_RESET  _u(0x6)
+#define M33_MVFR2_FPMISC_BITS   _u(0x000000f0)
+#define M33_MVFR2_FPMISC_MSB    _u(7)
+#define M33_MVFR2_FPMISC_LSB    _u(4)
+#define M33_MVFR2_FPMISC_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DDEVARCH
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DDEVARCH_OFFSET _u(0x0000efbc)
+#define M33_DDEVARCH_BITS   _u(0xffffffff)
+#define M33_DDEVARCH_RESET  _u(0x47702a04)
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVARCH_ARCHITECT
+// Description : Defines the architect of the component. Bits [31:28] are the
+//               JEP106 continuation code (JEP106 bank ID, minus 1) and bits
+//               [27:21] are the JEP106 ID code.
+#define M33_DDEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_DDEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_DDEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_DDEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_DDEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVARCH_PRESENT
+// Description : Defines that the DEVARCH register is present
+#define M33_DDEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_DDEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_DDEVARCH_PRESENT_MSB    _u(20)
+#define M33_DDEVARCH_PRESENT_LSB    _u(20)
+#define M33_DDEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVARCH_REVISION
+// Description : Defines the architecture revision of the component
+#define M33_DDEVARCH_REVISION_RESET  _u(0x0)
+#define M33_DDEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_DDEVARCH_REVISION_MSB    _u(19)
+#define M33_DDEVARCH_REVISION_LSB    _u(16)
+#define M33_DDEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVARCH_ARCHVER
+// Description : Defines the architecture version of the component
+#define M33_DDEVARCH_ARCHVER_RESET  _u(0x2)
+#define M33_DDEVARCH_ARCHVER_BITS   _u(0x0000f000)
+#define M33_DDEVARCH_ARCHVER_MSB    _u(15)
+#define M33_DDEVARCH_ARCHVER_LSB    _u(12)
+#define M33_DDEVARCH_ARCHVER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVARCH_ARCHPART
+// Description : Defines the architecture of the component
+#define M33_DDEVARCH_ARCHPART_RESET  _u(0xa04)
+#define M33_DDEVARCH_ARCHPART_BITS   _u(0x00000fff)
+#define M33_DDEVARCH_ARCHPART_MSB    _u(11)
+#define M33_DDEVARCH_ARCHPART_LSB    _u(0)
+#define M33_DDEVARCH_ARCHPART_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DDEVTYPE
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DDEVTYPE_OFFSET _u(0x0000efcc)
+#define M33_DDEVTYPE_BITS   _u(0x000000ff)
+#define M33_DDEVTYPE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVTYPE_SUB
+// Description : Component sub-type
+#define M33_DDEVTYPE_SUB_RESET  _u(0x0)
+#define M33_DDEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_DDEVTYPE_SUB_MSB    _u(7)
+#define M33_DDEVTYPE_SUB_LSB    _u(4)
+#define M33_DDEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DDEVTYPE_MAJOR
+// Description : CoreSight major type
+#define M33_DDEVTYPE_MAJOR_RESET  _u(0x0)
+#define M33_DDEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_DDEVTYPE_MAJOR_MSB    _u(3)
+#define M33_DDEVTYPE_MAJOR_LSB    _u(0)
+#define M33_DDEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DPIDR4
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR4_OFFSET _u(0x0000efd0)
+#define M33_DPIDR4_BITS   _u(0x000000ff)
+#define M33_DPIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR4_SIZE
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR4_SIZE_RESET  _u(0x0)
+#define M33_DPIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_DPIDR4_SIZE_MSB    _u(7)
+#define M33_DPIDR4_SIZE_LSB    _u(4)
+#define M33_DPIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR4_DES_2
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR4_DES_2_RESET  _u(0x4)
+#define M33_DPIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_DPIDR4_DES_2_MSB    _u(3)
+#define M33_DPIDR4_DES_2_LSB    _u(0)
+#define M33_DPIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DPIDR5
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR5_OFFSET _u(0x0000efd4)
+#define M33_DPIDR5_BITS   _u(0x00000000)
+#define M33_DPIDR5_RESET  _u(0x00000000)
+#define M33_DPIDR5_MSB    _u(31)
+#define M33_DPIDR5_LSB    _u(0)
+#define M33_DPIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DPIDR6
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR6_OFFSET _u(0x0000efd8)
+#define M33_DPIDR6_BITS   _u(0x00000000)
+#define M33_DPIDR6_RESET  _u(0x00000000)
+#define M33_DPIDR6_MSB    _u(31)
+#define M33_DPIDR6_LSB    _u(0)
+#define M33_DPIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DPIDR7
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR7_OFFSET _u(0x0000efdc)
+#define M33_DPIDR7_BITS   _u(0x00000000)
+#define M33_DPIDR7_RESET  _u(0x00000000)
+#define M33_DPIDR7_MSB    _u(31)
+#define M33_DPIDR7_LSB    _u(0)
+#define M33_DPIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DPIDR0
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR0_OFFSET _u(0x0000efe0)
+#define M33_DPIDR0_BITS   _u(0x000000ff)
+#define M33_DPIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR0_PART_0
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR0_PART_0_RESET  _u(0x21)
+#define M33_DPIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_DPIDR0_PART_0_MSB    _u(7)
+#define M33_DPIDR0_PART_0_LSB    _u(0)
+#define M33_DPIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DPIDR1
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR1_OFFSET _u(0x0000efe4)
+#define M33_DPIDR1_BITS   _u(0x000000ff)
+#define M33_DPIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR1_DES_0
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR1_DES_0_RESET  _u(0xb)
+#define M33_DPIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_DPIDR1_DES_0_MSB    _u(7)
+#define M33_DPIDR1_DES_0_LSB    _u(4)
+#define M33_DPIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR1_PART_1
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR1_PART_1_RESET  _u(0xd)
+#define M33_DPIDR1_PART_1_BITS   _u(0x0000000f)
+#define M33_DPIDR1_PART_1_MSB    _u(3)
+#define M33_DPIDR1_PART_1_LSB    _u(0)
+#define M33_DPIDR1_PART_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DPIDR2
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR2_OFFSET _u(0x0000efe8)
+#define M33_DPIDR2_BITS   _u(0x000000ff)
+#define M33_DPIDR2_RESET  _u(0x0000000b)
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR2_REVISION
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR2_REVISION_RESET  _u(0x0)
+#define M33_DPIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_DPIDR2_REVISION_MSB    _u(7)
+#define M33_DPIDR2_REVISION_LSB    _u(4)
+#define M33_DPIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR2_JEDEC
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR2_JEDEC_RESET  _u(0x1)
+#define M33_DPIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_DPIDR2_JEDEC_MSB    _u(3)
+#define M33_DPIDR2_JEDEC_LSB    _u(3)
+#define M33_DPIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR2_DES_1
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR2_DES_1_RESET  _u(0x3)
+#define M33_DPIDR2_DES_1_BITS   _u(0x00000007)
+#define M33_DPIDR2_DES_1_MSB    _u(2)
+#define M33_DPIDR2_DES_1_LSB    _u(0)
+#define M33_DPIDR2_DES_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DPIDR3
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DPIDR3_OFFSET _u(0x0000efec)
+#define M33_DPIDR3_BITS   _u(0x000000ff)
+#define M33_DPIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR3_REVAND
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR3_REVAND_RESET  _u(0x0)
+#define M33_DPIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_DPIDR3_REVAND_MSB    _u(7)
+#define M33_DPIDR3_REVAND_LSB    _u(4)
+#define M33_DPIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DPIDR3_CMOD
+// Description : See CoreSight Architecture Specification
+#define M33_DPIDR3_CMOD_RESET  _u(0x0)
+#define M33_DPIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_DPIDR3_CMOD_MSB    _u(3)
+#define M33_DPIDR3_CMOD_LSB    _u(0)
+#define M33_DPIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DCIDR0
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DCIDR0_OFFSET _u(0x0000eff0)
+#define M33_DCIDR0_BITS   _u(0x000000ff)
+#define M33_DCIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCIDR0_PRMBL_0
+// Description : See CoreSight Architecture Specification
+#define M33_DCIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_DCIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_DCIDR0_PRMBL_0_MSB    _u(7)
+#define M33_DCIDR0_PRMBL_0_LSB    _u(0)
+#define M33_DCIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DCIDR1
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DCIDR1_OFFSET _u(0x0000eff4)
+#define M33_DCIDR1_BITS   _u(0x000000ff)
+#define M33_DCIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCIDR1_CLASS
+// Description : See CoreSight Architecture Specification
+#define M33_DCIDR1_CLASS_RESET  _u(0x9)
+#define M33_DCIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_DCIDR1_CLASS_MSB    _u(7)
+#define M33_DCIDR1_CLASS_LSB    _u(4)
+#define M33_DCIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DCIDR1_PRMBL_1
+// Description : See CoreSight Architecture Specification
+#define M33_DCIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_DCIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_DCIDR1_PRMBL_1_MSB    _u(3)
+#define M33_DCIDR1_PRMBL_1_LSB    _u(0)
+#define M33_DCIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DCIDR2
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DCIDR2_OFFSET _u(0x0000eff8)
+#define M33_DCIDR2_BITS   _u(0x000000ff)
+#define M33_DCIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCIDR2_PRMBL_2
+// Description : See CoreSight Architecture Specification
+#define M33_DCIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_DCIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_DCIDR2_PRMBL_2_MSB    _u(7)
+#define M33_DCIDR2_PRMBL_2_LSB    _u(0)
+#define M33_DCIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DCIDR3
+// Description : Provides CoreSight discovery information for the SCS
+#define M33_DCIDR3_OFFSET _u(0x0000effc)
+#define M33_DCIDR3_BITS   _u(0x000000ff)
+#define M33_DCIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_DCIDR3_PRMBL_3
+// Description : See CoreSight Architecture Specification
+#define M33_DCIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_DCIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_DCIDR3_PRMBL_3_MSB    _u(7)
+#define M33_DCIDR3_PRMBL_3_LSB    _u(0)
+#define M33_DCIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPRGCTLR
+// Description : Programming Control Register
+#define M33_TRCPRGCTLR_OFFSET _u(0x00041004)
+#define M33_TRCPRGCTLR_BITS   _u(0x00000001)
+#define M33_TRCPRGCTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPRGCTLR_EN
+// Description : Trace Unit Enable
+#define M33_TRCPRGCTLR_EN_RESET  _u(0x0)
+#define M33_TRCPRGCTLR_EN_BITS   _u(0x00000001)
+#define M33_TRCPRGCTLR_EN_MSB    _u(0)
+#define M33_TRCPRGCTLR_EN_LSB    _u(0)
+#define M33_TRCPRGCTLR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCSTATR
+// Description : The TRCSTATR indicates the ETM-Teal status
+#define M33_TRCSTATR_OFFSET _u(0x0004100c)
+#define M33_TRCSTATR_BITS   _u(0x00000003)
+#define M33_TRCSTATR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSTATR_PMSTABLE
+// Description : Indicates whether the ETM-Teal registers are stable and can be
+//               read
+#define M33_TRCSTATR_PMSTABLE_RESET  _u(0x0)
+#define M33_TRCSTATR_PMSTABLE_BITS   _u(0x00000002)
+#define M33_TRCSTATR_PMSTABLE_MSB    _u(1)
+#define M33_TRCSTATR_PMSTABLE_LSB    _u(1)
+#define M33_TRCSTATR_PMSTABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSTATR_IDLE
+// Description : Indicates that the trace unit is inactive
+#define M33_TRCSTATR_IDLE_RESET  _u(0x0)
+#define M33_TRCSTATR_IDLE_BITS   _u(0x00000001)
+#define M33_TRCSTATR_IDLE_MSB    _u(0)
+#define M33_TRCSTATR_IDLE_LSB    _u(0)
+#define M33_TRCSTATR_IDLE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCONFIGR
+// Description : The TRCCONFIGR sets the basic tracing options for the trace
+//               unit
+#define M33_TRCCONFIGR_OFFSET _u(0x00041010)
+#define M33_TRCCONFIGR_BITS   _u(0x00001ff8)
+#define M33_TRCCONFIGR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCONFIGR_RS
+// Description : Return stack enable
+#define M33_TRCCONFIGR_RS_RESET  _u(0x0)
+#define M33_TRCCONFIGR_RS_BITS   _u(0x00001000)
+#define M33_TRCCONFIGR_RS_MSB    _u(12)
+#define M33_TRCCONFIGR_RS_LSB    _u(12)
+#define M33_TRCCONFIGR_RS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCONFIGR_TS
+// Description : Global timestamp tracing
+#define M33_TRCCONFIGR_TS_RESET  _u(0x0)
+#define M33_TRCCONFIGR_TS_BITS   _u(0x00000800)
+#define M33_TRCCONFIGR_TS_MSB    _u(11)
+#define M33_TRCCONFIGR_TS_LSB    _u(11)
+#define M33_TRCCONFIGR_TS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCONFIGR_COND
+// Description : Conditional instruction tracing
+#define M33_TRCCONFIGR_COND_RESET  _u(0x00)
+#define M33_TRCCONFIGR_COND_BITS   _u(0x000007e0)
+#define M33_TRCCONFIGR_COND_MSB    _u(10)
+#define M33_TRCCONFIGR_COND_LSB    _u(5)
+#define M33_TRCCONFIGR_COND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCONFIGR_CCI
+// Description : Cycle counting in instruction trace
+#define M33_TRCCONFIGR_CCI_RESET  _u(0x0)
+#define M33_TRCCONFIGR_CCI_BITS   _u(0x00000010)
+#define M33_TRCCONFIGR_CCI_MSB    _u(4)
+#define M33_TRCCONFIGR_CCI_LSB    _u(4)
+#define M33_TRCCONFIGR_CCI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCONFIGR_BB
+// Description : Branch broadcast mode
+#define M33_TRCCONFIGR_BB_RESET  _u(0x0)
+#define M33_TRCCONFIGR_BB_BITS   _u(0x00000008)
+#define M33_TRCCONFIGR_BB_MSB    _u(3)
+#define M33_TRCCONFIGR_BB_LSB    _u(3)
+#define M33_TRCCONFIGR_BB_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCEVENTCTL0R
+// Description : The TRCEVENTCTL0R controls the tracing of events in the trace
+//               stream. The events also drive the ETM-Teal external outputs.
+#define M33_TRCEVENTCTL0R_OFFSET _u(0x00041020)
+#define M33_TRCEVENTCTL0R_BITS   _u(0x00008787)
+#define M33_TRCEVENTCTL0R_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL0R_TYPE1
+// Description : Selects the resource type for event 1
+#define M33_TRCEVENTCTL0R_TYPE1_RESET  _u(0x0)
+#define M33_TRCEVENTCTL0R_TYPE1_BITS   _u(0x00008000)
+#define M33_TRCEVENTCTL0R_TYPE1_MSB    _u(15)
+#define M33_TRCEVENTCTL0R_TYPE1_LSB    _u(15)
+#define M33_TRCEVENTCTL0R_TYPE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL0R_SEL1
+// Description : Selects the resource number, based on the value of TYPE1: When
+//               TYPE1 is 0, selects a single selected resource from 0-15
+//               defined by SEL1[2:0].  When TYPE1 is 1, selects a Boolean
+//               combined resource pair from 0-7 defined by SEL1[2:0]
+#define M33_TRCEVENTCTL0R_SEL1_RESET  _u(0x0)
+#define M33_TRCEVENTCTL0R_SEL1_BITS   _u(0x00000700)
+#define M33_TRCEVENTCTL0R_SEL1_MSB    _u(10)
+#define M33_TRCEVENTCTL0R_SEL1_LSB    _u(8)
+#define M33_TRCEVENTCTL0R_SEL1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL0R_TYPE0
+// Description : Selects the resource type for event 0
+#define M33_TRCEVENTCTL0R_TYPE0_RESET  _u(0x0)
+#define M33_TRCEVENTCTL0R_TYPE0_BITS   _u(0x00000080)
+#define M33_TRCEVENTCTL0R_TYPE0_MSB    _u(7)
+#define M33_TRCEVENTCTL0R_TYPE0_LSB    _u(7)
+#define M33_TRCEVENTCTL0R_TYPE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL0R_SEL0
+// Description : Selects the resource number, based on the value of TYPE0: When
+//               TYPE1 is 0, selects a single selected resource from 0-15
+//               defined by SEL0[2:0].  When TYPE1 is 1, selects a Boolean
+//               combined resource pair from 0-7 defined by SEL0[2:0]
+#define M33_TRCEVENTCTL0R_SEL0_RESET  _u(0x0)
+#define M33_TRCEVENTCTL0R_SEL0_BITS   _u(0x00000007)
+#define M33_TRCEVENTCTL0R_SEL0_MSB    _u(2)
+#define M33_TRCEVENTCTL0R_SEL0_LSB    _u(0)
+#define M33_TRCEVENTCTL0R_SEL0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCEVENTCTL1R
+// Description : The TRCEVENTCTL1R controls how the events selected by
+//               TRCEVENTCTL0R behave
+#define M33_TRCEVENTCTL1R_OFFSET _u(0x00041024)
+#define M33_TRCEVENTCTL1R_BITS   _u(0x00001803)
+#define M33_TRCEVENTCTL1R_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL1R_LPOVERRIDE
+// Description : Low power state behavior override
+#define M33_TRCEVENTCTL1R_LPOVERRIDE_RESET  _u(0x0)
+#define M33_TRCEVENTCTL1R_LPOVERRIDE_BITS   _u(0x00001000)
+#define M33_TRCEVENTCTL1R_LPOVERRIDE_MSB    _u(12)
+#define M33_TRCEVENTCTL1R_LPOVERRIDE_LSB    _u(12)
+#define M33_TRCEVENTCTL1R_LPOVERRIDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL1R_ATB
+// Description : ATB enabled
+#define M33_TRCEVENTCTL1R_ATB_RESET  _u(0x0)
+#define M33_TRCEVENTCTL1R_ATB_BITS   _u(0x00000800)
+#define M33_TRCEVENTCTL1R_ATB_MSB    _u(11)
+#define M33_TRCEVENTCTL1R_ATB_LSB    _u(11)
+#define M33_TRCEVENTCTL1R_ATB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL1R_INSTEN1
+// Description : One bit per event, to enable generation of an event element in
+//               the instruction trace stream when the selected event occurs
+#define M33_TRCEVENTCTL1R_INSTEN1_RESET  _u(0x0)
+#define M33_TRCEVENTCTL1R_INSTEN1_BITS   _u(0x00000002)
+#define M33_TRCEVENTCTL1R_INSTEN1_MSB    _u(1)
+#define M33_TRCEVENTCTL1R_INSTEN1_LSB    _u(1)
+#define M33_TRCEVENTCTL1R_INSTEN1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCEVENTCTL1R_INSTEN0
+// Description : One bit per event, to enable generation of an event element in
+//               the instruction trace stream when the selected event occurs
+#define M33_TRCEVENTCTL1R_INSTEN0_RESET  _u(0x0)
+#define M33_TRCEVENTCTL1R_INSTEN0_BITS   _u(0x00000001)
+#define M33_TRCEVENTCTL1R_INSTEN0_MSB    _u(0)
+#define M33_TRCEVENTCTL1R_INSTEN0_LSB    _u(0)
+#define M33_TRCEVENTCTL1R_INSTEN0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCSTALLCTLR
+// Description : The TRCSTALLCTLR enables ETM-Teal to stall the processor if the
+//               ETM-Teal FIFO goes over the programmed level to minimize risk
+//               of overflow
+#define M33_TRCSTALLCTLR_OFFSET _u(0x0004102c)
+#define M33_TRCSTALLCTLR_BITS   _u(0x0000050c)
+#define M33_TRCSTALLCTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSTALLCTLR_INSTPRIORITY
+// Description : Reserved, RES0
+#define M33_TRCSTALLCTLR_INSTPRIORITY_RESET  _u(0x0)
+#define M33_TRCSTALLCTLR_INSTPRIORITY_BITS   _u(0x00000400)
+#define M33_TRCSTALLCTLR_INSTPRIORITY_MSB    _u(10)
+#define M33_TRCSTALLCTLR_INSTPRIORITY_LSB    _u(10)
+#define M33_TRCSTALLCTLR_INSTPRIORITY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSTALLCTLR_ISTALL
+// Description : Stall processor based on instruction trace buffer space
+#define M33_TRCSTALLCTLR_ISTALL_RESET  _u(0x0)
+#define M33_TRCSTALLCTLR_ISTALL_BITS   _u(0x00000100)
+#define M33_TRCSTALLCTLR_ISTALL_MSB    _u(8)
+#define M33_TRCSTALLCTLR_ISTALL_LSB    _u(8)
+#define M33_TRCSTALLCTLR_ISTALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSTALLCTLR_LEVEL
+// Description : Threshold at which stalling becomes active. This provides four
+//               levels. This level can be varied to optimize the level of
+//               invasion caused by stalling, balanced against the risk of a
+//               FIFO overflow
+#define M33_TRCSTALLCTLR_LEVEL_RESET  _u(0x0)
+#define M33_TRCSTALLCTLR_LEVEL_BITS   _u(0x0000000c)
+#define M33_TRCSTALLCTLR_LEVEL_MSB    _u(3)
+#define M33_TRCSTALLCTLR_LEVEL_LSB    _u(2)
+#define M33_TRCSTALLCTLR_LEVEL_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCTSCTLR
+// Description : The TRCTSCTLR controls the insertion of global timestamps into
+//               the trace stream. A timestamp is always inserted into the
+//               instruction trace stream
+#define M33_TRCTSCTLR_OFFSET _u(0x00041030)
+#define M33_TRCTSCTLR_BITS   _u(0x00000083)
+#define M33_TRCTSCTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCTSCTLR_TYPE0
+// Description : Selects the resource type for event 0
+#define M33_TRCTSCTLR_TYPE0_RESET  _u(0x0)
+#define M33_TRCTSCTLR_TYPE0_BITS   _u(0x00000080)
+#define M33_TRCTSCTLR_TYPE0_MSB    _u(7)
+#define M33_TRCTSCTLR_TYPE0_LSB    _u(7)
+#define M33_TRCTSCTLR_TYPE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCTSCTLR_SEL0
+// Description : Selects the resource number, based on the value of TYPE0: When
+//               TYPE1 is 0, selects a single selected resource from 0-15
+//               defined by SEL0[2:0].  When TYPE1 is 1, selects a Boolean
+//               combined resource pair from 0-7 defined by SEL0[2:0]
+#define M33_TRCTSCTLR_SEL0_RESET  _u(0x0)
+#define M33_TRCTSCTLR_SEL0_BITS   _u(0x00000003)
+#define M33_TRCTSCTLR_SEL0_MSB    _u(1)
+#define M33_TRCTSCTLR_SEL0_LSB    _u(0)
+#define M33_TRCTSCTLR_SEL0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCSYNCPR
+// Description : The TRCSYNCPR specifies the period of trace synchronization of
+//               the trace streams. TRCSYNCPR defines a number of bytes of trace
+//               between requests for trace synchronization. This value is
+//               always a power of two
+#define M33_TRCSYNCPR_OFFSET _u(0x00041034)
+#define M33_TRCSYNCPR_BITS   _u(0x0000001f)
+#define M33_TRCSYNCPR_RESET  _u(0x0000000a)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSYNCPR_PERIOD
+// Description : Defines the number of bytes of trace between trace
+//               synchronization requests as a total of the number of bytes
+//               generated by the instruction stream. The number of bytes is 2N
+//               where N is the value of this field: - A value of zero disables
+//               these periodic trace synchronization requests, but does not
+//               disable other trace synchronization requests.  - The minimum
+//               value that can be programmed, other than zero, is 8, providing
+//               a minimum trace synchronization period of 256 bytes.  - The
+//               maximum value is 20, providing a maximum trace synchronization
+//               period of 2^20 bytes
+#define M33_TRCSYNCPR_PERIOD_RESET  _u(0x0a)
+#define M33_TRCSYNCPR_PERIOD_BITS   _u(0x0000001f)
+#define M33_TRCSYNCPR_PERIOD_MSB    _u(4)
+#define M33_TRCSYNCPR_PERIOD_LSB    _u(0)
+#define M33_TRCSYNCPR_PERIOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCCCTLR
+// Description : The TRCCCCTLR sets the threshold value for instruction trace
+//               cycle counting. The threshold represents the minimum interval
+//               between cycle count trace packets
+#define M33_TRCCCCTLR_OFFSET _u(0x00041038)
+#define M33_TRCCCCTLR_BITS   _u(0x00000fff)
+#define M33_TRCCCCTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCCCTLR_THRESHOLD
+// Description : Instruction trace cycle count threshold
+#define M33_TRCCCCTLR_THRESHOLD_RESET  _u(0x000)
+#define M33_TRCCCCTLR_THRESHOLD_BITS   _u(0x00000fff)
+#define M33_TRCCCCTLR_THRESHOLD_MSB    _u(11)
+#define M33_TRCCCCTLR_THRESHOLD_LSB    _u(0)
+#define M33_TRCCCCTLR_THRESHOLD_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCVICTLR
+// Description : The TRCVICTLR controls instruction trace filtering
+#define M33_TRCVICTLR_OFFSET _u(0x00041080)
+#define M33_TRCVICTLR_BITS   _u(0x00090e83)
+#define M33_TRCVICTLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_EXLEVEL_S3
+// Description : In Secure state, each bit controls whether instruction tracing
+//               is enabled for the corresponding exception level
+#define M33_TRCVICTLR_EXLEVEL_S3_RESET  _u(0x0)
+#define M33_TRCVICTLR_EXLEVEL_S3_BITS   _u(0x00080000)
+#define M33_TRCVICTLR_EXLEVEL_S3_MSB    _u(19)
+#define M33_TRCVICTLR_EXLEVEL_S3_LSB    _u(19)
+#define M33_TRCVICTLR_EXLEVEL_S3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_EXLEVEL_S0
+// Description : In Secure state, each bit controls whether instruction tracing
+//               is enabled for the corresponding exception level
+#define M33_TRCVICTLR_EXLEVEL_S0_RESET  _u(0x0)
+#define M33_TRCVICTLR_EXLEVEL_S0_BITS   _u(0x00010000)
+#define M33_TRCVICTLR_EXLEVEL_S0_MSB    _u(16)
+#define M33_TRCVICTLR_EXLEVEL_S0_LSB    _u(16)
+#define M33_TRCVICTLR_EXLEVEL_S0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_TRCERR
+// Description : Selects whether a system error exception must always be traced
+#define M33_TRCVICTLR_TRCERR_RESET  _u(0x0)
+#define M33_TRCVICTLR_TRCERR_BITS   _u(0x00000800)
+#define M33_TRCVICTLR_TRCERR_MSB    _u(11)
+#define M33_TRCVICTLR_TRCERR_LSB    _u(11)
+#define M33_TRCVICTLR_TRCERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_TRCRESET
+// Description : Selects whether a reset exception must always be traced
+#define M33_TRCVICTLR_TRCRESET_RESET  _u(0x0)
+#define M33_TRCVICTLR_TRCRESET_BITS   _u(0x00000400)
+#define M33_TRCVICTLR_TRCRESET_MSB    _u(10)
+#define M33_TRCVICTLR_TRCRESET_LSB    _u(10)
+#define M33_TRCVICTLR_TRCRESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_SSSTATUS
+// Description : Indicates the current status of the start/stop logic
+#define M33_TRCVICTLR_SSSTATUS_RESET  _u(0x0)
+#define M33_TRCVICTLR_SSSTATUS_BITS   _u(0x00000200)
+#define M33_TRCVICTLR_SSSTATUS_MSB    _u(9)
+#define M33_TRCVICTLR_SSSTATUS_LSB    _u(9)
+#define M33_TRCVICTLR_SSSTATUS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_TYPE0
+// Description : Selects the resource type for event 0
+#define M33_TRCVICTLR_TYPE0_RESET  _u(0x0)
+#define M33_TRCVICTLR_TYPE0_BITS   _u(0x00000080)
+#define M33_TRCVICTLR_TYPE0_MSB    _u(7)
+#define M33_TRCVICTLR_TYPE0_LSB    _u(7)
+#define M33_TRCVICTLR_TYPE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCVICTLR_SEL0
+// Description : Selects the resource number, based on the value of TYPE0: When
+//               TYPE1 is 0, selects a single selected resource from 0-15
+//               defined by SEL0[2:0].  When TYPE1 is 1, selects a Boolean
+//               combined resource pair from 0-7 defined by SEL0[2:0]
+#define M33_TRCVICTLR_SEL0_RESET  _u(0x0)
+#define M33_TRCVICTLR_SEL0_BITS   _u(0x00000003)
+#define M33_TRCVICTLR_SEL0_MSB    _u(1)
+#define M33_TRCVICTLR_SEL0_LSB    _u(0)
+#define M33_TRCVICTLR_SEL0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCCNTRLDVR0
+// Description : The TRCCNTRLDVR defines the reload value for the reduced
+//               function counter
+#define M33_TRCCNTRLDVR0_OFFSET _u(0x00041140)
+#define M33_TRCCNTRLDVR0_BITS   _u(0x0000ffff)
+#define M33_TRCCNTRLDVR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCNTRLDVR0_VALUE
+// Description : Defines the reload value for the counter. This value is loaded
+//               into the counter each time the reload event occurs
+#define M33_TRCCNTRLDVR0_VALUE_RESET  _u(0x0000)
+#define M33_TRCCNTRLDVR0_VALUE_BITS   _u(0x0000ffff)
+#define M33_TRCCNTRLDVR0_VALUE_MSB    _u(15)
+#define M33_TRCCNTRLDVR0_VALUE_LSB    _u(0)
+#define M33_TRCCNTRLDVR0_VALUE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCIDR8
+// Description : TRCIDR8
+#define M33_TRCIDR8_OFFSET _u(0x00041180)
+#define M33_TRCIDR8_BITS   _u(0xffffffff)
+#define M33_TRCIDR8_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR8_MAXSPEC
+// Description : reads as `ImpDef
+#define M33_TRCIDR8_MAXSPEC_RESET  _u(0x00000000)
+#define M33_TRCIDR8_MAXSPEC_BITS   _u(0xffffffff)
+#define M33_TRCIDR8_MAXSPEC_MSB    _u(31)
+#define M33_TRCIDR8_MAXSPEC_LSB    _u(0)
+#define M33_TRCIDR8_MAXSPEC_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR9
+// Description : TRCIDR9
+#define M33_TRCIDR9_OFFSET _u(0x00041184)
+#define M33_TRCIDR9_BITS   _u(0xffffffff)
+#define M33_TRCIDR9_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR9_NUMP0KEY
+// Description : reads as `ImpDef
+#define M33_TRCIDR9_NUMP0KEY_RESET  _u(0x00000000)
+#define M33_TRCIDR9_NUMP0KEY_BITS   _u(0xffffffff)
+#define M33_TRCIDR9_NUMP0KEY_MSB    _u(31)
+#define M33_TRCIDR9_NUMP0KEY_LSB    _u(0)
+#define M33_TRCIDR9_NUMP0KEY_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR10
+// Description : TRCIDR10
+#define M33_TRCIDR10_OFFSET _u(0x00041188)
+#define M33_TRCIDR10_BITS   _u(0xffffffff)
+#define M33_TRCIDR10_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR10_NUMP1KEY
+// Description : reads as `ImpDef
+#define M33_TRCIDR10_NUMP1KEY_RESET  _u(0x00000000)
+#define M33_TRCIDR10_NUMP1KEY_BITS   _u(0xffffffff)
+#define M33_TRCIDR10_NUMP1KEY_MSB    _u(31)
+#define M33_TRCIDR10_NUMP1KEY_LSB    _u(0)
+#define M33_TRCIDR10_NUMP1KEY_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR11
+// Description : TRCIDR11
+#define M33_TRCIDR11_OFFSET _u(0x0004118c)
+#define M33_TRCIDR11_BITS   _u(0xffffffff)
+#define M33_TRCIDR11_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR11_NUMP1SPC
+// Description : reads as `ImpDef
+#define M33_TRCIDR11_NUMP1SPC_RESET  _u(0x00000000)
+#define M33_TRCIDR11_NUMP1SPC_BITS   _u(0xffffffff)
+#define M33_TRCIDR11_NUMP1SPC_MSB    _u(31)
+#define M33_TRCIDR11_NUMP1SPC_LSB    _u(0)
+#define M33_TRCIDR11_NUMP1SPC_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR12
+// Description : TRCIDR12
+#define M33_TRCIDR12_OFFSET _u(0x00041190)
+#define M33_TRCIDR12_BITS   _u(0xffffffff)
+#define M33_TRCIDR12_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR12_NUMCONDKEY
+// Description : reads as `ImpDef
+#define M33_TRCIDR12_NUMCONDKEY_RESET  _u(0x00000001)
+#define M33_TRCIDR12_NUMCONDKEY_BITS   _u(0xffffffff)
+#define M33_TRCIDR12_NUMCONDKEY_MSB    _u(31)
+#define M33_TRCIDR12_NUMCONDKEY_LSB    _u(0)
+#define M33_TRCIDR12_NUMCONDKEY_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR13
+// Description : TRCIDR13
+#define M33_TRCIDR13_OFFSET _u(0x00041194)
+#define M33_TRCIDR13_BITS   _u(0xffffffff)
+#define M33_TRCIDR13_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR13_NUMCONDSPC
+// Description : reads as `ImpDef
+#define M33_TRCIDR13_NUMCONDSPC_RESET  _u(0x00000000)
+#define M33_TRCIDR13_NUMCONDSPC_BITS   _u(0xffffffff)
+#define M33_TRCIDR13_NUMCONDSPC_MSB    _u(31)
+#define M33_TRCIDR13_NUMCONDSPC_LSB    _u(0)
+#define M33_TRCIDR13_NUMCONDSPC_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIMSPEC
+// Description : The TRCIMSPEC shows the presence of any IMPLEMENTATION SPECIFIC
+//               features, and enables any features that are provided
+#define M33_TRCIMSPEC_OFFSET _u(0x000411c0)
+#define M33_TRCIMSPEC_BITS   _u(0x0000000f)
+#define M33_TRCIMSPEC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIMSPEC_SUPPORT
+// Description : Reserved, RES0
+#define M33_TRCIMSPEC_SUPPORT_RESET  _u(0x0)
+#define M33_TRCIMSPEC_SUPPORT_BITS   _u(0x0000000f)
+#define M33_TRCIMSPEC_SUPPORT_MSB    _u(3)
+#define M33_TRCIMSPEC_SUPPORT_LSB    _u(0)
+#define M33_TRCIMSPEC_SUPPORT_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR0
+// Description : TRCIDR0
+#define M33_TRCIDR0_OFFSET _u(0x000411e0)
+#define M33_TRCIDR0_BITS   _u(0x3f03feff)
+#define M33_TRCIDR0_RESET  _u(0x280006e1)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_COMMOPT
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_COMMOPT_RESET  _u(0x1)
+#define M33_TRCIDR0_COMMOPT_BITS   _u(0x20000000)
+#define M33_TRCIDR0_COMMOPT_MSB    _u(29)
+#define M33_TRCIDR0_COMMOPT_LSB    _u(29)
+#define M33_TRCIDR0_COMMOPT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TSSIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TSSIZE_RESET  _u(0x08)
+#define M33_TRCIDR0_TSSIZE_BITS   _u(0x1f000000)
+#define M33_TRCIDR0_TSSIZE_MSB    _u(28)
+#define M33_TRCIDR0_TSSIZE_LSB    _u(24)
+#define M33_TRCIDR0_TSSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TRCEXDATA
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TRCEXDATA_RESET  _u(0x0)
+#define M33_TRCIDR0_TRCEXDATA_BITS   _u(0x00020000)
+#define M33_TRCIDR0_TRCEXDATA_MSB    _u(17)
+#define M33_TRCIDR0_TRCEXDATA_LSB    _u(17)
+#define M33_TRCIDR0_TRCEXDATA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_QSUPP
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_QSUPP_RESET  _u(0x0)
+#define M33_TRCIDR0_QSUPP_BITS   _u(0x00018000)
+#define M33_TRCIDR0_QSUPP_MSB    _u(16)
+#define M33_TRCIDR0_QSUPP_LSB    _u(15)
+#define M33_TRCIDR0_QSUPP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_QFILT
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_QFILT_RESET  _u(0x0)
+#define M33_TRCIDR0_QFILT_BITS   _u(0x00004000)
+#define M33_TRCIDR0_QFILT_MSB    _u(14)
+#define M33_TRCIDR0_QFILT_LSB    _u(14)
+#define M33_TRCIDR0_QFILT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_CONDTYPE
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_CONDTYPE_RESET  _u(0x0)
+#define M33_TRCIDR0_CONDTYPE_BITS   _u(0x00003000)
+#define M33_TRCIDR0_CONDTYPE_MSB    _u(13)
+#define M33_TRCIDR0_CONDTYPE_LSB    _u(12)
+#define M33_TRCIDR0_CONDTYPE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_NUMEVENT
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_NUMEVENT_RESET  _u(0x1)
+#define M33_TRCIDR0_NUMEVENT_BITS   _u(0x00000c00)
+#define M33_TRCIDR0_NUMEVENT_MSB    _u(11)
+#define M33_TRCIDR0_NUMEVENT_LSB    _u(10)
+#define M33_TRCIDR0_NUMEVENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_RETSTACK
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_RETSTACK_RESET  _u(0x1)
+#define M33_TRCIDR0_RETSTACK_BITS   _u(0x00000200)
+#define M33_TRCIDR0_RETSTACK_MSB    _u(9)
+#define M33_TRCIDR0_RETSTACK_LSB    _u(9)
+#define M33_TRCIDR0_RETSTACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TRCCCI
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TRCCCI_RESET  _u(0x1)
+#define M33_TRCIDR0_TRCCCI_BITS   _u(0x00000080)
+#define M33_TRCIDR0_TRCCCI_MSB    _u(7)
+#define M33_TRCIDR0_TRCCCI_LSB    _u(7)
+#define M33_TRCIDR0_TRCCCI_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TRCCOND
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TRCCOND_RESET  _u(0x1)
+#define M33_TRCIDR0_TRCCOND_BITS   _u(0x00000040)
+#define M33_TRCIDR0_TRCCOND_MSB    _u(6)
+#define M33_TRCIDR0_TRCCOND_LSB    _u(6)
+#define M33_TRCIDR0_TRCCOND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TRCBB
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TRCBB_RESET  _u(0x1)
+#define M33_TRCIDR0_TRCBB_BITS   _u(0x00000020)
+#define M33_TRCIDR0_TRCBB_MSB    _u(5)
+#define M33_TRCIDR0_TRCBB_LSB    _u(5)
+#define M33_TRCIDR0_TRCBB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_TRCDATA
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_TRCDATA_RESET  _u(0x0)
+#define M33_TRCIDR0_TRCDATA_BITS   _u(0x00000018)
+#define M33_TRCIDR0_TRCDATA_MSB    _u(4)
+#define M33_TRCIDR0_TRCDATA_LSB    _u(3)
+#define M33_TRCIDR0_TRCDATA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_INSTP0
+// Description : reads as `ImpDef
+#define M33_TRCIDR0_INSTP0_RESET  _u(0x0)
+#define M33_TRCIDR0_INSTP0_BITS   _u(0x00000006)
+#define M33_TRCIDR0_INSTP0_MSB    _u(2)
+#define M33_TRCIDR0_INSTP0_LSB    _u(1)
+#define M33_TRCIDR0_INSTP0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR0_RES1
+// Description : Reserved, RES1
+#define M33_TRCIDR0_RES1_RESET  _u(0x1)
+#define M33_TRCIDR0_RES1_BITS   _u(0x00000001)
+#define M33_TRCIDR0_RES1_MSB    _u(0)
+#define M33_TRCIDR0_RES1_LSB    _u(0)
+#define M33_TRCIDR0_RES1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR1
+// Description : TRCIDR1
+#define M33_TRCIDR1_OFFSET _u(0x000411e4)
+#define M33_TRCIDR1_BITS   _u(0xff00ffff)
+#define M33_TRCIDR1_RESET  _u(0x4100f421)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR1_DESIGNER
+// Description : reads as `ImpDef
+#define M33_TRCIDR1_DESIGNER_RESET  _u(0x41)
+#define M33_TRCIDR1_DESIGNER_BITS   _u(0xff000000)
+#define M33_TRCIDR1_DESIGNER_MSB    _u(31)
+#define M33_TRCIDR1_DESIGNER_LSB    _u(24)
+#define M33_TRCIDR1_DESIGNER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR1_RES1
+// Description : Reserved, RES1
+#define M33_TRCIDR1_RES1_RESET  _u(0xf)
+#define M33_TRCIDR1_RES1_BITS   _u(0x0000f000)
+#define M33_TRCIDR1_RES1_MSB    _u(15)
+#define M33_TRCIDR1_RES1_LSB    _u(12)
+#define M33_TRCIDR1_RES1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR1_TRCARCHMAJ
+// Description : reads as 0b0100
+#define M33_TRCIDR1_TRCARCHMAJ_RESET  _u(0x4)
+#define M33_TRCIDR1_TRCARCHMAJ_BITS   _u(0x00000f00)
+#define M33_TRCIDR1_TRCARCHMAJ_MSB    _u(11)
+#define M33_TRCIDR1_TRCARCHMAJ_LSB    _u(8)
+#define M33_TRCIDR1_TRCARCHMAJ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR1_TRCARCHMIN
+// Description : reads as 0b0000
+#define M33_TRCIDR1_TRCARCHMIN_RESET  _u(0x2)
+#define M33_TRCIDR1_TRCARCHMIN_BITS   _u(0x000000f0)
+#define M33_TRCIDR1_TRCARCHMIN_MSB    _u(7)
+#define M33_TRCIDR1_TRCARCHMIN_LSB    _u(4)
+#define M33_TRCIDR1_TRCARCHMIN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR1_REVISION
+// Description : reads as `ImpDef
+#define M33_TRCIDR1_REVISION_RESET  _u(0x1)
+#define M33_TRCIDR1_REVISION_BITS   _u(0x0000000f)
+#define M33_TRCIDR1_REVISION_MSB    _u(3)
+#define M33_TRCIDR1_REVISION_LSB    _u(0)
+#define M33_TRCIDR1_REVISION_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR2
+// Description : TRCIDR2
+#define M33_TRCIDR2_OFFSET _u(0x000411e8)
+#define M33_TRCIDR2_BITS   _u(0x1fffffff)
+#define M33_TRCIDR2_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_CCSIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_CCSIZE_RESET  _u(0x0)
+#define M33_TRCIDR2_CCSIZE_BITS   _u(0x1e000000)
+#define M33_TRCIDR2_CCSIZE_MSB    _u(28)
+#define M33_TRCIDR2_CCSIZE_LSB    _u(25)
+#define M33_TRCIDR2_CCSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_DVSIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_DVSIZE_RESET  _u(0x00)
+#define M33_TRCIDR2_DVSIZE_BITS   _u(0x01f00000)
+#define M33_TRCIDR2_DVSIZE_MSB    _u(24)
+#define M33_TRCIDR2_DVSIZE_LSB    _u(20)
+#define M33_TRCIDR2_DVSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_DASIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_DASIZE_RESET  _u(0x00)
+#define M33_TRCIDR2_DASIZE_BITS   _u(0x000f8000)
+#define M33_TRCIDR2_DASIZE_MSB    _u(19)
+#define M33_TRCIDR2_DASIZE_LSB    _u(15)
+#define M33_TRCIDR2_DASIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_VMIDSIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_VMIDSIZE_RESET  _u(0x00)
+#define M33_TRCIDR2_VMIDSIZE_BITS   _u(0x00007c00)
+#define M33_TRCIDR2_VMIDSIZE_MSB    _u(14)
+#define M33_TRCIDR2_VMIDSIZE_LSB    _u(10)
+#define M33_TRCIDR2_VMIDSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_CIDSIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_CIDSIZE_RESET  _u(0x00)
+#define M33_TRCIDR2_CIDSIZE_BITS   _u(0x000003e0)
+#define M33_TRCIDR2_CIDSIZE_MSB    _u(9)
+#define M33_TRCIDR2_CIDSIZE_LSB    _u(5)
+#define M33_TRCIDR2_CIDSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR2_IASIZE
+// Description : reads as `ImpDef
+#define M33_TRCIDR2_IASIZE_RESET  _u(0x04)
+#define M33_TRCIDR2_IASIZE_BITS   _u(0x0000001f)
+#define M33_TRCIDR2_IASIZE_MSB    _u(4)
+#define M33_TRCIDR2_IASIZE_LSB    _u(0)
+#define M33_TRCIDR2_IASIZE_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR3
+// Description : TRCIDR3
+#define M33_TRCIDR3_OFFSET _u(0x000411ec)
+#define M33_TRCIDR3_BITS   _u(0xffff0fff)
+#define M33_TRCIDR3_RESET  _u(0x0f090004)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_NOOVERFLOW
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_NOOVERFLOW_RESET  _u(0x0)
+#define M33_TRCIDR3_NOOVERFLOW_BITS   _u(0x80000000)
+#define M33_TRCIDR3_NOOVERFLOW_MSB    _u(31)
+#define M33_TRCIDR3_NOOVERFLOW_LSB    _u(31)
+#define M33_TRCIDR3_NOOVERFLOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_NUMPROC
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_NUMPROC_RESET  _u(0x0)
+#define M33_TRCIDR3_NUMPROC_BITS   _u(0x70000000)
+#define M33_TRCIDR3_NUMPROC_MSB    _u(30)
+#define M33_TRCIDR3_NUMPROC_LSB    _u(28)
+#define M33_TRCIDR3_NUMPROC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_SYSSTALL
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_SYSSTALL_RESET  _u(0x1)
+#define M33_TRCIDR3_SYSSTALL_BITS   _u(0x08000000)
+#define M33_TRCIDR3_SYSSTALL_MSB    _u(27)
+#define M33_TRCIDR3_SYSSTALL_LSB    _u(27)
+#define M33_TRCIDR3_SYSSTALL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_STALLCTL
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_STALLCTL_RESET  _u(0x1)
+#define M33_TRCIDR3_STALLCTL_BITS   _u(0x04000000)
+#define M33_TRCIDR3_STALLCTL_MSB    _u(26)
+#define M33_TRCIDR3_STALLCTL_LSB    _u(26)
+#define M33_TRCIDR3_STALLCTL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_SYNCPR
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_SYNCPR_RESET  _u(0x1)
+#define M33_TRCIDR3_SYNCPR_BITS   _u(0x02000000)
+#define M33_TRCIDR3_SYNCPR_MSB    _u(25)
+#define M33_TRCIDR3_SYNCPR_LSB    _u(25)
+#define M33_TRCIDR3_SYNCPR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_TRCERR
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_TRCERR_RESET  _u(0x1)
+#define M33_TRCIDR3_TRCERR_BITS   _u(0x01000000)
+#define M33_TRCIDR3_TRCERR_MSB    _u(24)
+#define M33_TRCIDR3_TRCERR_LSB    _u(24)
+#define M33_TRCIDR3_TRCERR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_EXLEVEL_NS
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_EXLEVEL_NS_RESET  _u(0x0)
+#define M33_TRCIDR3_EXLEVEL_NS_BITS   _u(0x00f00000)
+#define M33_TRCIDR3_EXLEVEL_NS_MSB    _u(23)
+#define M33_TRCIDR3_EXLEVEL_NS_LSB    _u(20)
+#define M33_TRCIDR3_EXLEVEL_NS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_EXLEVEL_S
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_EXLEVEL_S_RESET  _u(0x9)
+#define M33_TRCIDR3_EXLEVEL_S_BITS   _u(0x000f0000)
+#define M33_TRCIDR3_EXLEVEL_S_MSB    _u(19)
+#define M33_TRCIDR3_EXLEVEL_S_LSB    _u(16)
+#define M33_TRCIDR3_EXLEVEL_S_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR3_CCITMIN
+// Description : reads as `ImpDef
+#define M33_TRCIDR3_CCITMIN_RESET  _u(0x004)
+#define M33_TRCIDR3_CCITMIN_BITS   _u(0x00000fff)
+#define M33_TRCIDR3_CCITMIN_MSB    _u(11)
+#define M33_TRCIDR3_CCITMIN_LSB    _u(0)
+#define M33_TRCIDR3_CCITMIN_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR4
+// Description : TRCIDR4
+#define M33_TRCIDR4_OFFSET _u(0x000411f0)
+#define M33_TRCIDR4_BITS   _u(0xfffff1ff)
+#define M33_TRCIDR4_RESET  _u(0x00114000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMVMIDC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMVMIDC_RESET  _u(0x0)
+#define M33_TRCIDR4_NUMVMIDC_BITS   _u(0xf0000000)
+#define M33_TRCIDR4_NUMVMIDC_MSB    _u(31)
+#define M33_TRCIDR4_NUMVMIDC_LSB    _u(28)
+#define M33_TRCIDR4_NUMVMIDC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMCIDC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMCIDC_RESET  _u(0x0)
+#define M33_TRCIDR4_NUMCIDC_BITS   _u(0x0f000000)
+#define M33_TRCIDR4_NUMCIDC_MSB    _u(27)
+#define M33_TRCIDR4_NUMCIDC_LSB    _u(24)
+#define M33_TRCIDR4_NUMCIDC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMSSCC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMSSCC_RESET  _u(0x1)
+#define M33_TRCIDR4_NUMSSCC_BITS   _u(0x00f00000)
+#define M33_TRCIDR4_NUMSSCC_MSB    _u(23)
+#define M33_TRCIDR4_NUMSSCC_LSB    _u(20)
+#define M33_TRCIDR4_NUMSSCC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMRSPAIR
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMRSPAIR_RESET  _u(0x1)
+#define M33_TRCIDR4_NUMRSPAIR_BITS   _u(0x000f0000)
+#define M33_TRCIDR4_NUMRSPAIR_MSB    _u(19)
+#define M33_TRCIDR4_NUMRSPAIR_LSB    _u(16)
+#define M33_TRCIDR4_NUMRSPAIR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMPC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMPC_RESET  _u(0x4)
+#define M33_TRCIDR4_NUMPC_BITS   _u(0x0000f000)
+#define M33_TRCIDR4_NUMPC_MSB    _u(15)
+#define M33_TRCIDR4_NUMPC_LSB    _u(12)
+#define M33_TRCIDR4_NUMPC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_SUPPDAC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_SUPPDAC_RESET  _u(0x0)
+#define M33_TRCIDR4_SUPPDAC_BITS   _u(0x00000100)
+#define M33_TRCIDR4_SUPPDAC_MSB    _u(8)
+#define M33_TRCIDR4_SUPPDAC_LSB    _u(8)
+#define M33_TRCIDR4_SUPPDAC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMDVC
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMDVC_RESET  _u(0x0)
+#define M33_TRCIDR4_NUMDVC_BITS   _u(0x000000f0)
+#define M33_TRCIDR4_NUMDVC_MSB    _u(7)
+#define M33_TRCIDR4_NUMDVC_LSB    _u(4)
+#define M33_TRCIDR4_NUMDVC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR4_NUMACPAIRS
+// Description : reads as `ImpDef
+#define M33_TRCIDR4_NUMACPAIRS_RESET  _u(0x0)
+#define M33_TRCIDR4_NUMACPAIRS_BITS   _u(0x0000000f)
+#define M33_TRCIDR4_NUMACPAIRS_MSB    _u(3)
+#define M33_TRCIDR4_NUMACPAIRS_LSB    _u(0)
+#define M33_TRCIDR4_NUMACPAIRS_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR5
+// Description : TRCIDR5
+#define M33_TRCIDR5_OFFSET _u(0x000411f4)
+#define M33_TRCIDR5_BITS   _u(0xfeff0fff)
+#define M33_TRCIDR5_RESET  _u(0x90c70004)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_REDFUNCNTR
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_REDFUNCNTR_RESET  _u(0x1)
+#define M33_TRCIDR5_REDFUNCNTR_BITS   _u(0x80000000)
+#define M33_TRCIDR5_REDFUNCNTR_MSB    _u(31)
+#define M33_TRCIDR5_REDFUNCNTR_LSB    _u(31)
+#define M33_TRCIDR5_REDFUNCNTR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_NUMCNTR
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_NUMCNTR_RESET  _u(0x1)
+#define M33_TRCIDR5_NUMCNTR_BITS   _u(0x70000000)
+#define M33_TRCIDR5_NUMCNTR_MSB    _u(30)
+#define M33_TRCIDR5_NUMCNTR_LSB    _u(28)
+#define M33_TRCIDR5_NUMCNTR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_NUMSEQSTATE
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_NUMSEQSTATE_RESET  _u(0x0)
+#define M33_TRCIDR5_NUMSEQSTATE_BITS   _u(0x0e000000)
+#define M33_TRCIDR5_NUMSEQSTATE_MSB    _u(27)
+#define M33_TRCIDR5_NUMSEQSTATE_LSB    _u(25)
+#define M33_TRCIDR5_NUMSEQSTATE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_LPOVERRIDE
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_LPOVERRIDE_RESET  _u(0x1)
+#define M33_TRCIDR5_LPOVERRIDE_BITS   _u(0x00800000)
+#define M33_TRCIDR5_LPOVERRIDE_MSB    _u(23)
+#define M33_TRCIDR5_LPOVERRIDE_LSB    _u(23)
+#define M33_TRCIDR5_LPOVERRIDE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_ATBTRIG
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_ATBTRIG_RESET  _u(0x1)
+#define M33_TRCIDR5_ATBTRIG_BITS   _u(0x00400000)
+#define M33_TRCIDR5_ATBTRIG_MSB    _u(22)
+#define M33_TRCIDR5_ATBTRIG_LSB    _u(22)
+#define M33_TRCIDR5_ATBTRIG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_TRACEIDSIZE
+// Description : reads as 0x07
+#define M33_TRCIDR5_TRACEIDSIZE_RESET  _u(0x07)
+#define M33_TRCIDR5_TRACEIDSIZE_BITS   _u(0x003f0000)
+#define M33_TRCIDR5_TRACEIDSIZE_MSB    _u(21)
+#define M33_TRCIDR5_TRACEIDSIZE_LSB    _u(16)
+#define M33_TRCIDR5_TRACEIDSIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_NUMEXTINSEL
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_NUMEXTINSEL_RESET  _u(0x0)
+#define M33_TRCIDR5_NUMEXTINSEL_BITS   _u(0x00000e00)
+#define M33_TRCIDR5_NUMEXTINSEL_MSB    _u(11)
+#define M33_TRCIDR5_NUMEXTINSEL_LSB    _u(9)
+#define M33_TRCIDR5_NUMEXTINSEL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCIDR5_NUMEXTIN
+// Description : reads as `ImpDef
+#define M33_TRCIDR5_NUMEXTIN_RESET  _u(0x004)
+#define M33_TRCIDR5_NUMEXTIN_BITS   _u(0x000001ff)
+#define M33_TRCIDR5_NUMEXTIN_MSB    _u(8)
+#define M33_TRCIDR5_NUMEXTIN_LSB    _u(0)
+#define M33_TRCIDR5_NUMEXTIN_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCIDR6
+// Description : TRCIDR6
+#define M33_TRCIDR6_OFFSET _u(0x000411f8)
+#define M33_TRCIDR6_BITS   _u(0x00000000)
+#define M33_TRCIDR6_RESET  _u(0x00000000)
+#define M33_TRCIDR6_MSB    _u(31)
+#define M33_TRCIDR6_LSB    _u(0)
+#define M33_TRCIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCIDR7
+// Description : TRCIDR7
+#define M33_TRCIDR7_OFFSET _u(0x000411fc)
+#define M33_TRCIDR7_BITS   _u(0x00000000)
+#define M33_TRCIDR7_RESET  _u(0x00000000)
+#define M33_TRCIDR7_MSB    _u(31)
+#define M33_TRCIDR7_LSB    _u(0)
+#define M33_TRCIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCRSCTLR2
+// Description : The TRCRSCTLR controls the trace resources
+#define M33_TRCRSCTLR2_OFFSET _u(0x00041208)
+#define M33_TRCRSCTLR2_BITS   _u(0x003700ff)
+#define M33_TRCRSCTLR2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR2_PAIRINV
+// Description : Inverts the result of a combined pair of resources.  This bit
+//               is only implemented on the lower register for a pair of
+//               resource selectors
+#define M33_TRCRSCTLR2_PAIRINV_RESET  _u(0x0)
+#define M33_TRCRSCTLR2_PAIRINV_BITS   _u(0x00200000)
+#define M33_TRCRSCTLR2_PAIRINV_MSB    _u(21)
+#define M33_TRCRSCTLR2_PAIRINV_LSB    _u(21)
+#define M33_TRCRSCTLR2_PAIRINV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR2_INV
+// Description : Inverts the selected resources
+#define M33_TRCRSCTLR2_INV_RESET  _u(0x0)
+#define M33_TRCRSCTLR2_INV_BITS   _u(0x00100000)
+#define M33_TRCRSCTLR2_INV_MSB    _u(20)
+#define M33_TRCRSCTLR2_INV_LSB    _u(20)
+#define M33_TRCRSCTLR2_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR2_GROUP
+// Description : Selects a group of resource
+#define M33_TRCRSCTLR2_GROUP_RESET  _u(0x0)
+#define M33_TRCRSCTLR2_GROUP_BITS   _u(0x00070000)
+#define M33_TRCRSCTLR2_GROUP_MSB    _u(18)
+#define M33_TRCRSCTLR2_GROUP_LSB    _u(16)
+#define M33_TRCRSCTLR2_GROUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR2_SELECT
+// Description : Selects one or more resources from the wanted group. One bit is
+//               provided per resource from the group
+#define M33_TRCRSCTLR2_SELECT_RESET  _u(0x00)
+#define M33_TRCRSCTLR2_SELECT_BITS   _u(0x000000ff)
+#define M33_TRCRSCTLR2_SELECT_MSB    _u(7)
+#define M33_TRCRSCTLR2_SELECT_LSB    _u(0)
+#define M33_TRCRSCTLR2_SELECT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCRSCTLR3
+// Description : The TRCRSCTLR controls the trace resources
+#define M33_TRCRSCTLR3_OFFSET _u(0x0004120c)
+#define M33_TRCRSCTLR3_BITS   _u(0x003700ff)
+#define M33_TRCRSCTLR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR3_PAIRINV
+// Description : Inverts the result of a combined pair of resources.  This bit
+//               is only implemented on the lower register for a pair of
+//               resource selectors
+#define M33_TRCRSCTLR3_PAIRINV_RESET  _u(0x0)
+#define M33_TRCRSCTLR3_PAIRINV_BITS   _u(0x00200000)
+#define M33_TRCRSCTLR3_PAIRINV_MSB    _u(21)
+#define M33_TRCRSCTLR3_PAIRINV_LSB    _u(21)
+#define M33_TRCRSCTLR3_PAIRINV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR3_INV
+// Description : Inverts the selected resources
+#define M33_TRCRSCTLR3_INV_RESET  _u(0x0)
+#define M33_TRCRSCTLR3_INV_BITS   _u(0x00100000)
+#define M33_TRCRSCTLR3_INV_MSB    _u(20)
+#define M33_TRCRSCTLR3_INV_LSB    _u(20)
+#define M33_TRCRSCTLR3_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR3_GROUP
+// Description : Selects a group of resource
+#define M33_TRCRSCTLR3_GROUP_RESET  _u(0x0)
+#define M33_TRCRSCTLR3_GROUP_BITS   _u(0x00070000)
+#define M33_TRCRSCTLR3_GROUP_MSB    _u(18)
+#define M33_TRCRSCTLR3_GROUP_LSB    _u(16)
+#define M33_TRCRSCTLR3_GROUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCRSCTLR3_SELECT
+// Description : Selects one or more resources from the wanted group. One bit is
+//               provided per resource from the group
+#define M33_TRCRSCTLR3_SELECT_RESET  _u(0x00)
+#define M33_TRCRSCTLR3_SELECT_BITS   _u(0x000000ff)
+#define M33_TRCRSCTLR3_SELECT_MSB    _u(7)
+#define M33_TRCRSCTLR3_SELECT_LSB    _u(0)
+#define M33_TRCRSCTLR3_SELECT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCSSCSR
+// Description : Controls the corresponding single-shot comparator resource
+#define M33_TRCSSCSR_OFFSET _u(0x000412a0)
+#define M33_TRCSSCSR_BITS   _u(0x8000000f)
+#define M33_TRCSSCSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSCSR_STATUS
+// Description : Single-shot status bit. Indicates if any of the comparators,
+//               that TRCSSCCRn.SAC or TRCSSCCRn.ARC selects, have matched
+#define M33_TRCSSCSR_STATUS_RESET  _u(0x0)
+#define M33_TRCSSCSR_STATUS_BITS   _u(0x80000000)
+#define M33_TRCSSCSR_STATUS_MSB    _u(31)
+#define M33_TRCSSCSR_STATUS_LSB    _u(31)
+#define M33_TRCSSCSR_STATUS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSCSR_PC
+// Description : Reserved, RES1
+#define M33_TRCSSCSR_PC_RESET  _u(0x0)
+#define M33_TRCSSCSR_PC_BITS   _u(0x00000008)
+#define M33_TRCSSCSR_PC_MSB    _u(3)
+#define M33_TRCSSCSR_PC_LSB    _u(3)
+#define M33_TRCSSCSR_PC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSCSR_DV
+// Description : Reserved, RES0
+#define M33_TRCSSCSR_DV_RESET  _u(0x0)
+#define M33_TRCSSCSR_DV_BITS   _u(0x00000004)
+#define M33_TRCSSCSR_DV_MSB    _u(2)
+#define M33_TRCSSCSR_DV_LSB    _u(2)
+#define M33_TRCSSCSR_DV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSCSR_DA
+// Description : Reserved, RES0
+#define M33_TRCSSCSR_DA_RESET  _u(0x0)
+#define M33_TRCSSCSR_DA_BITS   _u(0x00000002)
+#define M33_TRCSSCSR_DA_MSB    _u(1)
+#define M33_TRCSSCSR_DA_LSB    _u(1)
+#define M33_TRCSSCSR_DA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSCSR_INST
+// Description : Reserved, RES0
+#define M33_TRCSSCSR_INST_RESET  _u(0x0)
+#define M33_TRCSSCSR_INST_BITS   _u(0x00000001)
+#define M33_TRCSSCSR_INST_MSB    _u(0)
+#define M33_TRCSSCSR_INST_LSB    _u(0)
+#define M33_TRCSSCSR_INST_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCSSPCICR
+// Description : Selects the PE comparator inputs for Single-shot control
+#define M33_TRCSSPCICR_OFFSET _u(0x000412c0)
+#define M33_TRCSSPCICR_BITS   _u(0x0000000f)
+#define M33_TRCSSPCICR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCSSPCICR_PC
+// Description : Selects one or more PE comparator inputs for Single-shot
+//               control.  TRCIDR4.NUMPC defines the size of the PC field.  1
+//               bit is provided for each implemented PE comparator input.  For
+//               example, if bit[1] == 1 this selects PE comparator input 1 for
+//               Single-shot control
+#define M33_TRCSSPCICR_PC_RESET  _u(0x0)
+#define M33_TRCSSPCICR_PC_BITS   _u(0x0000000f)
+#define M33_TRCSSPCICR_PC_MSB    _u(3)
+#define M33_TRCSSPCICR_PC_LSB    _u(0)
+#define M33_TRCSSPCICR_PC_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCPDCR
+// Description : Requests the system to provide power to the trace unit
+#define M33_TRCPDCR_OFFSET _u(0x00041310)
+#define M33_TRCPDCR_BITS   _u(0x00000008)
+#define M33_TRCPDCR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPDCR_PU
+// Description : Powerup request bit:
+#define M33_TRCPDCR_PU_RESET  _u(0x0)
+#define M33_TRCPDCR_PU_BITS   _u(0x00000008)
+#define M33_TRCPDCR_PU_MSB    _u(3)
+#define M33_TRCPDCR_PU_LSB    _u(3)
+#define M33_TRCPDCR_PU_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCPDSR
+// Description : Returns the following information about the trace unit: - OS
+//               Lock status.  - Core power domain status.  - Power interruption
+//               status
+#define M33_TRCPDSR_OFFSET _u(0x00041314)
+#define M33_TRCPDSR_BITS   _u(0x00000023)
+#define M33_TRCPDSR_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPDSR_OSLK
+// Description : OS Lock status bit:
+#define M33_TRCPDSR_OSLK_RESET  _u(0x0)
+#define M33_TRCPDSR_OSLK_BITS   _u(0x00000020)
+#define M33_TRCPDSR_OSLK_MSB    _u(5)
+#define M33_TRCPDSR_OSLK_LSB    _u(5)
+#define M33_TRCPDSR_OSLK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPDSR_STICKYPD
+// Description : Sticky powerdown status bit. Indicates whether the trace
+//               register state is valid:
+#define M33_TRCPDSR_STICKYPD_RESET  _u(0x1)
+#define M33_TRCPDSR_STICKYPD_BITS   _u(0x00000002)
+#define M33_TRCPDSR_STICKYPD_MSB    _u(1)
+#define M33_TRCPDSR_STICKYPD_LSB    _u(1)
+#define M33_TRCPDSR_STICKYPD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPDSR_POWER
+// Description : Power status bit:
+#define M33_TRCPDSR_POWER_RESET  _u(0x1)
+#define M33_TRCPDSR_POWER_BITS   _u(0x00000001)
+#define M33_TRCPDSR_POWER_MSB    _u(0)
+#define M33_TRCPDSR_POWER_LSB    _u(0)
+#define M33_TRCPDSR_POWER_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCITATBIDR
+// Description : Trace Integration ATB Identification Register
+#define M33_TRCITATBIDR_OFFSET _u(0x00041ee4)
+#define M33_TRCITATBIDR_BITS   _u(0x0000007f)
+#define M33_TRCITATBIDR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCITATBIDR_ID
+// Description : Trace ID
+#define M33_TRCITATBIDR_ID_RESET  _u(0x00)
+#define M33_TRCITATBIDR_ID_BITS   _u(0x0000007f)
+#define M33_TRCITATBIDR_ID_MSB    _u(6)
+#define M33_TRCITATBIDR_ID_LSB    _u(0)
+#define M33_TRCITATBIDR_ID_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCITIATBINR
+// Description : Trace Integration Instruction ATB In Register
+#define M33_TRCITIATBINR_OFFSET _u(0x00041ef4)
+#define M33_TRCITIATBINR_BITS   _u(0x00000003)
+#define M33_TRCITIATBINR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCITIATBINR_AFVALIDM
+// Description : Integration Mode instruction AFVALIDM in
+#define M33_TRCITIATBINR_AFVALIDM_RESET  _u(0x0)
+#define M33_TRCITIATBINR_AFVALIDM_BITS   _u(0x00000002)
+#define M33_TRCITIATBINR_AFVALIDM_MSB    _u(1)
+#define M33_TRCITIATBINR_AFVALIDM_LSB    _u(1)
+#define M33_TRCITIATBINR_AFVALIDM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCITIATBINR_ATREADYM
+// Description : Integration Mode instruction ATREADYM in
+#define M33_TRCITIATBINR_ATREADYM_RESET  _u(0x0)
+#define M33_TRCITIATBINR_ATREADYM_BITS   _u(0x00000001)
+#define M33_TRCITIATBINR_ATREADYM_MSB    _u(0)
+#define M33_TRCITIATBINR_ATREADYM_LSB    _u(0)
+#define M33_TRCITIATBINR_ATREADYM_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCITIATBOUTR
+// Description : Trace Integration Instruction ATB Out Register
+#define M33_TRCITIATBOUTR_OFFSET _u(0x00041efc)
+#define M33_TRCITIATBOUTR_BITS   _u(0x00000003)
+#define M33_TRCITIATBOUTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCITIATBOUTR_AFREADY
+// Description : Integration Mode instruction AFREADY out
+#define M33_TRCITIATBOUTR_AFREADY_RESET  _u(0x0)
+#define M33_TRCITIATBOUTR_AFREADY_BITS   _u(0x00000002)
+#define M33_TRCITIATBOUTR_AFREADY_MSB    _u(1)
+#define M33_TRCITIATBOUTR_AFREADY_LSB    _u(1)
+#define M33_TRCITIATBOUTR_AFREADY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCITIATBOUTR_ATVALID
+// Description : Integration Mode instruction ATVALID out
+#define M33_TRCITIATBOUTR_ATVALID_RESET  _u(0x0)
+#define M33_TRCITIATBOUTR_ATVALID_BITS   _u(0x00000001)
+#define M33_TRCITIATBOUTR_ATVALID_MSB    _u(0)
+#define M33_TRCITIATBOUTR_ATVALID_LSB    _u(0)
+#define M33_TRCITIATBOUTR_ATVALID_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCCLAIMSET
+// Description : Claim Tag Set Register
+#define M33_TRCCLAIMSET_OFFSET _u(0x00041fa0)
+#define M33_TRCCLAIMSET_BITS   _u(0x0000000f)
+#define M33_TRCCLAIMSET_RESET  _u(0x0000000f)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMSET_SET3
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMSET_SET3_RESET  _u(0x1)
+#define M33_TRCCLAIMSET_SET3_BITS   _u(0x00000008)
+#define M33_TRCCLAIMSET_SET3_MSB    _u(3)
+#define M33_TRCCLAIMSET_SET3_LSB    _u(3)
+#define M33_TRCCLAIMSET_SET3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMSET_SET2
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMSET_SET2_RESET  _u(0x1)
+#define M33_TRCCLAIMSET_SET2_BITS   _u(0x00000004)
+#define M33_TRCCLAIMSET_SET2_MSB    _u(2)
+#define M33_TRCCLAIMSET_SET2_LSB    _u(2)
+#define M33_TRCCLAIMSET_SET2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMSET_SET1
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMSET_SET1_RESET  _u(0x1)
+#define M33_TRCCLAIMSET_SET1_BITS   _u(0x00000002)
+#define M33_TRCCLAIMSET_SET1_MSB    _u(1)
+#define M33_TRCCLAIMSET_SET1_LSB    _u(1)
+#define M33_TRCCLAIMSET_SET1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMSET_SET0
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMSET_SET0_RESET  _u(0x1)
+#define M33_TRCCLAIMSET_SET0_BITS   _u(0x00000001)
+#define M33_TRCCLAIMSET_SET0_MSB    _u(0)
+#define M33_TRCCLAIMSET_SET0_LSB    _u(0)
+#define M33_TRCCLAIMSET_SET0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCCLAIMCLR
+// Description : Claim Tag Clear Register
+#define M33_TRCCLAIMCLR_OFFSET _u(0x00041fa4)
+#define M33_TRCCLAIMCLR_BITS   _u(0x0000000f)
+#define M33_TRCCLAIMCLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMCLR_CLR3
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMCLR_CLR3_RESET  _u(0x0)
+#define M33_TRCCLAIMCLR_CLR3_BITS   _u(0x00000008)
+#define M33_TRCCLAIMCLR_CLR3_MSB    _u(3)
+#define M33_TRCCLAIMCLR_CLR3_LSB    _u(3)
+#define M33_TRCCLAIMCLR_CLR3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMCLR_CLR2
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMCLR_CLR2_RESET  _u(0x0)
+#define M33_TRCCLAIMCLR_CLR2_BITS   _u(0x00000004)
+#define M33_TRCCLAIMCLR_CLR2_MSB    _u(2)
+#define M33_TRCCLAIMCLR_CLR2_LSB    _u(2)
+#define M33_TRCCLAIMCLR_CLR2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMCLR_CLR1
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMCLR_CLR1_RESET  _u(0x0)
+#define M33_TRCCLAIMCLR_CLR1_BITS   _u(0x00000002)
+#define M33_TRCCLAIMCLR_CLR1_MSB    _u(1)
+#define M33_TRCCLAIMCLR_CLR1_LSB    _u(1)
+#define M33_TRCCLAIMCLR_CLR1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCLAIMCLR_CLR0
+// Description : When a write to one of these bits occurs, with the value:
+#define M33_TRCCLAIMCLR_CLR0_RESET  _u(0x0)
+#define M33_TRCCLAIMCLR_CLR0_BITS   _u(0x00000001)
+#define M33_TRCCLAIMCLR_CLR0_MSB    _u(0)
+#define M33_TRCCLAIMCLR_CLR0_LSB    _u(0)
+#define M33_TRCCLAIMCLR_CLR0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCAUTHSTATUS
+// Description : Returns the level of tracing that the trace unit can support
+#define M33_TRCAUTHSTATUS_OFFSET _u(0x00041fb8)
+#define M33_TRCAUTHSTATUS_BITS   _u(0x000000ff)
+#define M33_TRCAUTHSTATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCAUTHSTATUS_SNID
+// Description : Indicates whether the system enables the trace unit to support
+//               Secure non-invasive debug:
+#define M33_TRCAUTHSTATUS_SNID_RESET  _u(0x0)
+#define M33_TRCAUTHSTATUS_SNID_BITS   _u(0x000000c0)
+#define M33_TRCAUTHSTATUS_SNID_MSB    _u(7)
+#define M33_TRCAUTHSTATUS_SNID_LSB    _u(6)
+#define M33_TRCAUTHSTATUS_SNID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCAUTHSTATUS_SID
+// Description : Indicates whether the trace unit supports Secure invasive
+//               debug:
+#define M33_TRCAUTHSTATUS_SID_RESET  _u(0x0)
+#define M33_TRCAUTHSTATUS_SID_BITS   _u(0x00000030)
+#define M33_TRCAUTHSTATUS_SID_MSB    _u(5)
+#define M33_TRCAUTHSTATUS_SID_LSB    _u(4)
+#define M33_TRCAUTHSTATUS_SID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCAUTHSTATUS_NSNID
+// Description : Indicates whether the system enables the trace unit to support
+//               Non-secure non-invasive debug:
+#define M33_TRCAUTHSTATUS_NSNID_RESET  _u(0x0)
+#define M33_TRCAUTHSTATUS_NSNID_BITS   _u(0x0000000c)
+#define M33_TRCAUTHSTATUS_NSNID_MSB    _u(3)
+#define M33_TRCAUTHSTATUS_NSNID_LSB    _u(2)
+#define M33_TRCAUTHSTATUS_NSNID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCAUTHSTATUS_NSID
+// Description : Indicates whether the trace unit supports Non-secure invasive
+//               debug:
+#define M33_TRCAUTHSTATUS_NSID_RESET  _u(0x0)
+#define M33_TRCAUTHSTATUS_NSID_BITS   _u(0x00000003)
+#define M33_TRCAUTHSTATUS_NSID_MSB    _u(1)
+#define M33_TRCAUTHSTATUS_NSID_LSB    _u(0)
+#define M33_TRCAUTHSTATUS_NSID_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCDEVARCH
+// Description : TRCDEVARCH
+#define M33_TRCDEVARCH_OFFSET _u(0x00041fbc)
+#define M33_TRCDEVARCH_BITS   _u(0xffffffff)
+#define M33_TRCDEVARCH_RESET  _u(0x47724a13)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVARCH_ARCHITECT
+// Description : reads as 0b01000111011
+#define M33_TRCDEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_TRCDEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_TRCDEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_TRCDEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_TRCDEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVARCH_PRESENT
+// Description : reads as 0b1
+#define M33_TRCDEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_TRCDEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_TRCDEVARCH_PRESENT_MSB    _u(20)
+#define M33_TRCDEVARCH_PRESENT_LSB    _u(20)
+#define M33_TRCDEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVARCH_REVISION
+// Description : reads as 0b0000
+#define M33_TRCDEVARCH_REVISION_RESET  _u(0x2)
+#define M33_TRCDEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_TRCDEVARCH_REVISION_MSB    _u(19)
+#define M33_TRCDEVARCH_REVISION_LSB    _u(16)
+#define M33_TRCDEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVARCH_ARCHID
+// Description : reads as 0b0100101000010011
+#define M33_TRCDEVARCH_ARCHID_RESET  _u(0x4a13)
+#define M33_TRCDEVARCH_ARCHID_BITS   _u(0x0000ffff)
+#define M33_TRCDEVARCH_ARCHID_MSB    _u(15)
+#define M33_TRCDEVARCH_ARCHID_LSB    _u(0)
+#define M33_TRCDEVARCH_ARCHID_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCDEVID
+// Description : TRCDEVID
+#define M33_TRCDEVID_OFFSET _u(0x00041fc8)
+#define M33_TRCDEVID_BITS   _u(0x00000000)
+#define M33_TRCDEVID_RESET  _u(0x00000000)
+#define M33_TRCDEVID_MSB    _u(31)
+#define M33_TRCDEVID_LSB    _u(0)
+#define M33_TRCDEVID_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCDEVTYPE
+// Description : TRCDEVTYPE
+#define M33_TRCDEVTYPE_OFFSET _u(0x00041fcc)
+#define M33_TRCDEVTYPE_BITS   _u(0x000000ff)
+#define M33_TRCDEVTYPE_RESET  _u(0x00000013)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVTYPE_SUB
+// Description : reads as 0b0001
+#define M33_TRCDEVTYPE_SUB_RESET  _u(0x1)
+#define M33_TRCDEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_TRCDEVTYPE_SUB_MSB    _u(7)
+#define M33_TRCDEVTYPE_SUB_LSB    _u(4)
+#define M33_TRCDEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCDEVTYPE_MAJOR
+// Description : reads as 0b0011
+#define M33_TRCDEVTYPE_MAJOR_RESET  _u(0x3)
+#define M33_TRCDEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_TRCDEVTYPE_MAJOR_MSB    _u(3)
+#define M33_TRCDEVTYPE_MAJOR_LSB    _u(0)
+#define M33_TRCDEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPIDR4
+// Description : TRCPIDR4
+#define M33_TRCPIDR4_OFFSET _u(0x00041fd0)
+#define M33_TRCPIDR4_BITS   _u(0x000000ff)
+#define M33_TRCPIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR4_SIZE
+// Description : reads as `ImpDef
+#define M33_TRCPIDR4_SIZE_RESET  _u(0x0)
+#define M33_TRCPIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_TRCPIDR4_SIZE_MSB    _u(7)
+#define M33_TRCPIDR4_SIZE_LSB    _u(4)
+#define M33_TRCPIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR4_DES_2
+// Description : reads as `ImpDef
+#define M33_TRCPIDR4_DES_2_RESET  _u(0x4)
+#define M33_TRCPIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_TRCPIDR4_DES_2_MSB    _u(3)
+#define M33_TRCPIDR4_DES_2_LSB    _u(0)
+#define M33_TRCPIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPIDR5
+// Description : TRCPIDR5
+#define M33_TRCPIDR5_OFFSET _u(0x00041fd4)
+#define M33_TRCPIDR5_BITS   _u(0x00000000)
+#define M33_TRCPIDR5_RESET  _u(0x00000000)
+#define M33_TRCPIDR5_MSB    _u(31)
+#define M33_TRCPIDR5_LSB    _u(0)
+#define M33_TRCPIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCPIDR6
+// Description : TRCPIDR6
+#define M33_TRCPIDR6_OFFSET _u(0x00041fd8)
+#define M33_TRCPIDR6_BITS   _u(0x00000000)
+#define M33_TRCPIDR6_RESET  _u(0x00000000)
+#define M33_TRCPIDR6_MSB    _u(31)
+#define M33_TRCPIDR6_LSB    _u(0)
+#define M33_TRCPIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCPIDR7
+// Description : TRCPIDR7
+#define M33_TRCPIDR7_OFFSET _u(0x00041fdc)
+#define M33_TRCPIDR7_BITS   _u(0x00000000)
+#define M33_TRCPIDR7_RESET  _u(0x00000000)
+#define M33_TRCPIDR7_MSB    _u(31)
+#define M33_TRCPIDR7_LSB    _u(0)
+#define M33_TRCPIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_TRCPIDR0
+// Description : TRCPIDR0
+#define M33_TRCPIDR0_OFFSET _u(0x00041fe0)
+#define M33_TRCPIDR0_BITS   _u(0x000000ff)
+#define M33_TRCPIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR0_PART_0
+// Description : reads as `ImpDef
+#define M33_TRCPIDR0_PART_0_RESET  _u(0x21)
+#define M33_TRCPIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_TRCPIDR0_PART_0_MSB    _u(7)
+#define M33_TRCPIDR0_PART_0_LSB    _u(0)
+#define M33_TRCPIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPIDR1
+// Description : TRCPIDR1
+#define M33_TRCPIDR1_OFFSET _u(0x00041fe4)
+#define M33_TRCPIDR1_BITS   _u(0x000000ff)
+#define M33_TRCPIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR1_DES_0
+// Description : reads as `ImpDef
+#define M33_TRCPIDR1_DES_0_RESET  _u(0xb)
+#define M33_TRCPIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_TRCPIDR1_DES_0_MSB    _u(7)
+#define M33_TRCPIDR1_DES_0_LSB    _u(4)
+#define M33_TRCPIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR1_PART_0
+// Description : reads as `ImpDef
+#define M33_TRCPIDR1_PART_0_RESET  _u(0xd)
+#define M33_TRCPIDR1_PART_0_BITS   _u(0x0000000f)
+#define M33_TRCPIDR1_PART_0_MSB    _u(3)
+#define M33_TRCPIDR1_PART_0_LSB    _u(0)
+#define M33_TRCPIDR1_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPIDR2
+// Description : TRCPIDR2
+#define M33_TRCPIDR2_OFFSET _u(0x00041fe8)
+#define M33_TRCPIDR2_BITS   _u(0x000000ff)
+#define M33_TRCPIDR2_RESET  _u(0x0000002b)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR2_REVISION
+// Description : reads as `ImpDef
+#define M33_TRCPIDR2_REVISION_RESET  _u(0x2)
+#define M33_TRCPIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_TRCPIDR2_REVISION_MSB    _u(7)
+#define M33_TRCPIDR2_REVISION_LSB    _u(4)
+#define M33_TRCPIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR2_JEDEC
+// Description : reads as 0b1
+#define M33_TRCPIDR2_JEDEC_RESET  _u(0x1)
+#define M33_TRCPIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_TRCPIDR2_JEDEC_MSB    _u(3)
+#define M33_TRCPIDR2_JEDEC_LSB    _u(3)
+#define M33_TRCPIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR2_DES_0
+// Description : reads as `ImpDef
+#define M33_TRCPIDR2_DES_0_RESET  _u(0x3)
+#define M33_TRCPIDR2_DES_0_BITS   _u(0x00000007)
+#define M33_TRCPIDR2_DES_0_MSB    _u(2)
+#define M33_TRCPIDR2_DES_0_LSB    _u(0)
+#define M33_TRCPIDR2_DES_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCPIDR3
+// Description : TRCPIDR3
+#define M33_TRCPIDR3_OFFSET _u(0x00041fec)
+#define M33_TRCPIDR3_BITS   _u(0x000000ff)
+#define M33_TRCPIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR3_REVAND
+// Description : reads as `ImpDef
+#define M33_TRCPIDR3_REVAND_RESET  _u(0x0)
+#define M33_TRCPIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_TRCPIDR3_REVAND_MSB    _u(7)
+#define M33_TRCPIDR3_REVAND_LSB    _u(4)
+#define M33_TRCPIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCPIDR3_CMOD
+// Description : reads as `ImpDef
+#define M33_TRCPIDR3_CMOD_RESET  _u(0x0)
+#define M33_TRCPIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_TRCPIDR3_CMOD_MSB    _u(3)
+#define M33_TRCPIDR3_CMOD_LSB    _u(0)
+#define M33_TRCPIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCIDR0
+// Description : TRCCIDR0
+#define M33_TRCCIDR0_OFFSET _u(0x00041ff0)
+#define M33_TRCCIDR0_BITS   _u(0x000000ff)
+#define M33_TRCCIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCIDR0_PRMBL_0
+// Description : reads as 0b00001101
+#define M33_TRCCIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_TRCCIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_TRCCIDR0_PRMBL_0_MSB    _u(7)
+#define M33_TRCCIDR0_PRMBL_0_LSB    _u(0)
+#define M33_TRCCIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCIDR1
+// Description : TRCCIDR1
+#define M33_TRCCIDR1_OFFSET _u(0x00041ff4)
+#define M33_TRCCIDR1_BITS   _u(0x000000ff)
+#define M33_TRCCIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCIDR1_CLASS
+// Description : reads as 0b1001
+#define M33_TRCCIDR1_CLASS_RESET  _u(0x9)
+#define M33_TRCCIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_TRCCIDR1_CLASS_MSB    _u(7)
+#define M33_TRCCIDR1_CLASS_LSB    _u(4)
+#define M33_TRCCIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCIDR1_PRMBL_1
+// Description : reads as 0b0000
+#define M33_TRCCIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_TRCCIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_TRCCIDR1_PRMBL_1_MSB    _u(3)
+#define M33_TRCCIDR1_PRMBL_1_LSB    _u(0)
+#define M33_TRCCIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCIDR2
+// Description : TRCCIDR2
+#define M33_TRCCIDR2_OFFSET _u(0x00041ff8)
+#define M33_TRCCIDR2_BITS   _u(0x000000ff)
+#define M33_TRCCIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCIDR2_PRMBL_2
+// Description : reads as 0b00000101
+#define M33_TRCCIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_TRCCIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_TRCCIDR2_PRMBL_2_MSB    _u(7)
+#define M33_TRCCIDR2_PRMBL_2_LSB    _u(0)
+#define M33_TRCCIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_TRCCIDR3
+// Description : TRCCIDR3
+#define M33_TRCCIDR3_OFFSET _u(0x00041ffc)
+#define M33_TRCCIDR3_BITS   _u(0x000000ff)
+#define M33_TRCCIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_TRCCIDR3_PRMBL_3
+// Description : reads as 0b10110001
+#define M33_TRCCIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_TRCCIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_TRCCIDR3_PRMBL_3_MSB    _u(7)
+#define M33_TRCCIDR3_PRMBL_3_LSB    _u(0)
+#define M33_TRCCIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CTICONTROL
+// Description : CTI Control Register
+#define M33_CTICONTROL_OFFSET _u(0x00042000)
+#define M33_CTICONTROL_BITS   _u(0x00000001)
+#define M33_CTICONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTICONTROL_GLBEN
+// Description : Enables or disables the CTI
+#define M33_CTICONTROL_GLBEN_RESET  _u(0x0)
+#define M33_CTICONTROL_GLBEN_BITS   _u(0x00000001)
+#define M33_CTICONTROL_GLBEN_MSB    _u(0)
+#define M33_CTICONTROL_GLBEN_LSB    _u(0)
+#define M33_CTICONTROL_GLBEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINTACK
+// Description : CTI Interrupt Acknowledge Register
+#define M33_CTIINTACK_OFFSET _u(0x00042010)
+#define M33_CTIINTACK_BITS   _u(0x000000ff)
+#define M33_CTIINTACK_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINTACK_INTACK
+// Description : Acknowledges the corresponding ctitrigout output. There is one
+//               bit of the register for each ctitrigout output. When a 1 is
+//               written to a bit in this register, the corresponding ctitrigout
+//               is acknowledged, causing it to be cleared.
+#define M33_CTIINTACK_INTACK_RESET  _u(0x00)
+#define M33_CTIINTACK_INTACK_BITS   _u(0x000000ff)
+#define M33_CTIINTACK_INTACK_MSB    _u(7)
+#define M33_CTIINTACK_INTACK_LSB    _u(0)
+#define M33_CTIINTACK_INTACK_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIAPPSET
+// Description : CTI Application Trigger Set Register
+#define M33_CTIAPPSET_OFFSET _u(0x00042014)
+#define M33_CTIAPPSET_BITS   _u(0x0000000f)
+#define M33_CTIAPPSET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIAPPSET_APPSET
+// Description : Setting a bit HIGH generates a channel event for the selected
+//               channel. There is one bit of the register for each channel
+#define M33_CTIAPPSET_APPSET_RESET  _u(0x0)
+#define M33_CTIAPPSET_APPSET_BITS   _u(0x0000000f)
+#define M33_CTIAPPSET_APPSET_MSB    _u(3)
+#define M33_CTIAPPSET_APPSET_LSB    _u(0)
+#define M33_CTIAPPSET_APPSET_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIAPPCLEAR
+// Description : CTI Application Trigger Clear Register
+#define M33_CTIAPPCLEAR_OFFSET _u(0x00042018)
+#define M33_CTIAPPCLEAR_BITS   _u(0x0000000f)
+#define M33_CTIAPPCLEAR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIAPPCLEAR_APPCLEAR
+// Description : Sets the corresponding bits in the CTIAPPSET to 0. There is one
+//               bit of the register for each channel.
+#define M33_CTIAPPCLEAR_APPCLEAR_RESET  _u(0x0)
+#define M33_CTIAPPCLEAR_APPCLEAR_BITS   _u(0x0000000f)
+#define M33_CTIAPPCLEAR_APPCLEAR_MSB    _u(3)
+#define M33_CTIAPPCLEAR_APPCLEAR_LSB    _u(0)
+#define M33_CTIAPPCLEAR_APPCLEAR_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIAPPPULSE
+// Description : CTI Application Pulse Register
+#define M33_CTIAPPPULSE_OFFSET _u(0x0004201c)
+#define M33_CTIAPPPULSE_BITS   _u(0x0000000f)
+#define M33_CTIAPPPULSE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIAPPPULSE_APPULSE
+// Description : Setting a bit HIGH generates a channel event pulse for the
+//               selected channel. There is one bit of the register for each
+//               channel.
+#define M33_CTIAPPPULSE_APPULSE_RESET  _u(0x0)
+#define M33_CTIAPPPULSE_APPULSE_BITS   _u(0x0000000f)
+#define M33_CTIAPPPULSE_APPULSE_MSB    _u(3)
+#define M33_CTIAPPPULSE_APPULSE_LSB    _u(0)
+#define M33_CTIAPPPULSE_APPULSE_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN0
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN0_OFFSET _u(0x00042020)
+#define M33_CTIINEN0_BITS   _u(0x0000000f)
+#define M33_CTIINEN0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN0_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN0_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN0_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN0_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN0_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN0_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN1
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN1_OFFSET _u(0x00042024)
+#define M33_CTIINEN1_BITS   _u(0x0000000f)
+#define M33_CTIINEN1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN1_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN1_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN1_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN1_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN1_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN1_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN2
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN2_OFFSET _u(0x00042028)
+#define M33_CTIINEN2_BITS   _u(0x0000000f)
+#define M33_CTIINEN2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN2_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN2_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN2_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN2_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN2_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN2_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN3
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN3_OFFSET _u(0x0004202c)
+#define M33_CTIINEN3_BITS   _u(0x0000000f)
+#define M33_CTIINEN3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN3_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN3_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN3_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN3_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN3_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN3_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN4
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN4_OFFSET _u(0x00042030)
+#define M33_CTIINEN4_BITS   _u(0x0000000f)
+#define M33_CTIINEN4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN4_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN4_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN4_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN4_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN4_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN4_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN5
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN5_OFFSET _u(0x00042034)
+#define M33_CTIINEN5_BITS   _u(0x0000000f)
+#define M33_CTIINEN5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN5_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN5_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN5_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN5_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN5_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN5_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN6
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN6_OFFSET _u(0x00042038)
+#define M33_CTIINEN6_BITS   _u(0x0000000f)
+#define M33_CTIINEN6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN6_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN6_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN6_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN6_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN6_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN6_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIINEN7
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIINEN7_OFFSET _u(0x0004203c)
+#define M33_CTIINEN7_BITS   _u(0x0000000f)
+#define M33_CTIINEN7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIINEN7_TRIGINEN
+// Description : Enables a cross trigger event to the corresponding channel when
+//               a ctitrigin input is activated. There is one bit of the field
+//               for each of the four channels
+#define M33_CTIINEN7_TRIGINEN_RESET  _u(0x0)
+#define M33_CTIINEN7_TRIGINEN_BITS   _u(0x0000000f)
+#define M33_CTIINEN7_TRIGINEN_MSB    _u(3)
+#define M33_CTIINEN7_TRIGINEN_LSB    _u(0)
+#define M33_CTIINEN7_TRIGINEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN0
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN0_OFFSET _u(0x000420a0)
+#define M33_CTIOUTEN0_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN0_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN0_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN0_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN0_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN0_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN0_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN1
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN1_OFFSET _u(0x000420a4)
+#define M33_CTIOUTEN1_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN1_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN1_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN1_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN1_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN1_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN1_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN2
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN2_OFFSET _u(0x000420a8)
+#define M33_CTIOUTEN2_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN2_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN2_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN2_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN2_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN2_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN2_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN3
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN3_OFFSET _u(0x000420ac)
+#define M33_CTIOUTEN3_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN3_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN3_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN3_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN3_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN3_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN3_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN4
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN4_OFFSET _u(0x000420b0)
+#define M33_CTIOUTEN4_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN4_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN4_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN4_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN4_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN4_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN4_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN5
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN5_OFFSET _u(0x000420b4)
+#define M33_CTIOUTEN5_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN5_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN5_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN5_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN5_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN5_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN5_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN6
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN6_OFFSET _u(0x000420b8)
+#define M33_CTIOUTEN6_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN6_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN6_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN6_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN6_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN6_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN6_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTIOUTEN7
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTIOUTEN7_OFFSET _u(0x000420bc)
+#define M33_CTIOUTEN7_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIOUTEN7_TRIGOUTEN
+// Description : Enables a cross trigger event to ctitrigout when the
+//               corresponding channel is activated. There is one bit of the
+//               field for each of the four channels.
+#define M33_CTIOUTEN7_TRIGOUTEN_RESET  _u(0x0)
+#define M33_CTIOUTEN7_TRIGOUTEN_BITS   _u(0x0000000f)
+#define M33_CTIOUTEN7_TRIGOUTEN_MSB    _u(3)
+#define M33_CTIOUTEN7_TRIGOUTEN_LSB    _u(0)
+#define M33_CTIOUTEN7_TRIGOUTEN_ACCESS "RW"
+// =============================================================================
+// Register    : M33_CTITRIGINSTATUS
+// Description : CTI Trigger to Channel Enable Registers
+#define M33_CTITRIGINSTATUS_OFFSET _u(0x00042130)
+#define M33_CTITRIGINSTATUS_BITS   _u(0x000000ff)
+#define M33_CTITRIGINSTATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTITRIGINSTATUS_TRIGINSTATUS
+// Description : Shows the status of the ctitrigin inputs. There is one bit of
+//               the field for each trigger input.Because the register provides
+//               a view of the raw ctitrigin inputs, the reset value is UNKNOWN.
+#define M33_CTITRIGINSTATUS_TRIGINSTATUS_RESET  _u(0x00)
+#define M33_CTITRIGINSTATUS_TRIGINSTATUS_BITS   _u(0x000000ff)
+#define M33_CTITRIGINSTATUS_TRIGINSTATUS_MSB    _u(7)
+#define M33_CTITRIGINSTATUS_TRIGINSTATUS_LSB    _u(0)
+#define M33_CTITRIGINSTATUS_TRIGINSTATUS_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CTITRIGOUTSTATUS
+// Description : CTI Trigger In Status Register
+#define M33_CTITRIGOUTSTATUS_OFFSET _u(0x00042134)
+#define M33_CTITRIGOUTSTATUS_BITS   _u(0x000000ff)
+#define M33_CTITRIGOUTSTATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS
+// Description : Shows the status of the ctitrigout outputs. There is one bit of
+//               the field for each trigger output.
+#define M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS_RESET  _u(0x00)
+#define M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS_BITS   _u(0x000000ff)
+#define M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS_MSB    _u(7)
+#define M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS_LSB    _u(0)
+#define M33_CTITRIGOUTSTATUS_TRIGOUTSTATUS_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CTICHINSTATUS
+// Description : CTI Channel In Status Register
+#define M33_CTICHINSTATUS_OFFSET _u(0x00042138)
+#define M33_CTICHINSTATUS_BITS   _u(0x0000000f)
+#define M33_CTICHINSTATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTICHINSTATUS_CTICHOUTSTATUS
+// Description : Shows the status of the ctichout outputs. There is one bit of
+//               the field for each channel output
+#define M33_CTICHINSTATUS_CTICHOUTSTATUS_RESET  _u(0x0)
+#define M33_CTICHINSTATUS_CTICHOUTSTATUS_BITS   _u(0x0000000f)
+#define M33_CTICHINSTATUS_CTICHOUTSTATUS_MSB    _u(3)
+#define M33_CTICHINSTATUS_CTICHOUTSTATUS_LSB    _u(0)
+#define M33_CTICHINSTATUS_CTICHOUTSTATUS_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CTIGATE
+// Description : Enable CTI Channel Gate register
+#define M33_CTIGATE_OFFSET _u(0x00042140)
+#define M33_CTIGATE_BITS   _u(0x0000000f)
+#define M33_CTIGATE_RESET  _u(0x0000000f)
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIGATE_CTIGATEEN3
+// Description : Enable ctichout3. Set to 0 to disable channel propagation.
+#define M33_CTIGATE_CTIGATEEN3_RESET  _u(0x1)
+#define M33_CTIGATE_CTIGATEEN3_BITS   _u(0x00000008)
+#define M33_CTIGATE_CTIGATEEN3_MSB    _u(3)
+#define M33_CTIGATE_CTIGATEEN3_LSB    _u(3)
+#define M33_CTIGATE_CTIGATEEN3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIGATE_CTIGATEEN2
+// Description : Enable ctichout2. Set to 0 to disable channel propagation.
+#define M33_CTIGATE_CTIGATEEN2_RESET  _u(0x1)
+#define M33_CTIGATE_CTIGATEEN2_BITS   _u(0x00000004)
+#define M33_CTIGATE_CTIGATEEN2_MSB    _u(2)
+#define M33_CTIGATE_CTIGATEEN2_LSB    _u(2)
+#define M33_CTIGATE_CTIGATEEN2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIGATE_CTIGATEEN1
+// Description : Enable ctichout1. Set to 0 to disable channel propagation.
+#define M33_CTIGATE_CTIGATEEN1_RESET  _u(0x1)
+#define M33_CTIGATE_CTIGATEEN1_BITS   _u(0x00000002)
+#define M33_CTIGATE_CTIGATEEN1_MSB    _u(1)
+#define M33_CTIGATE_CTIGATEEN1_LSB    _u(1)
+#define M33_CTIGATE_CTIGATEEN1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_CTIGATE_CTIGATEEN0
+// Description : Enable ctichout0. Set to 0 to disable channel propagation.
+#define M33_CTIGATE_CTIGATEEN0_RESET  _u(0x1)
+#define M33_CTIGATE_CTIGATEEN0_BITS   _u(0x00000001)
+#define M33_CTIGATE_CTIGATEEN0_MSB    _u(0)
+#define M33_CTIGATE_CTIGATEEN0_LSB    _u(0)
+#define M33_CTIGATE_CTIGATEEN0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ASICCTL
+// Description : External Multiplexer Control register
+#define M33_ASICCTL_OFFSET _u(0x00042144)
+#define M33_ASICCTL_BITS   _u(0x00000000)
+#define M33_ASICCTL_RESET  _u(0x00000000)
+#define M33_ASICCTL_MSB    _u(31)
+#define M33_ASICCTL_LSB    _u(0)
+#define M33_ASICCTL_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITCHOUT
+// Description : Integration Test Channel Output register
+#define M33_ITCHOUT_OFFSET _u(0x00042ee4)
+#define M33_ITCHOUT_BITS   _u(0x0000000f)
+#define M33_ITCHOUT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITCHOUT_CTCHOUT
+// Description : Sets the value of the ctichout outputs
+#define M33_ITCHOUT_CTCHOUT_RESET  _u(0x0)
+#define M33_ITCHOUT_CTCHOUT_BITS   _u(0x0000000f)
+#define M33_ITCHOUT_CTCHOUT_MSB    _u(3)
+#define M33_ITCHOUT_CTCHOUT_LSB    _u(0)
+#define M33_ITCHOUT_CTCHOUT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITTRIGOUT
+// Description : Integration Test Trigger Output register
+#define M33_ITTRIGOUT_OFFSET _u(0x00042ee8)
+#define M33_ITTRIGOUT_BITS   _u(0x000000ff)
+#define M33_ITTRIGOUT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITTRIGOUT_CTTRIGOUT
+// Description : Sets the value of the ctitrigout outputs
+#define M33_ITTRIGOUT_CTTRIGOUT_RESET  _u(0x00)
+#define M33_ITTRIGOUT_CTTRIGOUT_BITS   _u(0x000000ff)
+#define M33_ITTRIGOUT_CTTRIGOUT_MSB    _u(7)
+#define M33_ITTRIGOUT_CTTRIGOUT_LSB    _u(0)
+#define M33_ITTRIGOUT_CTTRIGOUT_ACCESS "RW"
+// =============================================================================
+// Register    : M33_ITCHIN
+// Description : Integration Test Channel Input register
+#define M33_ITCHIN_OFFSET _u(0x00042ef4)
+#define M33_ITCHIN_BITS   _u(0x0000000f)
+#define M33_ITCHIN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITCHIN_CTCHIN
+// Description : Reads the value of the ctichin inputs.
+#define M33_ITCHIN_CTCHIN_RESET  _u(0x0)
+#define M33_ITCHIN_CTCHIN_BITS   _u(0x0000000f)
+#define M33_ITCHIN_CTCHIN_MSB    _u(3)
+#define M33_ITCHIN_CTCHIN_LSB    _u(0)
+#define M33_ITCHIN_CTCHIN_ACCESS "RO"
+// =============================================================================
+// Register    : M33_ITCTRL
+// Description : Integration Mode Control register
+#define M33_ITCTRL_OFFSET _u(0x00042f00)
+#define M33_ITCTRL_BITS   _u(0x00000001)
+#define M33_ITCTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_ITCTRL_IME
+// Description : Integration Mode Enable
+#define M33_ITCTRL_IME_RESET  _u(0x0)
+#define M33_ITCTRL_IME_BITS   _u(0x00000001)
+#define M33_ITCTRL_IME_MSB    _u(0)
+#define M33_ITCTRL_IME_LSB    _u(0)
+#define M33_ITCTRL_IME_ACCESS "RW"
+// =============================================================================
+// Register    : M33_DEVARCH
+// Description : Device Architecture register
+#define M33_DEVARCH_OFFSET _u(0x00042fbc)
+#define M33_DEVARCH_BITS   _u(0xffffffff)
+#define M33_DEVARCH_RESET  _u(0x47701a14)
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVARCH_ARCHITECT
+// Description : Indicates the component architect
+#define M33_DEVARCH_ARCHITECT_RESET  _u(0x23b)
+#define M33_DEVARCH_ARCHITECT_BITS   _u(0xffe00000)
+#define M33_DEVARCH_ARCHITECT_MSB    _u(31)
+#define M33_DEVARCH_ARCHITECT_LSB    _u(21)
+#define M33_DEVARCH_ARCHITECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVARCH_PRESENT
+// Description : Indicates whether the DEVARCH register is present
+#define M33_DEVARCH_PRESENT_RESET  _u(0x1)
+#define M33_DEVARCH_PRESENT_BITS   _u(0x00100000)
+#define M33_DEVARCH_PRESENT_MSB    _u(20)
+#define M33_DEVARCH_PRESENT_LSB    _u(20)
+#define M33_DEVARCH_PRESENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVARCH_REVISION
+// Description : Indicates the architecture revision
+#define M33_DEVARCH_REVISION_RESET  _u(0x0)
+#define M33_DEVARCH_REVISION_BITS   _u(0x000f0000)
+#define M33_DEVARCH_REVISION_MSB    _u(19)
+#define M33_DEVARCH_REVISION_LSB    _u(16)
+#define M33_DEVARCH_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVARCH_ARCHID
+// Description : Indicates the component
+#define M33_DEVARCH_ARCHID_RESET  _u(0x1a14)
+#define M33_DEVARCH_ARCHID_BITS   _u(0x0000ffff)
+#define M33_DEVARCH_ARCHID_MSB    _u(15)
+#define M33_DEVARCH_ARCHID_LSB    _u(0)
+#define M33_DEVARCH_ARCHID_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DEVID
+// Description : Device Configuration register
+#define M33_DEVID_OFFSET _u(0x00042fc8)
+#define M33_DEVID_BITS   _u(0x000fff1f)
+#define M33_DEVID_RESET  _u(0x00040800)
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVID_NUMCH
+// Description : Number of ECT channels available
+#define M33_DEVID_NUMCH_RESET  _u(0x4)
+#define M33_DEVID_NUMCH_BITS   _u(0x000f0000)
+#define M33_DEVID_NUMCH_MSB    _u(19)
+#define M33_DEVID_NUMCH_LSB    _u(16)
+#define M33_DEVID_NUMCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVID_NUMTRIG
+// Description : Number of ECT triggers available.
+#define M33_DEVID_NUMTRIG_RESET  _u(0x08)
+#define M33_DEVID_NUMTRIG_BITS   _u(0x0000ff00)
+#define M33_DEVID_NUMTRIG_MSB    _u(15)
+#define M33_DEVID_NUMTRIG_LSB    _u(8)
+#define M33_DEVID_NUMTRIG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVID_EXTMUXNUM
+// Description : Indicates the number of multiplexers available on Trigger
+//               Inputs and Trigger Outputs that are using asicctl. The default
+//               value of 0b00000 indicates that no multiplexing is present.
+//               This value of this bit depends on the Verilog define EXTMUXNUM
+//               that you must change accordingly.
+#define M33_DEVID_EXTMUXNUM_RESET  _u(0x00)
+#define M33_DEVID_EXTMUXNUM_BITS   _u(0x0000001f)
+#define M33_DEVID_EXTMUXNUM_MSB    _u(4)
+#define M33_DEVID_EXTMUXNUM_LSB    _u(0)
+#define M33_DEVID_EXTMUXNUM_ACCESS "RO"
+// =============================================================================
+// Register    : M33_DEVTYPE
+// Description : Device Type Identifier register
+#define M33_DEVTYPE_OFFSET _u(0x00042fcc)
+#define M33_DEVTYPE_BITS   _u(0x000000ff)
+#define M33_DEVTYPE_RESET  _u(0x00000014)
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVTYPE_SUB
+// Description : Sub-classification of the type of the debug component as
+//               specified in the ARM Architecture Specification within the
+//               major classification as specified in the MAJOR field.
+#define M33_DEVTYPE_SUB_RESET  _u(0x1)
+#define M33_DEVTYPE_SUB_BITS   _u(0x000000f0)
+#define M33_DEVTYPE_SUB_MSB    _u(7)
+#define M33_DEVTYPE_SUB_LSB    _u(4)
+#define M33_DEVTYPE_SUB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_DEVTYPE_MAJOR
+// Description : Major classification of the type of the debug component as
+//               specified in the ARM Architecture Specification for this debug
+//               and trace component.
+#define M33_DEVTYPE_MAJOR_RESET  _u(0x4)
+#define M33_DEVTYPE_MAJOR_BITS   _u(0x0000000f)
+#define M33_DEVTYPE_MAJOR_MSB    _u(3)
+#define M33_DEVTYPE_MAJOR_LSB    _u(0)
+#define M33_DEVTYPE_MAJOR_ACCESS "RO"
+// =============================================================================
+// Register    : M33_PIDR4
+// Description : CoreSight Peripheral ID4
+#define M33_PIDR4_OFFSET _u(0x00042fd0)
+#define M33_PIDR4_BITS   _u(0x000000ff)
+#define M33_PIDR4_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR4_SIZE
+// Description : Always 0b0000. Indicates that the device only occupies 4KB of
+//               memory
+#define M33_PIDR4_SIZE_RESET  _u(0x0)
+#define M33_PIDR4_SIZE_BITS   _u(0x000000f0)
+#define M33_PIDR4_SIZE_MSB    _u(7)
+#define M33_PIDR4_SIZE_LSB    _u(4)
+#define M33_PIDR4_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR4_DES_2
+// Description : Together, PIDR1.DES_0, PIDR2.DES_1, and PIDR4.DES_2 identify
+//               the designer of the component.
+#define M33_PIDR4_DES_2_RESET  _u(0x4)
+#define M33_PIDR4_DES_2_BITS   _u(0x0000000f)
+#define M33_PIDR4_DES_2_MSB    _u(3)
+#define M33_PIDR4_DES_2_LSB    _u(0)
+#define M33_PIDR4_DES_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_PIDR5
+// Description : CoreSight Peripheral ID5
+#define M33_PIDR5_OFFSET _u(0x00042fd4)
+#define M33_PIDR5_BITS   _u(0x00000000)
+#define M33_PIDR5_RESET  _u(0x00000000)
+#define M33_PIDR5_MSB    _u(31)
+#define M33_PIDR5_LSB    _u(0)
+#define M33_PIDR5_ACCESS "RW"
+// =============================================================================
+// Register    : M33_PIDR6
+// Description : CoreSight Peripheral ID6
+#define M33_PIDR6_OFFSET _u(0x00042fd8)
+#define M33_PIDR6_BITS   _u(0x00000000)
+#define M33_PIDR6_RESET  _u(0x00000000)
+#define M33_PIDR6_MSB    _u(31)
+#define M33_PIDR6_LSB    _u(0)
+#define M33_PIDR6_ACCESS "RW"
+// =============================================================================
+// Register    : M33_PIDR7
+// Description : CoreSight Peripheral ID7
+#define M33_PIDR7_OFFSET _u(0x00042fdc)
+#define M33_PIDR7_BITS   _u(0x00000000)
+#define M33_PIDR7_RESET  _u(0x00000000)
+#define M33_PIDR7_MSB    _u(31)
+#define M33_PIDR7_LSB    _u(0)
+#define M33_PIDR7_ACCESS "RW"
+// =============================================================================
+// Register    : M33_PIDR0
+// Description : CoreSight Peripheral ID0
+#define M33_PIDR0_OFFSET _u(0x00042fe0)
+#define M33_PIDR0_BITS   _u(0x000000ff)
+#define M33_PIDR0_RESET  _u(0x00000021)
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR0_PART_0
+// Description : Bits[7:0] of the 12-bit part number of the component. The
+//               designer of the component assigns this part number.
+#define M33_PIDR0_PART_0_RESET  _u(0x21)
+#define M33_PIDR0_PART_0_BITS   _u(0x000000ff)
+#define M33_PIDR0_PART_0_MSB    _u(7)
+#define M33_PIDR0_PART_0_LSB    _u(0)
+#define M33_PIDR0_PART_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_PIDR1
+// Description : CoreSight Peripheral ID1
+#define M33_PIDR1_OFFSET _u(0x00042fe4)
+#define M33_PIDR1_BITS   _u(0x000000ff)
+#define M33_PIDR1_RESET  _u(0x000000bd)
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR1_DES_0
+// Description : Together, PIDR1.DES_0, PIDR2.DES_1, and PIDR4.DES_2 identify
+//               the designer of the component.
+#define M33_PIDR1_DES_0_RESET  _u(0xb)
+#define M33_PIDR1_DES_0_BITS   _u(0x000000f0)
+#define M33_PIDR1_DES_0_MSB    _u(7)
+#define M33_PIDR1_DES_0_LSB    _u(4)
+#define M33_PIDR1_DES_0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR1_PART_1
+// Description : Bits[11:8] of the 12-bit part number of the component. The
+//               designer of the component assigns this part number.
+#define M33_PIDR1_PART_1_RESET  _u(0xd)
+#define M33_PIDR1_PART_1_BITS   _u(0x0000000f)
+#define M33_PIDR1_PART_1_MSB    _u(3)
+#define M33_PIDR1_PART_1_LSB    _u(0)
+#define M33_PIDR1_PART_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_PIDR2
+// Description : CoreSight Peripheral ID2
+#define M33_PIDR2_OFFSET _u(0x00042fe8)
+#define M33_PIDR2_BITS   _u(0x000000ff)
+#define M33_PIDR2_RESET  _u(0x0000000b)
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR2_REVISION
+// Description : This device is at r1p0
+#define M33_PIDR2_REVISION_RESET  _u(0x0)
+#define M33_PIDR2_REVISION_BITS   _u(0x000000f0)
+#define M33_PIDR2_REVISION_MSB    _u(7)
+#define M33_PIDR2_REVISION_LSB    _u(4)
+#define M33_PIDR2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR2_JEDEC
+// Description : Always 1. Indicates that the JEDEC-assigned designer ID is
+//               used.
+#define M33_PIDR2_JEDEC_RESET  _u(0x1)
+#define M33_PIDR2_JEDEC_BITS   _u(0x00000008)
+#define M33_PIDR2_JEDEC_MSB    _u(3)
+#define M33_PIDR2_JEDEC_LSB    _u(3)
+#define M33_PIDR2_JEDEC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR2_DES_1
+// Description : Together, PIDR1.DES_0, PIDR2.DES_1, and PIDR4.DES_2 identify
+//               the designer of the component.
+#define M33_PIDR2_DES_1_RESET  _u(0x3)
+#define M33_PIDR2_DES_1_BITS   _u(0x00000007)
+#define M33_PIDR2_DES_1_MSB    _u(2)
+#define M33_PIDR2_DES_1_LSB    _u(0)
+#define M33_PIDR2_DES_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_PIDR3
+// Description : CoreSight Peripheral ID3
+#define M33_PIDR3_OFFSET _u(0x00042fec)
+#define M33_PIDR3_BITS   _u(0x000000ff)
+#define M33_PIDR3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR3_REVAND
+// Description : Indicates minor errata fixes specific to the revision of the
+//               component being used, for example metal fixes after
+//               implementation. In most cases, this field is 0b0000. ARM
+//               recommends that the component designers ensure that a metal fix
+//               can change this field if required, for example, by driving it
+//               from registers that reset to 0b0000.
+#define M33_PIDR3_REVAND_RESET  _u(0x0)
+#define M33_PIDR3_REVAND_BITS   _u(0x000000f0)
+#define M33_PIDR3_REVAND_MSB    _u(7)
+#define M33_PIDR3_REVAND_LSB    _u(4)
+#define M33_PIDR3_REVAND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_PIDR3_CMOD
+// Description : Customer Modified. Indicates whether the customer has modified
+//               the behavior of the component. In most cases, this field is
+//               0b0000. Customers change this value when they make authorized
+//               modifications to this component.
+#define M33_PIDR3_CMOD_RESET  _u(0x0)
+#define M33_PIDR3_CMOD_BITS   _u(0x0000000f)
+#define M33_PIDR3_CMOD_MSB    _u(3)
+#define M33_PIDR3_CMOD_LSB    _u(0)
+#define M33_PIDR3_CMOD_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CIDR0
+// Description : CoreSight Component ID0
+#define M33_CIDR0_OFFSET _u(0x00042ff0)
+#define M33_CIDR0_BITS   _u(0x000000ff)
+#define M33_CIDR0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : M33_CIDR0_PRMBL_0
+// Description : Preamble[0]. Contains bits[7:0] of the component identification
+//               code
+#define M33_CIDR0_PRMBL_0_RESET  _u(0x0d)
+#define M33_CIDR0_PRMBL_0_BITS   _u(0x000000ff)
+#define M33_CIDR0_PRMBL_0_MSB    _u(7)
+#define M33_CIDR0_PRMBL_0_LSB    _u(0)
+#define M33_CIDR0_PRMBL_0_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CIDR1
+// Description : CoreSight Component ID1
+#define M33_CIDR1_OFFSET _u(0x00042ff4)
+#define M33_CIDR1_BITS   _u(0x000000ff)
+#define M33_CIDR1_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : M33_CIDR1_CLASS
+// Description : Class of the component, for example, whether the component is a
+//               ROM table or a generic CoreSight component. Contains
+//               bits[15:12] of the component identification code.
+#define M33_CIDR1_CLASS_RESET  _u(0x9)
+#define M33_CIDR1_CLASS_BITS   _u(0x000000f0)
+#define M33_CIDR1_CLASS_MSB    _u(7)
+#define M33_CIDR1_CLASS_LSB    _u(4)
+#define M33_CIDR1_CLASS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_CIDR1_PRMBL_1
+// Description : Preamble[1]. Contains bits[11:8] of the component
+//               identification code.
+#define M33_CIDR1_PRMBL_1_RESET  _u(0x0)
+#define M33_CIDR1_PRMBL_1_BITS   _u(0x0000000f)
+#define M33_CIDR1_PRMBL_1_MSB    _u(3)
+#define M33_CIDR1_PRMBL_1_LSB    _u(0)
+#define M33_CIDR1_PRMBL_1_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CIDR2
+// Description : CoreSight Component ID2
+#define M33_CIDR2_OFFSET _u(0x00042ff8)
+#define M33_CIDR2_BITS   _u(0x000000ff)
+#define M33_CIDR2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : M33_CIDR2_PRMBL_2
+// Description : Preamble[2]. Contains bits[23:16] of the component
+//               identification code.
+#define M33_CIDR2_PRMBL_2_RESET  _u(0x05)
+#define M33_CIDR2_PRMBL_2_BITS   _u(0x000000ff)
+#define M33_CIDR2_PRMBL_2_MSB    _u(7)
+#define M33_CIDR2_PRMBL_2_LSB    _u(0)
+#define M33_CIDR2_PRMBL_2_ACCESS "RO"
+// =============================================================================
+// Register    : M33_CIDR3
+// Description : CoreSight Component ID3
+#define M33_CIDR3_OFFSET _u(0x00042ffc)
+#define M33_CIDR3_BITS   _u(0x000000ff)
+#define M33_CIDR3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : M33_CIDR3_PRMBL_3
+// Description : Preamble[3]. Contains bits[31:24] of the component
+//               identification code.
+#define M33_CIDR3_PRMBL_3_RESET  _u(0xb1)
+#define M33_CIDR3_PRMBL_3_BITS   _u(0x000000ff)
+#define M33_CIDR3_PRMBL_3_MSB    _u(7)
+#define M33_CIDR3_PRMBL_3_LSB    _u(0)
+#define M33_CIDR3_PRMBL_3_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_M33_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/m33_eppb.h b/lib/pico-sdk/rp2350/hardware/regs/m33_eppb.h
new file mode 100644
index 0000000..93b5143
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/m33_eppb.h
@@ -0,0 +1,80 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : M33_EPPB
+// Version        : 1
+// Bus type       : apb
+// Description    : Cortex-M33 EPPB vendor register block for RP2350
+// =============================================================================
+#ifndef _HARDWARE_REGS_M33_EPPB_H
+#define _HARDWARE_REGS_M33_EPPB_H
+// =============================================================================
+// Register    : M33_EPPB_NMI_MASK0
+// Description : NMI mask for IRQs 0 through 31. This register is core-local,
+//               and is reset by a processor warm reset.
+#define M33_EPPB_NMI_MASK0_OFFSET _u(0x00000000)
+#define M33_EPPB_NMI_MASK0_BITS   _u(0xffffffff)
+#define M33_EPPB_NMI_MASK0_RESET  _u(0x00000000)
+#define M33_EPPB_NMI_MASK0_MSB    _u(31)
+#define M33_EPPB_NMI_MASK0_LSB    _u(0)
+#define M33_EPPB_NMI_MASK0_ACCESS "RW"
+// =============================================================================
+// Register    : M33_EPPB_NMI_MASK1
+// Description : NMI mask for IRQs 0 though 51. This register is core-local, and
+//               is reset by a processor warm reset.
+#define M33_EPPB_NMI_MASK1_OFFSET _u(0x00000004)
+#define M33_EPPB_NMI_MASK1_BITS   _u(0x000fffff)
+#define M33_EPPB_NMI_MASK1_RESET  _u(0x00000000)
+#define M33_EPPB_NMI_MASK1_MSB    _u(19)
+#define M33_EPPB_NMI_MASK1_LSB    _u(0)
+#define M33_EPPB_NMI_MASK1_ACCESS "RW"
+// =============================================================================
+// Register    : M33_EPPB_SLEEPCTRL
+// Description : Nonstandard sleep control register
+#define M33_EPPB_SLEEPCTRL_OFFSET _u(0x00000008)
+#define M33_EPPB_SLEEPCTRL_BITS   _u(0x00000007)
+#define M33_EPPB_SLEEPCTRL_RESET  _u(0x00000002)
+// -----------------------------------------------------------------------------
+// Field       : M33_EPPB_SLEEPCTRL_WICENACK
+// Description : Status signal from the processor's interrupt controller.
+//               Changes to WICENREQ are eventually reflected in WICENACK.
+#define M33_EPPB_SLEEPCTRL_WICENACK_RESET  _u(0x0)
+#define M33_EPPB_SLEEPCTRL_WICENACK_BITS   _u(0x00000004)
+#define M33_EPPB_SLEEPCTRL_WICENACK_MSB    _u(2)
+#define M33_EPPB_SLEEPCTRL_WICENACK_LSB    _u(2)
+#define M33_EPPB_SLEEPCTRL_WICENACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : M33_EPPB_SLEEPCTRL_WICENREQ
+// Description : Request that the next processor deep sleep is a WIC sleep.
+//               After setting this bit, before sleeping, poll WICENACK to
+//               ensure the processor interrupt controller has acknowledged the
+//               change.
+#define M33_EPPB_SLEEPCTRL_WICENREQ_RESET  _u(0x1)
+#define M33_EPPB_SLEEPCTRL_WICENREQ_BITS   _u(0x00000002)
+#define M33_EPPB_SLEEPCTRL_WICENREQ_MSB    _u(1)
+#define M33_EPPB_SLEEPCTRL_WICENREQ_LSB    _u(1)
+#define M33_EPPB_SLEEPCTRL_WICENREQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : M33_EPPB_SLEEPCTRL_LIGHT_SLEEP
+// Description : By default, any processor sleep will deassert the system-level
+//               clock request. Reenabling the clocks incurs 5 cycles of
+//               additional latency on wakeup.
+//
+//               Setting LIGHT_SLEEP to 1 keeps the clock request asserted
+//               during a normal sleep (Arm SCR.SLEEPDEEP = 0), for faster
+//               wakeup. Processor deep sleep (Arm SCR.SLEEPDEEP = 1) is not
+//               affected, and will always deassert the system-level clock
+//               request.
+#define M33_EPPB_SLEEPCTRL_LIGHT_SLEEP_RESET  _u(0x0)
+#define M33_EPPB_SLEEPCTRL_LIGHT_SLEEP_BITS   _u(0x00000001)
+#define M33_EPPB_SLEEPCTRL_LIGHT_SLEEP_MSB    _u(0)
+#define M33_EPPB_SLEEPCTRL_LIGHT_SLEEP_LSB    _u(0)
+#define M33_EPPB_SLEEPCTRL_LIGHT_SLEEP_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_M33_EPPB_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/otp.h b/lib/pico-sdk/rp2350/hardware/regs/otp.h
new file mode 100644
index 0000000..cd9c6e8
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/otp.h
@@ -0,0 +1,3467 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : OTP
+// Version        : 1
+// Bus type       : apb
+// Description    : SNPS OTP control IF (SBPI and RPi wrapper control)
+// =============================================================================
+#ifndef _HARDWARE_REGS_OTP_H
+#define _HARDWARE_REGS_OTP_H
+// =============================================================================
+// Register    : OTP_SW_LOCK0
+// Description : Software lock register for page 0.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK0_OFFSET _u(0x00000000)
+#define OTP_SW_LOCK0_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK0_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK0_NSEC_RESET  "-"
+#define OTP_SW_LOCK0_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK0_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK0_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK0_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK0_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK0_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK0_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK0_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK0_SEC_RESET  "-"
+#define OTP_SW_LOCK0_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK0_SEC_MSB    _u(1)
+#define OTP_SW_LOCK0_SEC_LSB    _u(0)
+#define OTP_SW_LOCK0_SEC_ACCESS "RW"
+#define OTP_SW_LOCK0_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK0_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK0_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK1
+// Description : Software lock register for page 1.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK1_OFFSET _u(0x00000004)
+#define OTP_SW_LOCK1_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK1_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK1_NSEC_RESET  "-"
+#define OTP_SW_LOCK1_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK1_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK1_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK1_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK1_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK1_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK1_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK1_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK1_SEC_RESET  "-"
+#define OTP_SW_LOCK1_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK1_SEC_MSB    _u(1)
+#define OTP_SW_LOCK1_SEC_LSB    _u(0)
+#define OTP_SW_LOCK1_SEC_ACCESS "RW"
+#define OTP_SW_LOCK1_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK1_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK1_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK2
+// Description : Software lock register for page 2.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK2_OFFSET _u(0x00000008)
+#define OTP_SW_LOCK2_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK2_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK2_NSEC_RESET  "-"
+#define OTP_SW_LOCK2_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK2_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK2_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK2_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK2_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK2_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK2_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK2_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK2_SEC_RESET  "-"
+#define OTP_SW_LOCK2_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK2_SEC_MSB    _u(1)
+#define OTP_SW_LOCK2_SEC_LSB    _u(0)
+#define OTP_SW_LOCK2_SEC_ACCESS "RW"
+#define OTP_SW_LOCK2_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK2_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK2_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK3
+// Description : Software lock register for page 3.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK3_OFFSET _u(0x0000000c)
+#define OTP_SW_LOCK3_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK3_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK3_NSEC_RESET  "-"
+#define OTP_SW_LOCK3_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK3_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK3_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK3_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK3_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK3_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK3_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK3_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK3_SEC_RESET  "-"
+#define OTP_SW_LOCK3_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK3_SEC_MSB    _u(1)
+#define OTP_SW_LOCK3_SEC_LSB    _u(0)
+#define OTP_SW_LOCK3_SEC_ACCESS "RW"
+#define OTP_SW_LOCK3_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK3_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK3_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK4
+// Description : Software lock register for page 4.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK4_OFFSET _u(0x00000010)
+#define OTP_SW_LOCK4_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK4_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK4_NSEC_RESET  "-"
+#define OTP_SW_LOCK4_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK4_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK4_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK4_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK4_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK4_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK4_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK4_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK4_SEC_RESET  "-"
+#define OTP_SW_LOCK4_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK4_SEC_MSB    _u(1)
+#define OTP_SW_LOCK4_SEC_LSB    _u(0)
+#define OTP_SW_LOCK4_SEC_ACCESS "RW"
+#define OTP_SW_LOCK4_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK4_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK4_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK5
+// Description : Software lock register for page 5.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK5_OFFSET _u(0x00000014)
+#define OTP_SW_LOCK5_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK5_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK5_NSEC_RESET  "-"
+#define OTP_SW_LOCK5_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK5_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK5_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK5_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK5_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK5_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK5_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK5_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK5_SEC_RESET  "-"
+#define OTP_SW_LOCK5_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK5_SEC_MSB    _u(1)
+#define OTP_SW_LOCK5_SEC_LSB    _u(0)
+#define OTP_SW_LOCK5_SEC_ACCESS "RW"
+#define OTP_SW_LOCK5_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK5_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK5_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK6
+// Description : Software lock register for page 6.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK6_OFFSET _u(0x00000018)
+#define OTP_SW_LOCK6_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK6_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK6_NSEC_RESET  "-"
+#define OTP_SW_LOCK6_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK6_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK6_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK6_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK6_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK6_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK6_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK6_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK6_SEC_RESET  "-"
+#define OTP_SW_LOCK6_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK6_SEC_MSB    _u(1)
+#define OTP_SW_LOCK6_SEC_LSB    _u(0)
+#define OTP_SW_LOCK6_SEC_ACCESS "RW"
+#define OTP_SW_LOCK6_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK6_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK6_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK7
+// Description : Software lock register for page 7.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK7_OFFSET _u(0x0000001c)
+#define OTP_SW_LOCK7_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK7_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK7_NSEC_RESET  "-"
+#define OTP_SW_LOCK7_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK7_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK7_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK7_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK7_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK7_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK7_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK7_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK7_SEC_RESET  "-"
+#define OTP_SW_LOCK7_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK7_SEC_MSB    _u(1)
+#define OTP_SW_LOCK7_SEC_LSB    _u(0)
+#define OTP_SW_LOCK7_SEC_ACCESS "RW"
+#define OTP_SW_LOCK7_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK7_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK7_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK8
+// Description : Software lock register for page 8.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK8_OFFSET _u(0x00000020)
+#define OTP_SW_LOCK8_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK8_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK8_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK8_NSEC_RESET  "-"
+#define OTP_SW_LOCK8_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK8_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK8_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK8_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK8_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK8_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK8_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK8_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK8_SEC_RESET  "-"
+#define OTP_SW_LOCK8_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK8_SEC_MSB    _u(1)
+#define OTP_SW_LOCK8_SEC_LSB    _u(0)
+#define OTP_SW_LOCK8_SEC_ACCESS "RW"
+#define OTP_SW_LOCK8_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK8_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK8_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK9
+// Description : Software lock register for page 9.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK9_OFFSET _u(0x00000024)
+#define OTP_SW_LOCK9_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK9_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK9_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK9_NSEC_RESET  "-"
+#define OTP_SW_LOCK9_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK9_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK9_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK9_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK9_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK9_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK9_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK9_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK9_SEC_RESET  "-"
+#define OTP_SW_LOCK9_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK9_SEC_MSB    _u(1)
+#define OTP_SW_LOCK9_SEC_LSB    _u(0)
+#define OTP_SW_LOCK9_SEC_ACCESS "RW"
+#define OTP_SW_LOCK9_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK9_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK9_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK10
+// Description : Software lock register for page 10.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK10_OFFSET _u(0x00000028)
+#define OTP_SW_LOCK10_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK10_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK10_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK10_NSEC_RESET  "-"
+#define OTP_SW_LOCK10_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK10_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK10_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK10_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK10_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK10_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK10_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK10_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK10_SEC_RESET  "-"
+#define OTP_SW_LOCK10_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK10_SEC_MSB    _u(1)
+#define OTP_SW_LOCK10_SEC_LSB    _u(0)
+#define OTP_SW_LOCK10_SEC_ACCESS "RW"
+#define OTP_SW_LOCK10_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK10_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK10_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK11
+// Description : Software lock register for page 11.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK11_OFFSET _u(0x0000002c)
+#define OTP_SW_LOCK11_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK11_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK11_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK11_NSEC_RESET  "-"
+#define OTP_SW_LOCK11_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK11_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK11_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK11_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK11_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK11_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK11_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK11_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK11_SEC_RESET  "-"
+#define OTP_SW_LOCK11_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK11_SEC_MSB    _u(1)
+#define OTP_SW_LOCK11_SEC_LSB    _u(0)
+#define OTP_SW_LOCK11_SEC_ACCESS "RW"
+#define OTP_SW_LOCK11_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK11_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK11_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK12
+// Description : Software lock register for page 12.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK12_OFFSET _u(0x00000030)
+#define OTP_SW_LOCK12_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK12_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK12_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK12_NSEC_RESET  "-"
+#define OTP_SW_LOCK12_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK12_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK12_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK12_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK12_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK12_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK12_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK12_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK12_SEC_RESET  "-"
+#define OTP_SW_LOCK12_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK12_SEC_MSB    _u(1)
+#define OTP_SW_LOCK12_SEC_LSB    _u(0)
+#define OTP_SW_LOCK12_SEC_ACCESS "RW"
+#define OTP_SW_LOCK12_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK12_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK12_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK13
+// Description : Software lock register for page 13.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK13_OFFSET _u(0x00000034)
+#define OTP_SW_LOCK13_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK13_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK13_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK13_NSEC_RESET  "-"
+#define OTP_SW_LOCK13_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK13_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK13_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK13_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK13_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK13_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK13_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK13_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK13_SEC_RESET  "-"
+#define OTP_SW_LOCK13_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK13_SEC_MSB    _u(1)
+#define OTP_SW_LOCK13_SEC_LSB    _u(0)
+#define OTP_SW_LOCK13_SEC_ACCESS "RW"
+#define OTP_SW_LOCK13_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK13_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK13_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK14
+// Description : Software lock register for page 14.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK14_OFFSET _u(0x00000038)
+#define OTP_SW_LOCK14_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK14_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK14_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK14_NSEC_RESET  "-"
+#define OTP_SW_LOCK14_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK14_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK14_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK14_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK14_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK14_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK14_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK14_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK14_SEC_RESET  "-"
+#define OTP_SW_LOCK14_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK14_SEC_MSB    _u(1)
+#define OTP_SW_LOCK14_SEC_LSB    _u(0)
+#define OTP_SW_LOCK14_SEC_ACCESS "RW"
+#define OTP_SW_LOCK14_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK14_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK14_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK15
+// Description : Software lock register for page 15.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK15_OFFSET _u(0x0000003c)
+#define OTP_SW_LOCK15_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK15_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK15_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK15_NSEC_RESET  "-"
+#define OTP_SW_LOCK15_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK15_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK15_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK15_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK15_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK15_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK15_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK15_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK15_SEC_RESET  "-"
+#define OTP_SW_LOCK15_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK15_SEC_MSB    _u(1)
+#define OTP_SW_LOCK15_SEC_LSB    _u(0)
+#define OTP_SW_LOCK15_SEC_ACCESS "RW"
+#define OTP_SW_LOCK15_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK15_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK15_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK16
+// Description : Software lock register for page 16.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK16_OFFSET _u(0x00000040)
+#define OTP_SW_LOCK16_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK16_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK16_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK16_NSEC_RESET  "-"
+#define OTP_SW_LOCK16_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK16_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK16_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK16_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK16_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK16_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK16_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK16_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK16_SEC_RESET  "-"
+#define OTP_SW_LOCK16_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK16_SEC_MSB    _u(1)
+#define OTP_SW_LOCK16_SEC_LSB    _u(0)
+#define OTP_SW_LOCK16_SEC_ACCESS "RW"
+#define OTP_SW_LOCK16_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK16_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK16_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK17
+// Description : Software lock register for page 17.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK17_OFFSET _u(0x00000044)
+#define OTP_SW_LOCK17_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK17_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK17_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK17_NSEC_RESET  "-"
+#define OTP_SW_LOCK17_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK17_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK17_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK17_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK17_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK17_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK17_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK17_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK17_SEC_RESET  "-"
+#define OTP_SW_LOCK17_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK17_SEC_MSB    _u(1)
+#define OTP_SW_LOCK17_SEC_LSB    _u(0)
+#define OTP_SW_LOCK17_SEC_ACCESS "RW"
+#define OTP_SW_LOCK17_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK17_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK17_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK18
+// Description : Software lock register for page 18.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK18_OFFSET _u(0x00000048)
+#define OTP_SW_LOCK18_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK18_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK18_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK18_NSEC_RESET  "-"
+#define OTP_SW_LOCK18_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK18_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK18_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK18_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK18_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK18_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK18_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK18_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK18_SEC_RESET  "-"
+#define OTP_SW_LOCK18_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK18_SEC_MSB    _u(1)
+#define OTP_SW_LOCK18_SEC_LSB    _u(0)
+#define OTP_SW_LOCK18_SEC_ACCESS "RW"
+#define OTP_SW_LOCK18_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK18_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK18_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK19
+// Description : Software lock register for page 19.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK19_OFFSET _u(0x0000004c)
+#define OTP_SW_LOCK19_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK19_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK19_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK19_NSEC_RESET  "-"
+#define OTP_SW_LOCK19_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK19_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK19_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK19_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK19_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK19_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK19_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK19_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK19_SEC_RESET  "-"
+#define OTP_SW_LOCK19_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK19_SEC_MSB    _u(1)
+#define OTP_SW_LOCK19_SEC_LSB    _u(0)
+#define OTP_SW_LOCK19_SEC_ACCESS "RW"
+#define OTP_SW_LOCK19_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK19_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK19_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK20
+// Description : Software lock register for page 20.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK20_OFFSET _u(0x00000050)
+#define OTP_SW_LOCK20_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK20_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK20_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK20_NSEC_RESET  "-"
+#define OTP_SW_LOCK20_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK20_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK20_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK20_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK20_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK20_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK20_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK20_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK20_SEC_RESET  "-"
+#define OTP_SW_LOCK20_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK20_SEC_MSB    _u(1)
+#define OTP_SW_LOCK20_SEC_LSB    _u(0)
+#define OTP_SW_LOCK20_SEC_ACCESS "RW"
+#define OTP_SW_LOCK20_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK20_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK20_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK21
+// Description : Software lock register for page 21.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK21_OFFSET _u(0x00000054)
+#define OTP_SW_LOCK21_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK21_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK21_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK21_NSEC_RESET  "-"
+#define OTP_SW_LOCK21_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK21_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK21_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK21_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK21_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK21_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK21_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK21_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK21_SEC_RESET  "-"
+#define OTP_SW_LOCK21_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK21_SEC_MSB    _u(1)
+#define OTP_SW_LOCK21_SEC_LSB    _u(0)
+#define OTP_SW_LOCK21_SEC_ACCESS "RW"
+#define OTP_SW_LOCK21_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK21_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK21_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK22
+// Description : Software lock register for page 22.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK22_OFFSET _u(0x00000058)
+#define OTP_SW_LOCK22_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK22_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK22_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK22_NSEC_RESET  "-"
+#define OTP_SW_LOCK22_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK22_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK22_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK22_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK22_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK22_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK22_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK22_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK22_SEC_RESET  "-"
+#define OTP_SW_LOCK22_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK22_SEC_MSB    _u(1)
+#define OTP_SW_LOCK22_SEC_LSB    _u(0)
+#define OTP_SW_LOCK22_SEC_ACCESS "RW"
+#define OTP_SW_LOCK22_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK22_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK22_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK23
+// Description : Software lock register for page 23.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK23_OFFSET _u(0x0000005c)
+#define OTP_SW_LOCK23_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK23_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK23_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK23_NSEC_RESET  "-"
+#define OTP_SW_LOCK23_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK23_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK23_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK23_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK23_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK23_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK23_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK23_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK23_SEC_RESET  "-"
+#define OTP_SW_LOCK23_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK23_SEC_MSB    _u(1)
+#define OTP_SW_LOCK23_SEC_LSB    _u(0)
+#define OTP_SW_LOCK23_SEC_ACCESS "RW"
+#define OTP_SW_LOCK23_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK23_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK23_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK24
+// Description : Software lock register for page 24.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK24_OFFSET _u(0x00000060)
+#define OTP_SW_LOCK24_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK24_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK24_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK24_NSEC_RESET  "-"
+#define OTP_SW_LOCK24_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK24_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK24_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK24_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK24_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK24_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK24_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK24_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK24_SEC_RESET  "-"
+#define OTP_SW_LOCK24_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK24_SEC_MSB    _u(1)
+#define OTP_SW_LOCK24_SEC_LSB    _u(0)
+#define OTP_SW_LOCK24_SEC_ACCESS "RW"
+#define OTP_SW_LOCK24_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK24_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK24_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK25
+// Description : Software lock register for page 25.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK25_OFFSET _u(0x00000064)
+#define OTP_SW_LOCK25_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK25_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK25_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK25_NSEC_RESET  "-"
+#define OTP_SW_LOCK25_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK25_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK25_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK25_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK25_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK25_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK25_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK25_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK25_SEC_RESET  "-"
+#define OTP_SW_LOCK25_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK25_SEC_MSB    _u(1)
+#define OTP_SW_LOCK25_SEC_LSB    _u(0)
+#define OTP_SW_LOCK25_SEC_ACCESS "RW"
+#define OTP_SW_LOCK25_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK25_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK25_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK26
+// Description : Software lock register for page 26.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK26_OFFSET _u(0x00000068)
+#define OTP_SW_LOCK26_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK26_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK26_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK26_NSEC_RESET  "-"
+#define OTP_SW_LOCK26_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK26_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK26_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK26_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK26_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK26_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK26_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK26_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK26_SEC_RESET  "-"
+#define OTP_SW_LOCK26_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK26_SEC_MSB    _u(1)
+#define OTP_SW_LOCK26_SEC_LSB    _u(0)
+#define OTP_SW_LOCK26_SEC_ACCESS "RW"
+#define OTP_SW_LOCK26_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK26_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK26_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK27
+// Description : Software lock register for page 27.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK27_OFFSET _u(0x0000006c)
+#define OTP_SW_LOCK27_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK27_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK27_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK27_NSEC_RESET  "-"
+#define OTP_SW_LOCK27_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK27_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK27_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK27_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK27_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK27_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK27_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK27_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK27_SEC_RESET  "-"
+#define OTP_SW_LOCK27_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK27_SEC_MSB    _u(1)
+#define OTP_SW_LOCK27_SEC_LSB    _u(0)
+#define OTP_SW_LOCK27_SEC_ACCESS "RW"
+#define OTP_SW_LOCK27_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK27_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK27_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK28
+// Description : Software lock register for page 28.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK28_OFFSET _u(0x00000070)
+#define OTP_SW_LOCK28_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK28_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK28_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK28_NSEC_RESET  "-"
+#define OTP_SW_LOCK28_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK28_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK28_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK28_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK28_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK28_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK28_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK28_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK28_SEC_RESET  "-"
+#define OTP_SW_LOCK28_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK28_SEC_MSB    _u(1)
+#define OTP_SW_LOCK28_SEC_LSB    _u(0)
+#define OTP_SW_LOCK28_SEC_ACCESS "RW"
+#define OTP_SW_LOCK28_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK28_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK28_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK29
+// Description : Software lock register for page 29.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK29_OFFSET _u(0x00000074)
+#define OTP_SW_LOCK29_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK29_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK29_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK29_NSEC_RESET  "-"
+#define OTP_SW_LOCK29_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK29_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK29_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK29_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK29_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK29_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK29_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK29_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK29_SEC_RESET  "-"
+#define OTP_SW_LOCK29_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK29_SEC_MSB    _u(1)
+#define OTP_SW_LOCK29_SEC_LSB    _u(0)
+#define OTP_SW_LOCK29_SEC_ACCESS "RW"
+#define OTP_SW_LOCK29_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK29_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK29_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK30
+// Description : Software lock register for page 30.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK30_OFFSET _u(0x00000078)
+#define OTP_SW_LOCK30_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK30_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK30_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK30_NSEC_RESET  "-"
+#define OTP_SW_LOCK30_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK30_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK30_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK30_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK30_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK30_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK30_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK30_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK30_SEC_RESET  "-"
+#define OTP_SW_LOCK30_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK30_SEC_MSB    _u(1)
+#define OTP_SW_LOCK30_SEC_LSB    _u(0)
+#define OTP_SW_LOCK30_SEC_ACCESS "RW"
+#define OTP_SW_LOCK30_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK30_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK30_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK31
+// Description : Software lock register for page 31.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK31_OFFSET _u(0x0000007c)
+#define OTP_SW_LOCK31_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK31_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK31_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK31_NSEC_RESET  "-"
+#define OTP_SW_LOCK31_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK31_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK31_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK31_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK31_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK31_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK31_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK31_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK31_SEC_RESET  "-"
+#define OTP_SW_LOCK31_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK31_SEC_MSB    _u(1)
+#define OTP_SW_LOCK31_SEC_LSB    _u(0)
+#define OTP_SW_LOCK31_SEC_ACCESS "RW"
+#define OTP_SW_LOCK31_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK31_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK31_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK32
+// Description : Software lock register for page 32.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK32_OFFSET _u(0x00000080)
+#define OTP_SW_LOCK32_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK32_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK32_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK32_NSEC_RESET  "-"
+#define OTP_SW_LOCK32_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK32_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK32_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK32_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK32_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK32_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK32_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK32_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK32_SEC_RESET  "-"
+#define OTP_SW_LOCK32_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK32_SEC_MSB    _u(1)
+#define OTP_SW_LOCK32_SEC_LSB    _u(0)
+#define OTP_SW_LOCK32_SEC_ACCESS "RW"
+#define OTP_SW_LOCK32_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK32_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK32_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK33
+// Description : Software lock register for page 33.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK33_OFFSET _u(0x00000084)
+#define OTP_SW_LOCK33_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK33_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK33_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK33_NSEC_RESET  "-"
+#define OTP_SW_LOCK33_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK33_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK33_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK33_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK33_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK33_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK33_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK33_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK33_SEC_RESET  "-"
+#define OTP_SW_LOCK33_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK33_SEC_MSB    _u(1)
+#define OTP_SW_LOCK33_SEC_LSB    _u(0)
+#define OTP_SW_LOCK33_SEC_ACCESS "RW"
+#define OTP_SW_LOCK33_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK33_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK33_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK34
+// Description : Software lock register for page 34.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK34_OFFSET _u(0x00000088)
+#define OTP_SW_LOCK34_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK34_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK34_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK34_NSEC_RESET  "-"
+#define OTP_SW_LOCK34_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK34_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK34_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK34_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK34_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK34_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK34_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK34_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK34_SEC_RESET  "-"
+#define OTP_SW_LOCK34_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK34_SEC_MSB    _u(1)
+#define OTP_SW_LOCK34_SEC_LSB    _u(0)
+#define OTP_SW_LOCK34_SEC_ACCESS "RW"
+#define OTP_SW_LOCK34_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK34_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK34_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK35
+// Description : Software lock register for page 35.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK35_OFFSET _u(0x0000008c)
+#define OTP_SW_LOCK35_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK35_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK35_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK35_NSEC_RESET  "-"
+#define OTP_SW_LOCK35_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK35_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK35_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK35_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK35_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK35_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK35_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK35_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK35_SEC_RESET  "-"
+#define OTP_SW_LOCK35_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK35_SEC_MSB    _u(1)
+#define OTP_SW_LOCK35_SEC_LSB    _u(0)
+#define OTP_SW_LOCK35_SEC_ACCESS "RW"
+#define OTP_SW_LOCK35_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK35_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK35_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK36
+// Description : Software lock register for page 36.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK36_OFFSET _u(0x00000090)
+#define OTP_SW_LOCK36_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK36_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK36_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK36_NSEC_RESET  "-"
+#define OTP_SW_LOCK36_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK36_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK36_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK36_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK36_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK36_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK36_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK36_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK36_SEC_RESET  "-"
+#define OTP_SW_LOCK36_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK36_SEC_MSB    _u(1)
+#define OTP_SW_LOCK36_SEC_LSB    _u(0)
+#define OTP_SW_LOCK36_SEC_ACCESS "RW"
+#define OTP_SW_LOCK36_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK36_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK36_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK37
+// Description : Software lock register for page 37.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK37_OFFSET _u(0x00000094)
+#define OTP_SW_LOCK37_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK37_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK37_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK37_NSEC_RESET  "-"
+#define OTP_SW_LOCK37_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK37_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK37_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK37_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK37_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK37_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK37_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK37_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK37_SEC_RESET  "-"
+#define OTP_SW_LOCK37_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK37_SEC_MSB    _u(1)
+#define OTP_SW_LOCK37_SEC_LSB    _u(0)
+#define OTP_SW_LOCK37_SEC_ACCESS "RW"
+#define OTP_SW_LOCK37_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK37_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK37_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK38
+// Description : Software lock register for page 38.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK38_OFFSET _u(0x00000098)
+#define OTP_SW_LOCK38_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK38_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK38_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK38_NSEC_RESET  "-"
+#define OTP_SW_LOCK38_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK38_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK38_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK38_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK38_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK38_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK38_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK38_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK38_SEC_RESET  "-"
+#define OTP_SW_LOCK38_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK38_SEC_MSB    _u(1)
+#define OTP_SW_LOCK38_SEC_LSB    _u(0)
+#define OTP_SW_LOCK38_SEC_ACCESS "RW"
+#define OTP_SW_LOCK38_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK38_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK38_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK39
+// Description : Software lock register for page 39.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK39_OFFSET _u(0x0000009c)
+#define OTP_SW_LOCK39_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK39_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK39_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK39_NSEC_RESET  "-"
+#define OTP_SW_LOCK39_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK39_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK39_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK39_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK39_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK39_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK39_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK39_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK39_SEC_RESET  "-"
+#define OTP_SW_LOCK39_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK39_SEC_MSB    _u(1)
+#define OTP_SW_LOCK39_SEC_LSB    _u(0)
+#define OTP_SW_LOCK39_SEC_ACCESS "RW"
+#define OTP_SW_LOCK39_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK39_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK39_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK40
+// Description : Software lock register for page 40.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK40_OFFSET _u(0x000000a0)
+#define OTP_SW_LOCK40_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK40_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK40_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK40_NSEC_RESET  "-"
+#define OTP_SW_LOCK40_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK40_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK40_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK40_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK40_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK40_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK40_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK40_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK40_SEC_RESET  "-"
+#define OTP_SW_LOCK40_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK40_SEC_MSB    _u(1)
+#define OTP_SW_LOCK40_SEC_LSB    _u(0)
+#define OTP_SW_LOCK40_SEC_ACCESS "RW"
+#define OTP_SW_LOCK40_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK40_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK40_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK41
+// Description : Software lock register for page 41.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK41_OFFSET _u(0x000000a4)
+#define OTP_SW_LOCK41_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK41_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK41_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK41_NSEC_RESET  "-"
+#define OTP_SW_LOCK41_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK41_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK41_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK41_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK41_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK41_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK41_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK41_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK41_SEC_RESET  "-"
+#define OTP_SW_LOCK41_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK41_SEC_MSB    _u(1)
+#define OTP_SW_LOCK41_SEC_LSB    _u(0)
+#define OTP_SW_LOCK41_SEC_ACCESS "RW"
+#define OTP_SW_LOCK41_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK41_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK41_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK42
+// Description : Software lock register for page 42.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK42_OFFSET _u(0x000000a8)
+#define OTP_SW_LOCK42_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK42_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK42_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK42_NSEC_RESET  "-"
+#define OTP_SW_LOCK42_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK42_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK42_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK42_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK42_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK42_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK42_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK42_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK42_SEC_RESET  "-"
+#define OTP_SW_LOCK42_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK42_SEC_MSB    _u(1)
+#define OTP_SW_LOCK42_SEC_LSB    _u(0)
+#define OTP_SW_LOCK42_SEC_ACCESS "RW"
+#define OTP_SW_LOCK42_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK42_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK42_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK43
+// Description : Software lock register for page 43.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK43_OFFSET _u(0x000000ac)
+#define OTP_SW_LOCK43_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK43_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK43_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK43_NSEC_RESET  "-"
+#define OTP_SW_LOCK43_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK43_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK43_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK43_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK43_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK43_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK43_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK43_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK43_SEC_RESET  "-"
+#define OTP_SW_LOCK43_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK43_SEC_MSB    _u(1)
+#define OTP_SW_LOCK43_SEC_LSB    _u(0)
+#define OTP_SW_LOCK43_SEC_ACCESS "RW"
+#define OTP_SW_LOCK43_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK43_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK43_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK44
+// Description : Software lock register for page 44.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK44_OFFSET _u(0x000000b0)
+#define OTP_SW_LOCK44_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK44_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK44_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK44_NSEC_RESET  "-"
+#define OTP_SW_LOCK44_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK44_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK44_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK44_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK44_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK44_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK44_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK44_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK44_SEC_RESET  "-"
+#define OTP_SW_LOCK44_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK44_SEC_MSB    _u(1)
+#define OTP_SW_LOCK44_SEC_LSB    _u(0)
+#define OTP_SW_LOCK44_SEC_ACCESS "RW"
+#define OTP_SW_LOCK44_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK44_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK44_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK45
+// Description : Software lock register for page 45.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK45_OFFSET _u(0x000000b4)
+#define OTP_SW_LOCK45_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK45_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK45_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK45_NSEC_RESET  "-"
+#define OTP_SW_LOCK45_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK45_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK45_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK45_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK45_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK45_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK45_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK45_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK45_SEC_RESET  "-"
+#define OTP_SW_LOCK45_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK45_SEC_MSB    _u(1)
+#define OTP_SW_LOCK45_SEC_LSB    _u(0)
+#define OTP_SW_LOCK45_SEC_ACCESS "RW"
+#define OTP_SW_LOCK45_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK45_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK45_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK46
+// Description : Software lock register for page 46.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK46_OFFSET _u(0x000000b8)
+#define OTP_SW_LOCK46_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK46_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK46_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK46_NSEC_RESET  "-"
+#define OTP_SW_LOCK46_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK46_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK46_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK46_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK46_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK46_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK46_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK46_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK46_SEC_RESET  "-"
+#define OTP_SW_LOCK46_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK46_SEC_MSB    _u(1)
+#define OTP_SW_LOCK46_SEC_LSB    _u(0)
+#define OTP_SW_LOCK46_SEC_ACCESS "RW"
+#define OTP_SW_LOCK46_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK46_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK46_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK47
+// Description : Software lock register for page 47.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK47_OFFSET _u(0x000000bc)
+#define OTP_SW_LOCK47_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK47_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK47_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK47_NSEC_RESET  "-"
+#define OTP_SW_LOCK47_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK47_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK47_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK47_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK47_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK47_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK47_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK47_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK47_SEC_RESET  "-"
+#define OTP_SW_LOCK47_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK47_SEC_MSB    _u(1)
+#define OTP_SW_LOCK47_SEC_LSB    _u(0)
+#define OTP_SW_LOCK47_SEC_ACCESS "RW"
+#define OTP_SW_LOCK47_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK47_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK47_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK48
+// Description : Software lock register for page 48.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK48_OFFSET _u(0x000000c0)
+#define OTP_SW_LOCK48_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK48_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK48_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK48_NSEC_RESET  "-"
+#define OTP_SW_LOCK48_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK48_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK48_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK48_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK48_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK48_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK48_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK48_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK48_SEC_RESET  "-"
+#define OTP_SW_LOCK48_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK48_SEC_MSB    _u(1)
+#define OTP_SW_LOCK48_SEC_LSB    _u(0)
+#define OTP_SW_LOCK48_SEC_ACCESS "RW"
+#define OTP_SW_LOCK48_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK48_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK48_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK49
+// Description : Software lock register for page 49.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK49_OFFSET _u(0x000000c4)
+#define OTP_SW_LOCK49_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK49_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK49_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK49_NSEC_RESET  "-"
+#define OTP_SW_LOCK49_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK49_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK49_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK49_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK49_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK49_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK49_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK49_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK49_SEC_RESET  "-"
+#define OTP_SW_LOCK49_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK49_SEC_MSB    _u(1)
+#define OTP_SW_LOCK49_SEC_LSB    _u(0)
+#define OTP_SW_LOCK49_SEC_ACCESS "RW"
+#define OTP_SW_LOCK49_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK49_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK49_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK50
+// Description : Software lock register for page 50.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK50_OFFSET _u(0x000000c8)
+#define OTP_SW_LOCK50_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK50_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK50_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK50_NSEC_RESET  "-"
+#define OTP_SW_LOCK50_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK50_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK50_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK50_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK50_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK50_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK50_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK50_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK50_SEC_RESET  "-"
+#define OTP_SW_LOCK50_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK50_SEC_MSB    _u(1)
+#define OTP_SW_LOCK50_SEC_LSB    _u(0)
+#define OTP_SW_LOCK50_SEC_ACCESS "RW"
+#define OTP_SW_LOCK50_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK50_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK50_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK51
+// Description : Software lock register for page 51.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK51_OFFSET _u(0x000000cc)
+#define OTP_SW_LOCK51_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK51_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK51_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK51_NSEC_RESET  "-"
+#define OTP_SW_LOCK51_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK51_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK51_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK51_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK51_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK51_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK51_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK51_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK51_SEC_RESET  "-"
+#define OTP_SW_LOCK51_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK51_SEC_MSB    _u(1)
+#define OTP_SW_LOCK51_SEC_LSB    _u(0)
+#define OTP_SW_LOCK51_SEC_ACCESS "RW"
+#define OTP_SW_LOCK51_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK51_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK51_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK52
+// Description : Software lock register for page 52.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK52_OFFSET _u(0x000000d0)
+#define OTP_SW_LOCK52_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK52_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK52_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK52_NSEC_RESET  "-"
+#define OTP_SW_LOCK52_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK52_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK52_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK52_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK52_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK52_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK52_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK52_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK52_SEC_RESET  "-"
+#define OTP_SW_LOCK52_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK52_SEC_MSB    _u(1)
+#define OTP_SW_LOCK52_SEC_LSB    _u(0)
+#define OTP_SW_LOCK52_SEC_ACCESS "RW"
+#define OTP_SW_LOCK52_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK52_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK52_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK53
+// Description : Software lock register for page 53.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK53_OFFSET _u(0x000000d4)
+#define OTP_SW_LOCK53_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK53_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK53_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK53_NSEC_RESET  "-"
+#define OTP_SW_LOCK53_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK53_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK53_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK53_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK53_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK53_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK53_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK53_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK53_SEC_RESET  "-"
+#define OTP_SW_LOCK53_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK53_SEC_MSB    _u(1)
+#define OTP_SW_LOCK53_SEC_LSB    _u(0)
+#define OTP_SW_LOCK53_SEC_ACCESS "RW"
+#define OTP_SW_LOCK53_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK53_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK53_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK54
+// Description : Software lock register for page 54.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK54_OFFSET _u(0x000000d8)
+#define OTP_SW_LOCK54_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK54_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK54_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK54_NSEC_RESET  "-"
+#define OTP_SW_LOCK54_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK54_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK54_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK54_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK54_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK54_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK54_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK54_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK54_SEC_RESET  "-"
+#define OTP_SW_LOCK54_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK54_SEC_MSB    _u(1)
+#define OTP_SW_LOCK54_SEC_LSB    _u(0)
+#define OTP_SW_LOCK54_SEC_ACCESS "RW"
+#define OTP_SW_LOCK54_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK54_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK54_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK55
+// Description : Software lock register for page 55.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK55_OFFSET _u(0x000000dc)
+#define OTP_SW_LOCK55_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK55_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK55_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK55_NSEC_RESET  "-"
+#define OTP_SW_LOCK55_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK55_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK55_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK55_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK55_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK55_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK55_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK55_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK55_SEC_RESET  "-"
+#define OTP_SW_LOCK55_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK55_SEC_MSB    _u(1)
+#define OTP_SW_LOCK55_SEC_LSB    _u(0)
+#define OTP_SW_LOCK55_SEC_ACCESS "RW"
+#define OTP_SW_LOCK55_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK55_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK55_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK56
+// Description : Software lock register for page 56.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK56_OFFSET _u(0x000000e0)
+#define OTP_SW_LOCK56_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK56_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK56_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK56_NSEC_RESET  "-"
+#define OTP_SW_LOCK56_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK56_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK56_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK56_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK56_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK56_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK56_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK56_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK56_SEC_RESET  "-"
+#define OTP_SW_LOCK56_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK56_SEC_MSB    _u(1)
+#define OTP_SW_LOCK56_SEC_LSB    _u(0)
+#define OTP_SW_LOCK56_SEC_ACCESS "RW"
+#define OTP_SW_LOCK56_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK56_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK56_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK57
+// Description : Software lock register for page 57.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK57_OFFSET _u(0x000000e4)
+#define OTP_SW_LOCK57_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK57_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK57_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK57_NSEC_RESET  "-"
+#define OTP_SW_LOCK57_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK57_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK57_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK57_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK57_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK57_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK57_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK57_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK57_SEC_RESET  "-"
+#define OTP_SW_LOCK57_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK57_SEC_MSB    _u(1)
+#define OTP_SW_LOCK57_SEC_LSB    _u(0)
+#define OTP_SW_LOCK57_SEC_ACCESS "RW"
+#define OTP_SW_LOCK57_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK57_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK57_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK58
+// Description : Software lock register for page 58.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK58_OFFSET _u(0x000000e8)
+#define OTP_SW_LOCK58_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK58_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK58_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK58_NSEC_RESET  "-"
+#define OTP_SW_LOCK58_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK58_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK58_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK58_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK58_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK58_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK58_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK58_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK58_SEC_RESET  "-"
+#define OTP_SW_LOCK58_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK58_SEC_MSB    _u(1)
+#define OTP_SW_LOCK58_SEC_LSB    _u(0)
+#define OTP_SW_LOCK58_SEC_ACCESS "RW"
+#define OTP_SW_LOCK58_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK58_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK58_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK59
+// Description : Software lock register for page 59.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK59_OFFSET _u(0x000000ec)
+#define OTP_SW_LOCK59_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK59_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK59_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK59_NSEC_RESET  "-"
+#define OTP_SW_LOCK59_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK59_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK59_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK59_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK59_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK59_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK59_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK59_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK59_SEC_RESET  "-"
+#define OTP_SW_LOCK59_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK59_SEC_MSB    _u(1)
+#define OTP_SW_LOCK59_SEC_LSB    _u(0)
+#define OTP_SW_LOCK59_SEC_ACCESS "RW"
+#define OTP_SW_LOCK59_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK59_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK59_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK60
+// Description : Software lock register for page 60.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK60_OFFSET _u(0x000000f0)
+#define OTP_SW_LOCK60_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK60_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK60_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK60_NSEC_RESET  "-"
+#define OTP_SW_LOCK60_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK60_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK60_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK60_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK60_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK60_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK60_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK60_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK60_SEC_RESET  "-"
+#define OTP_SW_LOCK60_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK60_SEC_MSB    _u(1)
+#define OTP_SW_LOCK60_SEC_LSB    _u(0)
+#define OTP_SW_LOCK60_SEC_ACCESS "RW"
+#define OTP_SW_LOCK60_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK60_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK60_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK61
+// Description : Software lock register for page 61.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK61_OFFSET _u(0x000000f4)
+#define OTP_SW_LOCK61_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK61_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK61_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK61_NSEC_RESET  "-"
+#define OTP_SW_LOCK61_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK61_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK61_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK61_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK61_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK61_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK61_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK61_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK61_SEC_RESET  "-"
+#define OTP_SW_LOCK61_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK61_SEC_MSB    _u(1)
+#define OTP_SW_LOCK61_SEC_LSB    _u(0)
+#define OTP_SW_LOCK61_SEC_ACCESS "RW"
+#define OTP_SW_LOCK61_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK61_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK61_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK62
+// Description : Software lock register for page 62.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK62_OFFSET _u(0x000000f8)
+#define OTP_SW_LOCK62_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK62_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK62_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK62_NSEC_RESET  "-"
+#define OTP_SW_LOCK62_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK62_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK62_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK62_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK62_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK62_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK62_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK62_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK62_SEC_RESET  "-"
+#define OTP_SW_LOCK62_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK62_SEC_MSB    _u(1)
+#define OTP_SW_LOCK62_SEC_LSB    _u(0)
+#define OTP_SW_LOCK62_SEC_ACCESS "RW"
+#define OTP_SW_LOCK62_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK62_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK62_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SW_LOCK63
+// Description : Software lock register for page 63.
+//
+//               Locks are initialised from the OTP lock pages at reset. This
+//               register can be written to further advance the lock state of
+//               each page (until next reset), and read to check the current
+//               lock state of a page.
+#define OTP_SW_LOCK63_OFFSET _u(0x000000fc)
+#define OTP_SW_LOCK63_BITS   _u(0x0000000f)
+#define OTP_SW_LOCK63_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK63_NSEC
+// Description : Non-secure lock status. Writes are OR'd with the current value.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK63_NSEC_RESET  "-"
+#define OTP_SW_LOCK63_NSEC_BITS   _u(0x0000000c)
+#define OTP_SW_LOCK63_NSEC_MSB    _u(3)
+#define OTP_SW_LOCK63_NSEC_LSB    _u(2)
+#define OTP_SW_LOCK63_NSEC_ACCESS "RW"
+#define OTP_SW_LOCK63_NSEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK63_NSEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK63_NSEC_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SW_LOCK63_SEC
+// Description : Secure lock status. Writes are OR'd with the current value.
+//               This field is read-only to Non-secure code.
+//               0x0 -> read_write
+//               0x1 -> read_only
+//               0x3 -> inaccessible
+#define OTP_SW_LOCK63_SEC_RESET  "-"
+#define OTP_SW_LOCK63_SEC_BITS   _u(0x00000003)
+#define OTP_SW_LOCK63_SEC_MSB    _u(1)
+#define OTP_SW_LOCK63_SEC_LSB    _u(0)
+#define OTP_SW_LOCK63_SEC_ACCESS "RW"
+#define OTP_SW_LOCK63_SEC_VALUE_READ_WRITE _u(0x0)
+#define OTP_SW_LOCK63_SEC_VALUE_READ_ONLY _u(0x1)
+#define OTP_SW_LOCK63_SEC_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_SBPI_INSTR
+// Description : Dispatch instructions to the SBPI interface, used for
+//               programming the OTP fuses.
+#define OTP_SBPI_INSTR_OFFSET _u(0x00000100)
+#define OTP_SBPI_INSTR_BITS   _u(0x7fffffff)
+#define OTP_SBPI_INSTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_EXEC
+// Description : Execute instruction
+#define OTP_SBPI_INSTR_EXEC_RESET  _u(0x0)
+#define OTP_SBPI_INSTR_EXEC_BITS   _u(0x40000000)
+#define OTP_SBPI_INSTR_EXEC_MSB    _u(30)
+#define OTP_SBPI_INSTR_EXEC_LSB    _u(30)
+#define OTP_SBPI_INSTR_EXEC_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_IS_WR
+// Description : Payload type is write
+#define OTP_SBPI_INSTR_IS_WR_RESET  _u(0x0)
+#define OTP_SBPI_INSTR_IS_WR_BITS   _u(0x20000000)
+#define OTP_SBPI_INSTR_IS_WR_MSB    _u(29)
+#define OTP_SBPI_INSTR_IS_WR_LSB    _u(29)
+#define OTP_SBPI_INSTR_IS_WR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_HAS_PAYLOAD
+// Description : Instruction has payload (data to be written or to be read)
+#define OTP_SBPI_INSTR_HAS_PAYLOAD_RESET  _u(0x0)
+#define OTP_SBPI_INSTR_HAS_PAYLOAD_BITS   _u(0x10000000)
+#define OTP_SBPI_INSTR_HAS_PAYLOAD_MSB    _u(28)
+#define OTP_SBPI_INSTR_HAS_PAYLOAD_LSB    _u(28)
+#define OTP_SBPI_INSTR_HAS_PAYLOAD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_PAYLOAD_SIZE_M1
+// Description : Instruction payload size in bytes minus 1
+#define OTP_SBPI_INSTR_PAYLOAD_SIZE_M1_RESET  _u(0x0)
+#define OTP_SBPI_INSTR_PAYLOAD_SIZE_M1_BITS   _u(0x0f000000)
+#define OTP_SBPI_INSTR_PAYLOAD_SIZE_M1_MSB    _u(27)
+#define OTP_SBPI_INSTR_PAYLOAD_SIZE_M1_LSB    _u(24)
+#define OTP_SBPI_INSTR_PAYLOAD_SIZE_M1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_TARGET
+// Description : Instruction target, it can be PMC (0x3a) or DAP (0x02)
+#define OTP_SBPI_INSTR_TARGET_RESET  _u(0x00)
+#define OTP_SBPI_INSTR_TARGET_BITS   _u(0x00ff0000)
+#define OTP_SBPI_INSTR_TARGET_MSB    _u(23)
+#define OTP_SBPI_INSTR_TARGET_LSB    _u(16)
+#define OTP_SBPI_INSTR_TARGET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_CMD
+#define OTP_SBPI_INSTR_CMD_RESET  _u(0x00)
+#define OTP_SBPI_INSTR_CMD_BITS   _u(0x0000ff00)
+#define OTP_SBPI_INSTR_CMD_MSB    _u(15)
+#define OTP_SBPI_INSTR_CMD_LSB    _u(8)
+#define OTP_SBPI_INSTR_CMD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_INSTR_SHORT_WDATA
+// Description : wdata to be used only when payload_size_m1=0
+#define OTP_SBPI_INSTR_SHORT_WDATA_RESET  _u(0x00)
+#define OTP_SBPI_INSTR_SHORT_WDATA_BITS   _u(0x000000ff)
+#define OTP_SBPI_INSTR_SHORT_WDATA_MSB    _u(7)
+#define OTP_SBPI_INSTR_SHORT_WDATA_LSB    _u(0)
+#define OTP_SBPI_INSTR_SHORT_WDATA_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_SBPI_WDATA_0
+// Description : SBPI write payload bytes 3..0
+#define OTP_SBPI_WDATA_0_OFFSET _u(0x00000104)
+#define OTP_SBPI_WDATA_0_BITS   _u(0xffffffff)
+#define OTP_SBPI_WDATA_0_RESET  _u(0x00000000)
+#define OTP_SBPI_WDATA_0_MSB    _u(31)
+#define OTP_SBPI_WDATA_0_LSB    _u(0)
+#define OTP_SBPI_WDATA_0_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_SBPI_WDATA_1
+// Description : SBPI write payload bytes 7..4
+#define OTP_SBPI_WDATA_1_OFFSET _u(0x00000108)
+#define OTP_SBPI_WDATA_1_BITS   _u(0xffffffff)
+#define OTP_SBPI_WDATA_1_RESET  _u(0x00000000)
+#define OTP_SBPI_WDATA_1_MSB    _u(31)
+#define OTP_SBPI_WDATA_1_LSB    _u(0)
+#define OTP_SBPI_WDATA_1_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_SBPI_WDATA_2
+// Description : SBPI write payload bytes 11..8
+#define OTP_SBPI_WDATA_2_OFFSET _u(0x0000010c)
+#define OTP_SBPI_WDATA_2_BITS   _u(0xffffffff)
+#define OTP_SBPI_WDATA_2_RESET  _u(0x00000000)
+#define OTP_SBPI_WDATA_2_MSB    _u(31)
+#define OTP_SBPI_WDATA_2_LSB    _u(0)
+#define OTP_SBPI_WDATA_2_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_SBPI_WDATA_3
+// Description : SBPI write payload bytes 15..12
+#define OTP_SBPI_WDATA_3_OFFSET _u(0x00000110)
+#define OTP_SBPI_WDATA_3_BITS   _u(0xffffffff)
+#define OTP_SBPI_WDATA_3_RESET  _u(0x00000000)
+#define OTP_SBPI_WDATA_3_MSB    _u(31)
+#define OTP_SBPI_WDATA_3_LSB    _u(0)
+#define OTP_SBPI_WDATA_3_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_SBPI_RDATA_0
+// Description : Read payload bytes 3..0. Once read, the data in the register
+//               will automatically clear to 0.
+#define OTP_SBPI_RDATA_0_OFFSET _u(0x00000114)
+#define OTP_SBPI_RDATA_0_BITS   _u(0xffffffff)
+#define OTP_SBPI_RDATA_0_RESET  _u(0x00000000)
+#define OTP_SBPI_RDATA_0_MSB    _u(31)
+#define OTP_SBPI_RDATA_0_LSB    _u(0)
+#define OTP_SBPI_RDATA_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_SBPI_RDATA_1
+// Description : Read payload bytes 7..4. Once read, the data in the register
+//               will automatically clear to 0.
+#define OTP_SBPI_RDATA_1_OFFSET _u(0x00000118)
+#define OTP_SBPI_RDATA_1_BITS   _u(0xffffffff)
+#define OTP_SBPI_RDATA_1_RESET  _u(0x00000000)
+#define OTP_SBPI_RDATA_1_MSB    _u(31)
+#define OTP_SBPI_RDATA_1_LSB    _u(0)
+#define OTP_SBPI_RDATA_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_SBPI_RDATA_2
+// Description : Read payload bytes 11..8. Once read, the data in the register
+//               will automatically clear to 0.
+#define OTP_SBPI_RDATA_2_OFFSET _u(0x0000011c)
+#define OTP_SBPI_RDATA_2_BITS   _u(0xffffffff)
+#define OTP_SBPI_RDATA_2_RESET  _u(0x00000000)
+#define OTP_SBPI_RDATA_2_MSB    _u(31)
+#define OTP_SBPI_RDATA_2_LSB    _u(0)
+#define OTP_SBPI_RDATA_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_SBPI_RDATA_3
+// Description : Read payload bytes 15..12. Once read, the data in the register
+//               will automatically clear to 0.
+#define OTP_SBPI_RDATA_3_OFFSET _u(0x00000120)
+#define OTP_SBPI_RDATA_3_BITS   _u(0xffffffff)
+#define OTP_SBPI_RDATA_3_RESET  _u(0x00000000)
+#define OTP_SBPI_RDATA_3_MSB    _u(31)
+#define OTP_SBPI_RDATA_3_LSB    _u(0)
+#define OTP_SBPI_RDATA_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_SBPI_STATUS
+#define OTP_SBPI_STATUS_OFFSET _u(0x00000124)
+#define OTP_SBPI_STATUS_BITS   _u(0x00ff1111)
+#define OTP_SBPI_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_STATUS_MISO
+// Description : SBPI MISO (master in - slave out): response from SBPI
+#define OTP_SBPI_STATUS_MISO_RESET  "-"
+#define OTP_SBPI_STATUS_MISO_BITS   _u(0x00ff0000)
+#define OTP_SBPI_STATUS_MISO_MSB    _u(23)
+#define OTP_SBPI_STATUS_MISO_LSB    _u(16)
+#define OTP_SBPI_STATUS_MISO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_STATUS_FLAG
+// Description : SBPI flag
+#define OTP_SBPI_STATUS_FLAG_RESET  "-"
+#define OTP_SBPI_STATUS_FLAG_BITS   _u(0x00001000)
+#define OTP_SBPI_STATUS_FLAG_MSB    _u(12)
+#define OTP_SBPI_STATUS_FLAG_LSB    _u(12)
+#define OTP_SBPI_STATUS_FLAG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_STATUS_INSTR_MISS
+// Description : Last instruction missed (dropped), as the previous has not
+//               finished running
+#define OTP_SBPI_STATUS_INSTR_MISS_RESET  _u(0x0)
+#define OTP_SBPI_STATUS_INSTR_MISS_BITS   _u(0x00000100)
+#define OTP_SBPI_STATUS_INSTR_MISS_MSB    _u(8)
+#define OTP_SBPI_STATUS_INSTR_MISS_LSB    _u(8)
+#define OTP_SBPI_STATUS_INSTR_MISS_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_STATUS_INSTR_DONE
+// Description : Last instruction done
+#define OTP_SBPI_STATUS_INSTR_DONE_RESET  _u(0x0)
+#define OTP_SBPI_STATUS_INSTR_DONE_BITS   _u(0x00000010)
+#define OTP_SBPI_STATUS_INSTR_DONE_MSB    _u(4)
+#define OTP_SBPI_STATUS_INSTR_DONE_LSB    _u(4)
+#define OTP_SBPI_STATUS_INSTR_DONE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_SBPI_STATUS_RDATA_VLD
+// Description : Read command has returned data
+#define OTP_SBPI_STATUS_RDATA_VLD_RESET  _u(0x0)
+#define OTP_SBPI_STATUS_RDATA_VLD_BITS   _u(0x00000001)
+#define OTP_SBPI_STATUS_RDATA_VLD_MSB    _u(0)
+#define OTP_SBPI_STATUS_RDATA_VLD_LSB    _u(0)
+#define OTP_SBPI_STATUS_RDATA_VLD_ACCESS "WC"
+// =============================================================================
+// Register    : OTP_USR
+// Description : Controls for APB data read interface (USER interface)
+#define OTP_USR_OFFSET _u(0x00000128)
+#define OTP_USR_BITS   _u(0x00000011)
+#define OTP_USR_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : OTP_USR_PD
+// Description : Power-down; 1 disables current reference. Must be 0 to read
+//               data from the OTP.
+#define OTP_USR_PD_RESET  _u(0x0)
+#define OTP_USR_PD_BITS   _u(0x00000010)
+#define OTP_USR_PD_MSB    _u(4)
+#define OTP_USR_PD_LSB    _u(4)
+#define OTP_USR_PD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_USR_DCTRL
+// Description : 1 enables USER interface; 0 disables USER interface (enables
+//               SBPI).
+//
+//               This bit must be cleared before performing any SBPI access,
+//               such as when programming the OTP. The APB data read interface
+//               (USER interface) will be inaccessible during this time, and
+//               will return a bus error if any read is attempted.
+#define OTP_USR_DCTRL_RESET  _u(0x1)
+#define OTP_USR_DCTRL_BITS   _u(0x00000001)
+#define OTP_USR_DCTRL_MSB    _u(0)
+#define OTP_USR_DCTRL_LSB    _u(0)
+#define OTP_USR_DCTRL_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_DBG
+// Description : Debug for OTP power-on state machine
+#define OTP_DBG_OFFSET _u(0x0000012c)
+#define OTP_DBG_BITS   _u(0x000010ff)
+#define OTP_DBG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_CUSTOMER_RMA_FLAG
+// Description : The chip is in RMA mode
+#define OTP_DBG_CUSTOMER_RMA_FLAG_RESET  "-"
+#define OTP_DBG_CUSTOMER_RMA_FLAG_BITS   _u(0x00001000)
+#define OTP_DBG_CUSTOMER_RMA_FLAG_MSB    _u(12)
+#define OTP_DBG_CUSTOMER_RMA_FLAG_LSB    _u(12)
+#define OTP_DBG_CUSTOMER_RMA_FLAG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_PSM_STATE
+// Description : Monitor the PSM FSM's state
+#define OTP_DBG_PSM_STATE_RESET  "-"
+#define OTP_DBG_PSM_STATE_BITS   _u(0x000000f0)
+#define OTP_DBG_PSM_STATE_MSB    _u(7)
+#define OTP_DBG_PSM_STATE_LSB    _u(4)
+#define OTP_DBG_PSM_STATE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_ROSC_UP
+// Description : Ring oscillator is up and running
+#define OTP_DBG_ROSC_UP_RESET  "-"
+#define OTP_DBG_ROSC_UP_BITS   _u(0x00000008)
+#define OTP_DBG_ROSC_UP_MSB    _u(3)
+#define OTP_DBG_ROSC_UP_LSB    _u(3)
+#define OTP_DBG_ROSC_UP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_ROSC_UP_SEEN
+// Description : Ring oscillator was seen up and running
+#define OTP_DBG_ROSC_UP_SEEN_RESET  _u(0x0)
+#define OTP_DBG_ROSC_UP_SEEN_BITS   _u(0x00000004)
+#define OTP_DBG_ROSC_UP_SEEN_MSB    _u(2)
+#define OTP_DBG_ROSC_UP_SEEN_LSB    _u(2)
+#define OTP_DBG_ROSC_UP_SEEN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_BOOT_DONE
+// Description : PSM boot done status flag
+#define OTP_DBG_BOOT_DONE_RESET  "-"
+#define OTP_DBG_BOOT_DONE_BITS   _u(0x00000002)
+#define OTP_DBG_BOOT_DONE_MSB    _u(1)
+#define OTP_DBG_BOOT_DONE_LSB    _u(1)
+#define OTP_DBG_BOOT_DONE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DBG_PSM_DONE
+// Description : PSM done status flag
+#define OTP_DBG_PSM_DONE_RESET  "-"
+#define OTP_DBG_PSM_DONE_BITS   _u(0x00000001)
+#define OTP_DBG_PSM_DONE_MSB    _u(0)
+#define OTP_DBG_PSM_DONE_LSB    _u(0)
+#define OTP_DBG_PSM_DONE_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_BIST
+// Description : During BIST, count address locations that have at least one
+//               leaky bit
+#define OTP_BIST_OFFSET _u(0x00000134)
+#define OTP_BIST_BITS   _u(0x7fff1fff)
+#define OTP_BIST_RESET  _u(0x0fff0000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_BIST_CNT_FAIL
+// Description : Flag if the count of address locations with at least one leaky
+//               bit exceeds cnt_max
+#define OTP_BIST_CNT_FAIL_RESET  "-"
+#define OTP_BIST_CNT_FAIL_BITS   _u(0x40000000)
+#define OTP_BIST_CNT_FAIL_MSB    _u(30)
+#define OTP_BIST_CNT_FAIL_LSB    _u(30)
+#define OTP_BIST_CNT_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_BIST_CNT_CLR
+// Description : Clear counter before use
+#define OTP_BIST_CNT_CLR_RESET  _u(0x0)
+#define OTP_BIST_CNT_CLR_BITS   _u(0x20000000)
+#define OTP_BIST_CNT_CLR_MSB    _u(29)
+#define OTP_BIST_CNT_CLR_LSB    _u(29)
+#define OTP_BIST_CNT_CLR_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_BIST_CNT_ENA
+// Description : Enable the counter before the BIST function is initiated
+#define OTP_BIST_CNT_ENA_RESET  _u(0x0)
+#define OTP_BIST_CNT_ENA_BITS   _u(0x10000000)
+#define OTP_BIST_CNT_ENA_MSB    _u(28)
+#define OTP_BIST_CNT_ENA_LSB    _u(28)
+#define OTP_BIST_CNT_ENA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_BIST_CNT_MAX
+// Description : The cnt_fail flag will be set if the number of leaky locations
+//               exceeds this number
+#define OTP_BIST_CNT_MAX_RESET  _u(0xfff)
+#define OTP_BIST_CNT_MAX_BITS   _u(0x0fff0000)
+#define OTP_BIST_CNT_MAX_MSB    _u(27)
+#define OTP_BIST_CNT_MAX_LSB    _u(16)
+#define OTP_BIST_CNT_MAX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_BIST_CNT
+// Description : Number of locations that have at least one leaky bit. Note:
+//               This count is true only if the BIST was initiated without the
+//               fix option.
+#define OTP_BIST_CNT_RESET  "-"
+#define OTP_BIST_CNT_BITS   _u(0x00001fff)
+#define OTP_BIST_CNT_MSB    _u(12)
+#define OTP_BIST_CNT_LSB    _u(0)
+#define OTP_BIST_CNT_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_CRT_KEY_W0
+// Description : Word 0 (bits 31..0) of the key. Write only, read returns 0x0
+#define OTP_CRT_KEY_W0_OFFSET _u(0x00000138)
+#define OTP_CRT_KEY_W0_BITS   _u(0xffffffff)
+#define OTP_CRT_KEY_W0_RESET  _u(0x00000000)
+#define OTP_CRT_KEY_W0_MSB    _u(31)
+#define OTP_CRT_KEY_W0_LSB    _u(0)
+#define OTP_CRT_KEY_W0_ACCESS "WO"
+// =============================================================================
+// Register    : OTP_CRT_KEY_W1
+// Description : Word 1 (bits 63..32) of the key. Write only, read returns 0x0
+#define OTP_CRT_KEY_W1_OFFSET _u(0x0000013c)
+#define OTP_CRT_KEY_W1_BITS   _u(0xffffffff)
+#define OTP_CRT_KEY_W1_RESET  _u(0x00000000)
+#define OTP_CRT_KEY_W1_MSB    _u(31)
+#define OTP_CRT_KEY_W1_LSB    _u(0)
+#define OTP_CRT_KEY_W1_ACCESS "WO"
+// =============================================================================
+// Register    : OTP_CRT_KEY_W2
+// Description : Word 2 (bits 95..64) of the key. Write only, read returns 0x0
+#define OTP_CRT_KEY_W2_OFFSET _u(0x00000140)
+#define OTP_CRT_KEY_W2_BITS   _u(0xffffffff)
+#define OTP_CRT_KEY_W2_RESET  _u(0x00000000)
+#define OTP_CRT_KEY_W2_MSB    _u(31)
+#define OTP_CRT_KEY_W2_LSB    _u(0)
+#define OTP_CRT_KEY_W2_ACCESS "WO"
+// =============================================================================
+// Register    : OTP_CRT_KEY_W3
+// Description : Word 3 (bits 127..96) of the key. Write only, read returns 0x0
+#define OTP_CRT_KEY_W3_OFFSET _u(0x00000144)
+#define OTP_CRT_KEY_W3_BITS   _u(0xffffffff)
+#define OTP_CRT_KEY_W3_RESET  _u(0x00000000)
+#define OTP_CRT_KEY_W3_MSB    _u(31)
+#define OTP_CRT_KEY_W3_LSB    _u(0)
+#define OTP_CRT_KEY_W3_ACCESS "WO"
+// =============================================================================
+// Register    : OTP_CRITICAL
+// Description : Quickly check values of critical flags read during boot up
+#define OTP_CRITICAL_OFFSET _u(0x00000148)
+#define OTP_CRITICAL_BITS   _u(0x0003007f)
+#define OTP_CRITICAL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_RISCV_DISABLE
+#define OTP_CRITICAL_RISCV_DISABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_RISCV_DISABLE_BITS   _u(0x00020000)
+#define OTP_CRITICAL_RISCV_DISABLE_MSB    _u(17)
+#define OTP_CRITICAL_RISCV_DISABLE_LSB    _u(17)
+#define OTP_CRITICAL_RISCV_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_ARM_DISABLE
+#define OTP_CRITICAL_ARM_DISABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_ARM_DISABLE_BITS   _u(0x00010000)
+#define OTP_CRITICAL_ARM_DISABLE_MSB    _u(16)
+#define OTP_CRITICAL_ARM_DISABLE_LSB    _u(16)
+#define OTP_CRITICAL_ARM_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_GLITCH_DETECTOR_SENS
+#define OTP_CRITICAL_GLITCH_DETECTOR_SENS_RESET  _u(0x0)
+#define OTP_CRITICAL_GLITCH_DETECTOR_SENS_BITS   _u(0x00000060)
+#define OTP_CRITICAL_GLITCH_DETECTOR_SENS_MSB    _u(6)
+#define OTP_CRITICAL_GLITCH_DETECTOR_SENS_LSB    _u(5)
+#define OTP_CRITICAL_GLITCH_DETECTOR_SENS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_GLITCH_DETECTOR_ENABLE
+#define OTP_CRITICAL_GLITCH_DETECTOR_ENABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_GLITCH_DETECTOR_ENABLE_BITS   _u(0x00000010)
+#define OTP_CRITICAL_GLITCH_DETECTOR_ENABLE_MSB    _u(4)
+#define OTP_CRITICAL_GLITCH_DETECTOR_ENABLE_LSB    _u(4)
+#define OTP_CRITICAL_GLITCH_DETECTOR_ENABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_DEFAULT_ARCHSEL
+#define OTP_CRITICAL_DEFAULT_ARCHSEL_RESET  _u(0x0)
+#define OTP_CRITICAL_DEFAULT_ARCHSEL_BITS   _u(0x00000008)
+#define OTP_CRITICAL_DEFAULT_ARCHSEL_MSB    _u(3)
+#define OTP_CRITICAL_DEFAULT_ARCHSEL_LSB    _u(3)
+#define OTP_CRITICAL_DEFAULT_ARCHSEL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_DEBUG_DISABLE
+#define OTP_CRITICAL_DEBUG_DISABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_DEBUG_DISABLE_BITS   _u(0x00000004)
+#define OTP_CRITICAL_DEBUG_DISABLE_MSB    _u(2)
+#define OTP_CRITICAL_DEBUG_DISABLE_LSB    _u(2)
+#define OTP_CRITICAL_DEBUG_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_SECURE_DEBUG_DISABLE
+#define OTP_CRITICAL_SECURE_DEBUG_DISABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_SECURE_DEBUG_DISABLE_BITS   _u(0x00000002)
+#define OTP_CRITICAL_SECURE_DEBUG_DISABLE_MSB    _u(1)
+#define OTP_CRITICAL_SECURE_DEBUG_DISABLE_LSB    _u(1)
+#define OTP_CRITICAL_SECURE_DEBUG_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_CRITICAL_SECURE_BOOT_ENABLE
+#define OTP_CRITICAL_SECURE_BOOT_ENABLE_RESET  _u(0x0)
+#define OTP_CRITICAL_SECURE_BOOT_ENABLE_BITS   _u(0x00000001)
+#define OTP_CRITICAL_SECURE_BOOT_ENABLE_MSB    _u(0)
+#define OTP_CRITICAL_SECURE_BOOT_ENABLE_LSB    _u(0)
+#define OTP_CRITICAL_SECURE_BOOT_ENABLE_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_KEY_VALID
+// Description : Which keys were valid (enrolled) at boot time
+#define OTP_KEY_VALID_OFFSET _u(0x0000014c)
+#define OTP_KEY_VALID_BITS   _u(0x000000ff)
+#define OTP_KEY_VALID_RESET  _u(0x00000000)
+#define OTP_KEY_VALID_MSB    _u(7)
+#define OTP_KEY_VALID_LSB    _u(0)
+#define OTP_KEY_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DEBUGEN
+// Description : Enable a debug feature that has been disabled. Debug features
+//               are disabled if one of the relevant critical boot flags is set
+//               in OTP (DEBUG_DISABLE or SECURE_DEBUG_DISABLE), OR if a debug
+//               key is marked valid in OTP, and the matching key value has not
+//               been supplied over SWD.
+//
+//               Specifically:
+//
+//               - The DEBUG_DISABLE flag disables all debug features. This can
+//               be fully overridden by setting all bits of this register.
+//
+//               - The SECURE_DEBUG_DISABLE flag disables secure processor
+//               debug. This can be fully overridden by setting the PROC0_SECURE
+//               and PROC1_SECURE bits of this register.
+//
+//               - If a single debug key has been registered, and no matching
+//               key value has been supplied over SWD, then all debug features
+//               are disabled. This can be fully overridden by setting all bits
+//               of this register.
+//
+//               - If both debug keys have been registered, and the Non-secure
+//               key's value (key 6) has been supplied over SWD, secure
+//               processor debug is disabled. This can be fully overridden by
+//               setting the PROC0_SECURE and PROC1_SECURE bits of this
+//               register.
+//
+//               - If both debug keys have been registered, and the Secure key's
+//               value (key 5) has been supplied over SWD, then no debug
+//               features are disabled by the key mechanism. However, note that
+//               in this case debug features may still be disabled by the
+//               critical boot flags.
+#define OTP_DEBUGEN_OFFSET _u(0x00000150)
+#define OTP_DEBUGEN_BITS   _u(0x0000010f)
+#define OTP_DEBUGEN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_MISC
+// Description : Enable other debug components. Specifically, the CTI, and the
+//               APB-AP used to access the RISC-V Debug Module.
+//
+//               These components are disabled by default if either of the debug
+//               disable critical flags is set, or if at least one debug key has
+//               been enrolled and the least secure of these enrolled key values
+//               has not been provided over SWD.
+#define OTP_DEBUGEN_MISC_RESET  _u(0x0)
+#define OTP_DEBUGEN_MISC_BITS   _u(0x00000100)
+#define OTP_DEBUGEN_MISC_MSB    _u(8)
+#define OTP_DEBUGEN_MISC_LSB    _u(8)
+#define OTP_DEBUGEN_MISC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_PROC1_SECURE
+// Description : Permit core 1's Mem-AP to generate Secure accesses, assuming it
+//               is enabled at all. Also enable secure debug of core 1 (SPIDEN
+//               and SPNIDEN).
+//
+//               Secure debug of core 1 is disabled by default if the secure
+//               debug disable critical flag is set, or if at least one debug
+//               key has been enrolled and the most secure of these enrolled key
+//               values not yet provided over SWD.
+#define OTP_DEBUGEN_PROC1_SECURE_RESET  _u(0x0)
+#define OTP_DEBUGEN_PROC1_SECURE_BITS   _u(0x00000008)
+#define OTP_DEBUGEN_PROC1_SECURE_MSB    _u(3)
+#define OTP_DEBUGEN_PROC1_SECURE_LSB    _u(3)
+#define OTP_DEBUGEN_PROC1_SECURE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_PROC1
+// Description : Enable core 1's Mem-AP if it is currently disabled.
+//
+//               The Mem-AP is disabled by default if either of the debug
+//               disable critical flags is set, or if at least one debug key has
+//               been enrolled and the least secure of these enrolled key values
+//               has not been provided over SWD.
+#define OTP_DEBUGEN_PROC1_RESET  _u(0x0)
+#define OTP_DEBUGEN_PROC1_BITS   _u(0x00000004)
+#define OTP_DEBUGEN_PROC1_MSB    _u(2)
+#define OTP_DEBUGEN_PROC1_LSB    _u(2)
+#define OTP_DEBUGEN_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_PROC0_SECURE
+// Description : Permit core 0's Mem-AP to generate Secure accesses, assuming it
+//               is enabled at all. Also enable secure debug of core 0 (SPIDEN
+//               and SPNIDEN).
+//
+//               Secure debug of core 0 is disabled by default if the secure
+//               debug disable critical flag is set, or if at least one debug
+//               key has been enrolled and the most secure of these enrolled key
+//               values not yet provided over SWD.
+//
+//               Note also that core Mem-APs are unconditionally disabled when a
+//               core is switched to RISC-V mode (by setting the ARCHSEL bit and
+//               performing a warm reset of the core).
+#define OTP_DEBUGEN_PROC0_SECURE_RESET  _u(0x0)
+#define OTP_DEBUGEN_PROC0_SECURE_BITS   _u(0x00000002)
+#define OTP_DEBUGEN_PROC0_SECURE_MSB    _u(1)
+#define OTP_DEBUGEN_PROC0_SECURE_LSB    _u(1)
+#define OTP_DEBUGEN_PROC0_SECURE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_PROC0
+// Description : Enable core 0's Mem-AP if it is currently disabled.
+//
+//               The Mem-AP is disabled by default if either of the debug
+//               disable critical flags is set, or if at least one debug key has
+//               been enrolled and the least secure of these enrolled key values
+//               has not been provided over SWD.
+//
+//               Note also that core Mem-APs are unconditionally disabled when a
+//               core is switched to RISC-V mode (by setting the ARCHSEL bit and
+//               performing a warm reset of the core).
+#define OTP_DEBUGEN_PROC0_RESET  _u(0x0)
+#define OTP_DEBUGEN_PROC0_BITS   _u(0x00000001)
+#define OTP_DEBUGEN_PROC0_MSB    _u(0)
+#define OTP_DEBUGEN_PROC0_LSB    _u(0)
+#define OTP_DEBUGEN_PROC0_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_DEBUGEN_LOCK
+// Description : Write 1s to lock corresponding bits in DEBUGEN. This register
+//               is reset by the processor cold reset.
+#define OTP_DEBUGEN_LOCK_OFFSET _u(0x00000154)
+#define OTP_DEBUGEN_LOCK_BITS   _u(0x0000010f)
+#define OTP_DEBUGEN_LOCK_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_LOCK_MISC
+// Description : Write 1 to lock the MISC bit of DEBUGEN. Can't be cleared once
+//               set.
+#define OTP_DEBUGEN_LOCK_MISC_RESET  _u(0x0)
+#define OTP_DEBUGEN_LOCK_MISC_BITS   _u(0x00000100)
+#define OTP_DEBUGEN_LOCK_MISC_MSB    _u(8)
+#define OTP_DEBUGEN_LOCK_MISC_LSB    _u(8)
+#define OTP_DEBUGEN_LOCK_MISC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_LOCK_PROC1_SECURE
+// Description : Write 1 to lock the PROC1_SECURE bit of DEBUGEN. Can't be
+//               cleared once set.
+#define OTP_DEBUGEN_LOCK_PROC1_SECURE_RESET  _u(0x0)
+#define OTP_DEBUGEN_LOCK_PROC1_SECURE_BITS   _u(0x00000008)
+#define OTP_DEBUGEN_LOCK_PROC1_SECURE_MSB    _u(3)
+#define OTP_DEBUGEN_LOCK_PROC1_SECURE_LSB    _u(3)
+#define OTP_DEBUGEN_LOCK_PROC1_SECURE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_LOCK_PROC1
+// Description : Write 1 to lock the PROC1 bit of DEBUGEN. Can't be cleared once
+//               set.
+#define OTP_DEBUGEN_LOCK_PROC1_RESET  _u(0x0)
+#define OTP_DEBUGEN_LOCK_PROC1_BITS   _u(0x00000004)
+#define OTP_DEBUGEN_LOCK_PROC1_MSB    _u(2)
+#define OTP_DEBUGEN_LOCK_PROC1_LSB    _u(2)
+#define OTP_DEBUGEN_LOCK_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_LOCK_PROC0_SECURE
+// Description : Write 1 to lock the PROC0_SECURE bit of DEBUGEN. Can't be
+//               cleared once set.
+#define OTP_DEBUGEN_LOCK_PROC0_SECURE_RESET  _u(0x0)
+#define OTP_DEBUGEN_LOCK_PROC0_SECURE_BITS   _u(0x00000002)
+#define OTP_DEBUGEN_LOCK_PROC0_SECURE_MSB    _u(1)
+#define OTP_DEBUGEN_LOCK_PROC0_SECURE_LSB    _u(1)
+#define OTP_DEBUGEN_LOCK_PROC0_SECURE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DEBUGEN_LOCK_PROC0
+// Description : Write 1 to lock the PROC0 bit of DEBUGEN. Can't be cleared once
+//               set.
+#define OTP_DEBUGEN_LOCK_PROC0_RESET  _u(0x0)
+#define OTP_DEBUGEN_LOCK_PROC0_BITS   _u(0x00000001)
+#define OTP_DEBUGEN_LOCK_PROC0_MSB    _u(0)
+#define OTP_DEBUGEN_LOCK_PROC0_LSB    _u(0)
+#define OTP_DEBUGEN_LOCK_PROC0_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_ARCHSEL
+// Description : Architecture select (Arm/RISC-V). The default and allowable
+//               values of this register are constrained by the critical boot
+//               flags.
+//
+//               This register is reset by the earliest reset in the switched
+//               core power domain (before a processor cold reset).
+//
+//               Cores sample their architecture select signal on a warm reset.
+//               The source of the warm reset could be the system power-up state
+//               machine, the watchdog timer, Arm SYSRESETREQ or from RISC-V
+//               hartresetreq.
+//
+//               Note that when an Arm core is deselected, its cold reset domain
+//               is also held in reset, since in particular the SYSRESETREQ bit
+//               becomes inaccessible once the core is deselected. Note also the
+//               RISC-V cores do not have a cold reset domain, since their
+//               corresponding controls are located in the Debug Module.
+#define OTP_ARCHSEL_OFFSET _u(0x00000158)
+#define OTP_ARCHSEL_BITS   _u(0x00000003)
+#define OTP_ARCHSEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_ARCHSEL_CORE1
+// Description : Select architecture for core 1.
+//               0x0 -> Switch core 1 to Arm (Cortex-M33)
+//               0x1 -> Switch core 1 to RISC-V (Hazard3)
+#define OTP_ARCHSEL_CORE1_RESET  _u(0x0)
+#define OTP_ARCHSEL_CORE1_BITS   _u(0x00000002)
+#define OTP_ARCHSEL_CORE1_MSB    _u(1)
+#define OTP_ARCHSEL_CORE1_LSB    _u(1)
+#define OTP_ARCHSEL_CORE1_ACCESS "RW"
+#define OTP_ARCHSEL_CORE1_VALUE_ARM _u(0x0)
+#define OTP_ARCHSEL_CORE1_VALUE_RISCV _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_ARCHSEL_CORE0
+// Description : Select architecture for core 0.
+//               0x0 -> Switch core 0 to Arm (Cortex-M33)
+//               0x1 -> Switch core 0 to RISC-V (Hazard3)
+#define OTP_ARCHSEL_CORE0_RESET  _u(0x0)
+#define OTP_ARCHSEL_CORE0_BITS   _u(0x00000001)
+#define OTP_ARCHSEL_CORE0_MSB    _u(0)
+#define OTP_ARCHSEL_CORE0_LSB    _u(0)
+#define OTP_ARCHSEL_CORE0_ACCESS "RW"
+#define OTP_ARCHSEL_CORE0_VALUE_ARM _u(0x0)
+#define OTP_ARCHSEL_CORE0_VALUE_RISCV _u(0x1)
+// =============================================================================
+// Register    : OTP_ARCHSEL_STATUS
+// Description : Get the current architecture select state of each core. Cores
+//               sample the current value of the ARCHSEL register when their
+//               warm reset is released, at which point the corresponding bit in
+//               this register will also update.
+#define OTP_ARCHSEL_STATUS_OFFSET _u(0x0000015c)
+#define OTP_ARCHSEL_STATUS_BITS   _u(0x00000003)
+#define OTP_ARCHSEL_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_ARCHSEL_STATUS_CORE1
+// Description : Current architecture for core 0. Updated on processor warm
+//               reset.
+//               0x0 -> Core 1 is currently Arm (Cortex-M33)
+//               0x1 -> Core 1 is currently RISC-V (Hazard3)
+#define OTP_ARCHSEL_STATUS_CORE1_RESET  _u(0x0)
+#define OTP_ARCHSEL_STATUS_CORE1_BITS   _u(0x00000002)
+#define OTP_ARCHSEL_STATUS_CORE1_MSB    _u(1)
+#define OTP_ARCHSEL_STATUS_CORE1_LSB    _u(1)
+#define OTP_ARCHSEL_STATUS_CORE1_ACCESS "RO"
+#define OTP_ARCHSEL_STATUS_CORE1_VALUE_ARM _u(0x0)
+#define OTP_ARCHSEL_STATUS_CORE1_VALUE_RISCV _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_ARCHSEL_STATUS_CORE0
+// Description : Current architecture for core 0. Updated on processor warm
+//               reset.
+//               0x0 -> Core 0 is currently Arm (Cortex-M33)
+//               0x1 -> Core 0 is currently RISC-V (Hazard3)
+#define OTP_ARCHSEL_STATUS_CORE0_RESET  _u(0x0)
+#define OTP_ARCHSEL_STATUS_CORE0_BITS   _u(0x00000001)
+#define OTP_ARCHSEL_STATUS_CORE0_MSB    _u(0)
+#define OTP_ARCHSEL_STATUS_CORE0_LSB    _u(0)
+#define OTP_ARCHSEL_STATUS_CORE0_ACCESS "RO"
+#define OTP_ARCHSEL_STATUS_CORE0_VALUE_ARM _u(0x0)
+#define OTP_ARCHSEL_STATUS_CORE0_VALUE_RISCV _u(0x1)
+// =============================================================================
+// Register    : OTP_BOOTDIS
+// Description : Tell the bootrom to ignore scratch register boot vectors (both
+//               power manager and watchdog) on the next power up.
+//
+//               If an early boot stage has soft-locked some OTP pages in order
+//               to protect their contents from later stages, there is a risk
+//               that Secure code running at a later stage can unlock the pages
+//               by performing a watchdog reset that resets the OTP.
+//
+//               This register can be used to ensure that the bootloader runs as
+//               normal on the next power up, preventing Secure code at a later
+//               stage from accessing OTP in its unlocked state.
+//
+//               Should be used in conjunction with the power manager BOOTDIS
+//               register.
+#define OTP_BOOTDIS_OFFSET _u(0x00000160)
+#define OTP_BOOTDIS_BITS   _u(0x00000003)
+#define OTP_BOOTDIS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_BOOTDIS_NEXT
+// Description : This flag always ORs writes into its current contents. It can
+//               be set but not cleared by software.
+//
+//               The BOOTDIS_NEXT bit is OR'd into the BOOTDIS_NOW bit when the
+//               core is powered down. Simultaneously, the BOOTDIS_NEXT bit is
+//               cleared. Setting this bit means that the boot scratch registers
+//               will be ignored following the next core power down.
+//
+//               This flag should be set by an early boot stage that has soft-
+//               locked OTP pages, to prevent later stages from unlocking it via
+//               watchdog reset.
+#define OTP_BOOTDIS_NEXT_RESET  _u(0x0)
+#define OTP_BOOTDIS_NEXT_BITS   _u(0x00000002)
+#define OTP_BOOTDIS_NEXT_MSB    _u(1)
+#define OTP_BOOTDIS_NEXT_LSB    _u(1)
+#define OTP_BOOTDIS_NEXT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_BOOTDIS_NOW
+// Description : When the core is powered down, the current value of
+//               BOOTDIS_NEXT is OR'd into BOOTDIS_NOW, and BOOTDIS_NEXT is
+//               cleared.
+//
+//               The bootrom checks this flag before reading the boot scratch
+//               registers. If it is set, the bootrom clears it, and ignores the
+//               BOOT registers. This prevents Secure software from diverting
+//               the boot path before a bootloader has had the chance to soft
+//               lock OTP pages containing sensitive data.
+#define OTP_BOOTDIS_NOW_RESET  _u(0x0)
+#define OTP_BOOTDIS_NOW_BITS   _u(0x00000001)
+#define OTP_BOOTDIS_NOW_MSB    _u(0)
+#define OTP_BOOTDIS_NOW_LSB    _u(0)
+#define OTP_BOOTDIS_NOW_ACCESS "WC"
+// =============================================================================
+// Register    : OTP_INTR
+// Description : Raw Interrupts
+#define OTP_INTR_OFFSET _u(0x00000164)
+#define OTP_INTR_BITS   _u(0x0000001f)
+#define OTP_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTR_APB_RD_NSEC_FAIL
+#define OTP_INTR_APB_RD_NSEC_FAIL_RESET  _u(0x0)
+#define OTP_INTR_APB_RD_NSEC_FAIL_BITS   _u(0x00000010)
+#define OTP_INTR_APB_RD_NSEC_FAIL_MSB    _u(4)
+#define OTP_INTR_APB_RD_NSEC_FAIL_LSB    _u(4)
+#define OTP_INTR_APB_RD_NSEC_FAIL_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTR_APB_RD_SEC_FAIL
+#define OTP_INTR_APB_RD_SEC_FAIL_RESET  _u(0x0)
+#define OTP_INTR_APB_RD_SEC_FAIL_BITS   _u(0x00000008)
+#define OTP_INTR_APB_RD_SEC_FAIL_MSB    _u(3)
+#define OTP_INTR_APB_RD_SEC_FAIL_LSB    _u(3)
+#define OTP_INTR_APB_RD_SEC_FAIL_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTR_APB_DCTRL_FAIL
+#define OTP_INTR_APB_DCTRL_FAIL_RESET  _u(0x0)
+#define OTP_INTR_APB_DCTRL_FAIL_BITS   _u(0x00000004)
+#define OTP_INTR_APB_DCTRL_FAIL_MSB    _u(2)
+#define OTP_INTR_APB_DCTRL_FAIL_LSB    _u(2)
+#define OTP_INTR_APB_DCTRL_FAIL_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTR_SBPI_WR_FAIL
+#define OTP_INTR_SBPI_WR_FAIL_RESET  _u(0x0)
+#define OTP_INTR_SBPI_WR_FAIL_BITS   _u(0x00000002)
+#define OTP_INTR_SBPI_WR_FAIL_MSB    _u(1)
+#define OTP_INTR_SBPI_WR_FAIL_LSB    _u(1)
+#define OTP_INTR_SBPI_WR_FAIL_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTR_SBPI_FLAG_N
+#define OTP_INTR_SBPI_FLAG_N_RESET  _u(0x0)
+#define OTP_INTR_SBPI_FLAG_N_BITS   _u(0x00000001)
+#define OTP_INTR_SBPI_FLAG_N_MSB    _u(0)
+#define OTP_INTR_SBPI_FLAG_N_LSB    _u(0)
+#define OTP_INTR_SBPI_FLAG_N_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_INTE
+// Description : Interrupt Enable
+#define OTP_INTE_OFFSET _u(0x00000168)
+#define OTP_INTE_BITS   _u(0x0000001f)
+#define OTP_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTE_APB_RD_NSEC_FAIL
+#define OTP_INTE_APB_RD_NSEC_FAIL_RESET  _u(0x0)
+#define OTP_INTE_APB_RD_NSEC_FAIL_BITS   _u(0x00000010)
+#define OTP_INTE_APB_RD_NSEC_FAIL_MSB    _u(4)
+#define OTP_INTE_APB_RD_NSEC_FAIL_LSB    _u(4)
+#define OTP_INTE_APB_RD_NSEC_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTE_APB_RD_SEC_FAIL
+#define OTP_INTE_APB_RD_SEC_FAIL_RESET  _u(0x0)
+#define OTP_INTE_APB_RD_SEC_FAIL_BITS   _u(0x00000008)
+#define OTP_INTE_APB_RD_SEC_FAIL_MSB    _u(3)
+#define OTP_INTE_APB_RD_SEC_FAIL_LSB    _u(3)
+#define OTP_INTE_APB_RD_SEC_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTE_APB_DCTRL_FAIL
+#define OTP_INTE_APB_DCTRL_FAIL_RESET  _u(0x0)
+#define OTP_INTE_APB_DCTRL_FAIL_BITS   _u(0x00000004)
+#define OTP_INTE_APB_DCTRL_FAIL_MSB    _u(2)
+#define OTP_INTE_APB_DCTRL_FAIL_LSB    _u(2)
+#define OTP_INTE_APB_DCTRL_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTE_SBPI_WR_FAIL
+#define OTP_INTE_SBPI_WR_FAIL_RESET  _u(0x0)
+#define OTP_INTE_SBPI_WR_FAIL_BITS   _u(0x00000002)
+#define OTP_INTE_SBPI_WR_FAIL_MSB    _u(1)
+#define OTP_INTE_SBPI_WR_FAIL_LSB    _u(1)
+#define OTP_INTE_SBPI_WR_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTE_SBPI_FLAG_N
+#define OTP_INTE_SBPI_FLAG_N_RESET  _u(0x0)
+#define OTP_INTE_SBPI_FLAG_N_BITS   _u(0x00000001)
+#define OTP_INTE_SBPI_FLAG_N_MSB    _u(0)
+#define OTP_INTE_SBPI_FLAG_N_LSB    _u(0)
+#define OTP_INTE_SBPI_FLAG_N_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_INTF
+// Description : Interrupt Force
+#define OTP_INTF_OFFSET _u(0x0000016c)
+#define OTP_INTF_BITS   _u(0x0000001f)
+#define OTP_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTF_APB_RD_NSEC_FAIL
+#define OTP_INTF_APB_RD_NSEC_FAIL_RESET  _u(0x0)
+#define OTP_INTF_APB_RD_NSEC_FAIL_BITS   _u(0x00000010)
+#define OTP_INTF_APB_RD_NSEC_FAIL_MSB    _u(4)
+#define OTP_INTF_APB_RD_NSEC_FAIL_LSB    _u(4)
+#define OTP_INTF_APB_RD_NSEC_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTF_APB_RD_SEC_FAIL
+#define OTP_INTF_APB_RD_SEC_FAIL_RESET  _u(0x0)
+#define OTP_INTF_APB_RD_SEC_FAIL_BITS   _u(0x00000008)
+#define OTP_INTF_APB_RD_SEC_FAIL_MSB    _u(3)
+#define OTP_INTF_APB_RD_SEC_FAIL_LSB    _u(3)
+#define OTP_INTF_APB_RD_SEC_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTF_APB_DCTRL_FAIL
+#define OTP_INTF_APB_DCTRL_FAIL_RESET  _u(0x0)
+#define OTP_INTF_APB_DCTRL_FAIL_BITS   _u(0x00000004)
+#define OTP_INTF_APB_DCTRL_FAIL_MSB    _u(2)
+#define OTP_INTF_APB_DCTRL_FAIL_LSB    _u(2)
+#define OTP_INTF_APB_DCTRL_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTF_SBPI_WR_FAIL
+#define OTP_INTF_SBPI_WR_FAIL_RESET  _u(0x0)
+#define OTP_INTF_SBPI_WR_FAIL_BITS   _u(0x00000002)
+#define OTP_INTF_SBPI_WR_FAIL_MSB    _u(1)
+#define OTP_INTF_SBPI_WR_FAIL_LSB    _u(1)
+#define OTP_INTF_SBPI_WR_FAIL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTF_SBPI_FLAG_N
+#define OTP_INTF_SBPI_FLAG_N_RESET  _u(0x0)
+#define OTP_INTF_SBPI_FLAG_N_BITS   _u(0x00000001)
+#define OTP_INTF_SBPI_FLAG_N_MSB    _u(0)
+#define OTP_INTF_SBPI_FLAG_N_LSB    _u(0)
+#define OTP_INTF_SBPI_FLAG_N_ACCESS "RW"
+// =============================================================================
+// Register    : OTP_INTS
+// Description : Interrupt status after masking & forcing
+#define OTP_INTS_OFFSET _u(0x00000170)
+#define OTP_INTS_BITS   _u(0x0000001f)
+#define OTP_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTS_APB_RD_NSEC_FAIL
+#define OTP_INTS_APB_RD_NSEC_FAIL_RESET  _u(0x0)
+#define OTP_INTS_APB_RD_NSEC_FAIL_BITS   _u(0x00000010)
+#define OTP_INTS_APB_RD_NSEC_FAIL_MSB    _u(4)
+#define OTP_INTS_APB_RD_NSEC_FAIL_LSB    _u(4)
+#define OTP_INTS_APB_RD_NSEC_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTS_APB_RD_SEC_FAIL
+#define OTP_INTS_APB_RD_SEC_FAIL_RESET  _u(0x0)
+#define OTP_INTS_APB_RD_SEC_FAIL_BITS   _u(0x00000008)
+#define OTP_INTS_APB_RD_SEC_FAIL_MSB    _u(3)
+#define OTP_INTS_APB_RD_SEC_FAIL_LSB    _u(3)
+#define OTP_INTS_APB_RD_SEC_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTS_APB_DCTRL_FAIL
+#define OTP_INTS_APB_DCTRL_FAIL_RESET  _u(0x0)
+#define OTP_INTS_APB_DCTRL_FAIL_BITS   _u(0x00000004)
+#define OTP_INTS_APB_DCTRL_FAIL_MSB    _u(2)
+#define OTP_INTS_APB_DCTRL_FAIL_LSB    _u(2)
+#define OTP_INTS_APB_DCTRL_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTS_SBPI_WR_FAIL
+#define OTP_INTS_SBPI_WR_FAIL_RESET  _u(0x0)
+#define OTP_INTS_SBPI_WR_FAIL_BITS   _u(0x00000002)
+#define OTP_INTS_SBPI_WR_FAIL_MSB    _u(1)
+#define OTP_INTS_SBPI_WR_FAIL_LSB    _u(1)
+#define OTP_INTS_SBPI_WR_FAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_INTS_SBPI_FLAG_N
+#define OTP_INTS_SBPI_FLAG_N_RESET  _u(0x0)
+#define OTP_INTS_SBPI_FLAG_N_BITS   _u(0x00000001)
+#define OTP_INTS_SBPI_FLAG_N_MSB    _u(0)
+#define OTP_INTS_SBPI_FLAG_N_LSB    _u(0)
+#define OTP_INTS_SBPI_FLAG_N_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_OTP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/otp_data.h b/lib/pico-sdk/rp2350/hardware/regs/otp_data.h
new file mode 100644
index 0000000..57d1d47
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/otp_data.h
@@ -0,0 +1,12373 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : OTP_DATA
+// Version        : 1
+// Bus type       : apb
+// Description    : Predefined OTP data layout for RP2350
+// =============================================================================
+#ifndef _HARDWARE_REGS_OTP_DATA_H
+#define _HARDWARE_REGS_OTP_DATA_H
+// =============================================================================
+// Register    : OTP_DATA_CHIPID0
+// Description : Bits 15:0 of public device ID. (ECC)
+//
+//               The CHIPID0..3 rows contain a 64-bit random identifier for this
+//               chip, which can be read from the USB bootloader PICOBOOT
+//               interface or from the get_sys_info ROM API.
+//
+//               The number of random bits makes the occurrence of twins
+//               exceedingly unlikely: for example, a fleet of a hundred million
+//               devices has a 99.97% probability of no twinned IDs. This is
+//               estimated to be lower than the occurrence of process errors in
+//               the assignment of sequential random IDs, and for practical
+//               purposes CHIPID may be treated as unique.
+#define OTP_DATA_CHIPID0_ROW _u(0x00000000)
+#define OTP_DATA_CHIPID0_BITS   _u(0x0000ffff)
+#define OTP_DATA_CHIPID0_RESET  "-"
+#define OTP_DATA_CHIPID0_WIDTH  _u(16)
+#define OTP_DATA_CHIPID0_MSB    _u(15)
+#define OTP_DATA_CHIPID0_LSB    _u(0)
+#define OTP_DATA_CHIPID0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CHIPID1
+// Description : Bits 31:16 of public device ID (ECC)
+#define OTP_DATA_CHIPID1_ROW _u(0x00000001)
+#define OTP_DATA_CHIPID1_BITS   _u(0x0000ffff)
+#define OTP_DATA_CHIPID1_RESET  "-"
+#define OTP_DATA_CHIPID1_WIDTH  _u(16)
+#define OTP_DATA_CHIPID1_MSB    _u(15)
+#define OTP_DATA_CHIPID1_LSB    _u(0)
+#define OTP_DATA_CHIPID1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CHIPID2
+// Description : Bits 47:32 of public device ID (ECC)
+#define OTP_DATA_CHIPID2_ROW _u(0x00000002)
+#define OTP_DATA_CHIPID2_BITS   _u(0x0000ffff)
+#define OTP_DATA_CHIPID2_RESET  "-"
+#define OTP_DATA_CHIPID2_WIDTH  _u(16)
+#define OTP_DATA_CHIPID2_MSB    _u(15)
+#define OTP_DATA_CHIPID2_LSB    _u(0)
+#define OTP_DATA_CHIPID2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CHIPID3
+// Description : Bits 63:48 of public device ID (ECC)
+#define OTP_DATA_CHIPID3_ROW _u(0x00000003)
+#define OTP_DATA_CHIPID3_BITS   _u(0x0000ffff)
+#define OTP_DATA_CHIPID3_RESET  "-"
+#define OTP_DATA_CHIPID3_WIDTH  _u(16)
+#define OTP_DATA_CHIPID3_MSB    _u(15)
+#define OTP_DATA_CHIPID3_LSB    _u(0)
+#define OTP_DATA_CHIPID3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID0
+// Description : Bits 15:0 of private per-device random number (ECC)
+//
+//               The RANDID0..7 rows form a 128-bit random number generated
+//               during device test.
+//
+//               This ID is not exposed through the USB PICOBOOT GET_INFO
+//               command or the ROM `get_sys_info()` API. However note that the
+//               USB PICOBOOT OTP access point can read the entirety of page 0,
+//               so this value is not meaningfully private unless the USB
+//               PICOBOOT interface is disabled via the
+//               DISABLE_BOOTSEL_USB_PICOBOOT_IFC flag in BOOT_FLAGS0.
+#define OTP_DATA_RANDID0_ROW _u(0x00000004)
+#define OTP_DATA_RANDID0_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID0_RESET  "-"
+#define OTP_DATA_RANDID0_WIDTH  _u(16)
+#define OTP_DATA_RANDID0_MSB    _u(15)
+#define OTP_DATA_RANDID0_LSB    _u(0)
+#define OTP_DATA_RANDID0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID1
+// Description : Bits 31:16 of private per-device random number (ECC)
+#define OTP_DATA_RANDID1_ROW _u(0x00000005)
+#define OTP_DATA_RANDID1_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID1_RESET  "-"
+#define OTP_DATA_RANDID1_WIDTH  _u(16)
+#define OTP_DATA_RANDID1_MSB    _u(15)
+#define OTP_DATA_RANDID1_LSB    _u(0)
+#define OTP_DATA_RANDID1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID2
+// Description : Bits 47:32 of private per-device random number (ECC)
+#define OTP_DATA_RANDID2_ROW _u(0x00000006)
+#define OTP_DATA_RANDID2_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID2_RESET  "-"
+#define OTP_DATA_RANDID2_WIDTH  _u(16)
+#define OTP_DATA_RANDID2_MSB    _u(15)
+#define OTP_DATA_RANDID2_LSB    _u(0)
+#define OTP_DATA_RANDID2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID3
+// Description : Bits 63:48 of private per-device random number (ECC)
+#define OTP_DATA_RANDID3_ROW _u(0x00000007)
+#define OTP_DATA_RANDID3_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID3_RESET  "-"
+#define OTP_DATA_RANDID3_WIDTH  _u(16)
+#define OTP_DATA_RANDID3_MSB    _u(15)
+#define OTP_DATA_RANDID3_LSB    _u(0)
+#define OTP_DATA_RANDID3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID4
+// Description : Bits 79:64 of private per-device random number (ECC)
+#define OTP_DATA_RANDID4_ROW _u(0x00000008)
+#define OTP_DATA_RANDID4_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID4_RESET  "-"
+#define OTP_DATA_RANDID4_WIDTH  _u(16)
+#define OTP_DATA_RANDID4_MSB    _u(15)
+#define OTP_DATA_RANDID4_LSB    _u(0)
+#define OTP_DATA_RANDID4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID5
+// Description : Bits 95:80 of private per-device random number (ECC)
+#define OTP_DATA_RANDID5_ROW _u(0x00000009)
+#define OTP_DATA_RANDID5_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID5_RESET  "-"
+#define OTP_DATA_RANDID5_WIDTH  _u(16)
+#define OTP_DATA_RANDID5_MSB    _u(15)
+#define OTP_DATA_RANDID5_LSB    _u(0)
+#define OTP_DATA_RANDID5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID6
+// Description : Bits 111:96 of private per-device random number (ECC)
+#define OTP_DATA_RANDID6_ROW _u(0x0000000a)
+#define OTP_DATA_RANDID6_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID6_RESET  "-"
+#define OTP_DATA_RANDID6_WIDTH  _u(16)
+#define OTP_DATA_RANDID6_MSB    _u(15)
+#define OTP_DATA_RANDID6_LSB    _u(0)
+#define OTP_DATA_RANDID6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_RANDID7
+// Description : Bits 127:112 of private per-device random number (ECC)
+#define OTP_DATA_RANDID7_ROW _u(0x0000000b)
+#define OTP_DATA_RANDID7_BITS   _u(0x0000ffff)
+#define OTP_DATA_RANDID7_RESET  "-"
+#define OTP_DATA_RANDID7_WIDTH  _u(16)
+#define OTP_DATA_RANDID7_MSB    _u(15)
+#define OTP_DATA_RANDID7_LSB    _u(0)
+#define OTP_DATA_RANDID7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_ROSC_CALIB
+// Description : Ring oscillator frequency in kHz, measured during manufacturing
+//               (ECC)
+//
+//               This is measured at 1.1 V, at room temperature, with the ROSC
+//               configuration registers in their reset state.
+#define OTP_DATA_ROSC_CALIB_ROW _u(0x00000010)
+#define OTP_DATA_ROSC_CALIB_BITS   _u(0x0000ffff)
+#define OTP_DATA_ROSC_CALIB_RESET  "-"
+#define OTP_DATA_ROSC_CALIB_WIDTH  _u(16)
+#define OTP_DATA_ROSC_CALIB_MSB    _u(15)
+#define OTP_DATA_ROSC_CALIB_LSB    _u(0)
+#define OTP_DATA_ROSC_CALIB_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_LPOSC_CALIB
+// Description : Low-power oscillator frequency in Hz, measured during
+//               manufacturing (ECC)
+//
+//               This is measured at 1.1V, at room temperature, with the LPOSC
+//               trim register in its reset state.
+#define OTP_DATA_LPOSC_CALIB_ROW _u(0x00000011)
+#define OTP_DATA_LPOSC_CALIB_BITS   _u(0x0000ffff)
+#define OTP_DATA_LPOSC_CALIB_RESET  "-"
+#define OTP_DATA_LPOSC_CALIB_WIDTH  _u(16)
+#define OTP_DATA_LPOSC_CALIB_MSB    _u(15)
+#define OTP_DATA_LPOSC_CALIB_LSB    _u(0)
+#define OTP_DATA_LPOSC_CALIB_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_NUM_GPIOS
+// Description : The number of main user GPIOs (bank 0). Should read 48 in the
+//               QFN80 package, and 30 in the QFN60 package. (ECC)
+#define OTP_DATA_NUM_GPIOS_ROW _u(0x00000018)
+#define OTP_DATA_NUM_GPIOS_BITS   _u(0x000000ff)
+#define OTP_DATA_NUM_GPIOS_RESET  "-"
+#define OTP_DATA_NUM_GPIOS_WIDTH  _u(16)
+#define OTP_DATA_NUM_GPIOS_MSB    _u(7)
+#define OTP_DATA_NUM_GPIOS_LSB    _u(0)
+#define OTP_DATA_NUM_GPIOS_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_INFO_CRC0
+// Description : Lower 16 bits of CRC32 of OTP addresses 0x00 through 0x6b
+//               (polynomial 0x4c11db7, input reflected, output reflected, seed
+//               all-ones, final XOR all-ones) (ECC)
+#define OTP_DATA_INFO_CRC0_ROW _u(0x00000036)
+#define OTP_DATA_INFO_CRC0_BITS   _u(0x0000ffff)
+#define OTP_DATA_INFO_CRC0_RESET  "-"
+#define OTP_DATA_INFO_CRC0_WIDTH  _u(16)
+#define OTP_DATA_INFO_CRC0_MSB    _u(15)
+#define OTP_DATA_INFO_CRC0_LSB    _u(0)
+#define OTP_DATA_INFO_CRC0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_INFO_CRC1
+// Description : Upper 16 bits of CRC32 of OTP addresses 0x00 through 0x6b (ECC)
+#define OTP_DATA_INFO_CRC1_ROW _u(0x00000037)
+#define OTP_DATA_INFO_CRC1_BITS   _u(0x0000ffff)
+#define OTP_DATA_INFO_CRC1_RESET  "-"
+#define OTP_DATA_INFO_CRC1_WIDTH  _u(16)
+#define OTP_DATA_INFO_CRC1_MSB    _u(15)
+#define OTP_DATA_INFO_CRC1_LSB    _u(0)
+#define OTP_DATA_INFO_CRC1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0
+// Description : Page 0 critical boot flags (RBIT-8)
+#define OTP_DATA_CRIT0_ROW _u(0x00000038)
+#define OTP_DATA_CRIT0_BITS   _u(0x00000003)
+#define OTP_DATA_CRIT0_RESET  _u(0x00000000)
+#define OTP_DATA_CRIT0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT0_RISCV_DISABLE
+// Description : Permanently disable RISC-V processors (Hazard3)
+#define OTP_DATA_CRIT0_RISCV_DISABLE_RESET  "-"
+#define OTP_DATA_CRIT0_RISCV_DISABLE_BITS   _u(0x00000002)
+#define OTP_DATA_CRIT0_RISCV_DISABLE_MSB    _u(1)
+#define OTP_DATA_CRIT0_RISCV_DISABLE_LSB    _u(1)
+#define OTP_DATA_CRIT0_RISCV_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT0_ARM_DISABLE
+// Description : Permanently disable ARM processors (Cortex-M33)
+#define OTP_DATA_CRIT0_ARM_DISABLE_RESET  "-"
+#define OTP_DATA_CRIT0_ARM_DISABLE_BITS   _u(0x00000001)
+#define OTP_DATA_CRIT0_ARM_DISABLE_MSB    _u(0)
+#define OTP_DATA_CRIT0_ARM_DISABLE_LSB    _u(0)
+#define OTP_DATA_CRIT0_ARM_DISABLE_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R1
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R1_ROW _u(0x00000039)
+#define OTP_DATA_CRIT0_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R1_RESET  "-"
+#define OTP_DATA_CRIT0_R1_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R1_MSB    _u(23)
+#define OTP_DATA_CRIT0_R1_LSB    _u(0)
+#define OTP_DATA_CRIT0_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R2
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R2_ROW _u(0x0000003a)
+#define OTP_DATA_CRIT0_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R2_RESET  "-"
+#define OTP_DATA_CRIT0_R2_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R2_MSB    _u(23)
+#define OTP_DATA_CRIT0_R2_LSB    _u(0)
+#define OTP_DATA_CRIT0_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R3
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R3_ROW _u(0x0000003b)
+#define OTP_DATA_CRIT0_R3_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R3_RESET  "-"
+#define OTP_DATA_CRIT0_R3_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R3_MSB    _u(23)
+#define OTP_DATA_CRIT0_R3_LSB    _u(0)
+#define OTP_DATA_CRIT0_R3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R4
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R4_ROW _u(0x0000003c)
+#define OTP_DATA_CRIT0_R4_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R4_RESET  "-"
+#define OTP_DATA_CRIT0_R4_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R4_MSB    _u(23)
+#define OTP_DATA_CRIT0_R4_LSB    _u(0)
+#define OTP_DATA_CRIT0_R4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R5
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R5_ROW _u(0x0000003d)
+#define OTP_DATA_CRIT0_R5_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R5_RESET  "-"
+#define OTP_DATA_CRIT0_R5_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R5_MSB    _u(23)
+#define OTP_DATA_CRIT0_R5_LSB    _u(0)
+#define OTP_DATA_CRIT0_R5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R6
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R6_ROW _u(0x0000003e)
+#define OTP_DATA_CRIT0_R6_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R6_RESET  "-"
+#define OTP_DATA_CRIT0_R6_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R6_MSB    _u(23)
+#define OTP_DATA_CRIT0_R6_LSB    _u(0)
+#define OTP_DATA_CRIT0_R6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT0_R7
+// Description : Redundant copy of CRIT0
+#define OTP_DATA_CRIT0_R7_ROW _u(0x0000003f)
+#define OTP_DATA_CRIT0_R7_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT0_R7_RESET  "-"
+#define OTP_DATA_CRIT0_R7_WIDTH  _u(24)
+#define OTP_DATA_CRIT0_R7_MSB    _u(23)
+#define OTP_DATA_CRIT0_R7_LSB    _u(0)
+#define OTP_DATA_CRIT0_R7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1
+// Description : Page 1 critical boot flags (RBIT-8)
+#define OTP_DATA_CRIT1_ROW _u(0x00000040)
+#define OTP_DATA_CRIT1_BITS   _u(0x0000007f)
+#define OTP_DATA_CRIT1_RESET  _u(0x00000000)
+#define OTP_DATA_CRIT1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS
+// Description : Increase the sensitivity of the glitch detectors from their
+//               default.
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS_RESET  "-"
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS_BITS   _u(0x00000060)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS_MSB    _u(6)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS_LSB    _u(5)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_SENS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE
+// Description : Arm the glitch detectors to reset the system if an abnormal
+//               clock/power event is observed.
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE_RESET  "-"
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE_BITS   _u(0x00000010)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE_MSB    _u(4)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE_LSB    _u(4)
+#define OTP_DATA_CRIT1_GLITCH_DETECTOR_ENABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_BOOT_ARCH
+// Description : Set the default boot architecture, 0=ARM 1=RISC-V. Ignored if
+//               ARM_DISABLE, RISCV_DISABLE or SECURE_BOOT_ENABLE is set.
+#define OTP_DATA_CRIT1_BOOT_ARCH_RESET  "-"
+#define OTP_DATA_CRIT1_BOOT_ARCH_BITS   _u(0x00000008)
+#define OTP_DATA_CRIT1_BOOT_ARCH_MSB    _u(3)
+#define OTP_DATA_CRIT1_BOOT_ARCH_LSB    _u(3)
+#define OTP_DATA_CRIT1_BOOT_ARCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_DEBUG_DISABLE
+// Description : Disable all debug access
+#define OTP_DATA_CRIT1_DEBUG_DISABLE_RESET  "-"
+#define OTP_DATA_CRIT1_DEBUG_DISABLE_BITS   _u(0x00000004)
+#define OTP_DATA_CRIT1_DEBUG_DISABLE_MSB    _u(2)
+#define OTP_DATA_CRIT1_DEBUG_DISABLE_LSB    _u(2)
+#define OTP_DATA_CRIT1_DEBUG_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE
+// Description : Disable Secure debug access
+#define OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE_RESET  "-"
+#define OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE_BITS   _u(0x00000002)
+#define OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE_MSB    _u(1)
+#define OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE_LSB    _u(1)
+#define OTP_DATA_CRIT1_SECURE_DEBUG_DISABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_CRIT1_SECURE_BOOT_ENABLE
+// Description : Enable boot signature enforcement, and permanently disable the
+//               RISC-V cores.
+#define OTP_DATA_CRIT1_SECURE_BOOT_ENABLE_RESET  "-"
+#define OTP_DATA_CRIT1_SECURE_BOOT_ENABLE_BITS   _u(0x00000001)
+#define OTP_DATA_CRIT1_SECURE_BOOT_ENABLE_MSB    _u(0)
+#define OTP_DATA_CRIT1_SECURE_BOOT_ENABLE_LSB    _u(0)
+#define OTP_DATA_CRIT1_SECURE_BOOT_ENABLE_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R1
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R1_ROW _u(0x00000041)
+#define OTP_DATA_CRIT1_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R1_RESET  "-"
+#define OTP_DATA_CRIT1_R1_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R1_MSB    _u(23)
+#define OTP_DATA_CRIT1_R1_LSB    _u(0)
+#define OTP_DATA_CRIT1_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R2
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R2_ROW _u(0x00000042)
+#define OTP_DATA_CRIT1_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R2_RESET  "-"
+#define OTP_DATA_CRIT1_R2_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R2_MSB    _u(23)
+#define OTP_DATA_CRIT1_R2_LSB    _u(0)
+#define OTP_DATA_CRIT1_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R3
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R3_ROW _u(0x00000043)
+#define OTP_DATA_CRIT1_R3_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R3_RESET  "-"
+#define OTP_DATA_CRIT1_R3_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R3_MSB    _u(23)
+#define OTP_DATA_CRIT1_R3_LSB    _u(0)
+#define OTP_DATA_CRIT1_R3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R4
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R4_ROW _u(0x00000044)
+#define OTP_DATA_CRIT1_R4_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R4_RESET  "-"
+#define OTP_DATA_CRIT1_R4_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R4_MSB    _u(23)
+#define OTP_DATA_CRIT1_R4_LSB    _u(0)
+#define OTP_DATA_CRIT1_R4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R5
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R5_ROW _u(0x00000045)
+#define OTP_DATA_CRIT1_R5_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R5_RESET  "-"
+#define OTP_DATA_CRIT1_R5_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R5_MSB    _u(23)
+#define OTP_DATA_CRIT1_R5_LSB    _u(0)
+#define OTP_DATA_CRIT1_R5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R6
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R6_ROW _u(0x00000046)
+#define OTP_DATA_CRIT1_R6_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R6_RESET  "-"
+#define OTP_DATA_CRIT1_R6_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R6_MSB    _u(23)
+#define OTP_DATA_CRIT1_R6_LSB    _u(0)
+#define OTP_DATA_CRIT1_R6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_CRIT1_R7
+// Description : Redundant copy of CRIT1
+#define OTP_DATA_CRIT1_R7_ROW _u(0x00000047)
+#define OTP_DATA_CRIT1_R7_BITS   _u(0x00ffffff)
+#define OTP_DATA_CRIT1_R7_RESET  "-"
+#define OTP_DATA_CRIT1_R7_WIDTH  _u(24)
+#define OTP_DATA_CRIT1_R7_MSB    _u(23)
+#define OTP_DATA_CRIT1_R7_LSB    _u(0)
+#define OTP_DATA_CRIT1_R7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS0
+// Description : Disable/Enable boot paths/features in the RP2350 mask ROM.
+//               Disables always supersede enables. Enables are provided where
+//               there are other configurations in OTP that must be valid.
+//               (RBIT-3)
+#define OTP_DATA_BOOT_FLAGS0_ROW _u(0x00000048)
+#define OTP_DATA_BOOT_FLAGS0_BITS   _u(0x003fffff)
+#define OTP_DATA_BOOT_FLAGS0_RESET  _u(0x00000000)
+#define OTP_DATA_BOOT_FLAGS0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT_BITS   _u(0x00200000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT_MSB    _u(21)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT_LSB    _u(21)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_SRAM_WINDOW_BOOT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY
+// Description : Disable all access to XIP after entering an SRAM binary.
+//
+//               Note that this will cause bootrom APIs that access XIP to fail,
+//               including APIs that interact with the partition table.
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY_BITS   _u(0x00100000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY_MSB    _u(20)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY_LSB    _u(20)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_XIP_ACCESS_ON_SRAM_ENTRY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT_BITS   _u(0x00080000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT_MSB    _u(19)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT_LSB    _u(19)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_UART_BOOT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC_BITS   _u(0x00040000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC_MSB    _u(18)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC_LSB    _u(18)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_PICOBOOT_IFC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC_BITS   _u(0x00020000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC_MSB    _u(17)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC_LSB    _u(17)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_USB_MSD_IFC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH_BITS   _u(0x00010000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH_MSB    _u(16)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH_LSB    _u(16)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_WATCHDOG_SCRATCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH_BITS   _u(0x00008000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH_MSB    _u(15)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH_LSB    _u(15)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_POWER_SCRATCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT
+// Description : Enable OTP boot. A number of OTP rows specified by OTPBOOT_LEN
+//               will be loaded, starting from OTPBOOT_SRC, into the SRAM
+//               location specified by OTPBOOT_DST1 and OTPBOOT_DST0.
+//
+//               The loaded program image is stored with ECC, 16 bits per row,
+//               and must contain a valid IMAGE_DEF. Do not set this bit without
+//               first programming an image into OTP and configuring
+//               OTPBOOT_LEN, OTPBOOT_SRC, OTPBOOT_DST0 and OTPBOOT_DST1.
+//
+//               Note that OTPBOOT_LEN and OTPBOOT_SRC must be even numbers of
+//               OTP rows. Equivalently, the image must be a multiple of 32 bits
+//               in size, and must start at a 32-bit-aligned address in the ECC
+//               read data address window.
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT_BITS   _u(0x00004000)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT_MSB    _u(14)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT_LSB    _u(14)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_OTP_BOOT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT
+// Description : Takes precedence over ENABLE_OTP_BOOT.
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT_BITS   _u(0x00002000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT_MSB    _u(13)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT_LSB    _u(13)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_OTP_BOOT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT_BITS   _u(0x00001000)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT_MSB    _u(12)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT_LSB    _u(12)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_FLASH_BOOT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED
+// Description : Require binaries to have a rollback version. Set automatically
+//               the first time a binary with a rollback version is booted.
+#define OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED_BITS   _u(0x00000800)
+#define OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED_MSB    _u(11)
+#define OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED_LSB    _u(11)
+#define OTP_DATA_BOOT_FLAGS0_ROLLBACK_REQUIRED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE
+// Description : Require a partition table to be hashed (if not signed)
+#define OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE_BITS   _u(0x00000400)
+#define OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE_MSB    _u(10)
+#define OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE_LSB    _u(10)
+#define OTP_DATA_BOOT_FLAGS0_HASHED_PARTITION_TABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE
+// Description : Require a partition table to be signed
+#define OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE_BITS   _u(0x00000200)
+#define OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE_MSB    _u(9)
+#define OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE_LSB    _u(9)
+#define OTP_DATA_BOOT_FLAGS0_SECURE_PARTITION_TABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH
+// Description : Disable auto-switch of CPU architecture on boot when the (only)
+//               binary to be booted is for the other Arm/RISC-V architecture
+//               and both architectures are enabled
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH_BITS   _u(0x00000100)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH_MSB    _u(8)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH_LSB    _u(8)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_AUTO_SWITCH_ARCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY
+// Description : Restrict flash boot path to use of a single binary at the start
+//               of flash
+#define OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY_BITS   _u(0x00000080)
+#define OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY_MSB    _u(7)
+#define OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY_LSB    _u(7)
+#define OTP_DATA_BOOT_FLAGS0_SINGLE_FLASH_BINARY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE
+// Description : Override the limit for default flash metadata scanning.
+//
+//               The value is specified in FLASH_PARTITION_SLOT_SIZE. Make sure
+//               FLASH_PARTITION_SLOT_SIZE is valid before setting this bit
+#define OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE_BITS   _u(0x00000040)
+#define OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE_MSB    _u(6)
+#define OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE_LSB    _u(6)
+#define OTP_DATA_BOOT_FLAGS0_OVERRIDE_FLASH_PARTITION_SLOT_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE
+// Description : Mark FLASH_DEVINFO as containing valid, ECC'd data which
+//               describes external flash devices.
+#define OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE_BITS   _u(0x00000020)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE_MSB    _u(5)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE_LSB    _u(5)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_DEVINFO_ENABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV
+// Description : Enable quartering of ROSC divisor during signature check, to
+//               reduce secure boot time
+#define OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV_BITS   _u(0x00000010)
+#define OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV_MSB    _u(4)
+#define OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV_LSB    _u(4)
+#define OTP_DATA_BOOT_FLAGS0_FAST_SIGCHECK_ROSC_DIV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8
+// Description : If 1, configure the QSPI pads for 1.8 V operation when
+//               accessing flash for the first time from the bootrom, using the
+//               VOLTAGE_SELECT register for the QSPI pads bank. This slightly
+//               improves the input timing of the pads at low voltages, but does
+//               not affect their output characteristics.
+//
+//               If 0, leave VOLTAGE_SELECT in its reset state (suitable for
+//               operation at and above 2.5 V)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8_BITS   _u(0x00000008)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8_MSB    _u(3)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8_LSB    _u(3)
+#define OTP_DATA_BOOT_FLAGS0_FLASH_IO_VOLTAGE_1V8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG
+// Description : Enable loading of the non-default XOSC and PLL configuration
+//               before entering BOOTSEL mode.
+//
+//               Ensure that BOOTSEL_XOSC_CFG and BOOTSEL_PLL_CFG are correctly
+//               programmed before setting this bit.
+//
+//               If this bit is set, user software may use the contents of
+//               BOOTSEL_PLL_CFG to calculated the expected XOSC frequency based
+//               on the fixed USB boot frequency of 48 MHz.
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG_BITS   _u(0x00000004)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG_MSB    _u(2)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG_LSB    _u(2)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED
+// Description : Enable bootloader activity LED. If set, bootsel_led_cfg is
+//               assumed to be valid
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED_BITS   _u(0x00000002)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED_MSB    _u(1)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED_LSB    _u(1)
+#define OTP_DATA_BOOT_FLAGS0_ENABLE_BOOTSEL_LED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2_BITS   _u(0x00000001)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2_MSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS0_DISABLE_BOOTSEL_EXEC2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS0_R1
+// Description : Redundant copy of BOOT_FLAGS0
+#define OTP_DATA_BOOT_FLAGS0_R1_ROW _u(0x00000049)
+#define OTP_DATA_BOOT_FLAGS0_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_BOOT_FLAGS0_R1_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_R1_WIDTH  _u(24)
+#define OTP_DATA_BOOT_FLAGS0_R1_MSB    _u(23)
+#define OTP_DATA_BOOT_FLAGS0_R1_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS0_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS0_R2
+// Description : Redundant copy of BOOT_FLAGS0
+#define OTP_DATA_BOOT_FLAGS0_R2_ROW _u(0x0000004a)
+#define OTP_DATA_BOOT_FLAGS0_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_BOOT_FLAGS0_R2_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS0_R2_WIDTH  _u(24)
+#define OTP_DATA_BOOT_FLAGS0_R2_MSB    _u(23)
+#define OTP_DATA_BOOT_FLAGS0_R2_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS0_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS1
+// Description : Disable/Enable boot paths/features in the RP2350 mask ROM.
+//               Disables always supersede enables. Enables are provided where
+//               there are other configurations in OTP that must be valid.
+//               (RBIT-3)
+#define OTP_DATA_BOOT_FLAGS1_ROW _u(0x0000004b)
+#define OTP_DATA_BOOT_FLAGS1_BITS   _u(0x000f0f0f)
+#define OTP_DATA_BOOT_FLAGS1_RESET  _u(0x00000000)
+#define OTP_DATA_BOOT_FLAGS1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP
+// Description : Enable entering BOOTSEL mode via double-tap of the RUN/RSTn
+//               pin. Adds a significant delay to boot time, as configured by
+//               DOUBLE_TAP_DELAY.
+//
+//               This functions by waiting at startup (i.e. following a reset)
+//               to see if a second reset is applied soon afterward. The second
+//               reset is detected by the bootrom with help of the
+//               POWMAN_CHIP_RESET_DOUBLE_TAP flag, which is not reset by the
+//               external reset pin, and the bootrom enters BOOTSEL mode
+//               (NSBOOT) to await further instruction over USB or UART.
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_BITS   _u(0x00080000)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_MSB    _u(19)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_LSB    _u(19)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY
+// Description : Adjust how long to wait for a second reset when double tap
+//               BOOTSEL mode is enabled via DOUBLE_TAP. The minimum is 50
+//               milliseconds, and each unit of this field adds an additional 50
+//               milliseconds.
+//
+//               For example, settings this field to its maximum value of 7 will
+//               cause the chip to wait for 400 milliseconds at boot to check
+//               for a second reset which requests entry to BOOTSEL mode.
+//
+//               200 milliseconds (DOUBLE_TAP_DELAY=3) is a good intermediate
+//               value.
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY_BITS   _u(0x00070000)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY_MSB    _u(18)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY_LSB    _u(16)
+#define OTP_DATA_BOOT_FLAGS1_DOUBLE_TAP_DELAY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS1_KEY_INVALID
+// Description : Mark a boot key as invalid, or prevent it from ever becoming
+//               valid. The bootrom will ignore any boot key marked as invalid
+//               during secure boot signature checks.
+//
+//               Each bit in this field corresponds to one of the four 256-bit
+//               boot key hashes that may be stored in page 2 of the OTP.
+//
+//               When provisioning boot keys, it's recommended to mark any boot
+//               key slots you don't intend to use as KEY_INVALID, so that
+//               spurious keys can not be installed at a later time.
+#define OTP_DATA_BOOT_FLAGS1_KEY_INVALID_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_KEY_INVALID_BITS   _u(0x00000f00)
+#define OTP_DATA_BOOT_FLAGS1_KEY_INVALID_MSB    _u(11)
+#define OTP_DATA_BOOT_FLAGS1_KEY_INVALID_LSB    _u(8)
+#define OTP_DATA_BOOT_FLAGS1_KEY_INVALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOT_FLAGS1_KEY_VALID
+// Description : Mark each of the possible boot keys as valid. The bootrom will
+//               check signatures against all valid boot keys, and ignore
+//               invalid boot keys.
+//
+//               Each bit in this field corresponds to one of the four 256-bit
+//               boot key hashes that may be stored in page 2 of the OTP.
+//
+//               A KEY_VALID bit is ignored if the corresponding KEY_INVALID bit
+//               is set. Boot keys are considered valid only when KEY_VALID is
+//               set and KEY_INVALID is clear.
+//
+//               Do not mark a boot key as KEY_VALID if it does not contain a
+//               valid SHA-256 hash of your secp256k1 public key. Verify keys
+//               after programming, before setting the KEY_VALID bits -- a boot
+//               key with uncorrectable ECC faults will render your device
+//               unbootable if secure boot is enabled.
+//
+//               Do not enable secure boot without first installing a valid key.
+//               This will render your device unbootable.
+#define OTP_DATA_BOOT_FLAGS1_KEY_VALID_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_KEY_VALID_BITS   _u(0x0000000f)
+#define OTP_DATA_BOOT_FLAGS1_KEY_VALID_MSB    _u(3)
+#define OTP_DATA_BOOT_FLAGS1_KEY_VALID_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS1_KEY_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS1_R1
+// Description : Redundant copy of BOOT_FLAGS1
+#define OTP_DATA_BOOT_FLAGS1_R1_ROW _u(0x0000004c)
+#define OTP_DATA_BOOT_FLAGS1_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_BOOT_FLAGS1_R1_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_R1_WIDTH  _u(24)
+#define OTP_DATA_BOOT_FLAGS1_R1_MSB    _u(23)
+#define OTP_DATA_BOOT_FLAGS1_R1_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS1_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOT_FLAGS1_R2
+// Description : Redundant copy of BOOT_FLAGS1
+#define OTP_DATA_BOOT_FLAGS1_R2_ROW _u(0x0000004d)
+#define OTP_DATA_BOOT_FLAGS1_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_BOOT_FLAGS1_R2_RESET  "-"
+#define OTP_DATA_BOOT_FLAGS1_R2_WIDTH  _u(24)
+#define OTP_DATA_BOOT_FLAGS1_R2_MSB    _u(23)
+#define OTP_DATA_BOOT_FLAGS1_R2_LSB    _u(0)
+#define OTP_DATA_BOOT_FLAGS1_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION0
+// Description : Default boot version thermometer counter, bits 23:0 (RBIT-3)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_ROW _u(0x0000004e)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION0_R1
+// Description : Redundant copy of DEFAULT_BOOT_VERSION0
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_ROW _u(0x0000004f)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION0_R2
+// Description : Redundant copy of DEFAULT_BOOT_VERSION0
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_ROW _u(0x00000050)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION0_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION1
+// Description : Default boot version thermometer counter, bits 47:24 (RBIT-3)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_ROW _u(0x00000051)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION1_R1
+// Description : Redundant copy of DEFAULT_BOOT_VERSION1
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_ROW _u(0x00000052)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_DEFAULT_BOOT_VERSION1_R2
+// Description : Redundant copy of DEFAULT_BOOT_VERSION1
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_ROW _u(0x00000053)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_RESET  "-"
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_WIDTH  _u(24)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_MSB    _u(23)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_LSB    _u(0)
+#define OTP_DATA_DEFAULT_BOOT_VERSION1_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_FLASH_DEVINFO
+// Description : Stores information about external flash device(s). (ECC)
+//
+//               Assumed to be valid if BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is set.
+#define OTP_DATA_FLASH_DEVINFO_ROW _u(0x00000054)
+#define OTP_DATA_FLASH_DEVINFO_BITS   _u(0x0000ffbf)
+#define OTP_DATA_FLASH_DEVINFO_RESET  _u(0x00000000)
+#define OTP_DATA_FLASH_DEVINFO_WIDTH  _u(16)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_FLASH_DEVINFO_CS1_SIZE
+// Description : The size of the flash/PSRAM device on chip select 1
+//               (addressable at 0x11000000 through 0x11ffffff).
+//
+//               A value of zero is decoded as a size of zero (no device).
+//               Nonzero values are decoded as 4kiB << CS1_SIZE. For example,
+//               four megabytes is encoded with a CS1_SIZE value of 10, and 16
+//               megabytes is encoded with a CS1_SIZE value of 12.
+//
+//               When BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is not set, a default of
+//               zero is used.
+//               0x0 -> NONE
+//               0x1 -> 8K
+//               0x2 -> 16K
+//               0x3 -> 32K
+//               0x4 -> 64k
+//               0x5 -> 128K
+//               0x6 -> 256K
+//               0x7 -> 512K
+//               0x8 -> 1M
+//               0x9 -> 2M
+//               0xa -> 4M
+//               0xb -> 8M
+//               0xc -> 16M
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_RESET  "-"
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_BITS   _u(0x0000f000)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_MSB    _u(15)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_LSB    _u(12)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_ACCESS "RO"
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_NONE _u(0x0)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_8K _u(0x1)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_16K _u(0x2)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_32K _u(0x3)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_64K _u(0x4)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_128K _u(0x5)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_256K _u(0x6)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_512K _u(0x7)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_1M _u(0x8)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_2M _u(0x9)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_4M _u(0xa)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_8M _u(0xb)
+#define OTP_DATA_FLASH_DEVINFO_CS1_SIZE_VALUE_16M _u(0xc)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_FLASH_DEVINFO_CS0_SIZE
+// Description : The size of the flash/PSRAM device on chip select 0
+//               (addressable at 0x10000000 through 0x10ffffff).
+//
+//               A value of zero is decoded as a size of zero (no device).
+//               Nonzero values are decoded as 4kiB << CS0_SIZE. For example,
+//               four megabytes is encoded with a CS0_SIZE value of 10, and 16
+//               megabytes is encoded with a CS0_SIZE value of 12.
+//
+//               When BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is not set, a default of
+//               12 (16 MiB) is used.
+//               0x0 -> NONE
+//               0x1 -> 8K
+//               0x2 -> 16K
+//               0x3 -> 32K
+//               0x4 -> 64k
+//               0x5 -> 128K
+//               0x6 -> 256K
+//               0x7 -> 512K
+//               0x8 -> 1M
+//               0x9 -> 2M
+//               0xa -> 4M
+//               0xb -> 8M
+//               0xc -> 16M
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_RESET  "-"
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_BITS   _u(0x00000f00)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_MSB    _u(11)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_LSB    _u(8)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_ACCESS "RO"
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_NONE _u(0x0)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_8K _u(0x1)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_16K _u(0x2)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_32K _u(0x3)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_64K _u(0x4)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_128K _u(0x5)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_256K _u(0x6)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_512K _u(0x7)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_1M _u(0x8)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_2M _u(0x9)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_4M _u(0xa)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_8M _u(0xb)
+#define OTP_DATA_FLASH_DEVINFO_CS0_SIZE_VALUE_16M _u(0xc)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED
+// Description : If true, all attached devices are assumed to support (or
+//               ignore, in the case of PSRAM) a block erase command with a
+//               command prefix of D8h, an erase size of 64 kiB, and a 24-bit
+//               address. Almost all 25-series flash devices support this
+//               command.
+//
+//               If set, the bootrom will use the D8h erase command where it is
+//               able, to accelerate bulk erase operations. This makes flash
+//               programming faster.
+//
+//               When BOOT_FLAGS0_FLASH_DEVINFO_ENABLE is not set, this field
+//               defaults to false.
+#define OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED_RESET  "-"
+#define OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED_BITS   _u(0x00000080)
+#define OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED_MSB    _u(7)
+#define OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED_LSB    _u(7)
+#define OTP_DATA_FLASH_DEVINFO_D8H_ERASE_SUPPORTED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_FLASH_DEVINFO_CS1_GPIO
+// Description : Indicate a GPIO number to be used for the secondary flash chip
+//               select (CS1), which selects the external QSPI device mapped at
+//               system addresses 0x11000000 through 0x11ffffff. There is no
+//               such configuration for CS0, as the primary chip select has a
+//               dedicated pin.
+//
+//               On RP2350 the permissible GPIO numbers are 0, 8, 19 and 47.
+//
+//               Ignored if CS1_size is zero. If CS1_SIZE is nonzero, the
+//               bootrom will automatically configure this GPIO as a second chip
+//               select upon entering the flash boot path, or entering any other
+//               path that may use the QSPI flash interface, such as BOOTSEL
+//               mode (nsboot).
+#define OTP_DATA_FLASH_DEVINFO_CS1_GPIO_RESET  "-"
+#define OTP_DATA_FLASH_DEVINFO_CS1_GPIO_BITS   _u(0x0000003f)
+#define OTP_DATA_FLASH_DEVINFO_CS1_GPIO_MSB    _u(5)
+#define OTP_DATA_FLASH_DEVINFO_CS1_GPIO_LSB    _u(0)
+#define OTP_DATA_FLASH_DEVINFO_CS1_GPIO_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_FLASH_PARTITION_SLOT_SIZE
+// Description : Gap between partition table slot 0 and slot 1 at the start of
+//               flash (the default size is 4096 bytes) (ECC) Enabled by the
+//               OVERRIDE_FLASH_PARTITION_SLOT_SIZE bit in BOOT_FLAGS, the size
+//               is 4096 * (value + 1)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_ROW _u(0x00000055)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_BITS   _u(0x0000ffff)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_RESET  "-"
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_WIDTH  _u(16)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_MSB    _u(15)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_LSB    _u(0)
+#define OTP_DATA_FLASH_PARTITION_SLOT_SIZE_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTSEL_LED_CFG
+// Description : Pin configuration for LED status, used by USB bootloader. (ECC)
+//               Must be valid if BOOT_FLAGS0_ENABLE_BOOTSEL_LED is set.
+#define OTP_DATA_BOOTSEL_LED_CFG_ROW _u(0x00000056)
+#define OTP_DATA_BOOTSEL_LED_CFG_BITS   _u(0x0000013f)
+#define OTP_DATA_BOOTSEL_LED_CFG_RESET  _u(0x00000000)
+#define OTP_DATA_BOOTSEL_LED_CFG_WIDTH  _u(16)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW
+// Description : LED is active-low. (Default: active-high.)
+#define OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW_RESET  "-"
+#define OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW_BITS   _u(0x00000100)
+#define OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW_MSB    _u(8)
+#define OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW_LSB    _u(8)
+#define OTP_DATA_BOOTSEL_LED_CFG_ACTIVELOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_LED_CFG_PIN
+// Description : GPIO index to use for bootloader activity LED.
+#define OTP_DATA_BOOTSEL_LED_CFG_PIN_RESET  "-"
+#define OTP_DATA_BOOTSEL_LED_CFG_PIN_BITS   _u(0x0000003f)
+#define OTP_DATA_BOOTSEL_LED_CFG_PIN_MSB    _u(5)
+#define OTP_DATA_BOOTSEL_LED_CFG_PIN_LSB    _u(0)
+#define OTP_DATA_BOOTSEL_LED_CFG_PIN_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTSEL_PLL_CFG
+// Description : Optional PLL configuration for BOOTSEL mode. (ECC)
+//
+//               This should be configured to produce an exact 48 MHz based on
+//               the crystal oscillator frequency. User mode software may also
+//               use this value to calculate the expected crystal frequency
+//               based on an assumed 48 MHz PLL output.
+//
+//               If no configuration is given, the crystal is assumed to be 12
+//               MHz.
+//
+//               The PLL frequency can be calculated as:
+//
+//               PLL out = (XOSC frequency / (REFDIV+1)) x FBDIV / (POSTDIV1 x
+//               POSTDIV2)
+//
+//               Conversely the crystal frequency can be calculated as:
+//
+//               XOSC frequency = 48 MHz x (REFDIV+1) x (POSTDIV1 x POSTDIV2) /
+//               FBDIV
+//
+//               (Note the  +1 on REFDIV is because the value stored in this OTP
+//               location is the actual divisor value minus one.)
+//
+//               Used if and only if ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG is
+//               set in BOOT_FLAGS0. That bit should be set only after this row
+//               and BOOTSEL_XOSC_CFG are both correctly programmed.
+#define OTP_DATA_BOOTSEL_PLL_CFG_ROW _u(0x00000057)
+#define OTP_DATA_BOOTSEL_PLL_CFG_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTSEL_PLL_CFG_RESET  _u(0x00000000)
+#define OTP_DATA_BOOTSEL_PLL_CFG_WIDTH  _u(16)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_PLL_CFG_REFDIV
+// Description : PLL reference divisor, minus one.
+//
+//               Programming a value of 0 means a reference divisor of 1.
+//               Programming a value of 1 means a reference divisor of 2 (for
+//               exceptionally fast XIN inputs)
+#define OTP_DATA_BOOTSEL_PLL_CFG_REFDIV_RESET  "-"
+#define OTP_DATA_BOOTSEL_PLL_CFG_REFDIV_BITS   _u(0x00008000)
+#define OTP_DATA_BOOTSEL_PLL_CFG_REFDIV_MSB    _u(15)
+#define OTP_DATA_BOOTSEL_PLL_CFG_REFDIV_LSB    _u(15)
+#define OTP_DATA_BOOTSEL_PLL_CFG_REFDIV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2
+// Description : PLL post-divide 2 divisor, in the range 1..7 inclusive.
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2_RESET  "-"
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2_BITS   _u(0x00007000)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2_MSB    _u(14)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2_LSB    _u(12)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1
+// Description : PLL post-divide 1 divisor, in the range 1..7 inclusive.
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1_RESET  "-"
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1_BITS   _u(0x00000e00)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1_MSB    _u(11)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1_LSB    _u(9)
+#define OTP_DATA_BOOTSEL_PLL_CFG_POSTDIV1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_PLL_CFG_FBDIV
+// Description : PLL feedback divisor, in the range 16..320 inclusive.
+#define OTP_DATA_BOOTSEL_PLL_CFG_FBDIV_RESET  "-"
+#define OTP_DATA_BOOTSEL_PLL_CFG_FBDIV_BITS   _u(0x000001ff)
+#define OTP_DATA_BOOTSEL_PLL_CFG_FBDIV_MSB    _u(8)
+#define OTP_DATA_BOOTSEL_PLL_CFG_FBDIV_LSB    _u(0)
+#define OTP_DATA_BOOTSEL_PLL_CFG_FBDIV_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTSEL_XOSC_CFG
+// Description : Non-default crystal oscillator configuration for the USB
+//               bootloader. (ECC)
+//
+//               These values may also be used by user code configuring the
+//               crystal oscillator.
+//
+//               Used if and only if ENABLE_BOOTSEL_NON_DEFAULT_PLL_XOSC_CFG is
+//               set in BOOT_FLAGS0. That bit should be set only after this row
+//               and BOOTSEL_PLL_CFG are both correctly programmed.
+#define OTP_DATA_BOOTSEL_XOSC_CFG_ROW _u(0x00000058)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RESET  _u(0x00000000)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_WIDTH  _u(16)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_XOSC_CFG_RANGE
+// Description : Value of the XOSC_CTRL_FREQ_RANGE register.
+//               0x0 -> 1_15MHZ
+//               0x1 -> 10_30MHZ
+//               0x2 -> 25_60MHZ
+//               0x3 -> 40_100MHZ
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_RESET  "-"
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_BITS   _u(0x0000c000)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_MSB    _u(15)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_LSB    _u(14)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_ACCESS "RO"
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_VALUE_1_15MHZ _u(0x0)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_VALUE_10_30MHZ _u(0x1)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_VALUE_25_60MHZ _u(0x2)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_RANGE_VALUE_40_100MHZ _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP
+// Description : Value of the XOSC_STARTUP register
+#define OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP_RESET  "-"
+#define OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP_BITS   _u(0x00003fff)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP_MSB    _u(13)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP_LSB    _u(0)
+#define OTP_DATA_BOOTSEL_XOSC_CFG_STARTUP_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_USB_BOOT_FLAGS
+// Description : USB boot specific feature flags (RBIT-3)
+#define OTP_DATA_USB_BOOT_FLAGS_ROW _u(0x00000059)
+#define OTP_DATA_USB_BOOT_FLAGS_BITS   _u(0x00c0ffff)
+#define OTP_DATA_USB_BOOT_FLAGS_RESET  _u(0x00000000)
+#define OTP_DATA_USB_BOOT_FLAGS_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP
+// Description : Swap DM/DP during USB boot, to support board layouts with
+//               mirrored USB routing (deliberate or accidental).
+#define OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP_BITS   _u(0x00800000)
+#define OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP_MSB    _u(23)
+#define OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP_LSB    _u(23)
+#define OTP_DATA_USB_BOOT_FLAGS_DP_DM_SWAP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID
+// Description : valid flag for INFO_UF2_TXT_BOARD_ID_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 15)
+#define OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID_BITS   _u(0x00400000)
+#define OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID_MSB    _u(22)
+#define OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID_LSB    _u(22)
+#define OTP_DATA_USB_BOOT_FLAGS_WHITE_LABEL_ADDR_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID
+// Description : valid flag for the USB_WHITE_LABEL_ADDR field
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID_BITS   _u(0x00008000)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID_MSB    _u(15)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID_LSB    _u(15)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_BOARD_ID_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID
+// Description : valid flag for INFO_UF2_TXT_MODEL_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 14)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID_BITS   _u(0x00004000)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID_MSB    _u(14)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID_LSB    _u(14)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INFO_UF2_TXT_MODEL_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID
+// Description : valid flag for INDEX_HTM_REDIRECT_NAME_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 13)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID_BITS   _u(0x00002000)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID_MSB    _u(13)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID_LSB    _u(13)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_NAME_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID
+// Description : valid flag for INDEX_HTM_REDIRECT_URL_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 12)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID_BITS   _u(0x00001000)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID_MSB    _u(12)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID_LSB    _u(12)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_INDEX_HTM_REDIRECT_URL_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID
+// Description : valid flag for SCSI_INQUIRY_VERSION_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 11)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID_BITS   _u(0x00000800)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID_MSB    _u(11)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID_LSB    _u(11)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VERSION_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID
+// Description : valid flag for SCSI_INQUIRY_PRODUCT_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 10)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID_BITS   _u(0x00000400)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID_MSB    _u(10)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID_LSB    _u(10)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_PRODUCT_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID
+// Description : valid flag for SCSI_INQUIRY_VENDOR_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 9)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID_BITS   _u(0x00000200)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID_MSB    _u(9)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID_LSB    _u(9)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_SCSI_INQUIRY_VENDOR_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID
+// Description : valid flag for VOLUME_LABEL_STRDEF entry of the USB_WHITE_LABEL
+//               struct (index 8)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID_BITS   _u(0x00000100)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID_MSB    _u(8)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID_LSB    _u(8)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_VOLUME_LABEL_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID
+// Description : valid flag for USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES entry of
+//               the USB_WHITE_LABEL struct (index 7)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID_BITS   _u(0x00000080)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID_MSB    _u(7)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID_LSB    _u(7)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID
+// Description : valid flag for USB_DEVICE_SERIAL_NUMBER_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 6)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID_BITS   _u(0x00000040)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID_MSB    _u(6)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID_LSB    _u(6)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID
+// Description : valid flag for USB_DEVICE_PRODUCT_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 5)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID_BITS   _u(0x00000020)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID_MSB    _u(5)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID_LSB    _u(5)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PRODUCT_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID
+// Description : valid flag for USB_DEVICE_MANUFACTURER_STRDEF entry of the
+//               USB_WHITE_LABEL struct (index 4)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID_BITS   _u(0x00000010)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID_MSB    _u(4)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID_LSB    _u(4)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_MANUFACTURER_STRDEF_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID
+// Description : valid flag for USB_DEVICE_LANG_ID_VALUE entry of the
+//               USB_WHITE_LABEL struct (index 3)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID_BITS   _u(0x00000008)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID_MSB    _u(3)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID_LSB    _u(3)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_LANG_ID_VALUE_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID
+// Description : valid flag for USB_DEVICE_BCD_DEVICEVALUE entry of the
+//               USB_WHITE_LABEL struct (index 2)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID_BITS   _u(0x00000004)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID_MSB    _u(2)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID_LSB    _u(2)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_SERIAL_NUMBER_VALUE_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID
+// Description : valid flag for USB_DEVICE_PID_VALUE entry of the
+//               USB_WHITE_LABEL struct (index 1)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID_BITS   _u(0x00000002)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID_MSB    _u(1)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID_LSB    _u(1)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_PID_VALUE_VALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID
+// Description : valid flag for USB_DEVICE_VID_VALUE entry of the
+//               USB_WHITE_LABEL struct (index 0)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID_MSB    _u(0)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID_LSB    _u(0)
+#define OTP_DATA_USB_BOOT_FLAGS_WL_USB_DEVICE_VID_VALUE_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_USB_BOOT_FLAGS_R1
+// Description : Redundant copy of USB_BOOT_FLAGS
+#define OTP_DATA_USB_BOOT_FLAGS_R1_ROW _u(0x0000005a)
+#define OTP_DATA_USB_BOOT_FLAGS_R1_BITS   _u(0x00ffffff)
+#define OTP_DATA_USB_BOOT_FLAGS_R1_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_R1_WIDTH  _u(24)
+#define OTP_DATA_USB_BOOT_FLAGS_R1_MSB    _u(23)
+#define OTP_DATA_USB_BOOT_FLAGS_R1_LSB    _u(0)
+#define OTP_DATA_USB_BOOT_FLAGS_R1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_USB_BOOT_FLAGS_R2
+// Description : Redundant copy of USB_BOOT_FLAGS
+#define OTP_DATA_USB_BOOT_FLAGS_R2_ROW _u(0x0000005b)
+#define OTP_DATA_USB_BOOT_FLAGS_R2_BITS   _u(0x00ffffff)
+#define OTP_DATA_USB_BOOT_FLAGS_R2_RESET  "-"
+#define OTP_DATA_USB_BOOT_FLAGS_R2_WIDTH  _u(24)
+#define OTP_DATA_USB_BOOT_FLAGS_R2_MSB    _u(23)
+#define OTP_DATA_USB_BOOT_FLAGS_R2_LSB    _u(0)
+#define OTP_DATA_USB_BOOT_FLAGS_R2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_USB_WHITE_LABEL_ADDR
+// Description : Row index of the USB_WHITE_LABEL structure within OTP (ECC)
+//
+//               The table has 16 rows, each of which are also ECC and marked
+//               valid by the corresponding valid bit in USB_BOOT_FLAGS (ECC).
+//
+//               The entries are either _VALUEs where the 16 bit value is used
+//               as is, or _STRDEFs which acts as a pointers to a string value.
+//
+//               The value stored in a _STRDEF is two separate bytes: The low
+//               seven bits of the first (LSB) byte indicates the number of
+//               characters in the string, and the top bit of the first (LSB)
+//               byte if set to indicate that each character in the string is
+//               two bytes (Unicode) versus one byte if unset. The second (MSB)
+//               byte represents the location of the string data, and is encoded
+//               as the number of rows from this USB_WHITE_LABEL_ADDR; i.e. the
+//               row of the start of the string is USB_WHITE_LABEL_ADDR value +
+//               msb_byte.
+//
+//               In each case, the corresponding valid bit enables replacing the
+//               default value for the corresponding item provided by the boot
+//               rom.
+//
+//               Note that Unicode _STRDEFs are only supported for
+//               USB_DEVICE_PRODUCT_STRDEF, USB_DEVICE_SERIAL_NUMBER_STRDEF and
+//               USB_DEVICE_MANUFACTURER_STRDEF. Unicode values will be ignored
+//               if specified for other fields, and non-unicode values for these
+//               three items will be converted to Unicode characters by setting
+//               the upper 8 bits to zero.
+//
+//               Note that if the USB_WHITE_LABEL structure or the corresponding
+//               strings are not readable by BOOTSEL mode based on OTP
+//               permissions, or if alignment requirements are not met, then the
+//               corresponding default values are used.
+//
+//               The index values indicate where each field is located (row
+//               USB_WHITE_LABEL_ADDR value + index):
+//               0x0000 -> INDEX_USB_DEVICE_VID_VALUE
+//               0x0001 -> INDEX_USB_DEVICE_PID_VALUE
+//               0x0002 -> INDEX_USB_DEVICE_BCD_DEVICE_VALUE
+//               0x0003 -> INDEX_USB_DEVICE_LANG_ID_VALUE
+//               0x0004 -> INDEX_USB_DEVICE_MANUFACTURER_STRDEF
+//               0x0005 -> INDEX_USB_DEVICE_PRODUCT_STRDEF
+//               0x0006 -> INDEX_USB_DEVICE_SERIAL_NUMBER_STRDEF
+//               0x0007 -> INDEX_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES
+//               0x0008 -> INDEX_VOLUME_LABEL_STRDEF
+//               0x0009 -> INDEX_SCSI_INQUIRY_VENDOR_STRDEF
+//               0x000a -> INDEX_SCSI_INQUIRY_PRODUCT_STRDEF
+//               0x000b -> INDEX_SCSI_INQUIRY_VERSION_STRDEF
+//               0x000c -> INDEX_INDEX_HTM_REDIRECT_URL_STRDEF
+//               0x000d -> INDEX_INDEX_HTM_REDIRECT_NAME_STRDEF
+//               0x000e -> INDEX_INFO_UF2_TXT_MODEL_STRDEF
+//               0x000f -> INDEX_INFO_UF2_TXT_BOARD_ID_STRDEF
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_ROW _u(0x0000005c)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_BITS   _u(0x0000ffff)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_RESET  "-"
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_WIDTH  _u(16)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_MSB    _u(15)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_LSB    _u(0)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_ACCESS "RO"
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_VID_VALUE _u(0x0000)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_PID_VALUE _u(0x0001)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_BCD_DEVICE_VALUE _u(0x0002)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_LANG_ID_VALUE _u(0x0003)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_MANUFACTURER_STRDEF _u(0x0004)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_PRODUCT_STRDEF _u(0x0005)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_DEVICE_SERIAL_NUMBER_STRDEF _u(0x0006)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_USB_CONFIG_ATTRIBUTES_MAX_POWER_VALUES _u(0x0007)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_VOLUME_LABEL_STRDEF _u(0x0008)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_SCSI_INQUIRY_VENDOR_STRDEF _u(0x0009)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_SCSI_INQUIRY_PRODUCT_STRDEF _u(0x000a)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_SCSI_INQUIRY_VERSION_STRDEF _u(0x000b)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_INDEX_HTM_REDIRECT_URL_STRDEF _u(0x000c)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_INDEX_HTM_REDIRECT_NAME_STRDEF _u(0x000d)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_INFO_UF2_TXT_MODEL_STRDEF _u(0x000e)
+#define OTP_DATA_USB_WHITE_LABEL_ADDR_VALUE_INDEX_INFO_UF2_TXT_BOARD_ID_STRDEF _u(0x000f)
+// =============================================================================
+// Register    : OTP_DATA_OTPBOOT_SRC
+// Description : OTP start row for the OTP boot image. (ECC)
+//
+//               If OTP boot is enabled, the bootrom will load from this
+//               location into SRAM and then directly enter the loaded image.
+//               Note that the image must be signed if SECURE_BOOT_ENABLE is
+//               set. The image itself is assumed to be ECC-protected.
+//
+//               This must be an even number. Equivalently, the OTP boot image
+//               must start at a word-aligned location in the ECC read data
+//               address window.
+#define OTP_DATA_OTPBOOT_SRC_ROW _u(0x0000005e)
+#define OTP_DATA_OTPBOOT_SRC_BITS   _u(0x0000ffff)
+#define OTP_DATA_OTPBOOT_SRC_RESET  "-"
+#define OTP_DATA_OTPBOOT_SRC_WIDTH  _u(16)
+#define OTP_DATA_OTPBOOT_SRC_MSB    _u(15)
+#define OTP_DATA_OTPBOOT_SRC_LSB    _u(0)
+#define OTP_DATA_OTPBOOT_SRC_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_OTPBOOT_LEN
+// Description : Length in rows of the OTP boot image. (ECC)
+//
+//               OTPBOOT_LEN must be even. The total image size must be a
+//               multiple of 4 bytes (32 bits).
+#define OTP_DATA_OTPBOOT_LEN_ROW _u(0x0000005f)
+#define OTP_DATA_OTPBOOT_LEN_BITS   _u(0x0000ffff)
+#define OTP_DATA_OTPBOOT_LEN_RESET  "-"
+#define OTP_DATA_OTPBOOT_LEN_WIDTH  _u(16)
+#define OTP_DATA_OTPBOOT_LEN_MSB    _u(15)
+#define OTP_DATA_OTPBOOT_LEN_LSB    _u(0)
+#define OTP_DATA_OTPBOOT_LEN_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_OTPBOOT_DST0
+// Description : Bits 15:0 of the OTP boot image load destination (and entry
+//               point). (ECC)
+//
+//               This must be a location in main SRAM (main SRAM is addresses
+//               0x20000000 through 0x20082000) and must be word-aligned.
+#define OTP_DATA_OTPBOOT_DST0_ROW _u(0x00000060)
+#define OTP_DATA_OTPBOOT_DST0_BITS   _u(0x0000ffff)
+#define OTP_DATA_OTPBOOT_DST0_RESET  "-"
+#define OTP_DATA_OTPBOOT_DST0_WIDTH  _u(16)
+#define OTP_DATA_OTPBOOT_DST0_MSB    _u(15)
+#define OTP_DATA_OTPBOOT_DST0_LSB    _u(0)
+#define OTP_DATA_OTPBOOT_DST0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_OTPBOOT_DST1
+// Description : Bits 31:16 of the OTP boot image load destination (and entry
+//               point). (ECC)
+//
+//               This must be a location in main SRAM (main SRAM is addresses
+//               0x20000000 through 0x20082000) and must be word-aligned.
+#define OTP_DATA_OTPBOOT_DST1_ROW _u(0x00000061)
+#define OTP_DATA_OTPBOOT_DST1_BITS   _u(0x0000ffff)
+#define OTP_DATA_OTPBOOT_DST1_RESET  "-"
+#define OTP_DATA_OTPBOOT_DST1_WIDTH  _u(16)
+#define OTP_DATA_OTPBOOT_DST1_MSB    _u(15)
+#define OTP_DATA_OTPBOOT_DST1_LSB    _u(0)
+#define OTP_DATA_OTPBOOT_DST1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_0
+// Description : Bits 15:0 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_0_ROW _u(0x00000080)
+#define OTP_DATA_BOOTKEY0_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_0_RESET  "-"
+#define OTP_DATA_BOOTKEY0_0_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_0_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_0_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_1
+// Description : Bits 31:16 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_1_ROW _u(0x00000081)
+#define OTP_DATA_BOOTKEY0_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_1_RESET  "-"
+#define OTP_DATA_BOOTKEY0_1_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_1_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_1_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_2
+// Description : Bits 47:32 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_2_ROW _u(0x00000082)
+#define OTP_DATA_BOOTKEY0_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_2_RESET  "-"
+#define OTP_DATA_BOOTKEY0_2_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_2_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_2_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_3
+// Description : Bits 63:48 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_3_ROW _u(0x00000083)
+#define OTP_DATA_BOOTKEY0_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_3_RESET  "-"
+#define OTP_DATA_BOOTKEY0_3_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_3_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_3_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_4
+// Description : Bits 79:64 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_4_ROW _u(0x00000084)
+#define OTP_DATA_BOOTKEY0_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_4_RESET  "-"
+#define OTP_DATA_BOOTKEY0_4_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_4_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_4_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_5
+// Description : Bits 95:80 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_5_ROW _u(0x00000085)
+#define OTP_DATA_BOOTKEY0_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_5_RESET  "-"
+#define OTP_DATA_BOOTKEY0_5_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_5_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_5_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_6
+// Description : Bits 111:96 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_6_ROW _u(0x00000086)
+#define OTP_DATA_BOOTKEY0_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_6_RESET  "-"
+#define OTP_DATA_BOOTKEY0_6_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_6_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_6_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_7
+// Description : Bits 127:112 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_7_ROW _u(0x00000087)
+#define OTP_DATA_BOOTKEY0_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_7_RESET  "-"
+#define OTP_DATA_BOOTKEY0_7_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_7_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_7_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_8
+// Description : Bits 143:128 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_8_ROW _u(0x00000088)
+#define OTP_DATA_BOOTKEY0_8_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_8_RESET  "-"
+#define OTP_DATA_BOOTKEY0_8_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_8_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_8_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_8_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_9
+// Description : Bits 159:144 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_9_ROW _u(0x00000089)
+#define OTP_DATA_BOOTKEY0_9_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_9_RESET  "-"
+#define OTP_DATA_BOOTKEY0_9_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_9_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_9_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_9_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_10
+// Description : Bits 175:160 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_10_ROW _u(0x0000008a)
+#define OTP_DATA_BOOTKEY0_10_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_10_RESET  "-"
+#define OTP_DATA_BOOTKEY0_10_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_10_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_10_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_10_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_11
+// Description : Bits 191:176 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_11_ROW _u(0x0000008b)
+#define OTP_DATA_BOOTKEY0_11_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_11_RESET  "-"
+#define OTP_DATA_BOOTKEY0_11_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_11_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_11_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_11_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_12
+// Description : Bits 207:192 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_12_ROW _u(0x0000008c)
+#define OTP_DATA_BOOTKEY0_12_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_12_RESET  "-"
+#define OTP_DATA_BOOTKEY0_12_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_12_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_12_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_12_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_13
+// Description : Bits 223:208 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_13_ROW _u(0x0000008d)
+#define OTP_DATA_BOOTKEY0_13_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_13_RESET  "-"
+#define OTP_DATA_BOOTKEY0_13_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_13_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_13_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_13_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_14
+// Description : Bits 239:224 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_14_ROW _u(0x0000008e)
+#define OTP_DATA_BOOTKEY0_14_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_14_RESET  "-"
+#define OTP_DATA_BOOTKEY0_14_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_14_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_14_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_14_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY0_15
+// Description : Bits 255:240 of SHA-256 hash of boot key 0 (ECC)
+#define OTP_DATA_BOOTKEY0_15_ROW _u(0x0000008f)
+#define OTP_DATA_BOOTKEY0_15_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY0_15_RESET  "-"
+#define OTP_DATA_BOOTKEY0_15_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY0_15_MSB    _u(15)
+#define OTP_DATA_BOOTKEY0_15_LSB    _u(0)
+#define OTP_DATA_BOOTKEY0_15_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_0
+// Description : Bits 15:0 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_0_ROW _u(0x00000090)
+#define OTP_DATA_BOOTKEY1_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_0_RESET  "-"
+#define OTP_DATA_BOOTKEY1_0_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_0_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_0_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_1
+// Description : Bits 31:16 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_1_ROW _u(0x00000091)
+#define OTP_DATA_BOOTKEY1_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_1_RESET  "-"
+#define OTP_DATA_BOOTKEY1_1_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_1_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_1_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_2
+// Description : Bits 47:32 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_2_ROW _u(0x00000092)
+#define OTP_DATA_BOOTKEY1_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_2_RESET  "-"
+#define OTP_DATA_BOOTKEY1_2_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_2_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_2_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_3
+// Description : Bits 63:48 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_3_ROW _u(0x00000093)
+#define OTP_DATA_BOOTKEY1_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_3_RESET  "-"
+#define OTP_DATA_BOOTKEY1_3_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_3_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_3_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_4
+// Description : Bits 79:64 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_4_ROW _u(0x00000094)
+#define OTP_DATA_BOOTKEY1_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_4_RESET  "-"
+#define OTP_DATA_BOOTKEY1_4_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_4_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_4_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_5
+// Description : Bits 95:80 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_5_ROW _u(0x00000095)
+#define OTP_DATA_BOOTKEY1_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_5_RESET  "-"
+#define OTP_DATA_BOOTKEY1_5_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_5_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_5_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_6
+// Description : Bits 111:96 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_6_ROW _u(0x00000096)
+#define OTP_DATA_BOOTKEY1_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_6_RESET  "-"
+#define OTP_DATA_BOOTKEY1_6_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_6_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_6_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_7
+// Description : Bits 127:112 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_7_ROW _u(0x00000097)
+#define OTP_DATA_BOOTKEY1_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_7_RESET  "-"
+#define OTP_DATA_BOOTKEY1_7_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_7_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_7_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_8
+// Description : Bits 143:128 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_8_ROW _u(0x00000098)
+#define OTP_DATA_BOOTKEY1_8_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_8_RESET  "-"
+#define OTP_DATA_BOOTKEY1_8_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_8_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_8_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_8_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_9
+// Description : Bits 159:144 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_9_ROW _u(0x00000099)
+#define OTP_DATA_BOOTKEY1_9_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_9_RESET  "-"
+#define OTP_DATA_BOOTKEY1_9_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_9_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_9_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_9_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_10
+// Description : Bits 175:160 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_10_ROW _u(0x0000009a)
+#define OTP_DATA_BOOTKEY1_10_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_10_RESET  "-"
+#define OTP_DATA_BOOTKEY1_10_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_10_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_10_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_10_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_11
+// Description : Bits 191:176 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_11_ROW _u(0x0000009b)
+#define OTP_DATA_BOOTKEY1_11_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_11_RESET  "-"
+#define OTP_DATA_BOOTKEY1_11_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_11_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_11_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_11_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_12
+// Description : Bits 207:192 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_12_ROW _u(0x0000009c)
+#define OTP_DATA_BOOTKEY1_12_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_12_RESET  "-"
+#define OTP_DATA_BOOTKEY1_12_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_12_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_12_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_12_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_13
+// Description : Bits 223:208 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_13_ROW _u(0x0000009d)
+#define OTP_DATA_BOOTKEY1_13_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_13_RESET  "-"
+#define OTP_DATA_BOOTKEY1_13_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_13_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_13_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_13_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_14
+// Description : Bits 239:224 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_14_ROW _u(0x0000009e)
+#define OTP_DATA_BOOTKEY1_14_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_14_RESET  "-"
+#define OTP_DATA_BOOTKEY1_14_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_14_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_14_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_14_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY1_15
+// Description : Bits 255:240 of SHA-256 hash of boot key 1 (ECC)
+#define OTP_DATA_BOOTKEY1_15_ROW _u(0x0000009f)
+#define OTP_DATA_BOOTKEY1_15_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY1_15_RESET  "-"
+#define OTP_DATA_BOOTKEY1_15_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY1_15_MSB    _u(15)
+#define OTP_DATA_BOOTKEY1_15_LSB    _u(0)
+#define OTP_DATA_BOOTKEY1_15_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_0
+// Description : Bits 15:0 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_0_ROW _u(0x000000a0)
+#define OTP_DATA_BOOTKEY2_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_0_RESET  "-"
+#define OTP_DATA_BOOTKEY2_0_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_0_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_0_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_1
+// Description : Bits 31:16 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_1_ROW _u(0x000000a1)
+#define OTP_DATA_BOOTKEY2_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_1_RESET  "-"
+#define OTP_DATA_BOOTKEY2_1_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_1_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_1_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_2
+// Description : Bits 47:32 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_2_ROW _u(0x000000a2)
+#define OTP_DATA_BOOTKEY2_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_2_RESET  "-"
+#define OTP_DATA_BOOTKEY2_2_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_2_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_2_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_3
+// Description : Bits 63:48 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_3_ROW _u(0x000000a3)
+#define OTP_DATA_BOOTKEY2_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_3_RESET  "-"
+#define OTP_DATA_BOOTKEY2_3_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_3_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_3_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_4
+// Description : Bits 79:64 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_4_ROW _u(0x000000a4)
+#define OTP_DATA_BOOTKEY2_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_4_RESET  "-"
+#define OTP_DATA_BOOTKEY2_4_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_4_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_4_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_5
+// Description : Bits 95:80 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_5_ROW _u(0x000000a5)
+#define OTP_DATA_BOOTKEY2_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_5_RESET  "-"
+#define OTP_DATA_BOOTKEY2_5_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_5_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_5_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_6
+// Description : Bits 111:96 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_6_ROW _u(0x000000a6)
+#define OTP_DATA_BOOTKEY2_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_6_RESET  "-"
+#define OTP_DATA_BOOTKEY2_6_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_6_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_6_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_7
+// Description : Bits 127:112 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_7_ROW _u(0x000000a7)
+#define OTP_DATA_BOOTKEY2_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_7_RESET  "-"
+#define OTP_DATA_BOOTKEY2_7_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_7_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_7_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_8
+// Description : Bits 143:128 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_8_ROW _u(0x000000a8)
+#define OTP_DATA_BOOTKEY2_8_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_8_RESET  "-"
+#define OTP_DATA_BOOTKEY2_8_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_8_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_8_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_8_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_9
+// Description : Bits 159:144 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_9_ROW _u(0x000000a9)
+#define OTP_DATA_BOOTKEY2_9_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_9_RESET  "-"
+#define OTP_DATA_BOOTKEY2_9_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_9_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_9_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_9_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_10
+// Description : Bits 175:160 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_10_ROW _u(0x000000aa)
+#define OTP_DATA_BOOTKEY2_10_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_10_RESET  "-"
+#define OTP_DATA_BOOTKEY2_10_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_10_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_10_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_10_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_11
+// Description : Bits 191:176 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_11_ROW _u(0x000000ab)
+#define OTP_DATA_BOOTKEY2_11_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_11_RESET  "-"
+#define OTP_DATA_BOOTKEY2_11_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_11_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_11_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_11_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_12
+// Description : Bits 207:192 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_12_ROW _u(0x000000ac)
+#define OTP_DATA_BOOTKEY2_12_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_12_RESET  "-"
+#define OTP_DATA_BOOTKEY2_12_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_12_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_12_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_12_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_13
+// Description : Bits 223:208 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_13_ROW _u(0x000000ad)
+#define OTP_DATA_BOOTKEY2_13_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_13_RESET  "-"
+#define OTP_DATA_BOOTKEY2_13_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_13_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_13_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_13_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_14
+// Description : Bits 239:224 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_14_ROW _u(0x000000ae)
+#define OTP_DATA_BOOTKEY2_14_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_14_RESET  "-"
+#define OTP_DATA_BOOTKEY2_14_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_14_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_14_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_14_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY2_15
+// Description : Bits 255:240 of SHA-256 hash of boot key 2 (ECC)
+#define OTP_DATA_BOOTKEY2_15_ROW _u(0x000000af)
+#define OTP_DATA_BOOTKEY2_15_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY2_15_RESET  "-"
+#define OTP_DATA_BOOTKEY2_15_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY2_15_MSB    _u(15)
+#define OTP_DATA_BOOTKEY2_15_LSB    _u(0)
+#define OTP_DATA_BOOTKEY2_15_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_0
+// Description : Bits 15:0 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_0_ROW _u(0x000000b0)
+#define OTP_DATA_BOOTKEY3_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_0_RESET  "-"
+#define OTP_DATA_BOOTKEY3_0_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_0_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_0_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_1
+// Description : Bits 31:16 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_1_ROW _u(0x000000b1)
+#define OTP_DATA_BOOTKEY3_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_1_RESET  "-"
+#define OTP_DATA_BOOTKEY3_1_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_1_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_1_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_2
+// Description : Bits 47:32 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_2_ROW _u(0x000000b2)
+#define OTP_DATA_BOOTKEY3_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_2_RESET  "-"
+#define OTP_DATA_BOOTKEY3_2_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_2_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_2_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_3
+// Description : Bits 63:48 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_3_ROW _u(0x000000b3)
+#define OTP_DATA_BOOTKEY3_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_3_RESET  "-"
+#define OTP_DATA_BOOTKEY3_3_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_3_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_3_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_4
+// Description : Bits 79:64 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_4_ROW _u(0x000000b4)
+#define OTP_DATA_BOOTKEY3_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_4_RESET  "-"
+#define OTP_DATA_BOOTKEY3_4_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_4_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_4_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_5
+// Description : Bits 95:80 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_5_ROW _u(0x000000b5)
+#define OTP_DATA_BOOTKEY3_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_5_RESET  "-"
+#define OTP_DATA_BOOTKEY3_5_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_5_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_5_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_6
+// Description : Bits 111:96 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_6_ROW _u(0x000000b6)
+#define OTP_DATA_BOOTKEY3_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_6_RESET  "-"
+#define OTP_DATA_BOOTKEY3_6_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_6_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_6_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_7
+// Description : Bits 127:112 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_7_ROW _u(0x000000b7)
+#define OTP_DATA_BOOTKEY3_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_7_RESET  "-"
+#define OTP_DATA_BOOTKEY3_7_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_7_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_7_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_8
+// Description : Bits 143:128 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_8_ROW _u(0x000000b8)
+#define OTP_DATA_BOOTKEY3_8_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_8_RESET  "-"
+#define OTP_DATA_BOOTKEY3_8_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_8_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_8_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_8_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_9
+// Description : Bits 159:144 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_9_ROW _u(0x000000b9)
+#define OTP_DATA_BOOTKEY3_9_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_9_RESET  "-"
+#define OTP_DATA_BOOTKEY3_9_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_9_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_9_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_9_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_10
+// Description : Bits 175:160 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_10_ROW _u(0x000000ba)
+#define OTP_DATA_BOOTKEY3_10_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_10_RESET  "-"
+#define OTP_DATA_BOOTKEY3_10_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_10_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_10_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_10_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_11
+// Description : Bits 191:176 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_11_ROW _u(0x000000bb)
+#define OTP_DATA_BOOTKEY3_11_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_11_RESET  "-"
+#define OTP_DATA_BOOTKEY3_11_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_11_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_11_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_11_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_12
+// Description : Bits 207:192 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_12_ROW _u(0x000000bc)
+#define OTP_DATA_BOOTKEY3_12_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_12_RESET  "-"
+#define OTP_DATA_BOOTKEY3_12_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_12_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_12_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_12_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_13
+// Description : Bits 223:208 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_13_ROW _u(0x000000bd)
+#define OTP_DATA_BOOTKEY3_13_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_13_RESET  "-"
+#define OTP_DATA_BOOTKEY3_13_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_13_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_13_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_13_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_14
+// Description : Bits 239:224 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_14_ROW _u(0x000000be)
+#define OTP_DATA_BOOTKEY3_14_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_14_RESET  "-"
+#define OTP_DATA_BOOTKEY3_14_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_14_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_14_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_14_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_BOOTKEY3_15
+// Description : Bits 255:240 of SHA-256 hash of boot key 3 (ECC)
+#define OTP_DATA_BOOTKEY3_15_ROW _u(0x000000bf)
+#define OTP_DATA_BOOTKEY3_15_BITS   _u(0x0000ffff)
+#define OTP_DATA_BOOTKEY3_15_RESET  "-"
+#define OTP_DATA_BOOTKEY3_15_WIDTH  _u(16)
+#define OTP_DATA_BOOTKEY3_15_MSB    _u(15)
+#define OTP_DATA_BOOTKEY3_15_LSB    _u(0)
+#define OTP_DATA_BOOTKEY3_15_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_0
+// Description : Bits 15:0 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_0_ROW _u(0x00000f48)
+#define OTP_DATA_KEY1_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_0_RESET  "-"
+#define OTP_DATA_KEY1_0_WIDTH  _u(16)
+#define OTP_DATA_KEY1_0_MSB    _u(15)
+#define OTP_DATA_KEY1_0_LSB    _u(0)
+#define OTP_DATA_KEY1_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_1
+// Description : Bits 31:16 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_1_ROW _u(0x00000f49)
+#define OTP_DATA_KEY1_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_1_RESET  "-"
+#define OTP_DATA_KEY1_1_WIDTH  _u(16)
+#define OTP_DATA_KEY1_1_MSB    _u(15)
+#define OTP_DATA_KEY1_1_LSB    _u(0)
+#define OTP_DATA_KEY1_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_2
+// Description : Bits 47:32 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_2_ROW _u(0x00000f4a)
+#define OTP_DATA_KEY1_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_2_RESET  "-"
+#define OTP_DATA_KEY1_2_WIDTH  _u(16)
+#define OTP_DATA_KEY1_2_MSB    _u(15)
+#define OTP_DATA_KEY1_2_LSB    _u(0)
+#define OTP_DATA_KEY1_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_3
+// Description : Bits 63:48 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_3_ROW _u(0x00000f4b)
+#define OTP_DATA_KEY1_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_3_RESET  "-"
+#define OTP_DATA_KEY1_3_WIDTH  _u(16)
+#define OTP_DATA_KEY1_3_MSB    _u(15)
+#define OTP_DATA_KEY1_3_LSB    _u(0)
+#define OTP_DATA_KEY1_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_4
+// Description : Bits 79:64 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_4_ROW _u(0x00000f4c)
+#define OTP_DATA_KEY1_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_4_RESET  "-"
+#define OTP_DATA_KEY1_4_WIDTH  _u(16)
+#define OTP_DATA_KEY1_4_MSB    _u(15)
+#define OTP_DATA_KEY1_4_LSB    _u(0)
+#define OTP_DATA_KEY1_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_5
+// Description : Bits 95:80 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_5_ROW _u(0x00000f4d)
+#define OTP_DATA_KEY1_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_5_RESET  "-"
+#define OTP_DATA_KEY1_5_WIDTH  _u(16)
+#define OTP_DATA_KEY1_5_MSB    _u(15)
+#define OTP_DATA_KEY1_5_LSB    _u(0)
+#define OTP_DATA_KEY1_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_6
+// Description : Bits 111:96 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_6_ROW _u(0x00000f4e)
+#define OTP_DATA_KEY1_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_6_RESET  "-"
+#define OTP_DATA_KEY1_6_WIDTH  _u(16)
+#define OTP_DATA_KEY1_6_MSB    _u(15)
+#define OTP_DATA_KEY1_6_LSB    _u(0)
+#define OTP_DATA_KEY1_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_7
+// Description : Bits 127:112 of OTP access key 1 (ECC)
+#define OTP_DATA_KEY1_7_ROW _u(0x00000f4f)
+#define OTP_DATA_KEY1_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY1_7_RESET  "-"
+#define OTP_DATA_KEY1_7_WIDTH  _u(16)
+#define OTP_DATA_KEY1_7_MSB    _u(15)
+#define OTP_DATA_KEY1_7_LSB    _u(0)
+#define OTP_DATA_KEY1_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_0
+// Description : Bits 15:0 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_0_ROW _u(0x00000f50)
+#define OTP_DATA_KEY2_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_0_RESET  "-"
+#define OTP_DATA_KEY2_0_WIDTH  _u(16)
+#define OTP_DATA_KEY2_0_MSB    _u(15)
+#define OTP_DATA_KEY2_0_LSB    _u(0)
+#define OTP_DATA_KEY2_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_1
+// Description : Bits 31:16 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_1_ROW _u(0x00000f51)
+#define OTP_DATA_KEY2_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_1_RESET  "-"
+#define OTP_DATA_KEY2_1_WIDTH  _u(16)
+#define OTP_DATA_KEY2_1_MSB    _u(15)
+#define OTP_DATA_KEY2_1_LSB    _u(0)
+#define OTP_DATA_KEY2_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_2
+// Description : Bits 47:32 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_2_ROW _u(0x00000f52)
+#define OTP_DATA_KEY2_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_2_RESET  "-"
+#define OTP_DATA_KEY2_2_WIDTH  _u(16)
+#define OTP_DATA_KEY2_2_MSB    _u(15)
+#define OTP_DATA_KEY2_2_LSB    _u(0)
+#define OTP_DATA_KEY2_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_3
+// Description : Bits 63:48 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_3_ROW _u(0x00000f53)
+#define OTP_DATA_KEY2_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_3_RESET  "-"
+#define OTP_DATA_KEY2_3_WIDTH  _u(16)
+#define OTP_DATA_KEY2_3_MSB    _u(15)
+#define OTP_DATA_KEY2_3_LSB    _u(0)
+#define OTP_DATA_KEY2_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_4
+// Description : Bits 79:64 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_4_ROW _u(0x00000f54)
+#define OTP_DATA_KEY2_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_4_RESET  "-"
+#define OTP_DATA_KEY2_4_WIDTH  _u(16)
+#define OTP_DATA_KEY2_4_MSB    _u(15)
+#define OTP_DATA_KEY2_4_LSB    _u(0)
+#define OTP_DATA_KEY2_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_5
+// Description : Bits 95:80 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_5_ROW _u(0x00000f55)
+#define OTP_DATA_KEY2_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_5_RESET  "-"
+#define OTP_DATA_KEY2_5_WIDTH  _u(16)
+#define OTP_DATA_KEY2_5_MSB    _u(15)
+#define OTP_DATA_KEY2_5_LSB    _u(0)
+#define OTP_DATA_KEY2_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_6
+// Description : Bits 111:96 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_6_ROW _u(0x00000f56)
+#define OTP_DATA_KEY2_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_6_RESET  "-"
+#define OTP_DATA_KEY2_6_WIDTH  _u(16)
+#define OTP_DATA_KEY2_6_MSB    _u(15)
+#define OTP_DATA_KEY2_6_LSB    _u(0)
+#define OTP_DATA_KEY2_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_7
+// Description : Bits 127:112 of OTP access key 2 (ECC)
+#define OTP_DATA_KEY2_7_ROW _u(0x00000f57)
+#define OTP_DATA_KEY2_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY2_7_RESET  "-"
+#define OTP_DATA_KEY2_7_WIDTH  _u(16)
+#define OTP_DATA_KEY2_7_MSB    _u(15)
+#define OTP_DATA_KEY2_7_LSB    _u(0)
+#define OTP_DATA_KEY2_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_0
+// Description : Bits 15:0 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_0_ROW _u(0x00000f58)
+#define OTP_DATA_KEY3_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_0_RESET  "-"
+#define OTP_DATA_KEY3_0_WIDTH  _u(16)
+#define OTP_DATA_KEY3_0_MSB    _u(15)
+#define OTP_DATA_KEY3_0_LSB    _u(0)
+#define OTP_DATA_KEY3_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_1
+// Description : Bits 31:16 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_1_ROW _u(0x00000f59)
+#define OTP_DATA_KEY3_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_1_RESET  "-"
+#define OTP_DATA_KEY3_1_WIDTH  _u(16)
+#define OTP_DATA_KEY3_1_MSB    _u(15)
+#define OTP_DATA_KEY3_1_LSB    _u(0)
+#define OTP_DATA_KEY3_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_2
+// Description : Bits 47:32 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_2_ROW _u(0x00000f5a)
+#define OTP_DATA_KEY3_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_2_RESET  "-"
+#define OTP_DATA_KEY3_2_WIDTH  _u(16)
+#define OTP_DATA_KEY3_2_MSB    _u(15)
+#define OTP_DATA_KEY3_2_LSB    _u(0)
+#define OTP_DATA_KEY3_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_3
+// Description : Bits 63:48 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_3_ROW _u(0x00000f5b)
+#define OTP_DATA_KEY3_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_3_RESET  "-"
+#define OTP_DATA_KEY3_3_WIDTH  _u(16)
+#define OTP_DATA_KEY3_3_MSB    _u(15)
+#define OTP_DATA_KEY3_3_LSB    _u(0)
+#define OTP_DATA_KEY3_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_4
+// Description : Bits 79:64 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_4_ROW _u(0x00000f5c)
+#define OTP_DATA_KEY3_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_4_RESET  "-"
+#define OTP_DATA_KEY3_4_WIDTH  _u(16)
+#define OTP_DATA_KEY3_4_MSB    _u(15)
+#define OTP_DATA_KEY3_4_LSB    _u(0)
+#define OTP_DATA_KEY3_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_5
+// Description : Bits 95:80 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_5_ROW _u(0x00000f5d)
+#define OTP_DATA_KEY3_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_5_RESET  "-"
+#define OTP_DATA_KEY3_5_WIDTH  _u(16)
+#define OTP_DATA_KEY3_5_MSB    _u(15)
+#define OTP_DATA_KEY3_5_LSB    _u(0)
+#define OTP_DATA_KEY3_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_6
+// Description : Bits 111:96 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_6_ROW _u(0x00000f5e)
+#define OTP_DATA_KEY3_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_6_RESET  "-"
+#define OTP_DATA_KEY3_6_WIDTH  _u(16)
+#define OTP_DATA_KEY3_6_MSB    _u(15)
+#define OTP_DATA_KEY3_6_LSB    _u(0)
+#define OTP_DATA_KEY3_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_7
+// Description : Bits 127:112 of OTP access key 3 (ECC)
+#define OTP_DATA_KEY3_7_ROW _u(0x00000f5f)
+#define OTP_DATA_KEY3_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY3_7_RESET  "-"
+#define OTP_DATA_KEY3_7_WIDTH  _u(16)
+#define OTP_DATA_KEY3_7_MSB    _u(15)
+#define OTP_DATA_KEY3_7_LSB    _u(0)
+#define OTP_DATA_KEY3_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_0
+// Description : Bits 15:0 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_0_ROW _u(0x00000f60)
+#define OTP_DATA_KEY4_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_0_RESET  "-"
+#define OTP_DATA_KEY4_0_WIDTH  _u(16)
+#define OTP_DATA_KEY4_0_MSB    _u(15)
+#define OTP_DATA_KEY4_0_LSB    _u(0)
+#define OTP_DATA_KEY4_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_1
+// Description : Bits 31:16 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_1_ROW _u(0x00000f61)
+#define OTP_DATA_KEY4_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_1_RESET  "-"
+#define OTP_DATA_KEY4_1_WIDTH  _u(16)
+#define OTP_DATA_KEY4_1_MSB    _u(15)
+#define OTP_DATA_KEY4_1_LSB    _u(0)
+#define OTP_DATA_KEY4_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_2
+// Description : Bits 47:32 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_2_ROW _u(0x00000f62)
+#define OTP_DATA_KEY4_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_2_RESET  "-"
+#define OTP_DATA_KEY4_2_WIDTH  _u(16)
+#define OTP_DATA_KEY4_2_MSB    _u(15)
+#define OTP_DATA_KEY4_2_LSB    _u(0)
+#define OTP_DATA_KEY4_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_3
+// Description : Bits 63:48 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_3_ROW _u(0x00000f63)
+#define OTP_DATA_KEY4_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_3_RESET  "-"
+#define OTP_DATA_KEY4_3_WIDTH  _u(16)
+#define OTP_DATA_KEY4_3_MSB    _u(15)
+#define OTP_DATA_KEY4_3_LSB    _u(0)
+#define OTP_DATA_KEY4_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_4
+// Description : Bits 79:64 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_4_ROW _u(0x00000f64)
+#define OTP_DATA_KEY4_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_4_RESET  "-"
+#define OTP_DATA_KEY4_4_WIDTH  _u(16)
+#define OTP_DATA_KEY4_4_MSB    _u(15)
+#define OTP_DATA_KEY4_4_LSB    _u(0)
+#define OTP_DATA_KEY4_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_5
+// Description : Bits 95:80 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_5_ROW _u(0x00000f65)
+#define OTP_DATA_KEY4_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_5_RESET  "-"
+#define OTP_DATA_KEY4_5_WIDTH  _u(16)
+#define OTP_DATA_KEY4_5_MSB    _u(15)
+#define OTP_DATA_KEY4_5_LSB    _u(0)
+#define OTP_DATA_KEY4_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_6
+// Description : Bits 111:96 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_6_ROW _u(0x00000f66)
+#define OTP_DATA_KEY4_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_6_RESET  "-"
+#define OTP_DATA_KEY4_6_WIDTH  _u(16)
+#define OTP_DATA_KEY4_6_MSB    _u(15)
+#define OTP_DATA_KEY4_6_LSB    _u(0)
+#define OTP_DATA_KEY4_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_7
+// Description : Bits 127:112 of OTP access key 4 (ECC)
+#define OTP_DATA_KEY4_7_ROW _u(0x00000f67)
+#define OTP_DATA_KEY4_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY4_7_RESET  "-"
+#define OTP_DATA_KEY4_7_WIDTH  _u(16)
+#define OTP_DATA_KEY4_7_MSB    _u(15)
+#define OTP_DATA_KEY4_7_LSB    _u(0)
+#define OTP_DATA_KEY4_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_0
+// Description : Bits 15:0 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_0_ROW _u(0x00000f68)
+#define OTP_DATA_KEY5_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_0_RESET  "-"
+#define OTP_DATA_KEY5_0_WIDTH  _u(16)
+#define OTP_DATA_KEY5_0_MSB    _u(15)
+#define OTP_DATA_KEY5_0_LSB    _u(0)
+#define OTP_DATA_KEY5_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_1
+// Description : Bits 31:16 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_1_ROW _u(0x00000f69)
+#define OTP_DATA_KEY5_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_1_RESET  "-"
+#define OTP_DATA_KEY5_1_WIDTH  _u(16)
+#define OTP_DATA_KEY5_1_MSB    _u(15)
+#define OTP_DATA_KEY5_1_LSB    _u(0)
+#define OTP_DATA_KEY5_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_2
+// Description : Bits 47:32 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_2_ROW _u(0x00000f6a)
+#define OTP_DATA_KEY5_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_2_RESET  "-"
+#define OTP_DATA_KEY5_2_WIDTH  _u(16)
+#define OTP_DATA_KEY5_2_MSB    _u(15)
+#define OTP_DATA_KEY5_2_LSB    _u(0)
+#define OTP_DATA_KEY5_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_3
+// Description : Bits 63:48 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_3_ROW _u(0x00000f6b)
+#define OTP_DATA_KEY5_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_3_RESET  "-"
+#define OTP_DATA_KEY5_3_WIDTH  _u(16)
+#define OTP_DATA_KEY5_3_MSB    _u(15)
+#define OTP_DATA_KEY5_3_LSB    _u(0)
+#define OTP_DATA_KEY5_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_4
+// Description : Bits 79:64 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_4_ROW _u(0x00000f6c)
+#define OTP_DATA_KEY5_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_4_RESET  "-"
+#define OTP_DATA_KEY5_4_WIDTH  _u(16)
+#define OTP_DATA_KEY5_4_MSB    _u(15)
+#define OTP_DATA_KEY5_4_LSB    _u(0)
+#define OTP_DATA_KEY5_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_5
+// Description : Bits 95:80 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_5_ROW _u(0x00000f6d)
+#define OTP_DATA_KEY5_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_5_RESET  "-"
+#define OTP_DATA_KEY5_5_WIDTH  _u(16)
+#define OTP_DATA_KEY5_5_MSB    _u(15)
+#define OTP_DATA_KEY5_5_LSB    _u(0)
+#define OTP_DATA_KEY5_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_6
+// Description : Bits 111:96 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_6_ROW _u(0x00000f6e)
+#define OTP_DATA_KEY5_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_6_RESET  "-"
+#define OTP_DATA_KEY5_6_WIDTH  _u(16)
+#define OTP_DATA_KEY5_6_MSB    _u(15)
+#define OTP_DATA_KEY5_6_LSB    _u(0)
+#define OTP_DATA_KEY5_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_7
+// Description : Bits 127:112 of OTP access key 5 (ECC)
+#define OTP_DATA_KEY5_7_ROW _u(0x00000f6f)
+#define OTP_DATA_KEY5_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY5_7_RESET  "-"
+#define OTP_DATA_KEY5_7_WIDTH  _u(16)
+#define OTP_DATA_KEY5_7_MSB    _u(15)
+#define OTP_DATA_KEY5_7_LSB    _u(0)
+#define OTP_DATA_KEY5_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_0
+// Description : Bits 15:0 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_0_ROW _u(0x00000f70)
+#define OTP_DATA_KEY6_0_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_0_RESET  "-"
+#define OTP_DATA_KEY6_0_WIDTH  _u(16)
+#define OTP_DATA_KEY6_0_MSB    _u(15)
+#define OTP_DATA_KEY6_0_LSB    _u(0)
+#define OTP_DATA_KEY6_0_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_1
+// Description : Bits 31:16 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_1_ROW _u(0x00000f71)
+#define OTP_DATA_KEY6_1_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_1_RESET  "-"
+#define OTP_DATA_KEY6_1_WIDTH  _u(16)
+#define OTP_DATA_KEY6_1_MSB    _u(15)
+#define OTP_DATA_KEY6_1_LSB    _u(0)
+#define OTP_DATA_KEY6_1_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_2
+// Description : Bits 47:32 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_2_ROW _u(0x00000f72)
+#define OTP_DATA_KEY6_2_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_2_RESET  "-"
+#define OTP_DATA_KEY6_2_WIDTH  _u(16)
+#define OTP_DATA_KEY6_2_MSB    _u(15)
+#define OTP_DATA_KEY6_2_LSB    _u(0)
+#define OTP_DATA_KEY6_2_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_3
+// Description : Bits 63:48 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_3_ROW _u(0x00000f73)
+#define OTP_DATA_KEY6_3_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_3_RESET  "-"
+#define OTP_DATA_KEY6_3_WIDTH  _u(16)
+#define OTP_DATA_KEY6_3_MSB    _u(15)
+#define OTP_DATA_KEY6_3_LSB    _u(0)
+#define OTP_DATA_KEY6_3_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_4
+// Description : Bits 79:64 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_4_ROW _u(0x00000f74)
+#define OTP_DATA_KEY6_4_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_4_RESET  "-"
+#define OTP_DATA_KEY6_4_WIDTH  _u(16)
+#define OTP_DATA_KEY6_4_MSB    _u(15)
+#define OTP_DATA_KEY6_4_LSB    _u(0)
+#define OTP_DATA_KEY6_4_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_5
+// Description : Bits 95:80 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_5_ROW _u(0x00000f75)
+#define OTP_DATA_KEY6_5_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_5_RESET  "-"
+#define OTP_DATA_KEY6_5_WIDTH  _u(16)
+#define OTP_DATA_KEY6_5_MSB    _u(15)
+#define OTP_DATA_KEY6_5_LSB    _u(0)
+#define OTP_DATA_KEY6_5_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_6
+// Description : Bits 111:96 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_6_ROW _u(0x00000f76)
+#define OTP_DATA_KEY6_6_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_6_RESET  "-"
+#define OTP_DATA_KEY6_6_WIDTH  _u(16)
+#define OTP_DATA_KEY6_6_MSB    _u(15)
+#define OTP_DATA_KEY6_6_LSB    _u(0)
+#define OTP_DATA_KEY6_6_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_7
+// Description : Bits 127:112 of OTP access key 6 (ECC)
+#define OTP_DATA_KEY6_7_ROW _u(0x00000f77)
+#define OTP_DATA_KEY6_7_BITS   _u(0x0000ffff)
+#define OTP_DATA_KEY6_7_RESET  "-"
+#define OTP_DATA_KEY6_7_WIDTH  _u(16)
+#define OTP_DATA_KEY6_7_MSB    _u(15)
+#define OTP_DATA_KEY6_7_LSB    _u(0)
+#define OTP_DATA_KEY6_7_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY1_VALID
+// Description : Valid flag for key 1. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY1_VALID_ROW _u(0x00000f79)
+#define OTP_DATA_KEY1_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY1_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY1_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY1_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY1_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY1_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY1_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY1_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY1_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY1_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY1_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY1_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY1_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY1_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY1_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY1_VALID_VALID
+#define OTP_DATA_KEY1_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY1_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY1_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY1_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY1_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY2_VALID
+// Description : Valid flag for key 2. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY2_VALID_ROW _u(0x00000f7a)
+#define OTP_DATA_KEY2_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY2_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY2_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY2_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY2_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY2_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY2_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY2_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY2_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY2_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY2_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY2_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY2_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY2_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY2_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY2_VALID_VALID
+#define OTP_DATA_KEY2_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY2_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY2_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY2_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY2_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY3_VALID
+// Description : Valid flag for key 3. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY3_VALID_ROW _u(0x00000f7b)
+#define OTP_DATA_KEY3_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY3_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY3_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY3_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY3_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY3_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY3_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY3_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY3_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY3_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY3_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY3_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY3_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY3_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY3_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY3_VALID_VALID
+#define OTP_DATA_KEY3_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY3_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY3_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY3_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY3_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY4_VALID
+// Description : Valid flag for key 4. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY4_VALID_ROW _u(0x00000f7c)
+#define OTP_DATA_KEY4_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY4_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY4_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY4_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY4_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY4_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY4_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY4_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY4_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY4_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY4_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY4_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY4_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY4_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY4_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY4_VALID_VALID
+#define OTP_DATA_KEY4_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY4_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY4_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY4_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY4_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY5_VALID
+// Description : Valid flag for key 5. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY5_VALID_ROW _u(0x00000f7d)
+#define OTP_DATA_KEY5_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY5_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY5_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY5_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY5_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY5_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY5_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY5_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY5_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY5_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY5_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY5_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY5_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY5_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY5_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY5_VALID_VALID
+#define OTP_DATA_KEY5_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY5_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY5_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY5_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY5_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_KEY6_VALID
+// Description : Valid flag for key 6. Once the valid flag is set, the key can
+//               no longer be read or written, and becomes a valid fixed key for
+//               protecting OTP pages.
+#define OTP_DATA_KEY6_VALID_ROW _u(0x00000f7e)
+#define OTP_DATA_KEY6_VALID_BITS   _u(0x00010101)
+#define OTP_DATA_KEY6_VALID_RESET  _u(0x00000000)
+#define OTP_DATA_KEY6_VALID_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY6_VALID_VALID_R2
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY6_VALID_VALID_R2_RESET  "-"
+#define OTP_DATA_KEY6_VALID_VALID_R2_BITS   _u(0x00010000)
+#define OTP_DATA_KEY6_VALID_VALID_R2_MSB    _u(16)
+#define OTP_DATA_KEY6_VALID_VALID_R2_LSB    _u(16)
+#define OTP_DATA_KEY6_VALID_VALID_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY6_VALID_VALID_R1
+// Description : Redundant copy of VALID, with 3-way majority vote
+#define OTP_DATA_KEY6_VALID_VALID_R1_RESET  "-"
+#define OTP_DATA_KEY6_VALID_VALID_R1_BITS   _u(0x00000100)
+#define OTP_DATA_KEY6_VALID_VALID_R1_MSB    _u(8)
+#define OTP_DATA_KEY6_VALID_VALID_R1_LSB    _u(8)
+#define OTP_DATA_KEY6_VALID_VALID_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_KEY6_VALID_VALID
+#define OTP_DATA_KEY6_VALID_VALID_RESET  "-"
+#define OTP_DATA_KEY6_VALID_VALID_BITS   _u(0x00000001)
+#define OTP_DATA_KEY6_VALID_VALID_MSB    _u(0)
+#define OTP_DATA_KEY6_VALID_VALID_LSB    _u(0)
+#define OTP_DATA_KEY6_VALID_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE0_LOCK0
+// Description : Lock configuration LSBs for page 0 (rows 0x0 through 0x3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE0_LOCK0_ROW _u(0x00000f80)
+#define OTP_DATA_PAGE0_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE0_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE0_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE0_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE0_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE0_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE0_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE0_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE0_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE0_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE0_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE0_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE0_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE0_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE0_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE0_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE0_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE0_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE0_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE0_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE0_LOCK1
+// Description : Lock configuration MSBs for page 0 (rows 0x0 through 0x3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE0_LOCK1_ROW _u(0x00000f81)
+#define OTP_DATA_PAGE0_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE0_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE0_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE0_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE0_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE0_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE0_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE0_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE0_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE0_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE0_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE0_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE0_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE1_LOCK0
+// Description : Lock configuration LSBs for page 1 (rows 0x40 through 0x7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE1_LOCK0_ROW _u(0x00000f82)
+#define OTP_DATA_PAGE1_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE1_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE1_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE1_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE1_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE1_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE1_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE1_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE1_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE1_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE1_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE1_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE1_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE1_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE1_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE1_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE1_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE1_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE1_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE1_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE1_LOCK1
+// Description : Lock configuration MSBs for page 1 (rows 0x40 through 0x7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE1_LOCK1_ROW _u(0x00000f83)
+#define OTP_DATA_PAGE1_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE1_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE1_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE1_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE1_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE1_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE1_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE1_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE1_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE1_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE1_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE1_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE1_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE2_LOCK0
+// Description : Lock configuration LSBs for page 2 (rows 0x80 through 0xbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE2_LOCK0_ROW _u(0x00000f84)
+#define OTP_DATA_PAGE2_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE2_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE2_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE2_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE2_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE2_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE2_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE2_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE2_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE2_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE2_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE2_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE2_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE2_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE2_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE2_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE2_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE2_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE2_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE2_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE2_LOCK1
+// Description : Lock configuration MSBs for page 2 (rows 0x80 through 0xbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE2_LOCK1_ROW _u(0x00000f85)
+#define OTP_DATA_PAGE2_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE2_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE2_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE2_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE2_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE2_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE2_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE2_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE2_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE2_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE2_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE2_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE2_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE3_LOCK0
+// Description : Lock configuration LSBs for page 3 (rows 0xc0 through 0xff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE3_LOCK0_ROW _u(0x00000f86)
+#define OTP_DATA_PAGE3_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE3_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE3_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE3_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE3_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE3_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE3_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE3_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE3_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE3_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE3_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE3_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE3_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE3_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE3_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE3_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE3_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE3_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE3_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE3_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE3_LOCK1
+// Description : Lock configuration MSBs for page 3 (rows 0xc0 through 0xff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE3_LOCK1_ROW _u(0x00000f87)
+#define OTP_DATA_PAGE3_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE3_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE3_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE3_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE3_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE3_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE3_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE3_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE3_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE3_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE3_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE3_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE3_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE4_LOCK0
+// Description : Lock configuration LSBs for page 4 (rows 0x100 through 0x13f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE4_LOCK0_ROW _u(0x00000f88)
+#define OTP_DATA_PAGE4_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE4_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE4_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE4_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE4_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE4_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE4_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE4_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE4_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE4_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE4_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE4_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE4_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE4_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE4_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE4_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE4_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE4_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE4_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE4_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE4_LOCK1
+// Description : Lock configuration MSBs for page 4 (rows 0x100 through 0x13f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE4_LOCK1_ROW _u(0x00000f89)
+#define OTP_DATA_PAGE4_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE4_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE4_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE4_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE4_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE4_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE4_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE4_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE4_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE4_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE4_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE4_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE4_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE5_LOCK0
+// Description : Lock configuration LSBs for page 5 (rows 0x140 through 0x17f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE5_LOCK0_ROW _u(0x00000f8a)
+#define OTP_DATA_PAGE5_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE5_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE5_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE5_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE5_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE5_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE5_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE5_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE5_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE5_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE5_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE5_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE5_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE5_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE5_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE5_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE5_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE5_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE5_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE5_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE5_LOCK1
+// Description : Lock configuration MSBs for page 5 (rows 0x140 through 0x17f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE5_LOCK1_ROW _u(0x00000f8b)
+#define OTP_DATA_PAGE5_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE5_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE5_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE5_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE5_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE5_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE5_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE5_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE5_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE5_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE5_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE5_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE5_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE6_LOCK0
+// Description : Lock configuration LSBs for page 6 (rows 0x180 through 0x1bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE6_LOCK0_ROW _u(0x00000f8c)
+#define OTP_DATA_PAGE6_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE6_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE6_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE6_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE6_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE6_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE6_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE6_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE6_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE6_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE6_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE6_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE6_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE6_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE6_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE6_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE6_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE6_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE6_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE6_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE6_LOCK1
+// Description : Lock configuration MSBs for page 6 (rows 0x180 through 0x1bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE6_LOCK1_ROW _u(0x00000f8d)
+#define OTP_DATA_PAGE6_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE6_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE6_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE6_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE6_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE6_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE6_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE6_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE6_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE6_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE6_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE6_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE6_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE7_LOCK0
+// Description : Lock configuration LSBs for page 7 (rows 0x1c0 through 0x1ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE7_LOCK0_ROW _u(0x00000f8e)
+#define OTP_DATA_PAGE7_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE7_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE7_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE7_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE7_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE7_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE7_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE7_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE7_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE7_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE7_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE7_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE7_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE7_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE7_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE7_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE7_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE7_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE7_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE7_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE7_LOCK1
+// Description : Lock configuration MSBs for page 7 (rows 0x1c0 through 0x1ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE7_LOCK1_ROW _u(0x00000f8f)
+#define OTP_DATA_PAGE7_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE7_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE7_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE7_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE7_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE7_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE7_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE7_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE7_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE7_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE7_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE7_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE7_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE8_LOCK0
+// Description : Lock configuration LSBs for page 8 (rows 0x200 through 0x23f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE8_LOCK0_ROW _u(0x00000f90)
+#define OTP_DATA_PAGE8_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE8_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE8_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE8_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE8_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE8_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE8_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE8_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE8_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE8_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE8_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE8_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE8_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE8_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE8_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE8_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE8_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE8_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE8_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE8_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE8_LOCK1
+// Description : Lock configuration MSBs for page 8 (rows 0x200 through 0x23f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE8_LOCK1_ROW _u(0x00000f91)
+#define OTP_DATA_PAGE8_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE8_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE8_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE8_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE8_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE8_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE8_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE8_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE8_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE8_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE8_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE8_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE8_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE9_LOCK0
+// Description : Lock configuration LSBs for page 9 (rows 0x240 through 0x27f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE9_LOCK0_ROW _u(0x00000f92)
+#define OTP_DATA_PAGE9_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE9_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE9_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE9_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE9_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE9_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE9_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE9_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE9_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE9_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE9_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE9_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE9_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE9_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE9_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE9_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE9_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE9_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE9_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE9_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE9_LOCK1
+// Description : Lock configuration MSBs for page 9 (rows 0x240 through 0x27f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE9_LOCK1_ROW _u(0x00000f93)
+#define OTP_DATA_PAGE9_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE9_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE9_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE9_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE9_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE9_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE9_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE9_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE9_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE9_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE9_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE9_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE9_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE10_LOCK0
+// Description : Lock configuration LSBs for page 10 (rows 0x280 through 0x2bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE10_LOCK0_ROW _u(0x00000f94)
+#define OTP_DATA_PAGE10_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE10_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE10_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE10_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE10_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE10_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE10_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE10_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE10_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE10_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE10_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE10_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE10_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE10_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE10_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE10_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE10_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE10_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE10_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE10_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE10_LOCK1
+// Description : Lock configuration MSBs for page 10 (rows 0x280 through 0x2bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE10_LOCK1_ROW _u(0x00000f95)
+#define OTP_DATA_PAGE10_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE10_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE10_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE10_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE10_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE10_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE10_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE10_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE10_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE10_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE10_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE10_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE10_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE11_LOCK0
+// Description : Lock configuration LSBs for page 11 (rows 0x2c0 through 0x2ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE11_LOCK0_ROW _u(0x00000f96)
+#define OTP_DATA_PAGE11_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE11_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE11_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE11_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE11_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE11_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE11_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE11_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE11_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE11_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE11_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE11_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE11_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE11_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE11_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE11_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE11_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE11_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE11_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE11_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE11_LOCK1
+// Description : Lock configuration MSBs for page 11 (rows 0x2c0 through 0x2ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE11_LOCK1_ROW _u(0x00000f97)
+#define OTP_DATA_PAGE11_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE11_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE11_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE11_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE11_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE11_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE11_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE11_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE11_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE11_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE11_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE11_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE11_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE12_LOCK0
+// Description : Lock configuration LSBs for page 12 (rows 0x300 through 0x33f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE12_LOCK0_ROW _u(0x00000f98)
+#define OTP_DATA_PAGE12_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE12_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE12_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE12_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE12_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE12_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE12_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE12_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE12_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE12_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE12_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE12_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE12_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE12_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE12_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE12_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE12_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE12_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE12_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE12_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE12_LOCK1
+// Description : Lock configuration MSBs for page 12 (rows 0x300 through 0x33f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE12_LOCK1_ROW _u(0x00000f99)
+#define OTP_DATA_PAGE12_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE12_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE12_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE12_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE12_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE12_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE12_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE12_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE12_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE12_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE12_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE12_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE12_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE13_LOCK0
+// Description : Lock configuration LSBs for page 13 (rows 0x340 through 0x37f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE13_LOCK0_ROW _u(0x00000f9a)
+#define OTP_DATA_PAGE13_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE13_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE13_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE13_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE13_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE13_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE13_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE13_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE13_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE13_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE13_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE13_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE13_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE13_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE13_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE13_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE13_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE13_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE13_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE13_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE13_LOCK1
+// Description : Lock configuration MSBs for page 13 (rows 0x340 through 0x37f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE13_LOCK1_ROW _u(0x00000f9b)
+#define OTP_DATA_PAGE13_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE13_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE13_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE13_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE13_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE13_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE13_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE13_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE13_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE13_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE13_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE13_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE13_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE14_LOCK0
+// Description : Lock configuration LSBs for page 14 (rows 0x380 through 0x3bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE14_LOCK0_ROW _u(0x00000f9c)
+#define OTP_DATA_PAGE14_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE14_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE14_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE14_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE14_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE14_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE14_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE14_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE14_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE14_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE14_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE14_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE14_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE14_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE14_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE14_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE14_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE14_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE14_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE14_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE14_LOCK1
+// Description : Lock configuration MSBs for page 14 (rows 0x380 through 0x3bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE14_LOCK1_ROW _u(0x00000f9d)
+#define OTP_DATA_PAGE14_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE14_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE14_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE14_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE14_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE14_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE14_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE14_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE14_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE14_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE14_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE14_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE14_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE15_LOCK0
+// Description : Lock configuration LSBs for page 15 (rows 0x3c0 through 0x3ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE15_LOCK0_ROW _u(0x00000f9e)
+#define OTP_DATA_PAGE15_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE15_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE15_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE15_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE15_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE15_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE15_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE15_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE15_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE15_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE15_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE15_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE15_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE15_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE15_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE15_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE15_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE15_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE15_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE15_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE15_LOCK1
+// Description : Lock configuration MSBs for page 15 (rows 0x3c0 through 0x3ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE15_LOCK1_ROW _u(0x00000f9f)
+#define OTP_DATA_PAGE15_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE15_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE15_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE15_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE15_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE15_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE15_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE15_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE15_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE15_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE15_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE15_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE15_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE16_LOCK0
+// Description : Lock configuration LSBs for page 16 (rows 0x400 through 0x43f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE16_LOCK0_ROW _u(0x00000fa0)
+#define OTP_DATA_PAGE16_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE16_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE16_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE16_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE16_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE16_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE16_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE16_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE16_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE16_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE16_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE16_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE16_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE16_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE16_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE16_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE16_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE16_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE16_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE16_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE16_LOCK1
+// Description : Lock configuration MSBs for page 16 (rows 0x400 through 0x43f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE16_LOCK1_ROW _u(0x00000fa1)
+#define OTP_DATA_PAGE16_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE16_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE16_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE16_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE16_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE16_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE16_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE16_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE16_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE16_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE16_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE16_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE16_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE17_LOCK0
+// Description : Lock configuration LSBs for page 17 (rows 0x440 through 0x47f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE17_LOCK0_ROW _u(0x00000fa2)
+#define OTP_DATA_PAGE17_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE17_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE17_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE17_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE17_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE17_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE17_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE17_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE17_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE17_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE17_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE17_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE17_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE17_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE17_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE17_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE17_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE17_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE17_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE17_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE17_LOCK1
+// Description : Lock configuration MSBs for page 17 (rows 0x440 through 0x47f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE17_LOCK1_ROW _u(0x00000fa3)
+#define OTP_DATA_PAGE17_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE17_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE17_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE17_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE17_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE17_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE17_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE17_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE17_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE17_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE17_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE17_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE17_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE18_LOCK0
+// Description : Lock configuration LSBs for page 18 (rows 0x480 through 0x4bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE18_LOCK0_ROW _u(0x00000fa4)
+#define OTP_DATA_PAGE18_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE18_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE18_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE18_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE18_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE18_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE18_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE18_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE18_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE18_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE18_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE18_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE18_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE18_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE18_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE18_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE18_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE18_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE18_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE18_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE18_LOCK1
+// Description : Lock configuration MSBs for page 18 (rows 0x480 through 0x4bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE18_LOCK1_ROW _u(0x00000fa5)
+#define OTP_DATA_PAGE18_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE18_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE18_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE18_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE18_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE18_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE18_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE18_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE18_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE18_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE18_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE18_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE18_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE19_LOCK0
+// Description : Lock configuration LSBs for page 19 (rows 0x4c0 through 0x4ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE19_LOCK0_ROW _u(0x00000fa6)
+#define OTP_DATA_PAGE19_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE19_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE19_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE19_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE19_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE19_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE19_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE19_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE19_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE19_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE19_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE19_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE19_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE19_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE19_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE19_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE19_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE19_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE19_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE19_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE19_LOCK1
+// Description : Lock configuration MSBs for page 19 (rows 0x4c0 through 0x4ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE19_LOCK1_ROW _u(0x00000fa7)
+#define OTP_DATA_PAGE19_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE19_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE19_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE19_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE19_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE19_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE19_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE19_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE19_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE19_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE19_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE19_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE19_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE20_LOCK0
+// Description : Lock configuration LSBs for page 20 (rows 0x500 through 0x53f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE20_LOCK0_ROW _u(0x00000fa8)
+#define OTP_DATA_PAGE20_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE20_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE20_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE20_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE20_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE20_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE20_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE20_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE20_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE20_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE20_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE20_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE20_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE20_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE20_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE20_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE20_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE20_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE20_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE20_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE20_LOCK1
+// Description : Lock configuration MSBs for page 20 (rows 0x500 through 0x53f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE20_LOCK1_ROW _u(0x00000fa9)
+#define OTP_DATA_PAGE20_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE20_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE20_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE20_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE20_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE20_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE20_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE20_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE20_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE20_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE20_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE20_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE20_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE21_LOCK0
+// Description : Lock configuration LSBs for page 21 (rows 0x540 through 0x57f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE21_LOCK0_ROW _u(0x00000faa)
+#define OTP_DATA_PAGE21_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE21_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE21_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE21_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE21_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE21_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE21_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE21_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE21_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE21_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE21_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE21_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE21_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE21_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE21_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE21_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE21_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE21_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE21_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE21_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE21_LOCK1
+// Description : Lock configuration MSBs for page 21 (rows 0x540 through 0x57f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE21_LOCK1_ROW _u(0x00000fab)
+#define OTP_DATA_PAGE21_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE21_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE21_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE21_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE21_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE21_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE21_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE21_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE21_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE21_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE21_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE21_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE21_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE22_LOCK0
+// Description : Lock configuration LSBs for page 22 (rows 0x580 through 0x5bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE22_LOCK0_ROW _u(0x00000fac)
+#define OTP_DATA_PAGE22_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE22_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE22_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE22_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE22_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE22_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE22_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE22_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE22_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE22_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE22_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE22_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE22_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE22_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE22_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE22_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE22_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE22_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE22_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE22_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE22_LOCK1
+// Description : Lock configuration MSBs for page 22 (rows 0x580 through 0x5bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE22_LOCK1_ROW _u(0x00000fad)
+#define OTP_DATA_PAGE22_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE22_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE22_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE22_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE22_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE22_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE22_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE22_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE22_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE22_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE22_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE22_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE22_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE23_LOCK0
+// Description : Lock configuration LSBs for page 23 (rows 0x5c0 through 0x5ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE23_LOCK0_ROW _u(0x00000fae)
+#define OTP_DATA_PAGE23_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE23_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE23_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE23_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE23_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE23_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE23_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE23_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE23_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE23_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE23_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE23_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE23_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE23_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE23_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE23_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE23_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE23_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE23_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE23_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE23_LOCK1
+// Description : Lock configuration MSBs for page 23 (rows 0x5c0 through 0x5ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE23_LOCK1_ROW _u(0x00000faf)
+#define OTP_DATA_PAGE23_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE23_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE23_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE23_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE23_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE23_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE23_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE23_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE23_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE23_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE23_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE23_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE23_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE24_LOCK0
+// Description : Lock configuration LSBs for page 24 (rows 0x600 through 0x63f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE24_LOCK0_ROW _u(0x00000fb0)
+#define OTP_DATA_PAGE24_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE24_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE24_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE24_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE24_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE24_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE24_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE24_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE24_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE24_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE24_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE24_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE24_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE24_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE24_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE24_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE24_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE24_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE24_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE24_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE24_LOCK1
+// Description : Lock configuration MSBs for page 24 (rows 0x600 through 0x63f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE24_LOCK1_ROW _u(0x00000fb1)
+#define OTP_DATA_PAGE24_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE24_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE24_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE24_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE24_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE24_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE24_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE24_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE24_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE24_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE24_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE24_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE24_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE25_LOCK0
+// Description : Lock configuration LSBs for page 25 (rows 0x640 through 0x67f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE25_LOCK0_ROW _u(0x00000fb2)
+#define OTP_DATA_PAGE25_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE25_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE25_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE25_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE25_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE25_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE25_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE25_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE25_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE25_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE25_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE25_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE25_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE25_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE25_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE25_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE25_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE25_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE25_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE25_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE25_LOCK1
+// Description : Lock configuration MSBs for page 25 (rows 0x640 through 0x67f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE25_LOCK1_ROW _u(0x00000fb3)
+#define OTP_DATA_PAGE25_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE25_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE25_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE25_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE25_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE25_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE25_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE25_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE25_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE25_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE25_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE25_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE25_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE26_LOCK0
+// Description : Lock configuration LSBs for page 26 (rows 0x680 through 0x6bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE26_LOCK0_ROW _u(0x00000fb4)
+#define OTP_DATA_PAGE26_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE26_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE26_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE26_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE26_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE26_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE26_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE26_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE26_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE26_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE26_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE26_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE26_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE26_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE26_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE26_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE26_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE26_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE26_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE26_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE26_LOCK1
+// Description : Lock configuration MSBs for page 26 (rows 0x680 through 0x6bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE26_LOCK1_ROW _u(0x00000fb5)
+#define OTP_DATA_PAGE26_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE26_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE26_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE26_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE26_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE26_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE26_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE26_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE26_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE26_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE26_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE26_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE26_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE27_LOCK0
+// Description : Lock configuration LSBs for page 27 (rows 0x6c0 through 0x6ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE27_LOCK0_ROW _u(0x00000fb6)
+#define OTP_DATA_PAGE27_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE27_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE27_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE27_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE27_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE27_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE27_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE27_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE27_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE27_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE27_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE27_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE27_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE27_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE27_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE27_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE27_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE27_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE27_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE27_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE27_LOCK1
+// Description : Lock configuration MSBs for page 27 (rows 0x6c0 through 0x6ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE27_LOCK1_ROW _u(0x00000fb7)
+#define OTP_DATA_PAGE27_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE27_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE27_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE27_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE27_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE27_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE27_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE27_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE27_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE27_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE27_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE27_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE27_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE28_LOCK0
+// Description : Lock configuration LSBs for page 28 (rows 0x700 through 0x73f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE28_LOCK0_ROW _u(0x00000fb8)
+#define OTP_DATA_PAGE28_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE28_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE28_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE28_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE28_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE28_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE28_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE28_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE28_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE28_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE28_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE28_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE28_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE28_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE28_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE28_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE28_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE28_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE28_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE28_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE28_LOCK1
+// Description : Lock configuration MSBs for page 28 (rows 0x700 through 0x73f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE28_LOCK1_ROW _u(0x00000fb9)
+#define OTP_DATA_PAGE28_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE28_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE28_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE28_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE28_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE28_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE28_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE28_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE28_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE28_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE28_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE28_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE28_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE29_LOCK0
+// Description : Lock configuration LSBs for page 29 (rows 0x740 through 0x77f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE29_LOCK0_ROW _u(0x00000fba)
+#define OTP_DATA_PAGE29_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE29_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE29_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE29_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE29_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE29_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE29_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE29_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE29_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE29_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE29_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE29_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE29_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE29_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE29_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE29_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE29_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE29_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE29_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE29_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE29_LOCK1
+// Description : Lock configuration MSBs for page 29 (rows 0x740 through 0x77f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE29_LOCK1_ROW _u(0x00000fbb)
+#define OTP_DATA_PAGE29_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE29_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE29_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE29_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE29_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE29_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE29_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE29_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE29_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE29_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE29_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE29_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE29_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE30_LOCK0
+// Description : Lock configuration LSBs for page 30 (rows 0x780 through 0x7bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE30_LOCK0_ROW _u(0x00000fbc)
+#define OTP_DATA_PAGE30_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE30_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE30_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE30_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE30_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE30_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE30_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE30_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE30_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE30_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE30_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE30_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE30_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE30_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE30_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE30_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE30_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE30_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE30_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE30_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE30_LOCK1
+// Description : Lock configuration MSBs for page 30 (rows 0x780 through 0x7bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE30_LOCK1_ROW _u(0x00000fbd)
+#define OTP_DATA_PAGE30_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE30_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE30_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE30_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE30_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE30_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE30_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE30_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE30_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE30_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE30_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE30_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE30_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE31_LOCK0
+// Description : Lock configuration LSBs for page 31 (rows 0x7c0 through 0x7ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE31_LOCK0_ROW _u(0x00000fbe)
+#define OTP_DATA_PAGE31_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE31_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE31_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE31_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE31_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE31_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE31_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE31_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE31_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE31_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE31_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE31_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE31_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE31_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE31_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE31_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE31_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE31_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE31_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE31_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE31_LOCK1
+// Description : Lock configuration MSBs for page 31 (rows 0x7c0 through 0x7ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE31_LOCK1_ROW _u(0x00000fbf)
+#define OTP_DATA_PAGE31_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE31_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE31_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE31_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE31_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE31_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE31_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE31_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE31_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE31_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE31_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE31_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE31_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE32_LOCK0
+// Description : Lock configuration LSBs for page 32 (rows 0x800 through 0x83f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE32_LOCK0_ROW _u(0x00000fc0)
+#define OTP_DATA_PAGE32_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE32_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE32_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE32_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE32_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE32_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE32_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE32_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE32_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE32_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE32_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE32_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE32_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE32_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE32_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE32_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE32_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE32_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE32_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE32_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE32_LOCK1
+// Description : Lock configuration MSBs for page 32 (rows 0x800 through 0x83f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE32_LOCK1_ROW _u(0x00000fc1)
+#define OTP_DATA_PAGE32_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE32_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE32_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE32_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE32_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE32_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE32_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE32_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE32_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE32_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE32_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE32_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE32_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE33_LOCK0
+// Description : Lock configuration LSBs for page 33 (rows 0x840 through 0x87f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE33_LOCK0_ROW _u(0x00000fc2)
+#define OTP_DATA_PAGE33_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE33_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE33_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE33_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE33_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE33_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE33_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE33_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE33_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE33_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE33_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE33_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE33_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE33_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE33_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE33_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE33_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE33_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE33_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE33_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE33_LOCK1
+// Description : Lock configuration MSBs for page 33 (rows 0x840 through 0x87f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE33_LOCK1_ROW _u(0x00000fc3)
+#define OTP_DATA_PAGE33_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE33_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE33_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE33_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE33_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE33_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE33_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE33_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE33_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE33_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE33_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE33_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE33_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE34_LOCK0
+// Description : Lock configuration LSBs for page 34 (rows 0x880 through 0x8bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE34_LOCK0_ROW _u(0x00000fc4)
+#define OTP_DATA_PAGE34_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE34_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE34_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE34_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE34_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE34_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE34_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE34_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE34_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE34_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE34_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE34_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE34_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE34_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE34_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE34_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE34_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE34_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE34_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE34_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE34_LOCK1
+// Description : Lock configuration MSBs for page 34 (rows 0x880 through 0x8bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE34_LOCK1_ROW _u(0x00000fc5)
+#define OTP_DATA_PAGE34_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE34_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE34_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE34_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE34_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE34_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE34_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE34_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE34_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE34_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE34_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE34_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE34_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE35_LOCK0
+// Description : Lock configuration LSBs for page 35 (rows 0x8c0 through 0x8ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE35_LOCK0_ROW _u(0x00000fc6)
+#define OTP_DATA_PAGE35_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE35_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE35_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE35_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE35_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE35_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE35_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE35_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE35_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE35_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE35_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE35_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE35_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE35_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE35_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE35_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE35_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE35_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE35_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE35_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE35_LOCK1
+// Description : Lock configuration MSBs for page 35 (rows 0x8c0 through 0x8ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE35_LOCK1_ROW _u(0x00000fc7)
+#define OTP_DATA_PAGE35_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE35_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE35_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE35_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE35_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE35_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE35_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE35_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE35_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE35_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE35_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE35_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE35_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE36_LOCK0
+// Description : Lock configuration LSBs for page 36 (rows 0x900 through 0x93f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE36_LOCK0_ROW _u(0x00000fc8)
+#define OTP_DATA_PAGE36_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE36_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE36_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE36_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE36_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE36_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE36_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE36_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE36_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE36_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE36_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE36_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE36_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE36_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE36_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE36_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE36_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE36_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE36_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE36_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE36_LOCK1
+// Description : Lock configuration MSBs for page 36 (rows 0x900 through 0x93f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE36_LOCK1_ROW _u(0x00000fc9)
+#define OTP_DATA_PAGE36_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE36_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE36_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE36_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE36_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE36_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE36_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE36_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE36_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE36_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE36_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE36_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE36_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE37_LOCK0
+// Description : Lock configuration LSBs for page 37 (rows 0x940 through 0x97f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE37_LOCK0_ROW _u(0x00000fca)
+#define OTP_DATA_PAGE37_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE37_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE37_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE37_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE37_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE37_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE37_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE37_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE37_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE37_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE37_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE37_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE37_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE37_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE37_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE37_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE37_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE37_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE37_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE37_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE37_LOCK1
+// Description : Lock configuration MSBs for page 37 (rows 0x940 through 0x97f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE37_LOCK1_ROW _u(0x00000fcb)
+#define OTP_DATA_PAGE37_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE37_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE37_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE37_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE37_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE37_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE37_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE37_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE37_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE37_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE37_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE37_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE37_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE38_LOCK0
+// Description : Lock configuration LSBs for page 38 (rows 0x980 through 0x9bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE38_LOCK0_ROW _u(0x00000fcc)
+#define OTP_DATA_PAGE38_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE38_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE38_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE38_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE38_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE38_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE38_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE38_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE38_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE38_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE38_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE38_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE38_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE38_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE38_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE38_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE38_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE38_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE38_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE38_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE38_LOCK1
+// Description : Lock configuration MSBs for page 38 (rows 0x980 through 0x9bf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE38_LOCK1_ROW _u(0x00000fcd)
+#define OTP_DATA_PAGE38_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE38_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE38_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE38_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE38_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE38_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE38_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE38_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE38_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE38_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE38_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE38_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE38_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE39_LOCK0
+// Description : Lock configuration LSBs for page 39 (rows 0x9c0 through 0x9ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE39_LOCK0_ROW _u(0x00000fce)
+#define OTP_DATA_PAGE39_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE39_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE39_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE39_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE39_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE39_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE39_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE39_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE39_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE39_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE39_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE39_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE39_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE39_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE39_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE39_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE39_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE39_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE39_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE39_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE39_LOCK1
+// Description : Lock configuration MSBs for page 39 (rows 0x9c0 through 0x9ff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE39_LOCK1_ROW _u(0x00000fcf)
+#define OTP_DATA_PAGE39_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE39_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE39_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE39_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE39_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE39_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE39_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE39_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE39_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE39_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE39_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE39_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE39_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE40_LOCK0
+// Description : Lock configuration LSBs for page 40 (rows 0xa00 through 0xa3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE40_LOCK0_ROW _u(0x00000fd0)
+#define OTP_DATA_PAGE40_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE40_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE40_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE40_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE40_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE40_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE40_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE40_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE40_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE40_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE40_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE40_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE40_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE40_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE40_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE40_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE40_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE40_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE40_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE40_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE40_LOCK1
+// Description : Lock configuration MSBs for page 40 (rows 0xa00 through 0xa3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE40_LOCK1_ROW _u(0x00000fd1)
+#define OTP_DATA_PAGE40_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE40_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE40_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE40_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE40_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE40_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE40_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE40_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE40_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE40_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE40_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE40_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE40_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE41_LOCK0
+// Description : Lock configuration LSBs for page 41 (rows 0xa40 through 0xa7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE41_LOCK0_ROW _u(0x00000fd2)
+#define OTP_DATA_PAGE41_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE41_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE41_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE41_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE41_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE41_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE41_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE41_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE41_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE41_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE41_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE41_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE41_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE41_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE41_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE41_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE41_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE41_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE41_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE41_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE41_LOCK1
+// Description : Lock configuration MSBs for page 41 (rows 0xa40 through 0xa7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE41_LOCK1_ROW _u(0x00000fd3)
+#define OTP_DATA_PAGE41_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE41_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE41_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE41_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE41_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE41_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE41_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE41_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE41_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE41_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE41_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE41_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE41_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE42_LOCK0
+// Description : Lock configuration LSBs for page 42 (rows 0xa80 through 0xabf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE42_LOCK0_ROW _u(0x00000fd4)
+#define OTP_DATA_PAGE42_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE42_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE42_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE42_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE42_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE42_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE42_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE42_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE42_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE42_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE42_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE42_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE42_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE42_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE42_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE42_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE42_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE42_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE42_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE42_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE42_LOCK1
+// Description : Lock configuration MSBs for page 42 (rows 0xa80 through 0xabf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE42_LOCK1_ROW _u(0x00000fd5)
+#define OTP_DATA_PAGE42_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE42_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE42_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE42_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE42_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE42_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE42_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE42_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE42_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE42_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE42_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE42_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE42_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE43_LOCK0
+// Description : Lock configuration LSBs for page 43 (rows 0xac0 through 0xaff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE43_LOCK0_ROW _u(0x00000fd6)
+#define OTP_DATA_PAGE43_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE43_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE43_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE43_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE43_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE43_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE43_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE43_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE43_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE43_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE43_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE43_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE43_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE43_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE43_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE43_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE43_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE43_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE43_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE43_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE43_LOCK1
+// Description : Lock configuration MSBs for page 43 (rows 0xac0 through 0xaff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE43_LOCK1_ROW _u(0x00000fd7)
+#define OTP_DATA_PAGE43_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE43_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE43_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE43_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE43_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE43_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE43_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE43_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE43_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE43_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE43_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE43_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE43_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE44_LOCK0
+// Description : Lock configuration LSBs for page 44 (rows 0xb00 through 0xb3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE44_LOCK0_ROW _u(0x00000fd8)
+#define OTP_DATA_PAGE44_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE44_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE44_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE44_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE44_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE44_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE44_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE44_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE44_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE44_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE44_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE44_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE44_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE44_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE44_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE44_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE44_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE44_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE44_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE44_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE44_LOCK1
+// Description : Lock configuration MSBs for page 44 (rows 0xb00 through 0xb3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE44_LOCK1_ROW _u(0x00000fd9)
+#define OTP_DATA_PAGE44_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE44_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE44_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE44_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE44_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE44_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE44_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE44_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE44_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE44_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE44_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE44_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE44_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE45_LOCK0
+// Description : Lock configuration LSBs for page 45 (rows 0xb40 through 0xb7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE45_LOCK0_ROW _u(0x00000fda)
+#define OTP_DATA_PAGE45_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE45_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE45_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE45_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE45_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE45_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE45_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE45_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE45_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE45_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE45_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE45_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE45_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE45_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE45_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE45_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE45_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE45_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE45_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE45_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE45_LOCK1
+// Description : Lock configuration MSBs for page 45 (rows 0xb40 through 0xb7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE45_LOCK1_ROW _u(0x00000fdb)
+#define OTP_DATA_PAGE45_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE45_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE45_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE45_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE45_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE45_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE45_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE45_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE45_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE45_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE45_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE45_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE45_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE46_LOCK0
+// Description : Lock configuration LSBs for page 46 (rows 0xb80 through 0xbbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE46_LOCK0_ROW _u(0x00000fdc)
+#define OTP_DATA_PAGE46_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE46_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE46_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE46_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE46_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE46_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE46_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE46_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE46_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE46_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE46_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE46_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE46_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE46_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE46_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE46_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE46_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE46_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE46_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE46_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE46_LOCK1
+// Description : Lock configuration MSBs for page 46 (rows 0xb80 through 0xbbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE46_LOCK1_ROW _u(0x00000fdd)
+#define OTP_DATA_PAGE46_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE46_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE46_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE46_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE46_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE46_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE46_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE46_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE46_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE46_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE46_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE46_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE46_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE47_LOCK0
+// Description : Lock configuration LSBs for page 47 (rows 0xbc0 through 0xbff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE47_LOCK0_ROW _u(0x00000fde)
+#define OTP_DATA_PAGE47_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE47_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE47_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE47_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE47_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE47_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE47_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE47_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE47_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE47_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE47_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE47_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE47_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE47_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE47_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE47_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE47_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE47_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE47_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE47_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE47_LOCK1
+// Description : Lock configuration MSBs for page 47 (rows 0xbc0 through 0xbff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE47_LOCK1_ROW _u(0x00000fdf)
+#define OTP_DATA_PAGE47_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE47_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE47_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE47_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE47_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE47_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE47_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE47_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE47_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE47_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE47_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE47_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE47_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE48_LOCK0
+// Description : Lock configuration LSBs for page 48 (rows 0xc00 through 0xc3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE48_LOCK0_ROW _u(0x00000fe0)
+#define OTP_DATA_PAGE48_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE48_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE48_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE48_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE48_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE48_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE48_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE48_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE48_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE48_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE48_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE48_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE48_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE48_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE48_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE48_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE48_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE48_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE48_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE48_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE48_LOCK1
+// Description : Lock configuration MSBs for page 48 (rows 0xc00 through 0xc3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE48_LOCK1_ROW _u(0x00000fe1)
+#define OTP_DATA_PAGE48_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE48_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE48_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE48_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE48_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE48_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE48_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE48_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE48_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE48_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE48_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE48_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE48_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE49_LOCK0
+// Description : Lock configuration LSBs for page 49 (rows 0xc40 through 0xc7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE49_LOCK0_ROW _u(0x00000fe2)
+#define OTP_DATA_PAGE49_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE49_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE49_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE49_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE49_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE49_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE49_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE49_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE49_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE49_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE49_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE49_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE49_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE49_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE49_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE49_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE49_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE49_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE49_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE49_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE49_LOCK1
+// Description : Lock configuration MSBs for page 49 (rows 0xc40 through 0xc7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE49_LOCK1_ROW _u(0x00000fe3)
+#define OTP_DATA_PAGE49_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE49_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE49_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE49_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE49_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE49_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE49_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE49_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE49_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE49_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE49_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE49_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE49_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE50_LOCK0
+// Description : Lock configuration LSBs for page 50 (rows 0xc80 through 0xcbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE50_LOCK0_ROW _u(0x00000fe4)
+#define OTP_DATA_PAGE50_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE50_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE50_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE50_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE50_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE50_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE50_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE50_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE50_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE50_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE50_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE50_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE50_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE50_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE50_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE50_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE50_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE50_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE50_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE50_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE50_LOCK1
+// Description : Lock configuration MSBs for page 50 (rows 0xc80 through 0xcbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE50_LOCK1_ROW _u(0x00000fe5)
+#define OTP_DATA_PAGE50_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE50_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE50_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE50_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE50_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE50_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE50_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE50_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE50_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE50_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE50_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE50_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE50_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE51_LOCK0
+// Description : Lock configuration LSBs for page 51 (rows 0xcc0 through 0xcff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE51_LOCK0_ROW _u(0x00000fe6)
+#define OTP_DATA_PAGE51_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE51_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE51_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE51_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE51_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE51_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE51_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE51_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE51_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE51_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE51_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE51_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE51_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE51_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE51_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE51_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE51_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE51_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE51_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE51_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE51_LOCK1
+// Description : Lock configuration MSBs for page 51 (rows 0xcc0 through 0xcff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE51_LOCK1_ROW _u(0x00000fe7)
+#define OTP_DATA_PAGE51_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE51_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE51_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE51_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE51_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE51_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE51_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE51_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE51_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE51_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE51_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE51_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE51_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE52_LOCK0
+// Description : Lock configuration LSBs for page 52 (rows 0xd00 through 0xd3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE52_LOCK0_ROW _u(0x00000fe8)
+#define OTP_DATA_PAGE52_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE52_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE52_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE52_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE52_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE52_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE52_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE52_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE52_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE52_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE52_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE52_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE52_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE52_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE52_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE52_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE52_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE52_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE52_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE52_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE52_LOCK1
+// Description : Lock configuration MSBs for page 52 (rows 0xd00 through 0xd3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE52_LOCK1_ROW _u(0x00000fe9)
+#define OTP_DATA_PAGE52_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE52_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE52_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE52_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE52_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE52_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE52_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE52_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE52_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE52_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE52_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE52_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE52_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE53_LOCK0
+// Description : Lock configuration LSBs for page 53 (rows 0xd40 through 0xd7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE53_LOCK0_ROW _u(0x00000fea)
+#define OTP_DATA_PAGE53_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE53_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE53_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE53_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE53_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE53_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE53_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE53_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE53_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE53_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE53_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE53_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE53_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE53_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE53_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE53_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE53_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE53_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE53_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE53_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE53_LOCK1
+// Description : Lock configuration MSBs for page 53 (rows 0xd40 through 0xd7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE53_LOCK1_ROW _u(0x00000feb)
+#define OTP_DATA_PAGE53_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE53_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE53_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE53_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE53_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE53_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE53_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE53_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE53_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE53_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE53_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE53_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE53_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE54_LOCK0
+// Description : Lock configuration LSBs for page 54 (rows 0xd80 through 0xdbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE54_LOCK0_ROW _u(0x00000fec)
+#define OTP_DATA_PAGE54_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE54_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE54_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE54_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE54_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE54_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE54_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE54_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE54_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE54_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE54_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE54_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE54_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE54_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE54_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE54_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE54_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE54_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE54_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE54_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE54_LOCK1
+// Description : Lock configuration MSBs for page 54 (rows 0xd80 through 0xdbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE54_LOCK1_ROW _u(0x00000fed)
+#define OTP_DATA_PAGE54_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE54_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE54_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE54_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE54_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE54_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE54_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE54_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE54_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE54_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE54_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE54_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE54_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE55_LOCK0
+// Description : Lock configuration LSBs for page 55 (rows 0xdc0 through 0xdff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE55_LOCK0_ROW _u(0x00000fee)
+#define OTP_DATA_PAGE55_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE55_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE55_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE55_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE55_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE55_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE55_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE55_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE55_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE55_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE55_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE55_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE55_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE55_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE55_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE55_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE55_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE55_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE55_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE55_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE55_LOCK1
+// Description : Lock configuration MSBs for page 55 (rows 0xdc0 through 0xdff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE55_LOCK1_ROW _u(0x00000fef)
+#define OTP_DATA_PAGE55_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE55_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE55_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE55_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE55_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE55_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE55_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE55_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE55_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE55_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE55_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE55_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE55_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE56_LOCK0
+// Description : Lock configuration LSBs for page 56 (rows 0xe00 through 0xe3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE56_LOCK0_ROW _u(0x00000ff0)
+#define OTP_DATA_PAGE56_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE56_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE56_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE56_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE56_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE56_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE56_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE56_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE56_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE56_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE56_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE56_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE56_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE56_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE56_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE56_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE56_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE56_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE56_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE56_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE56_LOCK1
+// Description : Lock configuration MSBs for page 56 (rows 0xe00 through 0xe3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE56_LOCK1_ROW _u(0x00000ff1)
+#define OTP_DATA_PAGE56_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE56_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE56_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE56_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE56_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE56_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE56_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE56_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE56_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE56_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE56_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE56_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE56_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE57_LOCK0
+// Description : Lock configuration LSBs for page 57 (rows 0xe40 through 0xe7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE57_LOCK0_ROW _u(0x00000ff2)
+#define OTP_DATA_PAGE57_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE57_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE57_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE57_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE57_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE57_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE57_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE57_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE57_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE57_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE57_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE57_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE57_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE57_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE57_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE57_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE57_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE57_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE57_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE57_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE57_LOCK1
+// Description : Lock configuration MSBs for page 57 (rows 0xe40 through 0xe7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE57_LOCK1_ROW _u(0x00000ff3)
+#define OTP_DATA_PAGE57_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE57_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE57_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE57_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE57_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE57_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE57_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE57_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE57_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE57_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE57_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE57_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE57_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE58_LOCK0
+// Description : Lock configuration LSBs for page 58 (rows 0xe80 through 0xebf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE58_LOCK0_ROW _u(0x00000ff4)
+#define OTP_DATA_PAGE58_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE58_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE58_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE58_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE58_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE58_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE58_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE58_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE58_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE58_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE58_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE58_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE58_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE58_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE58_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE58_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE58_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE58_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE58_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE58_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE58_LOCK1
+// Description : Lock configuration MSBs for page 58 (rows 0xe80 through 0xebf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE58_LOCK1_ROW _u(0x00000ff5)
+#define OTP_DATA_PAGE58_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE58_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE58_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE58_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE58_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE58_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE58_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE58_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE58_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE58_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE58_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE58_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE58_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE59_LOCK0
+// Description : Lock configuration LSBs for page 59 (rows 0xec0 through 0xeff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE59_LOCK0_ROW _u(0x00000ff6)
+#define OTP_DATA_PAGE59_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE59_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE59_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE59_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE59_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE59_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE59_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE59_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE59_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE59_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE59_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE59_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE59_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE59_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE59_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE59_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE59_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE59_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE59_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE59_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE59_LOCK1
+// Description : Lock configuration MSBs for page 59 (rows 0xec0 through 0xeff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE59_LOCK1_ROW _u(0x00000ff7)
+#define OTP_DATA_PAGE59_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE59_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE59_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE59_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE59_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE59_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE59_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE59_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE59_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE59_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE59_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE59_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE59_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE60_LOCK0
+// Description : Lock configuration LSBs for page 60 (rows 0xf00 through 0xf3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE60_LOCK0_ROW _u(0x00000ff8)
+#define OTP_DATA_PAGE60_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE60_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE60_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE60_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE60_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE60_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE60_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE60_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE60_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE60_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE60_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE60_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE60_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE60_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE60_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE60_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE60_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE60_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE60_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE60_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE60_LOCK1
+// Description : Lock configuration MSBs for page 60 (rows 0xf00 through 0xf3f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE60_LOCK1_ROW _u(0x00000ff9)
+#define OTP_DATA_PAGE60_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE60_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE60_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE60_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE60_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE60_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE60_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE60_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE60_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE60_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE60_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE60_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE60_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE61_LOCK0
+// Description : Lock configuration LSBs for page 61 (rows 0xf40 through 0xf7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE61_LOCK0_ROW _u(0x00000ffa)
+#define OTP_DATA_PAGE61_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE61_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE61_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE61_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE61_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE61_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE61_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE61_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE61_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE61_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE61_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE61_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE61_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE61_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE61_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE61_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE61_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE61_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE61_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE61_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE61_LOCK1
+// Description : Lock configuration MSBs for page 61 (rows 0xf40 through 0xf7f).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE61_LOCK1_ROW _u(0x00000ffb)
+#define OTP_DATA_PAGE61_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE61_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE61_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE61_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE61_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE61_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE61_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE61_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE61_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE61_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE61_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE61_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE61_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE62_LOCK0
+// Description : Lock configuration LSBs for page 62 (rows 0xf80 through 0xfbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE62_LOCK0_ROW _u(0x00000ffc)
+#define OTP_DATA_PAGE62_LOCK0_BITS   _u(0x00ffff7f)
+#define OTP_DATA_PAGE62_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE62_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE62_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE62_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE62_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE62_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE62_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE62_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE62_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE62_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE62_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE62_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE62_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE62_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE62_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE62_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE62_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE62_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE62_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE62_LOCK1
+// Description : Lock configuration MSBs for page 62 (rows 0xf80 through 0xfbf).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE62_LOCK1_ROW _u(0x00000ffd)
+#define OTP_DATA_PAGE62_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE62_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE62_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE62_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE62_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE62_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE62_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE62_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE62_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE62_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE62_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE62_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE62_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+// Register    : OTP_DATA_PAGE63_LOCK0
+// Description : Lock configuration LSBs for page 63 (rows 0xfc0 through 0xfff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE63_LOCK0_ROW _u(0x00000ffe)
+#define OTP_DATA_PAGE63_LOCK0_BITS   _u(0x00ffffff)
+#define OTP_DATA_PAGE63_LOCK0_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE63_LOCK0_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE63_LOCK0_R2_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE63_LOCK0_R2_MSB    _u(23)
+#define OTP_DATA_PAGE63_LOCK0_R2_LSB    _u(16)
+#define OTP_DATA_PAGE63_LOCK0_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE63_LOCK0_R1_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE63_LOCK0_R1_MSB    _u(15)
+#define OTP_DATA_PAGE63_LOCK0_R1_LSB    _u(8)
+#define OTP_DATA_PAGE63_LOCK0_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_RMA
+// Description : Decommission for RMA of a suspected faulty device. This re-
+//               enables the factory test JTAG interface, and makes pages 3
+//               through 61 of the OTP permanently inaccessible.
+#define OTP_DATA_PAGE63_LOCK0_RMA_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_RMA_BITS   _u(0x00000080)
+#define OTP_DATA_PAGE63_LOCK0_RMA_MSB    _u(7)
+#define OTP_DATA_PAGE63_LOCK0_RMA_LSB    _u(7)
+#define OTP_DATA_PAGE63_LOCK0_RMA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE
+// Description : State when at least one key is registered for this page and no
+//               matching key has been entered.
+//               0x0 -> read_only
+//               0x1 -> inaccessible
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_BITS   _u(0x00000040)
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_MSB    _u(6)
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_LSB    _u(6)
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_ACCESS "RO"
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_VALUE_READ_ONLY _u(0x0)
+#define OTP_DATA_PAGE63_LOCK0_NO_KEY_STATE_VALUE_INACCESSIBLE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_KEY_R
+// Description : Index 1-6 of a hardware key which must be entered to grant read
+//               access, or 0 if no such key is required.
+#define OTP_DATA_PAGE63_LOCK0_KEY_R_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_KEY_R_BITS   _u(0x00000038)
+#define OTP_DATA_PAGE63_LOCK0_KEY_R_MSB    _u(5)
+#define OTP_DATA_PAGE63_LOCK0_KEY_R_LSB    _u(3)
+#define OTP_DATA_PAGE63_LOCK0_KEY_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK0_KEY_W
+// Description : Index 1-6 of a hardware key which must be entered to grant
+//               write access, or 0 if no such key is required.
+#define OTP_DATA_PAGE63_LOCK0_KEY_W_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK0_KEY_W_BITS   _u(0x00000007)
+#define OTP_DATA_PAGE63_LOCK0_KEY_W_MSB    _u(2)
+#define OTP_DATA_PAGE63_LOCK0_KEY_W_LSB    _u(0)
+#define OTP_DATA_PAGE63_LOCK0_KEY_W_ACCESS "RO"
+// =============================================================================
+// Register    : OTP_DATA_PAGE63_LOCK1
+// Description : Lock configuration MSBs for page 63 (rows 0xfc0 through 0xfff).
+//               Locks are stored with 3-way majority vote encoding, so that
+//               bits can be set independently.
+//
+//               This OTP location is always readable, and is write-protected by
+//               its own permissions.
+#define OTP_DATA_PAGE63_LOCK1_ROW _u(0x00000fff)
+#define OTP_DATA_PAGE63_LOCK1_BITS   _u(0x00ffff3f)
+#define OTP_DATA_PAGE63_LOCK1_RESET  _u(0x00000000)
+#define OTP_DATA_PAGE63_LOCK1_WIDTH  _u(24)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK1_R2
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE63_LOCK1_R2_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK1_R2_BITS   _u(0x00ff0000)
+#define OTP_DATA_PAGE63_LOCK1_R2_MSB    _u(23)
+#define OTP_DATA_PAGE63_LOCK1_R2_LSB    _u(16)
+#define OTP_DATA_PAGE63_LOCK1_R2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK1_R1
+// Description : Redundant copy of bits 7:0
+#define OTP_DATA_PAGE63_LOCK1_R1_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK1_R1_BITS   _u(0x0000ff00)
+#define OTP_DATA_PAGE63_LOCK1_R1_MSB    _u(15)
+#define OTP_DATA_PAGE63_LOCK1_R1_LSB    _u(8)
+#define OTP_DATA_PAGE63_LOCK1_R1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK1_LOCK_BL
+// Description : Dummy lock bits reserved for bootloaders (including the RP2350
+//               USB bootloader) to store their own OTP access permissions. No
+//               hardware effect, and no corresponding SW_LOCKx registers.
+//               0x0 -> Bootloader permits user reads and writes to this page
+//               0x1 -> Bootloader permits user reads of this page
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE
+//               0x3 -> Bootloader does not permit user access to this page
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_BITS   _u(0x00000030)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_MSB    _u(5)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_LSB    _u(4)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_ACCESS "RO"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_BL_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK1_LOCK_NS
+// Description : Lock state for Non-secure accesses to this page. Thermometer-
+//               coded, so lock state can be advanced permanently from any state
+//               to any less-permissive state by programming OTP. Software can
+//               also advance the lock state temporarily (until next OTP reset)
+//               using the SW_LOCKx registers.
+//
+//               Note that READ_WRITE and READ_ONLY are equivalent in hardware,
+//               as the SBPI programming interface is not accessible to Non-
+//               secure software. However, Secure software may check these bits
+//               to apply write permissions to a Non-secure OTP programming API.
+//               0x0 -> Page can be read by Non-secure software, and Secure software may permit Non-secure writes.
+//               0x1 -> Page can be read by Non-secure software
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Non-secure software.
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_BITS   _u(0x0000000c)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_MSB    _u(3)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_LSB    _u(2)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_ACCESS "RO"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_NS_VALUE_INACCESSIBLE _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : OTP_DATA_PAGE63_LOCK1_LOCK_S
+// Description : Lock state for Secure accesses to this page. Thermometer-coded,
+//               so lock state can be advanced permanently from any state to any
+//               less-permissive state by programming OTP. Software can also
+//               advance the lock state temporarily (until next OTP reset) using
+//               the SW_LOCKx registers.
+//               0x0 -> Page is fully accessible by Secure software.
+//               0x1 -> Page can be read by Secure software, but can not be written.
+//               0x2 -> Do not use. Behaves the same as INACCESSIBLE.
+//               0x3 -> Page can not be accessed by Secure software.
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_RESET  "-"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_BITS   _u(0x00000003)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_MSB    _u(1)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_LSB    _u(0)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_ACCESS "RO"
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_VALUE_READ_WRITE _u(0x0)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_VALUE_READ_ONLY _u(0x1)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_VALUE_RESERVED _u(0x2)
+#define OTP_DATA_PAGE63_LOCK1_LOCK_S_VALUE_INACCESSIBLE _u(0x3)
+// =============================================================================
+#endif // _HARDWARE_REGS_OTP_DATA_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/pads_bank0.h b/lib/pico-sdk/rp2350/hardware/regs/pads_bank0.h
new file mode 100644
index 0000000..cf26205
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/pads_bank0.h
@@ -0,0 +1,3980 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PADS_BANK0
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_PADS_BANK0_H
+#define _HARDWARE_REGS_PADS_BANK0_H
+// =============================================================================
+// Register    : PADS_BANK0_VOLTAGE_SELECT
+// Description : Voltage select. Per bank control
+//               0x0 -> Set voltage to 3.3V (DVDD >= 2V5)
+//               0x1 -> Set voltage to 1.8V (DVDD <= 1V8)
+#define PADS_BANK0_VOLTAGE_SELECT_OFFSET _u(0x00000000)
+#define PADS_BANK0_VOLTAGE_SELECT_BITS   _u(0x00000001)
+#define PADS_BANK0_VOLTAGE_SELECT_RESET  _u(0x00000000)
+#define PADS_BANK0_VOLTAGE_SELECT_MSB    _u(0)
+#define PADS_BANK0_VOLTAGE_SELECT_LSB    _u(0)
+#define PADS_BANK0_VOLTAGE_SELECT_ACCESS "RW"
+#define PADS_BANK0_VOLTAGE_SELECT_VALUE_3V3 _u(0x0)
+#define PADS_BANK0_VOLTAGE_SELECT_VALUE_1V8 _u(0x1)
+// =============================================================================
+// Register    : PADS_BANK0_GPIO0
+#define PADS_BANK0_GPIO0_OFFSET _u(0x00000004)
+#define PADS_BANK0_GPIO0_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO0_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO0_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO0_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO0_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO0_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO0_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO0_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO0_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO0_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO0_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO0_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO0_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO0_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO0_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO0_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO0_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO0_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO0_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO0_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO0_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO0_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO0_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO0_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO0_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO0_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO0_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO0_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO0_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO0_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO0_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO0_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO0_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO0_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO0_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO0_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO0_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO0_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO0_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO0_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO0_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO0_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO0_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO0_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO1
+#define PADS_BANK0_GPIO1_OFFSET _u(0x00000008)
+#define PADS_BANK0_GPIO1_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO1_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO1_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO1_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO1_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO1_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO1_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO1_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO1_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO1_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO1_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO1_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO1_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO1_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO1_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO1_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO1_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO1_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO1_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO1_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO1_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO1_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO1_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO1_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO1_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO1_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO1_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO1_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO1_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO1_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO1_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO1_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO1_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO1_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO1_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO1_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO1_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO1_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO1_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO1_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO1_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO1_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO1_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO1_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO2
+#define PADS_BANK0_GPIO2_OFFSET _u(0x0000000c)
+#define PADS_BANK0_GPIO2_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO2_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO2_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO2_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO2_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO2_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO2_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO2_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO2_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO2_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO2_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO2_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO2_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO2_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO2_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO2_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO2_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO2_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO2_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO2_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO2_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO2_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO2_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO2_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO2_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO2_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO2_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO2_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO2_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO2_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO2_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO2_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO2_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO2_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO2_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO2_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO2_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO2_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO2_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO2_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO2_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO2_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO2_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO2_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO3
+#define PADS_BANK0_GPIO3_OFFSET _u(0x00000010)
+#define PADS_BANK0_GPIO3_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO3_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO3_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO3_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO3_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO3_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO3_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO3_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO3_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO3_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO3_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO3_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO3_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO3_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO3_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO3_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO3_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO3_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO3_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO3_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO3_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO3_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO3_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO3_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO3_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO3_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO3_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO3_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO3_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO3_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO3_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO3_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO3_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO3_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO3_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO3_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO3_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO3_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO3_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO3_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO3_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO3_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO3_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO3_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO4
+#define PADS_BANK0_GPIO4_OFFSET _u(0x00000014)
+#define PADS_BANK0_GPIO4_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO4_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO4_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO4_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO4_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO4_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO4_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO4_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO4_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO4_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO4_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO4_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO4_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO4_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO4_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO4_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO4_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO4_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO4_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO4_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO4_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO4_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO4_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO4_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO4_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO4_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO4_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO4_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO4_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO4_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO4_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO4_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO4_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO4_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO4_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO4_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO4_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO4_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO4_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO4_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO4_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO4_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO4_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO4_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO5
+#define PADS_BANK0_GPIO5_OFFSET _u(0x00000018)
+#define PADS_BANK0_GPIO5_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO5_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO5_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO5_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO5_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO5_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO5_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO5_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO5_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO5_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO5_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO5_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO5_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO5_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO5_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO5_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO5_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO5_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO5_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO5_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO5_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO5_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO5_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO5_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO5_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO5_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO5_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO5_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO5_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO5_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO5_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO5_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO5_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO5_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO5_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO5_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO5_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO5_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO5_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO5_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO5_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO5_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO5_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO5_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO6
+#define PADS_BANK0_GPIO6_OFFSET _u(0x0000001c)
+#define PADS_BANK0_GPIO6_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO6_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO6_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO6_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO6_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO6_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO6_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO6_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO6_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO6_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO6_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO6_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO6_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO6_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO6_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO6_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO6_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO6_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO6_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO6_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO6_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO6_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO6_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO6_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO6_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO6_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO6_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO6_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO6_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO6_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO6_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO6_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO6_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO6_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO6_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO6_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO6_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO6_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO6_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO6_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO6_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO6_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO6_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO6_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO7
+#define PADS_BANK0_GPIO7_OFFSET _u(0x00000020)
+#define PADS_BANK0_GPIO7_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO7_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO7_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO7_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO7_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO7_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO7_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO7_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO7_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO7_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO7_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO7_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO7_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO7_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO7_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO7_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO7_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO7_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO7_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO7_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO7_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO7_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO7_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO7_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO7_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO7_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO7_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO7_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO7_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO7_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO7_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO7_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO7_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO7_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO7_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO7_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO7_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO7_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO7_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO7_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO7_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO7_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO7_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO7_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO8
+#define PADS_BANK0_GPIO8_OFFSET _u(0x00000024)
+#define PADS_BANK0_GPIO8_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO8_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO8_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO8_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO8_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO8_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO8_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO8_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO8_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO8_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO8_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO8_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO8_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO8_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO8_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO8_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO8_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO8_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO8_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO8_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO8_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO8_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO8_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO8_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO8_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO8_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO8_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO8_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO8_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO8_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO8_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO8_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO8_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO8_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO8_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO8_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO8_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO8_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO8_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO8_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO8_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO8_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO8_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO8_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO9
+#define PADS_BANK0_GPIO9_OFFSET _u(0x00000028)
+#define PADS_BANK0_GPIO9_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO9_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO9_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO9_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO9_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO9_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO9_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO9_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO9_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO9_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO9_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO9_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO9_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO9_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO9_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO9_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO9_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO9_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO9_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO9_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO9_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO9_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO9_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO9_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO9_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO9_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO9_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO9_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO9_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO9_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO9_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO9_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO9_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO9_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO9_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO9_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO9_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO9_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO9_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO9_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO9_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO9_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO9_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO9_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO10
+#define PADS_BANK0_GPIO10_OFFSET _u(0x0000002c)
+#define PADS_BANK0_GPIO10_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO10_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO10_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO10_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO10_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO10_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO10_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO10_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO10_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO10_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO10_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO10_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO10_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO10_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO10_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO10_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO10_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO10_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO10_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO10_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO10_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO10_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO10_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO10_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO10_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO10_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO10_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO10_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO10_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO10_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO10_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO10_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO10_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO10_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO10_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO10_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO10_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO10_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO10_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO10_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO10_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO10_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO10_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO10_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO11
+#define PADS_BANK0_GPIO11_OFFSET _u(0x00000030)
+#define PADS_BANK0_GPIO11_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO11_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO11_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO11_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO11_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO11_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO11_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO11_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO11_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO11_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO11_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO11_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO11_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO11_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO11_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO11_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO11_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO11_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO11_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO11_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO11_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO11_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO11_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO11_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO11_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO11_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO11_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO11_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO11_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO11_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO11_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO11_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO11_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO11_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO11_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO11_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO11_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO11_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO11_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO11_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO11_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO11_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO11_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO11_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO12
+#define PADS_BANK0_GPIO12_OFFSET _u(0x00000034)
+#define PADS_BANK0_GPIO12_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO12_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO12_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO12_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO12_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO12_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO12_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO12_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO12_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO12_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO12_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO12_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO12_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO12_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO12_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO12_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO12_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO12_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO12_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO12_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO12_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO12_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO12_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO12_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO12_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO12_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO12_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO12_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO12_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO12_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO12_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO12_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO12_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO12_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO12_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO12_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO12_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO12_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO12_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO12_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO12_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO12_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO12_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO12_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO13
+#define PADS_BANK0_GPIO13_OFFSET _u(0x00000038)
+#define PADS_BANK0_GPIO13_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO13_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO13_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO13_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO13_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO13_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO13_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO13_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO13_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO13_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO13_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO13_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO13_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO13_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO13_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO13_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO13_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO13_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO13_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO13_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO13_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO13_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO13_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO13_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO13_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO13_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO13_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO13_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO13_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO13_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO13_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO13_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO13_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO13_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO13_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO13_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO13_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO13_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO13_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO13_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO13_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO13_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO13_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO13_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO14
+#define PADS_BANK0_GPIO14_OFFSET _u(0x0000003c)
+#define PADS_BANK0_GPIO14_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO14_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO14_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO14_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO14_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO14_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO14_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO14_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO14_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO14_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO14_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO14_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO14_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO14_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO14_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO14_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO14_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO14_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO14_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO14_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO14_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO14_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO14_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO14_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO14_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO14_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO14_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO14_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO14_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO14_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO14_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO14_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO14_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO14_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO14_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO14_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO14_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO14_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO14_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO14_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO14_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO14_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO14_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO14_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO15
+#define PADS_BANK0_GPIO15_OFFSET _u(0x00000040)
+#define PADS_BANK0_GPIO15_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO15_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO15_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO15_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO15_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO15_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO15_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO15_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO15_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO15_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO15_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO15_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO15_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO15_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO15_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO15_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO15_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO15_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO15_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO15_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO15_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO15_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO15_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO15_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO15_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO15_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO15_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO15_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO15_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO15_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO15_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO15_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO15_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO15_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO15_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO15_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO15_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO15_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO15_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO15_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO15_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO15_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO15_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO15_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO16
+#define PADS_BANK0_GPIO16_OFFSET _u(0x00000044)
+#define PADS_BANK0_GPIO16_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO16_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO16_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO16_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO16_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO16_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO16_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO16_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO16_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO16_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO16_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO16_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO16_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO16_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO16_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO16_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO16_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO16_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO16_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO16_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO16_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO16_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO16_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO16_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO16_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO16_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO16_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO16_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO16_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO16_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO16_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO16_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO16_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO16_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO16_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO16_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO16_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO16_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO16_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO16_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO16_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO16_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO16_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO16_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO17
+#define PADS_BANK0_GPIO17_OFFSET _u(0x00000048)
+#define PADS_BANK0_GPIO17_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO17_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO17_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO17_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO17_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO17_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO17_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO17_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO17_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO17_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO17_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO17_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO17_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO17_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO17_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO17_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO17_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO17_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO17_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO17_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO17_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO17_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO17_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO17_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO17_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO17_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO17_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO17_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO17_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO17_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO17_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO17_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO17_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO17_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO17_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO17_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO17_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO17_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO17_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO17_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO17_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO17_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO17_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO17_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO18
+#define PADS_BANK0_GPIO18_OFFSET _u(0x0000004c)
+#define PADS_BANK0_GPIO18_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO18_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO18_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO18_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO18_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO18_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO18_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO18_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO18_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO18_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO18_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO18_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO18_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO18_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO18_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO18_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO18_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO18_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO18_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO18_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO18_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO18_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO18_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO18_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO18_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO18_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO18_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO18_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO18_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO18_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO18_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO18_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO18_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO18_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO18_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO18_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO18_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO18_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO18_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO18_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO18_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO18_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO18_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO18_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO19
+#define PADS_BANK0_GPIO19_OFFSET _u(0x00000050)
+#define PADS_BANK0_GPIO19_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO19_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO19_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO19_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO19_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO19_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO19_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO19_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO19_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO19_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO19_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO19_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO19_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO19_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO19_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO19_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO19_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO19_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO19_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO19_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO19_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO19_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO19_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO19_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO19_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO19_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO19_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO19_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO19_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO19_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO19_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO19_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO19_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO19_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO19_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO19_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO19_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO19_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO19_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO19_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO19_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO19_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO19_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO19_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO20
+#define PADS_BANK0_GPIO20_OFFSET _u(0x00000054)
+#define PADS_BANK0_GPIO20_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO20_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO20_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO20_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO20_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO20_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO20_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO20_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO20_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO20_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO20_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO20_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO20_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO20_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO20_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO20_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO20_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO20_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO20_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO20_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO20_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO20_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO20_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO20_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO20_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO20_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO20_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO20_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO20_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO20_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO20_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO20_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO20_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO20_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO20_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO20_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO20_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO20_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO20_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO20_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO20_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO20_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO20_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO20_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO21
+#define PADS_BANK0_GPIO21_OFFSET _u(0x00000058)
+#define PADS_BANK0_GPIO21_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO21_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO21_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO21_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO21_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO21_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO21_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO21_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO21_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO21_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO21_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO21_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO21_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO21_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO21_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO21_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO21_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO21_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO21_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO21_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO21_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO21_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO21_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO21_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO21_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO21_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO21_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO21_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO21_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO21_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO21_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO21_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO21_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO21_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO21_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO21_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO21_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO21_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO21_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO21_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO21_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO21_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO21_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO21_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO22
+#define PADS_BANK0_GPIO22_OFFSET _u(0x0000005c)
+#define PADS_BANK0_GPIO22_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO22_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO22_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO22_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO22_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO22_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO22_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO22_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO22_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO22_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO22_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO22_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO22_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO22_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO22_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO22_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO22_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO22_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO22_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO22_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO22_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO22_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO22_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO22_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO22_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO22_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO22_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO22_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO22_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO22_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO22_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO22_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO22_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO22_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO22_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO22_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO22_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO22_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO22_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO22_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO22_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO22_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO22_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO22_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO23
+#define PADS_BANK0_GPIO23_OFFSET _u(0x00000060)
+#define PADS_BANK0_GPIO23_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO23_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO23_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO23_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO23_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO23_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO23_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO23_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO23_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO23_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO23_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO23_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO23_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO23_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO23_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO23_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO23_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO23_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO23_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO23_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO23_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO23_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO23_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO23_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO23_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO23_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO23_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO23_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO23_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO23_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO23_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO23_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO23_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO23_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO23_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO23_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO23_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO23_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO23_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO23_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO23_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO23_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO23_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO23_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO24
+#define PADS_BANK0_GPIO24_OFFSET _u(0x00000064)
+#define PADS_BANK0_GPIO24_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO24_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO24_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO24_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO24_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO24_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO24_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO24_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO24_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO24_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO24_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO24_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO24_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO24_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO24_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO24_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO24_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO24_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO24_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO24_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO24_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO24_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO24_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO24_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO24_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO24_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO24_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO24_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO24_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO24_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO24_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO24_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO24_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO24_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO24_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO24_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO24_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO24_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO24_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO24_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO24_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO24_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO24_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO24_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO25
+#define PADS_BANK0_GPIO25_OFFSET _u(0x00000068)
+#define PADS_BANK0_GPIO25_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO25_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO25_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO25_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO25_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO25_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO25_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO25_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO25_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO25_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO25_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO25_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO25_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO25_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO25_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO25_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO25_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO25_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO25_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO25_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO25_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO25_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO25_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO25_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO25_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO25_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO25_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO25_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO25_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO25_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO25_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO25_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO25_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO25_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO25_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO25_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO25_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO25_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO25_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO25_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO25_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO25_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO25_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO25_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO26
+#define PADS_BANK0_GPIO26_OFFSET _u(0x0000006c)
+#define PADS_BANK0_GPIO26_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO26_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO26_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO26_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO26_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO26_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO26_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO26_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO26_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO26_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO26_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO26_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO26_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO26_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO26_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO26_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO26_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO26_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO26_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO26_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO26_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO26_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO26_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO26_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO26_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO26_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO26_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO26_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO26_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO26_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO26_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO26_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO26_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO26_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO26_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO26_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO26_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO26_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO26_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO26_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO26_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO26_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO26_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO26_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO27
+#define PADS_BANK0_GPIO27_OFFSET _u(0x00000070)
+#define PADS_BANK0_GPIO27_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO27_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO27_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO27_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO27_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO27_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO27_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO27_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO27_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO27_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO27_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO27_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO27_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO27_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO27_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO27_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO27_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO27_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO27_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO27_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO27_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO27_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO27_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO27_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO27_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO27_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO27_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO27_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO27_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO27_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO27_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO27_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO27_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO27_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO27_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO27_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO27_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO27_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO27_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO27_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO27_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO27_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO27_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO27_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO28
+#define PADS_BANK0_GPIO28_OFFSET _u(0x00000074)
+#define PADS_BANK0_GPIO28_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO28_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO28_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO28_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO28_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO28_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO28_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO28_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO28_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO28_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO28_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO28_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO28_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO28_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO28_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO28_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO28_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO28_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO28_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO28_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO28_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO28_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO28_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO28_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO28_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO28_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO28_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO28_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO28_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO28_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO28_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO28_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO28_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO28_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO28_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO28_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO28_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO28_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO28_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO28_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO28_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO28_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO28_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO28_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO29
+#define PADS_BANK0_GPIO29_OFFSET _u(0x00000078)
+#define PADS_BANK0_GPIO29_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO29_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO29_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO29_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO29_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO29_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO29_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO29_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO29_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO29_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO29_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO29_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO29_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO29_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO29_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO29_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO29_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO29_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO29_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO29_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO29_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO29_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO29_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO29_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO29_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO29_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO29_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO29_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO29_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO29_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO29_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO29_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO29_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO29_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO29_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO29_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO29_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO29_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO29_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO29_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO29_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO29_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO29_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO29_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO30
+#define PADS_BANK0_GPIO30_OFFSET _u(0x0000007c)
+#define PADS_BANK0_GPIO30_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO30_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO30_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO30_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO30_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO30_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO30_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO30_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO30_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO30_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO30_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO30_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO30_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO30_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO30_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO30_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO30_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO30_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO30_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO30_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO30_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO30_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO30_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO30_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO30_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO30_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO30_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO30_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO30_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO30_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO30_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO30_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO30_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO30_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO30_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO30_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO30_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO30_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO30_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO30_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO30_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO30_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO30_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO30_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO30_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO30_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO30_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO31
+#define PADS_BANK0_GPIO31_OFFSET _u(0x00000080)
+#define PADS_BANK0_GPIO31_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO31_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO31_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO31_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO31_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO31_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO31_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO31_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO31_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO31_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO31_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO31_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO31_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO31_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO31_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO31_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO31_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO31_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO31_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO31_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO31_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO31_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO31_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO31_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO31_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO31_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO31_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO31_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO31_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO31_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO31_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO31_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO31_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO31_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO31_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO31_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO31_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO31_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO31_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO31_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO31_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO31_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO31_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO31_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO31_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO31_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO31_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO32
+#define PADS_BANK0_GPIO32_OFFSET _u(0x00000084)
+#define PADS_BANK0_GPIO32_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO32_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO32_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO32_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO32_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO32_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO32_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO32_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO32_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO32_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO32_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO32_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO32_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO32_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO32_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO32_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO32_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO32_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO32_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO32_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO32_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO32_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO32_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO32_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO32_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO32_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO32_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO32_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO32_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO32_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO32_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO32_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO32_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO32_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO32_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO32_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO32_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO32_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO32_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO32_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO32_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO32_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO32_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO32_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO32_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO32_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO32_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO33
+#define PADS_BANK0_GPIO33_OFFSET _u(0x00000088)
+#define PADS_BANK0_GPIO33_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO33_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO33_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO33_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO33_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO33_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO33_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO33_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO33_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO33_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO33_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO33_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO33_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO33_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO33_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO33_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO33_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO33_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO33_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO33_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO33_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO33_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO33_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO33_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO33_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO33_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO33_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO33_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO33_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO33_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO33_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO33_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO33_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO33_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO33_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO33_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO33_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO33_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO33_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO33_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO33_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO33_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO33_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO33_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO33_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO33_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO33_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO34
+#define PADS_BANK0_GPIO34_OFFSET _u(0x0000008c)
+#define PADS_BANK0_GPIO34_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO34_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO34_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO34_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO34_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO34_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO34_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO34_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO34_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO34_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO34_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO34_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO34_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO34_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO34_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO34_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO34_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO34_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO34_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO34_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO34_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO34_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO34_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO34_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO34_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO34_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO34_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO34_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO34_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO34_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO34_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO34_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO34_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO34_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO34_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO34_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO34_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO34_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO34_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO34_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO34_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO34_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO34_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO34_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO34_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO34_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO34_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO35
+#define PADS_BANK0_GPIO35_OFFSET _u(0x00000090)
+#define PADS_BANK0_GPIO35_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO35_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO35_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO35_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO35_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO35_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO35_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO35_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO35_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO35_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO35_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO35_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO35_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO35_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO35_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO35_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO35_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO35_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO35_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO35_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO35_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO35_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO35_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO35_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO35_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO35_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO35_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO35_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO35_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO35_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO35_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO35_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO35_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO35_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO35_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO35_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO35_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO35_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO35_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO35_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO35_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO35_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO35_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO35_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO35_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO35_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO35_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO36
+#define PADS_BANK0_GPIO36_OFFSET _u(0x00000094)
+#define PADS_BANK0_GPIO36_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO36_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO36_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO36_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO36_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO36_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO36_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO36_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO36_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO36_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO36_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO36_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO36_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO36_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO36_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO36_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO36_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO36_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO36_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO36_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO36_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO36_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO36_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO36_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO36_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO36_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO36_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO36_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO36_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO36_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO36_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO36_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO36_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO36_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO36_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO36_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO36_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO36_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO36_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO36_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO36_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO36_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO36_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO36_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO36_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO36_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO36_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO37
+#define PADS_BANK0_GPIO37_OFFSET _u(0x00000098)
+#define PADS_BANK0_GPIO37_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO37_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO37_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO37_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO37_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO37_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO37_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO37_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO37_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO37_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO37_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO37_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO37_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO37_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO37_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO37_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO37_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO37_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO37_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO37_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO37_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO37_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO37_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO37_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO37_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO37_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO37_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO37_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO37_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO37_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO37_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO37_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO37_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO37_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO37_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO37_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO37_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO37_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO37_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO37_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO37_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO37_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO37_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO37_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO37_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO37_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO37_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO38
+#define PADS_BANK0_GPIO38_OFFSET _u(0x0000009c)
+#define PADS_BANK0_GPIO38_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO38_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO38_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO38_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO38_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO38_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO38_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO38_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO38_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO38_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO38_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO38_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO38_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO38_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO38_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO38_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO38_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO38_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO38_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO38_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO38_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO38_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO38_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO38_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO38_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO38_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO38_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO38_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO38_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO38_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO38_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO38_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO38_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO38_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO38_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO38_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO38_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO38_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO38_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO38_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO38_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO38_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO38_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO38_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO38_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO38_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO38_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO39
+#define PADS_BANK0_GPIO39_OFFSET _u(0x000000a0)
+#define PADS_BANK0_GPIO39_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO39_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO39_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO39_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO39_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO39_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO39_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO39_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO39_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO39_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO39_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO39_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO39_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO39_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO39_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO39_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO39_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO39_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO39_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO39_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO39_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO39_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO39_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO39_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO39_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO39_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO39_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO39_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO39_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO39_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO39_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO39_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO39_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO39_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO39_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO39_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO39_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO39_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO39_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO39_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO39_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO39_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO39_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO39_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO39_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO39_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO39_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO40
+#define PADS_BANK0_GPIO40_OFFSET _u(0x000000a4)
+#define PADS_BANK0_GPIO40_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO40_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO40_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO40_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO40_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO40_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO40_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO40_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO40_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO40_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO40_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO40_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO40_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO40_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO40_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO40_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO40_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO40_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO40_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO40_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO40_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO40_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO40_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO40_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO40_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO40_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO40_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO40_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO40_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO40_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO40_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO40_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO40_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO40_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO40_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO40_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO40_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO40_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO40_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO40_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO40_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO40_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO40_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO40_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO40_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO40_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO40_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO41
+#define PADS_BANK0_GPIO41_OFFSET _u(0x000000a8)
+#define PADS_BANK0_GPIO41_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO41_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO41_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO41_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO41_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO41_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO41_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO41_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO41_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO41_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO41_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO41_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO41_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO41_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO41_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO41_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO41_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO41_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO41_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO41_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO41_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO41_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO41_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO41_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO41_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO41_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO41_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO41_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO41_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO41_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO41_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO41_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO41_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO41_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO41_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO41_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO41_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO41_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO41_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO41_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO41_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO41_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO41_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO41_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO41_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO41_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO41_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO42
+#define PADS_BANK0_GPIO42_OFFSET _u(0x000000ac)
+#define PADS_BANK0_GPIO42_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO42_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO42_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO42_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO42_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO42_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO42_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO42_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO42_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO42_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO42_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO42_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO42_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO42_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO42_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO42_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO42_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO42_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO42_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO42_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO42_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO42_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO42_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO42_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO42_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO42_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO42_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO42_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO42_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO42_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO42_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO42_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO42_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO42_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO42_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO42_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO42_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO42_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO42_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO42_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO42_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO42_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO42_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO42_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO42_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO42_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO42_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO43
+#define PADS_BANK0_GPIO43_OFFSET _u(0x000000b0)
+#define PADS_BANK0_GPIO43_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO43_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO43_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO43_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO43_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO43_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO43_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO43_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO43_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO43_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO43_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO43_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO43_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO43_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO43_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO43_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO43_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO43_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO43_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO43_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO43_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO43_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO43_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO43_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO43_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO43_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO43_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO43_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO43_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO43_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO43_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO43_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO43_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO43_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO43_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO43_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO43_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO43_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO43_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO43_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO43_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO43_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO43_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO43_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO43_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO43_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO43_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO44
+#define PADS_BANK0_GPIO44_OFFSET _u(0x000000b4)
+#define PADS_BANK0_GPIO44_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO44_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO44_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO44_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO44_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO44_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO44_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO44_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO44_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO44_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO44_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO44_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO44_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO44_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO44_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO44_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO44_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO44_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO44_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO44_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO44_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO44_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO44_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO44_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO44_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO44_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO44_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO44_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO44_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO44_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO44_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO44_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO44_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO44_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO44_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO44_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO44_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO44_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO44_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO44_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO44_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO44_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO44_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO44_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO44_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO44_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO44_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO45
+#define PADS_BANK0_GPIO45_OFFSET _u(0x000000b8)
+#define PADS_BANK0_GPIO45_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO45_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO45_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO45_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO45_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO45_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO45_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO45_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO45_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO45_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO45_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO45_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO45_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO45_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO45_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO45_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO45_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO45_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO45_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO45_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO45_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO45_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO45_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO45_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO45_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO45_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO45_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO45_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO45_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO45_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO45_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO45_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO45_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO45_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO45_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO45_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO45_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO45_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO45_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO45_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO45_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO45_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO45_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO45_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO45_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO45_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO45_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO46
+#define PADS_BANK0_GPIO46_OFFSET _u(0x000000bc)
+#define PADS_BANK0_GPIO46_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO46_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO46_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO46_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO46_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO46_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO46_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO46_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO46_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO46_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO46_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO46_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO46_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO46_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO46_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO46_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO46_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO46_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO46_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO46_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO46_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO46_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO46_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO46_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO46_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO46_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO46_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO46_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO46_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO46_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO46_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO46_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO46_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO46_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO46_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO46_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO46_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO46_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO46_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO46_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO46_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO46_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO46_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO46_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO46_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO46_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO46_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_GPIO47
+#define PADS_BANK0_GPIO47_OFFSET _u(0x000000c0)
+#define PADS_BANK0_GPIO47_BITS   _u(0x000001ff)
+#define PADS_BANK0_GPIO47_RESET  _u(0x00000116)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_GPIO47_ISO_RESET  _u(0x1)
+#define PADS_BANK0_GPIO47_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_GPIO47_ISO_MSB    _u(8)
+#define PADS_BANK0_GPIO47_ISO_LSB    _u(8)
+#define PADS_BANK0_GPIO47_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_GPIO47_OD_RESET  _u(0x0)
+#define PADS_BANK0_GPIO47_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_GPIO47_OD_MSB    _u(7)
+#define PADS_BANK0_GPIO47_OD_LSB    _u(7)
+#define PADS_BANK0_GPIO47_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_IE
+// Description : Input enable
+#define PADS_BANK0_GPIO47_IE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO47_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_GPIO47_IE_MSB    _u(6)
+#define PADS_BANK0_GPIO47_IE_LSB    _u(6)
+#define PADS_BANK0_GPIO47_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_GPIO47_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO47_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_GPIO47_DRIVE_MSB    _u(5)
+#define PADS_BANK0_GPIO47_DRIVE_LSB    _u(4)
+#define PADS_BANK0_GPIO47_DRIVE_ACCESS "RW"
+#define PADS_BANK0_GPIO47_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_GPIO47_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_GPIO47_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_GPIO47_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_PUE
+// Description : Pull up enable
+#define PADS_BANK0_GPIO47_PUE_RESET  _u(0x0)
+#define PADS_BANK0_GPIO47_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_GPIO47_PUE_MSB    _u(3)
+#define PADS_BANK0_GPIO47_PUE_LSB    _u(3)
+#define PADS_BANK0_GPIO47_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_PDE
+// Description : Pull down enable
+#define PADS_BANK0_GPIO47_PDE_RESET  _u(0x1)
+#define PADS_BANK0_GPIO47_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_GPIO47_PDE_MSB    _u(2)
+#define PADS_BANK0_GPIO47_PDE_LSB    _u(2)
+#define PADS_BANK0_GPIO47_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_GPIO47_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_GPIO47_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_GPIO47_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_GPIO47_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_GPIO47_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_GPIO47_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_GPIO47_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_GPIO47_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_GPIO47_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_GPIO47_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_GPIO47_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_SWCLK
+#define PADS_BANK0_SWCLK_OFFSET _u(0x000000c4)
+#define PADS_BANK0_SWCLK_BITS   _u(0x000001ff)
+#define PADS_BANK0_SWCLK_RESET  _u(0x0000005a)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_SWCLK_ISO_RESET  _u(0x0)
+#define PADS_BANK0_SWCLK_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_SWCLK_ISO_MSB    _u(8)
+#define PADS_BANK0_SWCLK_ISO_LSB    _u(8)
+#define PADS_BANK0_SWCLK_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_SWCLK_OD_RESET  _u(0x0)
+#define PADS_BANK0_SWCLK_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_SWCLK_OD_MSB    _u(7)
+#define PADS_BANK0_SWCLK_OD_LSB    _u(7)
+#define PADS_BANK0_SWCLK_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_IE
+// Description : Input enable
+#define PADS_BANK0_SWCLK_IE_RESET  _u(0x1)
+#define PADS_BANK0_SWCLK_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_SWCLK_IE_MSB    _u(6)
+#define PADS_BANK0_SWCLK_IE_LSB    _u(6)
+#define PADS_BANK0_SWCLK_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_SWCLK_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_SWCLK_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_SWCLK_DRIVE_MSB    _u(5)
+#define PADS_BANK0_SWCLK_DRIVE_LSB    _u(4)
+#define PADS_BANK0_SWCLK_DRIVE_ACCESS "RW"
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_SWCLK_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_PUE
+// Description : Pull up enable
+#define PADS_BANK0_SWCLK_PUE_RESET  _u(0x1)
+#define PADS_BANK0_SWCLK_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_SWCLK_PUE_MSB    _u(3)
+#define PADS_BANK0_SWCLK_PUE_LSB    _u(3)
+#define PADS_BANK0_SWCLK_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_PDE
+// Description : Pull down enable
+#define PADS_BANK0_SWCLK_PDE_RESET  _u(0x0)
+#define PADS_BANK0_SWCLK_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_SWCLK_PDE_MSB    _u(2)
+#define PADS_BANK0_SWCLK_PDE_LSB    _u(2)
+#define PADS_BANK0_SWCLK_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_SWCLK_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_SWCLK_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_SWCLK_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_SWCLK_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_SWCLK_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWCLK_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_SWCLK_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_SWCLK_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_SWCLK_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_SWCLK_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_SWCLK_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_BANK0_SWD
+#define PADS_BANK0_SWD_OFFSET _u(0x000000c8)
+#define PADS_BANK0_SWD_BITS   _u(0x000001ff)
+#define PADS_BANK0_SWD_RESET  _u(0x0000005a)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_BANK0_SWD_ISO_RESET  _u(0x0)
+#define PADS_BANK0_SWD_ISO_BITS   _u(0x00000100)
+#define PADS_BANK0_SWD_ISO_MSB    _u(8)
+#define PADS_BANK0_SWD_ISO_LSB    _u(8)
+#define PADS_BANK0_SWD_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_BANK0_SWD_OD_RESET  _u(0x0)
+#define PADS_BANK0_SWD_OD_BITS   _u(0x00000080)
+#define PADS_BANK0_SWD_OD_MSB    _u(7)
+#define PADS_BANK0_SWD_OD_LSB    _u(7)
+#define PADS_BANK0_SWD_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_IE
+// Description : Input enable
+#define PADS_BANK0_SWD_IE_RESET  _u(0x1)
+#define PADS_BANK0_SWD_IE_BITS   _u(0x00000040)
+#define PADS_BANK0_SWD_IE_MSB    _u(6)
+#define PADS_BANK0_SWD_IE_LSB    _u(6)
+#define PADS_BANK0_SWD_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_BANK0_SWD_DRIVE_RESET  _u(0x1)
+#define PADS_BANK0_SWD_DRIVE_BITS   _u(0x00000030)
+#define PADS_BANK0_SWD_DRIVE_MSB    _u(5)
+#define PADS_BANK0_SWD_DRIVE_LSB    _u(4)
+#define PADS_BANK0_SWD_DRIVE_ACCESS "RW"
+#define PADS_BANK0_SWD_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_BANK0_SWD_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_BANK0_SWD_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_BANK0_SWD_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_PUE
+// Description : Pull up enable
+#define PADS_BANK0_SWD_PUE_RESET  _u(0x1)
+#define PADS_BANK0_SWD_PUE_BITS   _u(0x00000008)
+#define PADS_BANK0_SWD_PUE_MSB    _u(3)
+#define PADS_BANK0_SWD_PUE_LSB    _u(3)
+#define PADS_BANK0_SWD_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_PDE
+// Description : Pull down enable
+#define PADS_BANK0_SWD_PDE_RESET  _u(0x0)
+#define PADS_BANK0_SWD_PDE_BITS   _u(0x00000004)
+#define PADS_BANK0_SWD_PDE_MSB    _u(2)
+#define PADS_BANK0_SWD_PDE_LSB    _u(2)
+#define PADS_BANK0_SWD_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_BANK0_SWD_SCHMITT_RESET  _u(0x1)
+#define PADS_BANK0_SWD_SCHMITT_BITS   _u(0x00000002)
+#define PADS_BANK0_SWD_SCHMITT_MSB    _u(1)
+#define PADS_BANK0_SWD_SCHMITT_LSB    _u(1)
+#define PADS_BANK0_SWD_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_BANK0_SWD_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_BANK0_SWD_SLEWFAST_RESET  _u(0x0)
+#define PADS_BANK0_SWD_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_BANK0_SWD_SLEWFAST_MSB    _u(0)
+#define PADS_BANK0_SWD_SLEWFAST_LSB    _u(0)
+#define PADS_BANK0_SWD_SLEWFAST_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_PADS_BANK0_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/pads_qspi.h b/lib/pico-sdk/rp2350/hardware/regs/pads_qspi.h
new file mode 100644
index 0000000..5e31fd0
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/pads_qspi.h
@@ -0,0 +1,504 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PADS_QSPI
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_PADS_QSPI_H
+#define _HARDWARE_REGS_PADS_QSPI_H
+// =============================================================================
+// Register    : PADS_QSPI_VOLTAGE_SELECT
+// Description : Voltage select. Per bank control
+//               0x0 -> Set voltage to 3.3V (DVDD >= 2V5)
+//               0x1 -> Set voltage to 1.8V (DVDD <= 1V8)
+#define PADS_QSPI_VOLTAGE_SELECT_OFFSET _u(0x00000000)
+#define PADS_QSPI_VOLTAGE_SELECT_BITS   _u(0x00000001)
+#define PADS_QSPI_VOLTAGE_SELECT_RESET  _u(0x00000000)
+#define PADS_QSPI_VOLTAGE_SELECT_MSB    _u(0)
+#define PADS_QSPI_VOLTAGE_SELECT_LSB    _u(0)
+#define PADS_QSPI_VOLTAGE_SELECT_ACCESS "RW"
+#define PADS_QSPI_VOLTAGE_SELECT_VALUE_3V3 _u(0x0)
+#define PADS_QSPI_VOLTAGE_SELECT_VALUE_1V8 _u(0x1)
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SCLK
+#define PADS_QSPI_GPIO_QSPI_SCLK_OFFSET _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SCLK_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SCLK_RESET  _u(0x00000156)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SCLK_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SCLK_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SCLK_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SCLK_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SCLK_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SCLK_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SCLK_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SCLK_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SCLK_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SCLK_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SCLK_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SCLK_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SCLK_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SCLK_PUE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SCLK_PDE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SCLK_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SCLK_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SD0
+#define PADS_QSPI_GPIO_QSPI_SD0_OFFSET _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SD0_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SD0_RESET  _u(0x00000156)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SD0_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SD0_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD0_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD0_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SD0_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD0_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SD0_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD0_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD0_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SD0_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SD0_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD0_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD0_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD0_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SD0_PUE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD0_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SD0_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD0_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD0_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SD0_PDE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SD0_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD0_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD0_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SD0_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD0_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SD0_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD0_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD0_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD0_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SD1
+#define PADS_QSPI_GPIO_QSPI_SD1_OFFSET _u(0x0000000c)
+#define PADS_QSPI_GPIO_QSPI_SD1_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SD1_RESET  _u(0x00000156)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SD1_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SD1_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD1_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD1_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SD1_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD1_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SD1_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD1_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD1_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SD1_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SD1_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD1_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD1_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD1_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SD1_PUE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD1_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SD1_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD1_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD1_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SD1_PDE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SD1_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD1_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD1_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SD1_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD1_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SD1_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD1_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD1_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD1_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SD2
+#define PADS_QSPI_GPIO_QSPI_SD2_OFFSET _u(0x00000010)
+#define PADS_QSPI_GPIO_QSPI_SD2_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SD2_RESET  _u(0x0000015a)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SD2_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SD2_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD2_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD2_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SD2_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD2_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SD2_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD2_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD2_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SD2_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SD2_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD2_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD2_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD2_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SD2_PUE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SD2_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD2_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD2_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SD2_PDE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD2_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SD2_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD2_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD2_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SD2_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD2_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SD2_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD2_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD2_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD2_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SD3
+#define PADS_QSPI_GPIO_QSPI_SD3_OFFSET _u(0x00000014)
+#define PADS_QSPI_GPIO_QSPI_SD3_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SD3_RESET  _u(0x0000015a)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SD3_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SD3_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD3_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SD3_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SD3_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD3_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SD3_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD3_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SD3_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SD3_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SD3_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD3_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SD3_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SD3_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SD3_PUE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SD3_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD3_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SD3_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SD3_PDE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD3_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SD3_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD3_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SD3_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SD3_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SD3_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SD3_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD3_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SD3_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SD3_SLEWFAST_ACCESS "RW"
+// =============================================================================
+// Register    : PADS_QSPI_GPIO_QSPI_SS
+#define PADS_QSPI_GPIO_QSPI_SS_OFFSET _u(0x00000018)
+#define PADS_QSPI_GPIO_QSPI_SS_BITS   _u(0x000001ff)
+#define PADS_QSPI_GPIO_QSPI_SS_RESET  _u(0x0000015a)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_ISO
+// Description : Pad isolation control. Remove this once the pad is configured
+//               by software.
+#define PADS_QSPI_GPIO_QSPI_SS_ISO_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_ISO_BITS   _u(0x00000100)
+#define PADS_QSPI_GPIO_QSPI_SS_ISO_MSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SS_ISO_LSB    _u(8)
+#define PADS_QSPI_GPIO_QSPI_SS_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_OD
+// Description : Output disable. Has priority over output enable from
+//               peripherals
+#define PADS_QSPI_GPIO_QSPI_SS_OD_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SS_OD_BITS   _u(0x00000080)
+#define PADS_QSPI_GPIO_QSPI_SS_OD_MSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SS_OD_LSB    _u(7)
+#define PADS_QSPI_GPIO_QSPI_SS_OD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_IE
+// Description : Input enable
+#define PADS_QSPI_GPIO_QSPI_SS_IE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_IE_BITS   _u(0x00000040)
+#define PADS_QSPI_GPIO_QSPI_SS_IE_MSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SS_IE_LSB    _u(6)
+#define PADS_QSPI_GPIO_QSPI_SS_IE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_DRIVE
+// Description : Drive strength.
+//               0x0 -> 2mA
+//               0x1 -> 4mA
+//               0x2 -> 8mA
+//               0x3 -> 12mA
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_BITS   _u(0x00000030)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_MSB    _u(5)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_LSB    _u(4)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_ACCESS "RW"
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_2MA _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_4MA _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_8MA _u(0x2)
+#define PADS_QSPI_GPIO_QSPI_SS_DRIVE_VALUE_12MA _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_PUE
+// Description : Pull up enable
+#define PADS_QSPI_GPIO_QSPI_SS_PUE_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_PUE_BITS   _u(0x00000008)
+#define PADS_QSPI_GPIO_QSPI_SS_PUE_MSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SS_PUE_LSB    _u(3)
+#define PADS_QSPI_GPIO_QSPI_SS_PUE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_PDE
+// Description : Pull down enable
+#define PADS_QSPI_GPIO_QSPI_SS_PDE_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SS_PDE_BITS   _u(0x00000004)
+#define PADS_QSPI_GPIO_QSPI_SS_PDE_MSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SS_PDE_LSB    _u(2)
+#define PADS_QSPI_GPIO_QSPI_SS_PDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_SCHMITT
+// Description : Enable schmitt trigger
+#define PADS_QSPI_GPIO_QSPI_SS_SCHMITT_RESET  _u(0x1)
+#define PADS_QSPI_GPIO_QSPI_SS_SCHMITT_BITS   _u(0x00000002)
+#define PADS_QSPI_GPIO_QSPI_SS_SCHMITT_MSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SS_SCHMITT_LSB    _u(1)
+#define PADS_QSPI_GPIO_QSPI_SS_SCHMITT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PADS_QSPI_GPIO_QSPI_SS_SLEWFAST
+// Description : Slew rate control. 1 = Fast, 0 = Slow
+#define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_RESET  _u(0x0)
+#define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_BITS   _u(0x00000001)
+#define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_MSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_LSB    _u(0)
+#define PADS_QSPI_GPIO_QSPI_SS_SLEWFAST_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_PADS_QSPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/pio.h b/lib/pico-sdk/rp2350/hardware/regs/pio.h
new file mode 100644
index 0000000..4a18b5c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/pio.h
@@ -0,0 +1,3417 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PIO
+// Version        : 1
+// Bus type       : ahbl
+// Description    : Programmable IO block
+// =============================================================================
+#ifndef _HARDWARE_REGS_PIO_H
+#define _HARDWARE_REGS_PIO_H
+// =============================================================================
+// Register    : PIO_CTRL
+// Description : PIO control register
+#define PIO_CTRL_OFFSET _u(0x00000000)
+#define PIO_CTRL_BITS   _u(0x07ff0fff)
+#define PIO_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_NEXTPREV_CLKDIV_RESTART
+// Description : Write 1 to restart the clock dividers of state machines in
+//               neighbouring PIO blocks, as specified by NEXT_PIO_MASK and
+//               PREV_PIO_MASK in the same write.
+//
+//               This is equivalent to writing 1 to the corresponding
+//               CLKDIV_RESTART bits in those PIOs' CTRL registers.
+#define PIO_CTRL_NEXTPREV_CLKDIV_RESTART_RESET  _u(0x0)
+#define PIO_CTRL_NEXTPREV_CLKDIV_RESTART_BITS   _u(0x04000000)
+#define PIO_CTRL_NEXTPREV_CLKDIV_RESTART_MSB    _u(26)
+#define PIO_CTRL_NEXTPREV_CLKDIV_RESTART_LSB    _u(26)
+#define PIO_CTRL_NEXTPREV_CLKDIV_RESTART_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_NEXTPREV_SM_DISABLE
+// Description : Write 1 to disable state machines in neighbouring PIO blocks,
+//               as specified by NEXT_PIO_MASK and PREV_PIO_MASK in the same
+//               write.
+//
+//               This is equivalent to clearing the corresponding SM_ENABLE bits
+//               in those PIOs' CTRL registers.
+#define PIO_CTRL_NEXTPREV_SM_DISABLE_RESET  _u(0x0)
+#define PIO_CTRL_NEXTPREV_SM_DISABLE_BITS   _u(0x02000000)
+#define PIO_CTRL_NEXTPREV_SM_DISABLE_MSB    _u(25)
+#define PIO_CTRL_NEXTPREV_SM_DISABLE_LSB    _u(25)
+#define PIO_CTRL_NEXTPREV_SM_DISABLE_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_NEXTPREV_SM_ENABLE
+// Description : Write 1 to enable state machines in neighbouring PIO blocks, as
+//               specified by NEXT_PIO_MASK and PREV_PIO_MASK in the same write.
+//
+//               This is equivalent to setting the corresponding SM_ENABLE bits
+//               in those PIOs' CTRL registers.
+//
+//               If both OTHERS_SM_ENABLE and OTHERS_SM_DISABLE are set, the
+//               disable takes precedence.
+#define PIO_CTRL_NEXTPREV_SM_ENABLE_RESET  _u(0x0)
+#define PIO_CTRL_NEXTPREV_SM_ENABLE_BITS   _u(0x01000000)
+#define PIO_CTRL_NEXTPREV_SM_ENABLE_MSB    _u(24)
+#define PIO_CTRL_NEXTPREV_SM_ENABLE_LSB    _u(24)
+#define PIO_CTRL_NEXTPREV_SM_ENABLE_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_NEXT_PIO_MASK
+// Description : A mask of state machines in the neighbouring higher-numbered
+//               PIO block in the system (or PIO block 0 if this is the highest-
+//               numbered PIO block) to which to apply the operations specified
+//               by NEXTPREV_CLKDIV_RESTART, NEXTPREV_SM_ENABLE, and
+//               NEXTPREV_SM_DISABLE in the same write.
+//
+//               This allows state machines in a neighbouring PIO block to be
+//               started/stopped/clock-synced exactly simultaneously with a
+//               write to this PIO block's CTRL register.
+//
+//               Note that in a system with two PIOs, NEXT_PIO_MASK and
+//               PREV_PIO_MASK actually indicate the same PIO block. In this
+//               case the effects are applied cumulatively (as though the masks
+//               were OR'd together).
+//
+//               Neighbouring PIO blocks are disconnected (status signals tied
+//               to 0 and control signals ignored) if one block is accessible to
+//               NonSecure code, and one is not.
+#define PIO_CTRL_NEXT_PIO_MASK_RESET  _u(0x0)
+#define PIO_CTRL_NEXT_PIO_MASK_BITS   _u(0x00f00000)
+#define PIO_CTRL_NEXT_PIO_MASK_MSB    _u(23)
+#define PIO_CTRL_NEXT_PIO_MASK_LSB    _u(20)
+#define PIO_CTRL_NEXT_PIO_MASK_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_PREV_PIO_MASK
+// Description : A mask of state machines in the neighbouring lower-numbered PIO
+//               block in the system (or the highest-numbered PIO block if this
+//               is PIO block 0) to which to apply the operations specified by
+//               OP_CLKDIV_RESTART, OP_ENABLE, OP_DISABLE in the same write.
+//
+//               This allows state machines in a neighbouring PIO block to be
+//               started/stopped/clock-synced exactly simultaneously with a
+//               write to this PIO block's CTRL register.
+//
+//               Neighbouring PIO blocks are disconnected (status signals tied
+//               to 0 and control signals ignored) if one block is accessible to
+//               NonSecure code, and one is not.
+#define PIO_CTRL_PREV_PIO_MASK_RESET  _u(0x0)
+#define PIO_CTRL_PREV_PIO_MASK_BITS   _u(0x000f0000)
+#define PIO_CTRL_PREV_PIO_MASK_MSB    _u(19)
+#define PIO_CTRL_PREV_PIO_MASK_LSB    _u(16)
+#define PIO_CTRL_PREV_PIO_MASK_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_CLKDIV_RESTART
+// Description : Restart a state machine's clock divider from an initial phase
+//               of 0. Clock dividers are free-running, so once started, their
+//               output (including fractional jitter) is completely determined
+//               by the integer/fractional divisor configured in SMx_CLKDIV.
+//               This means that, if multiple clock dividers with the same
+//               divisor are restarted simultaneously, by writing multiple 1
+//               bits to this field, the execution clocks of those state
+//               machines will run in precise lockstep.
+//
+//               Note that setting/clearing SM_ENABLE does not stop the clock
+//               divider from running, so once multiple state machines' clocks
+//               are synchronised, it is safe to disable/reenable a state
+//               machine, whilst keeping the clock dividers in sync.
+//
+//               Note also that CLKDIV_RESTART can be written to whilst the
+//               state machine is running, and this is useful to resynchronise
+//               clock dividers after the divisors (SMx_CLKDIV) have been
+//               changed on-the-fly.
+#define PIO_CTRL_CLKDIV_RESTART_RESET  _u(0x0)
+#define PIO_CTRL_CLKDIV_RESTART_BITS   _u(0x00000f00)
+#define PIO_CTRL_CLKDIV_RESTART_MSB    _u(11)
+#define PIO_CTRL_CLKDIV_RESTART_LSB    _u(8)
+#define PIO_CTRL_CLKDIV_RESTART_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_SM_RESTART
+// Description : Write 1 to instantly clear internal SM state which may be
+//               otherwise difficult to access and will affect future execution.
+//
+//               Specifically, the following are cleared: input and output shift
+//               counters; the contents of the input shift register; the delay
+//               counter; the waiting-on-IRQ state; any stalled instruction
+//               written to SMx_INSTR or run by OUT/MOV EXEC; any pin write left
+//               asserted due to OUT_STICKY.
+//
+//               The contents of the output shift register and the X/Y scratch
+//               registers are not affected.
+#define PIO_CTRL_SM_RESTART_RESET  _u(0x0)
+#define PIO_CTRL_SM_RESTART_BITS   _u(0x000000f0)
+#define PIO_CTRL_SM_RESTART_MSB    _u(7)
+#define PIO_CTRL_SM_RESTART_LSB    _u(4)
+#define PIO_CTRL_SM_RESTART_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_CTRL_SM_ENABLE
+// Description : Enable/disable each of the four state machines by writing 1/0
+//               to each of these four bits. When disabled, a state machine will
+//               cease executing instructions, except those written directly to
+//               SMx_INSTR by the system. Multiple bits can be set/cleared at
+//               once to run/halt multiple state machines simultaneously.
+#define PIO_CTRL_SM_ENABLE_RESET  _u(0x0)
+#define PIO_CTRL_SM_ENABLE_BITS   _u(0x0000000f)
+#define PIO_CTRL_SM_ENABLE_MSB    _u(3)
+#define PIO_CTRL_SM_ENABLE_LSB    _u(0)
+#define PIO_CTRL_SM_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_FSTAT
+// Description : FIFO status register
+#define PIO_FSTAT_OFFSET _u(0x00000004)
+#define PIO_FSTAT_BITS   _u(0x0f0f0f0f)
+#define PIO_FSTAT_RESET  _u(0x0f000f00)
+// -----------------------------------------------------------------------------
+// Field       : PIO_FSTAT_TXEMPTY
+// Description : State machine TX FIFO is empty
+#define PIO_FSTAT_TXEMPTY_RESET  _u(0xf)
+#define PIO_FSTAT_TXEMPTY_BITS   _u(0x0f000000)
+#define PIO_FSTAT_TXEMPTY_MSB    _u(27)
+#define PIO_FSTAT_TXEMPTY_LSB    _u(24)
+#define PIO_FSTAT_TXEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FSTAT_TXFULL
+// Description : State machine TX FIFO is full
+#define PIO_FSTAT_TXFULL_RESET  _u(0x0)
+#define PIO_FSTAT_TXFULL_BITS   _u(0x000f0000)
+#define PIO_FSTAT_TXFULL_MSB    _u(19)
+#define PIO_FSTAT_TXFULL_LSB    _u(16)
+#define PIO_FSTAT_TXFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FSTAT_RXEMPTY
+// Description : State machine RX FIFO is empty
+#define PIO_FSTAT_RXEMPTY_RESET  _u(0xf)
+#define PIO_FSTAT_RXEMPTY_BITS   _u(0x00000f00)
+#define PIO_FSTAT_RXEMPTY_MSB    _u(11)
+#define PIO_FSTAT_RXEMPTY_LSB    _u(8)
+#define PIO_FSTAT_RXEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FSTAT_RXFULL
+// Description : State machine RX FIFO is full
+#define PIO_FSTAT_RXFULL_RESET  _u(0x0)
+#define PIO_FSTAT_RXFULL_BITS   _u(0x0000000f)
+#define PIO_FSTAT_RXFULL_MSB    _u(3)
+#define PIO_FSTAT_RXFULL_LSB    _u(0)
+#define PIO_FSTAT_RXFULL_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_FDEBUG
+// Description : FIFO debug register
+#define PIO_FDEBUG_OFFSET _u(0x00000008)
+#define PIO_FDEBUG_BITS   _u(0x0f0f0f0f)
+#define PIO_FDEBUG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_FDEBUG_TXSTALL
+// Description : State machine has stalled on empty TX FIFO during a blocking
+//               PULL, or an OUT with autopull enabled. Write 1 to clear.
+#define PIO_FDEBUG_TXSTALL_RESET  _u(0x0)
+#define PIO_FDEBUG_TXSTALL_BITS   _u(0x0f000000)
+#define PIO_FDEBUG_TXSTALL_MSB    _u(27)
+#define PIO_FDEBUG_TXSTALL_LSB    _u(24)
+#define PIO_FDEBUG_TXSTALL_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FDEBUG_TXOVER
+// Description : TX FIFO overflow (i.e. write-on-full by the system) has
+//               occurred. Write 1 to clear. Note that write-on-full does not
+//               alter the state or contents of the FIFO in any way, but the
+//               data that the system attempted to write is dropped, so if this
+//               flag is set, your software has quite likely dropped some data
+//               on the floor.
+#define PIO_FDEBUG_TXOVER_RESET  _u(0x0)
+#define PIO_FDEBUG_TXOVER_BITS   _u(0x000f0000)
+#define PIO_FDEBUG_TXOVER_MSB    _u(19)
+#define PIO_FDEBUG_TXOVER_LSB    _u(16)
+#define PIO_FDEBUG_TXOVER_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FDEBUG_RXUNDER
+// Description : RX FIFO underflow (i.e. read-on-empty by the system) has
+//               occurred. Write 1 to clear. Note that read-on-empty does not
+//               perturb the state of the FIFO in any way, but the data returned
+//               by reading from an empty FIFO is undefined, so this flag
+//               generally only becomes set due to some kind of software error.
+#define PIO_FDEBUG_RXUNDER_RESET  _u(0x0)
+#define PIO_FDEBUG_RXUNDER_BITS   _u(0x00000f00)
+#define PIO_FDEBUG_RXUNDER_MSB    _u(11)
+#define PIO_FDEBUG_RXUNDER_LSB    _u(8)
+#define PIO_FDEBUG_RXUNDER_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FDEBUG_RXSTALL
+// Description : State machine has stalled on full RX FIFO during a blocking
+//               PUSH, or an IN with autopush enabled. This flag is also set
+//               when a nonblocking PUSH to a full FIFO took place, in which
+//               case the state machine has dropped data. Write 1 to clear.
+#define PIO_FDEBUG_RXSTALL_RESET  _u(0x0)
+#define PIO_FDEBUG_RXSTALL_BITS   _u(0x0000000f)
+#define PIO_FDEBUG_RXSTALL_MSB    _u(3)
+#define PIO_FDEBUG_RXSTALL_LSB    _u(0)
+#define PIO_FDEBUG_RXSTALL_ACCESS "WC"
+// =============================================================================
+// Register    : PIO_FLEVEL
+// Description : FIFO levels
+#define PIO_FLEVEL_OFFSET _u(0x0000000c)
+#define PIO_FLEVEL_BITS   _u(0xffffffff)
+#define PIO_FLEVEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_RX3
+#define PIO_FLEVEL_RX3_RESET  _u(0x0)
+#define PIO_FLEVEL_RX3_BITS   _u(0xf0000000)
+#define PIO_FLEVEL_RX3_MSB    _u(31)
+#define PIO_FLEVEL_RX3_LSB    _u(28)
+#define PIO_FLEVEL_RX3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_TX3
+#define PIO_FLEVEL_TX3_RESET  _u(0x0)
+#define PIO_FLEVEL_TX3_BITS   _u(0x0f000000)
+#define PIO_FLEVEL_TX3_MSB    _u(27)
+#define PIO_FLEVEL_TX3_LSB    _u(24)
+#define PIO_FLEVEL_TX3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_RX2
+#define PIO_FLEVEL_RX2_RESET  _u(0x0)
+#define PIO_FLEVEL_RX2_BITS   _u(0x00f00000)
+#define PIO_FLEVEL_RX2_MSB    _u(23)
+#define PIO_FLEVEL_RX2_LSB    _u(20)
+#define PIO_FLEVEL_RX2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_TX2
+#define PIO_FLEVEL_TX2_RESET  _u(0x0)
+#define PIO_FLEVEL_TX2_BITS   _u(0x000f0000)
+#define PIO_FLEVEL_TX2_MSB    _u(19)
+#define PIO_FLEVEL_TX2_LSB    _u(16)
+#define PIO_FLEVEL_TX2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_RX1
+#define PIO_FLEVEL_RX1_RESET  _u(0x0)
+#define PIO_FLEVEL_RX1_BITS   _u(0x0000f000)
+#define PIO_FLEVEL_RX1_MSB    _u(15)
+#define PIO_FLEVEL_RX1_LSB    _u(12)
+#define PIO_FLEVEL_RX1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_TX1
+#define PIO_FLEVEL_TX1_RESET  _u(0x0)
+#define PIO_FLEVEL_TX1_BITS   _u(0x00000f00)
+#define PIO_FLEVEL_TX1_MSB    _u(11)
+#define PIO_FLEVEL_TX1_LSB    _u(8)
+#define PIO_FLEVEL_TX1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_RX0
+#define PIO_FLEVEL_RX0_RESET  _u(0x0)
+#define PIO_FLEVEL_RX0_BITS   _u(0x000000f0)
+#define PIO_FLEVEL_RX0_MSB    _u(7)
+#define PIO_FLEVEL_RX0_LSB    _u(4)
+#define PIO_FLEVEL_RX0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_FLEVEL_TX0
+#define PIO_FLEVEL_TX0_RESET  _u(0x0)
+#define PIO_FLEVEL_TX0_BITS   _u(0x0000000f)
+#define PIO_FLEVEL_TX0_MSB    _u(3)
+#define PIO_FLEVEL_TX0_LSB    _u(0)
+#define PIO_FLEVEL_TX0_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_TXF0
+// Description : Direct write access to the TX FIFO for this state machine. Each
+//               write pushes one word to the FIFO. Attempting to write to a
+//               full FIFO has no effect on the FIFO state or contents, and sets
+//               the sticky FDEBUG_TXOVER error flag for this FIFO.
+#define PIO_TXF0_OFFSET _u(0x00000010)
+#define PIO_TXF0_BITS   _u(0xffffffff)
+#define PIO_TXF0_RESET  _u(0x00000000)
+#define PIO_TXF0_MSB    _u(31)
+#define PIO_TXF0_LSB    _u(0)
+#define PIO_TXF0_ACCESS "WF"
+// =============================================================================
+// Register    : PIO_TXF1
+// Description : Direct write access to the TX FIFO for this state machine. Each
+//               write pushes one word to the FIFO. Attempting to write to a
+//               full FIFO has no effect on the FIFO state or contents, and sets
+//               the sticky FDEBUG_TXOVER error flag for this FIFO.
+#define PIO_TXF1_OFFSET _u(0x00000014)
+#define PIO_TXF1_BITS   _u(0xffffffff)
+#define PIO_TXF1_RESET  _u(0x00000000)
+#define PIO_TXF1_MSB    _u(31)
+#define PIO_TXF1_LSB    _u(0)
+#define PIO_TXF1_ACCESS "WF"
+// =============================================================================
+// Register    : PIO_TXF2
+// Description : Direct write access to the TX FIFO for this state machine. Each
+//               write pushes one word to the FIFO. Attempting to write to a
+//               full FIFO has no effect on the FIFO state or contents, and sets
+//               the sticky FDEBUG_TXOVER error flag for this FIFO.
+#define PIO_TXF2_OFFSET _u(0x00000018)
+#define PIO_TXF2_BITS   _u(0xffffffff)
+#define PIO_TXF2_RESET  _u(0x00000000)
+#define PIO_TXF2_MSB    _u(31)
+#define PIO_TXF2_LSB    _u(0)
+#define PIO_TXF2_ACCESS "WF"
+// =============================================================================
+// Register    : PIO_TXF3
+// Description : Direct write access to the TX FIFO for this state machine. Each
+//               write pushes one word to the FIFO. Attempting to write to a
+//               full FIFO has no effect on the FIFO state or contents, and sets
+//               the sticky FDEBUG_TXOVER error flag for this FIFO.
+#define PIO_TXF3_OFFSET _u(0x0000001c)
+#define PIO_TXF3_BITS   _u(0xffffffff)
+#define PIO_TXF3_RESET  _u(0x00000000)
+#define PIO_TXF3_MSB    _u(31)
+#define PIO_TXF3_LSB    _u(0)
+#define PIO_TXF3_ACCESS "WF"
+// =============================================================================
+// Register    : PIO_RXF0
+// Description : Direct read access to the RX FIFO for this state machine. Each
+//               read pops one word from the FIFO. Attempting to read from an
+//               empty FIFO has no effect on the FIFO state, and sets the sticky
+//               FDEBUG_RXUNDER error flag for this FIFO. The data returned to
+//               the system on a read from an empty FIFO is undefined.
+#define PIO_RXF0_OFFSET _u(0x00000020)
+#define PIO_RXF0_BITS   _u(0xffffffff)
+#define PIO_RXF0_RESET  "-"
+#define PIO_RXF0_MSB    _u(31)
+#define PIO_RXF0_LSB    _u(0)
+#define PIO_RXF0_ACCESS "RF"
+// =============================================================================
+// Register    : PIO_RXF1
+// Description : Direct read access to the RX FIFO for this state machine. Each
+//               read pops one word from the FIFO. Attempting to read from an
+//               empty FIFO has no effect on the FIFO state, and sets the sticky
+//               FDEBUG_RXUNDER error flag for this FIFO. The data returned to
+//               the system on a read from an empty FIFO is undefined.
+#define PIO_RXF1_OFFSET _u(0x00000024)
+#define PIO_RXF1_BITS   _u(0xffffffff)
+#define PIO_RXF1_RESET  "-"
+#define PIO_RXF1_MSB    _u(31)
+#define PIO_RXF1_LSB    _u(0)
+#define PIO_RXF1_ACCESS "RF"
+// =============================================================================
+// Register    : PIO_RXF2
+// Description : Direct read access to the RX FIFO for this state machine. Each
+//               read pops one word from the FIFO. Attempting to read from an
+//               empty FIFO has no effect on the FIFO state, and sets the sticky
+//               FDEBUG_RXUNDER error flag for this FIFO. The data returned to
+//               the system on a read from an empty FIFO is undefined.
+#define PIO_RXF2_OFFSET _u(0x00000028)
+#define PIO_RXF2_BITS   _u(0xffffffff)
+#define PIO_RXF2_RESET  "-"
+#define PIO_RXF2_MSB    _u(31)
+#define PIO_RXF2_LSB    _u(0)
+#define PIO_RXF2_ACCESS "RF"
+// =============================================================================
+// Register    : PIO_RXF3
+// Description : Direct read access to the RX FIFO for this state machine. Each
+//               read pops one word from the FIFO. Attempting to read from an
+//               empty FIFO has no effect on the FIFO state, and sets the sticky
+//               FDEBUG_RXUNDER error flag for this FIFO. The data returned to
+//               the system on a read from an empty FIFO is undefined.
+#define PIO_RXF3_OFFSET _u(0x0000002c)
+#define PIO_RXF3_BITS   _u(0xffffffff)
+#define PIO_RXF3_RESET  "-"
+#define PIO_RXF3_MSB    _u(31)
+#define PIO_RXF3_LSB    _u(0)
+#define PIO_RXF3_ACCESS "RF"
+// =============================================================================
+// Register    : PIO_IRQ
+// Description : State machine IRQ flags register. Write 1 to clear. There are
+//               eight state machine IRQ flags, which can be set, cleared, and
+//               waited on by the state machines. There's no fixed association
+//               between flags and state machines -- any state machine can use
+//               any flag.
+//
+//               Any of the eight flags can be used for timing synchronisation
+//               between state machines, using IRQ and WAIT instructions. Any
+//               combination of the eight flags can also routed out to either of
+//               the two system-level interrupt requests, alongside FIFO status
+//               interrupts -- see e.g. IRQ0_INTE.
+#define PIO_IRQ_OFFSET _u(0x00000030)
+#define PIO_IRQ_BITS   _u(0x000000ff)
+#define PIO_IRQ_RESET  _u(0x00000000)
+#define PIO_IRQ_MSB    _u(7)
+#define PIO_IRQ_LSB    _u(0)
+#define PIO_IRQ_ACCESS "WC"
+// =============================================================================
+// Register    : PIO_IRQ_FORCE
+// Description : Writing a 1 to each of these bits will forcibly assert the
+//               corresponding IRQ. Note this is different to the INTF register:
+//               writing here affects PIO internal state. INTF just asserts the
+//               processor-facing IRQ signal for testing ISRs, and is not
+//               visible to the state machines.
+#define PIO_IRQ_FORCE_OFFSET _u(0x00000034)
+#define PIO_IRQ_FORCE_BITS   _u(0x000000ff)
+#define PIO_IRQ_FORCE_RESET  _u(0x00000000)
+#define PIO_IRQ_FORCE_MSB    _u(7)
+#define PIO_IRQ_FORCE_LSB    _u(0)
+#define PIO_IRQ_FORCE_ACCESS "WF"
+// =============================================================================
+// Register    : PIO_INPUT_SYNC_BYPASS
+// Description : There is a 2-flipflop synchronizer on each GPIO input, which
+//               protects PIO logic from metastabilities. This increases input
+//               delay, and for fast synchronous IO (e.g. SPI) these
+//               synchronizers may need to be bypassed. Each bit in this
+//               register corresponds to one GPIO.
+//               0 -> input is synchronized (default)
+//               1 -> synchronizer is bypassed
+//               If in doubt, leave this register as all zeroes.
+#define PIO_INPUT_SYNC_BYPASS_OFFSET _u(0x00000038)
+#define PIO_INPUT_SYNC_BYPASS_BITS   _u(0xffffffff)
+#define PIO_INPUT_SYNC_BYPASS_RESET  _u(0x00000000)
+#define PIO_INPUT_SYNC_BYPASS_MSB    _u(31)
+#define PIO_INPUT_SYNC_BYPASS_LSB    _u(0)
+#define PIO_INPUT_SYNC_BYPASS_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_DBG_PADOUT
+// Description : Read to sample the pad output values PIO is currently driving
+//               to the GPIOs. On RP2040 there are 30 GPIOs, so the two most
+//               significant bits are hardwired to 0.
+#define PIO_DBG_PADOUT_OFFSET _u(0x0000003c)
+#define PIO_DBG_PADOUT_BITS   _u(0xffffffff)
+#define PIO_DBG_PADOUT_RESET  _u(0x00000000)
+#define PIO_DBG_PADOUT_MSB    _u(31)
+#define PIO_DBG_PADOUT_LSB    _u(0)
+#define PIO_DBG_PADOUT_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_DBG_PADOE
+// Description : Read to sample the pad output enables (direction) PIO is
+//               currently driving to the GPIOs. On RP2040 there are 30 GPIOs,
+//               so the two most significant bits are hardwired to 0.
+#define PIO_DBG_PADOE_OFFSET _u(0x00000040)
+#define PIO_DBG_PADOE_BITS   _u(0xffffffff)
+#define PIO_DBG_PADOE_RESET  _u(0x00000000)
+#define PIO_DBG_PADOE_MSB    _u(31)
+#define PIO_DBG_PADOE_LSB    _u(0)
+#define PIO_DBG_PADOE_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_DBG_CFGINFO
+// Description : The PIO hardware has some free parameters that may vary between
+//               chip products.
+//               These should be provided in the chip datasheet, but are also
+//               exposed here.
+#define PIO_DBG_CFGINFO_OFFSET _u(0x00000044)
+#define PIO_DBG_CFGINFO_BITS   _u(0xf03f0f3f)
+#define PIO_DBG_CFGINFO_RESET  _u(0x10000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_DBG_CFGINFO_VERSION
+// Description : Version of the core PIO hardware.
+//               0x0 -> Version 0 (RP2040)
+//               0x1 -> Version 1 (RP2350)
+#define PIO_DBG_CFGINFO_VERSION_RESET  _u(0x1)
+#define PIO_DBG_CFGINFO_VERSION_BITS   _u(0xf0000000)
+#define PIO_DBG_CFGINFO_VERSION_MSB    _u(31)
+#define PIO_DBG_CFGINFO_VERSION_LSB    _u(28)
+#define PIO_DBG_CFGINFO_VERSION_ACCESS "RO"
+#define PIO_DBG_CFGINFO_VERSION_VALUE_V0 _u(0x0)
+#define PIO_DBG_CFGINFO_VERSION_VALUE_V1 _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : PIO_DBG_CFGINFO_IMEM_SIZE
+// Description : The size of the instruction memory, measured in units of one
+//               instruction
+#define PIO_DBG_CFGINFO_IMEM_SIZE_RESET  "-"
+#define PIO_DBG_CFGINFO_IMEM_SIZE_BITS   _u(0x003f0000)
+#define PIO_DBG_CFGINFO_IMEM_SIZE_MSB    _u(21)
+#define PIO_DBG_CFGINFO_IMEM_SIZE_LSB    _u(16)
+#define PIO_DBG_CFGINFO_IMEM_SIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_DBG_CFGINFO_SM_COUNT
+// Description : The number of state machines this PIO instance is equipped
+//               with.
+#define PIO_DBG_CFGINFO_SM_COUNT_RESET  "-"
+#define PIO_DBG_CFGINFO_SM_COUNT_BITS   _u(0x00000f00)
+#define PIO_DBG_CFGINFO_SM_COUNT_MSB    _u(11)
+#define PIO_DBG_CFGINFO_SM_COUNT_LSB    _u(8)
+#define PIO_DBG_CFGINFO_SM_COUNT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_DBG_CFGINFO_FIFO_DEPTH
+// Description : The depth of the state machine TX/RX FIFOs, measured in words.
+//               Joining fifos via SHIFTCTRL_FJOIN gives one FIFO with double
+//               this depth.
+#define PIO_DBG_CFGINFO_FIFO_DEPTH_RESET  "-"
+#define PIO_DBG_CFGINFO_FIFO_DEPTH_BITS   _u(0x0000003f)
+#define PIO_DBG_CFGINFO_FIFO_DEPTH_MSB    _u(5)
+#define PIO_DBG_CFGINFO_FIFO_DEPTH_LSB    _u(0)
+#define PIO_DBG_CFGINFO_FIFO_DEPTH_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM0
+// Description : Write-only access to instruction memory location 0
+#define PIO_INSTR_MEM0_OFFSET _u(0x00000048)
+#define PIO_INSTR_MEM0_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM0_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM0_MSB    _u(15)
+#define PIO_INSTR_MEM0_LSB    _u(0)
+#define PIO_INSTR_MEM0_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM1
+// Description : Write-only access to instruction memory location 1
+#define PIO_INSTR_MEM1_OFFSET _u(0x0000004c)
+#define PIO_INSTR_MEM1_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM1_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM1_MSB    _u(15)
+#define PIO_INSTR_MEM1_LSB    _u(0)
+#define PIO_INSTR_MEM1_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM2
+// Description : Write-only access to instruction memory location 2
+#define PIO_INSTR_MEM2_OFFSET _u(0x00000050)
+#define PIO_INSTR_MEM2_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM2_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM2_MSB    _u(15)
+#define PIO_INSTR_MEM2_LSB    _u(0)
+#define PIO_INSTR_MEM2_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM3
+// Description : Write-only access to instruction memory location 3
+#define PIO_INSTR_MEM3_OFFSET _u(0x00000054)
+#define PIO_INSTR_MEM3_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM3_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM3_MSB    _u(15)
+#define PIO_INSTR_MEM3_LSB    _u(0)
+#define PIO_INSTR_MEM3_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM4
+// Description : Write-only access to instruction memory location 4
+#define PIO_INSTR_MEM4_OFFSET _u(0x00000058)
+#define PIO_INSTR_MEM4_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM4_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM4_MSB    _u(15)
+#define PIO_INSTR_MEM4_LSB    _u(0)
+#define PIO_INSTR_MEM4_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM5
+// Description : Write-only access to instruction memory location 5
+#define PIO_INSTR_MEM5_OFFSET _u(0x0000005c)
+#define PIO_INSTR_MEM5_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM5_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM5_MSB    _u(15)
+#define PIO_INSTR_MEM5_LSB    _u(0)
+#define PIO_INSTR_MEM5_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM6
+// Description : Write-only access to instruction memory location 6
+#define PIO_INSTR_MEM6_OFFSET _u(0x00000060)
+#define PIO_INSTR_MEM6_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM6_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM6_MSB    _u(15)
+#define PIO_INSTR_MEM6_LSB    _u(0)
+#define PIO_INSTR_MEM6_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM7
+// Description : Write-only access to instruction memory location 7
+#define PIO_INSTR_MEM7_OFFSET _u(0x00000064)
+#define PIO_INSTR_MEM7_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM7_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM7_MSB    _u(15)
+#define PIO_INSTR_MEM7_LSB    _u(0)
+#define PIO_INSTR_MEM7_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM8
+// Description : Write-only access to instruction memory location 8
+#define PIO_INSTR_MEM8_OFFSET _u(0x00000068)
+#define PIO_INSTR_MEM8_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM8_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM8_MSB    _u(15)
+#define PIO_INSTR_MEM8_LSB    _u(0)
+#define PIO_INSTR_MEM8_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM9
+// Description : Write-only access to instruction memory location 9
+#define PIO_INSTR_MEM9_OFFSET _u(0x0000006c)
+#define PIO_INSTR_MEM9_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM9_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM9_MSB    _u(15)
+#define PIO_INSTR_MEM9_LSB    _u(0)
+#define PIO_INSTR_MEM9_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM10
+// Description : Write-only access to instruction memory location 10
+#define PIO_INSTR_MEM10_OFFSET _u(0x00000070)
+#define PIO_INSTR_MEM10_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM10_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM10_MSB    _u(15)
+#define PIO_INSTR_MEM10_LSB    _u(0)
+#define PIO_INSTR_MEM10_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM11
+// Description : Write-only access to instruction memory location 11
+#define PIO_INSTR_MEM11_OFFSET _u(0x00000074)
+#define PIO_INSTR_MEM11_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM11_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM11_MSB    _u(15)
+#define PIO_INSTR_MEM11_LSB    _u(0)
+#define PIO_INSTR_MEM11_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM12
+// Description : Write-only access to instruction memory location 12
+#define PIO_INSTR_MEM12_OFFSET _u(0x00000078)
+#define PIO_INSTR_MEM12_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM12_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM12_MSB    _u(15)
+#define PIO_INSTR_MEM12_LSB    _u(0)
+#define PIO_INSTR_MEM12_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM13
+// Description : Write-only access to instruction memory location 13
+#define PIO_INSTR_MEM13_OFFSET _u(0x0000007c)
+#define PIO_INSTR_MEM13_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM13_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM13_MSB    _u(15)
+#define PIO_INSTR_MEM13_LSB    _u(0)
+#define PIO_INSTR_MEM13_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM14
+// Description : Write-only access to instruction memory location 14
+#define PIO_INSTR_MEM14_OFFSET _u(0x00000080)
+#define PIO_INSTR_MEM14_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM14_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM14_MSB    _u(15)
+#define PIO_INSTR_MEM14_LSB    _u(0)
+#define PIO_INSTR_MEM14_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM15
+// Description : Write-only access to instruction memory location 15
+#define PIO_INSTR_MEM15_OFFSET _u(0x00000084)
+#define PIO_INSTR_MEM15_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM15_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM15_MSB    _u(15)
+#define PIO_INSTR_MEM15_LSB    _u(0)
+#define PIO_INSTR_MEM15_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM16
+// Description : Write-only access to instruction memory location 16
+#define PIO_INSTR_MEM16_OFFSET _u(0x00000088)
+#define PIO_INSTR_MEM16_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM16_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM16_MSB    _u(15)
+#define PIO_INSTR_MEM16_LSB    _u(0)
+#define PIO_INSTR_MEM16_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM17
+// Description : Write-only access to instruction memory location 17
+#define PIO_INSTR_MEM17_OFFSET _u(0x0000008c)
+#define PIO_INSTR_MEM17_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM17_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM17_MSB    _u(15)
+#define PIO_INSTR_MEM17_LSB    _u(0)
+#define PIO_INSTR_MEM17_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM18
+// Description : Write-only access to instruction memory location 18
+#define PIO_INSTR_MEM18_OFFSET _u(0x00000090)
+#define PIO_INSTR_MEM18_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM18_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM18_MSB    _u(15)
+#define PIO_INSTR_MEM18_LSB    _u(0)
+#define PIO_INSTR_MEM18_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM19
+// Description : Write-only access to instruction memory location 19
+#define PIO_INSTR_MEM19_OFFSET _u(0x00000094)
+#define PIO_INSTR_MEM19_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM19_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM19_MSB    _u(15)
+#define PIO_INSTR_MEM19_LSB    _u(0)
+#define PIO_INSTR_MEM19_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM20
+// Description : Write-only access to instruction memory location 20
+#define PIO_INSTR_MEM20_OFFSET _u(0x00000098)
+#define PIO_INSTR_MEM20_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM20_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM20_MSB    _u(15)
+#define PIO_INSTR_MEM20_LSB    _u(0)
+#define PIO_INSTR_MEM20_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM21
+// Description : Write-only access to instruction memory location 21
+#define PIO_INSTR_MEM21_OFFSET _u(0x0000009c)
+#define PIO_INSTR_MEM21_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM21_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM21_MSB    _u(15)
+#define PIO_INSTR_MEM21_LSB    _u(0)
+#define PIO_INSTR_MEM21_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM22
+// Description : Write-only access to instruction memory location 22
+#define PIO_INSTR_MEM22_OFFSET _u(0x000000a0)
+#define PIO_INSTR_MEM22_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM22_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM22_MSB    _u(15)
+#define PIO_INSTR_MEM22_LSB    _u(0)
+#define PIO_INSTR_MEM22_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM23
+// Description : Write-only access to instruction memory location 23
+#define PIO_INSTR_MEM23_OFFSET _u(0x000000a4)
+#define PIO_INSTR_MEM23_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM23_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM23_MSB    _u(15)
+#define PIO_INSTR_MEM23_LSB    _u(0)
+#define PIO_INSTR_MEM23_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM24
+// Description : Write-only access to instruction memory location 24
+#define PIO_INSTR_MEM24_OFFSET _u(0x000000a8)
+#define PIO_INSTR_MEM24_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM24_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM24_MSB    _u(15)
+#define PIO_INSTR_MEM24_LSB    _u(0)
+#define PIO_INSTR_MEM24_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM25
+// Description : Write-only access to instruction memory location 25
+#define PIO_INSTR_MEM25_OFFSET _u(0x000000ac)
+#define PIO_INSTR_MEM25_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM25_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM25_MSB    _u(15)
+#define PIO_INSTR_MEM25_LSB    _u(0)
+#define PIO_INSTR_MEM25_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM26
+// Description : Write-only access to instruction memory location 26
+#define PIO_INSTR_MEM26_OFFSET _u(0x000000b0)
+#define PIO_INSTR_MEM26_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM26_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM26_MSB    _u(15)
+#define PIO_INSTR_MEM26_LSB    _u(0)
+#define PIO_INSTR_MEM26_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM27
+// Description : Write-only access to instruction memory location 27
+#define PIO_INSTR_MEM27_OFFSET _u(0x000000b4)
+#define PIO_INSTR_MEM27_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM27_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM27_MSB    _u(15)
+#define PIO_INSTR_MEM27_LSB    _u(0)
+#define PIO_INSTR_MEM27_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM28
+// Description : Write-only access to instruction memory location 28
+#define PIO_INSTR_MEM28_OFFSET _u(0x000000b8)
+#define PIO_INSTR_MEM28_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM28_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM28_MSB    _u(15)
+#define PIO_INSTR_MEM28_LSB    _u(0)
+#define PIO_INSTR_MEM28_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM29
+// Description : Write-only access to instruction memory location 29
+#define PIO_INSTR_MEM29_OFFSET _u(0x000000bc)
+#define PIO_INSTR_MEM29_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM29_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM29_MSB    _u(15)
+#define PIO_INSTR_MEM29_LSB    _u(0)
+#define PIO_INSTR_MEM29_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM30
+// Description : Write-only access to instruction memory location 30
+#define PIO_INSTR_MEM30_OFFSET _u(0x000000c0)
+#define PIO_INSTR_MEM30_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM30_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM30_MSB    _u(15)
+#define PIO_INSTR_MEM30_LSB    _u(0)
+#define PIO_INSTR_MEM30_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_INSTR_MEM31
+// Description : Write-only access to instruction memory location 31
+#define PIO_INSTR_MEM31_OFFSET _u(0x000000c4)
+#define PIO_INSTR_MEM31_BITS   _u(0x0000ffff)
+#define PIO_INSTR_MEM31_RESET  _u(0x00000000)
+#define PIO_INSTR_MEM31_MSB    _u(15)
+#define PIO_INSTR_MEM31_LSB    _u(0)
+#define PIO_INSTR_MEM31_ACCESS "WO"
+// =============================================================================
+// Register    : PIO_SM0_CLKDIV
+// Description : Clock divisor register for state machine 0
+//               Frequency = clock freq / (CLKDIV_INT + CLKDIV_FRAC / 256)
+#define PIO_SM0_CLKDIV_OFFSET _u(0x000000c8)
+#define PIO_SM0_CLKDIV_BITS   _u(0xffffff00)
+#define PIO_SM0_CLKDIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_CLKDIV_INT
+// Description : Effective frequency is sysclk/(int + frac/256).
+//               Value of 0 is interpreted as 65536. If INT is 0, FRAC must also
+//               be 0.
+#define PIO_SM0_CLKDIV_INT_RESET  _u(0x0001)
+#define PIO_SM0_CLKDIV_INT_BITS   _u(0xffff0000)
+#define PIO_SM0_CLKDIV_INT_MSB    _u(31)
+#define PIO_SM0_CLKDIV_INT_LSB    _u(16)
+#define PIO_SM0_CLKDIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_CLKDIV_FRAC
+// Description : Fractional part of clock divisor
+#define PIO_SM0_CLKDIV_FRAC_RESET  _u(0x00)
+#define PIO_SM0_CLKDIV_FRAC_BITS   _u(0x0000ff00)
+#define PIO_SM0_CLKDIV_FRAC_MSB    _u(15)
+#define PIO_SM0_CLKDIV_FRAC_LSB    _u(8)
+#define PIO_SM0_CLKDIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM0_EXECCTRL
+// Description : Execution/behavioural settings for state machine 0
+#define PIO_SM0_EXECCTRL_OFFSET _u(0x000000cc)
+#define PIO_SM0_EXECCTRL_BITS   _u(0xffffffff)
+#define PIO_SM0_EXECCTRL_RESET  _u(0x0001f000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_EXEC_STALLED
+// Description : If 1, an instruction written to SMx_INSTR is stalled, and
+//               latched by the state machine. Will clear to 0 once this
+//               instruction completes.
+#define PIO_SM0_EXECCTRL_EXEC_STALLED_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_EXEC_STALLED_BITS   _u(0x80000000)
+#define PIO_SM0_EXECCTRL_EXEC_STALLED_MSB    _u(31)
+#define PIO_SM0_EXECCTRL_EXEC_STALLED_LSB    _u(31)
+#define PIO_SM0_EXECCTRL_EXEC_STALLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_SIDE_EN
+// Description : If 1, the MSB of the Delay/Side-set instruction field is used
+//               as side-set enable, rather than a side-set data bit. This
+//               allows instructions to perform side-set optionally, rather than
+//               on every instruction, but the maximum possible side-set width
+//               is reduced from 5 to 4. Note that the value of
+//               PINCTRL_SIDESET_COUNT is inclusive of this enable bit.
+#define PIO_SM0_EXECCTRL_SIDE_EN_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_SIDE_EN_BITS   _u(0x40000000)
+#define PIO_SM0_EXECCTRL_SIDE_EN_MSB    _u(30)
+#define PIO_SM0_EXECCTRL_SIDE_EN_LSB    _u(30)
+#define PIO_SM0_EXECCTRL_SIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_SIDE_PINDIR
+// Description : If 1, side-set data is asserted to pin directions, instead of
+//               pin values
+#define PIO_SM0_EXECCTRL_SIDE_PINDIR_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_SIDE_PINDIR_BITS   _u(0x20000000)
+#define PIO_SM0_EXECCTRL_SIDE_PINDIR_MSB    _u(29)
+#define PIO_SM0_EXECCTRL_SIDE_PINDIR_LSB    _u(29)
+#define PIO_SM0_EXECCTRL_SIDE_PINDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_JMP_PIN
+// Description : The GPIO number to use as condition for JMP PIN. Unaffected by
+//               input mapping.
+#define PIO_SM0_EXECCTRL_JMP_PIN_RESET  _u(0x00)
+#define PIO_SM0_EXECCTRL_JMP_PIN_BITS   _u(0x1f000000)
+#define PIO_SM0_EXECCTRL_JMP_PIN_MSB    _u(28)
+#define PIO_SM0_EXECCTRL_JMP_PIN_LSB    _u(24)
+#define PIO_SM0_EXECCTRL_JMP_PIN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_OUT_EN_SEL
+// Description : Which data bit to use for inline OUT enable
+#define PIO_SM0_EXECCTRL_OUT_EN_SEL_RESET  _u(0x00)
+#define PIO_SM0_EXECCTRL_OUT_EN_SEL_BITS   _u(0x00f80000)
+#define PIO_SM0_EXECCTRL_OUT_EN_SEL_MSB    _u(23)
+#define PIO_SM0_EXECCTRL_OUT_EN_SEL_LSB    _u(19)
+#define PIO_SM0_EXECCTRL_OUT_EN_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_INLINE_OUT_EN
+// Description : If 1, use a bit of OUT data as an auxiliary write enable
+//               When used in conjunction with OUT_STICKY, writes with an enable
+//               of 0 will
+//               deassert the latest pin write. This can create useful
+//               masking/override behaviour
+//               due to the priority ordering of state machine pin writes (SM0 <
+//               SM1 < ...)
+#define PIO_SM0_EXECCTRL_INLINE_OUT_EN_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_INLINE_OUT_EN_BITS   _u(0x00040000)
+#define PIO_SM0_EXECCTRL_INLINE_OUT_EN_MSB    _u(18)
+#define PIO_SM0_EXECCTRL_INLINE_OUT_EN_LSB    _u(18)
+#define PIO_SM0_EXECCTRL_INLINE_OUT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_OUT_STICKY
+// Description : Continuously assert the most recent OUT/SET to the pins
+#define PIO_SM0_EXECCTRL_OUT_STICKY_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_OUT_STICKY_BITS   _u(0x00020000)
+#define PIO_SM0_EXECCTRL_OUT_STICKY_MSB    _u(17)
+#define PIO_SM0_EXECCTRL_OUT_STICKY_LSB    _u(17)
+#define PIO_SM0_EXECCTRL_OUT_STICKY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_WRAP_TOP
+// Description : After reaching this address, execution is wrapped to
+//               wrap_bottom.
+//               If the instruction is a jump, and the jump condition is true,
+//               the jump takes priority.
+#define PIO_SM0_EXECCTRL_WRAP_TOP_RESET  _u(0x1f)
+#define PIO_SM0_EXECCTRL_WRAP_TOP_BITS   _u(0x0001f000)
+#define PIO_SM0_EXECCTRL_WRAP_TOP_MSB    _u(16)
+#define PIO_SM0_EXECCTRL_WRAP_TOP_LSB    _u(12)
+#define PIO_SM0_EXECCTRL_WRAP_TOP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_WRAP_BOTTOM
+// Description : After reaching wrap_top, execution is wrapped to this address.
+#define PIO_SM0_EXECCTRL_WRAP_BOTTOM_RESET  _u(0x00)
+#define PIO_SM0_EXECCTRL_WRAP_BOTTOM_BITS   _u(0x00000f80)
+#define PIO_SM0_EXECCTRL_WRAP_BOTTOM_MSB    _u(11)
+#define PIO_SM0_EXECCTRL_WRAP_BOTTOM_LSB    _u(7)
+#define PIO_SM0_EXECCTRL_WRAP_BOTTOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_STATUS_SEL
+// Description : Comparison used for the MOV x, STATUS instruction.
+//               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
+//               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
+//               0x2 -> All-ones if the indexed IRQ flag is raised, otherwise all-zeroes
+#define PIO_SM0_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_BITS   _u(0x00000060)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_MSB    _u(6)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_LSB    _u(5)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_ACCESS "RW"
+#define PIO_SM0_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
+#define PIO_SM0_EXECCTRL_STATUS_SEL_VALUE_IRQ _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_EXECCTRL_STATUS_N
+// Description : Comparison level or IRQ index for the MOV x, STATUS
+//               instruction.
+//
+//               If STATUS_SEL is TXLEVEL or RXLEVEL, then values of STATUS_N
+//               greater than the current FIFO depth are reserved, and have
+//               undefined behaviour.
+//               0x00 -> Index 0-7 of an IRQ flag in this PIO block
+//               0x08 -> Index 0-7 of an IRQ flag in the next lower-numbered PIO block
+//               0x10 -> Index 0-7 of an IRQ flag in the next higher-numbered PIO block
+#define PIO_SM0_EXECCTRL_STATUS_N_RESET  _u(0x00)
+#define PIO_SM0_EXECCTRL_STATUS_N_BITS   _u(0x0000001f)
+#define PIO_SM0_EXECCTRL_STATUS_N_MSB    _u(4)
+#define PIO_SM0_EXECCTRL_STATUS_N_LSB    _u(0)
+#define PIO_SM0_EXECCTRL_STATUS_N_ACCESS "RW"
+#define PIO_SM0_EXECCTRL_STATUS_N_VALUE_IRQ _u(0x00)
+#define PIO_SM0_EXECCTRL_STATUS_N_VALUE_IRQ_PREVPIO _u(0x08)
+#define PIO_SM0_EXECCTRL_STATUS_N_VALUE_IRQ_NEXTPIO _u(0x10)
+// =============================================================================
+// Register    : PIO_SM0_SHIFTCTRL
+// Description : Control behaviour of the input/output shift registers for state
+//               machine 0
+#define PIO_SM0_SHIFTCTRL_OFFSET _u(0x000000d0)
+#define PIO_SM0_SHIFTCTRL_BITS   _u(0xffffc01f)
+#define PIO_SM0_SHIFTCTRL_RESET  _u(0x000c0000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_FJOIN_RX
+// Description : When 1, RX FIFO steals the TX FIFO's storage, and becomes twice
+//               as deep.
+//               TX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_BITS   _u(0x80000000)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_MSB    _u(31)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_LSB    _u(31)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_FJOIN_TX
+// Description : When 1, TX FIFO steals the RX FIFO's storage, and becomes twice
+//               as deep.
+//               RX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM0_SHIFTCTRL_FJOIN_TX_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_FJOIN_TX_BITS   _u(0x40000000)
+#define PIO_SM0_SHIFTCTRL_FJOIN_TX_MSB    _u(30)
+#define PIO_SM0_SHIFTCTRL_FJOIN_TX_LSB    _u(30)
+#define PIO_SM0_SHIFTCTRL_FJOIN_TX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_PULL_THRESH
+// Description : Number of bits shifted out of OSR before autopull, or
+//               conditional pull (PULL IFEMPTY), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM0_SHIFTCTRL_PULL_THRESH_RESET  _u(0x00)
+#define PIO_SM0_SHIFTCTRL_PULL_THRESH_BITS   _u(0x3e000000)
+#define PIO_SM0_SHIFTCTRL_PULL_THRESH_MSB    _u(29)
+#define PIO_SM0_SHIFTCTRL_PULL_THRESH_LSB    _u(25)
+#define PIO_SM0_SHIFTCTRL_PULL_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_PUSH_THRESH
+// Description : Number of bits shifted into ISR before autopush, or conditional
+//               push (PUSH IFFULL), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM0_SHIFTCTRL_PUSH_THRESH_RESET  _u(0x00)
+#define PIO_SM0_SHIFTCTRL_PUSH_THRESH_BITS   _u(0x01f00000)
+#define PIO_SM0_SHIFTCTRL_PUSH_THRESH_MSB    _u(24)
+#define PIO_SM0_SHIFTCTRL_PUSH_THRESH_LSB    _u(20)
+#define PIO_SM0_SHIFTCTRL_PUSH_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR
+// Description : 1 = shift out of output shift register to right. 0 = to left.
+#define PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR_BITS   _u(0x00080000)
+#define PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR_MSB    _u(19)
+#define PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR_LSB    _u(19)
+#define PIO_SM0_SHIFTCTRL_OUT_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_IN_SHIFTDIR
+// Description : 1 = shift input shift register to right (data enters from
+//               left). 0 = to left.
+#define PIO_SM0_SHIFTCTRL_IN_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM0_SHIFTCTRL_IN_SHIFTDIR_BITS   _u(0x00040000)
+#define PIO_SM0_SHIFTCTRL_IN_SHIFTDIR_MSB    _u(18)
+#define PIO_SM0_SHIFTCTRL_IN_SHIFTDIR_LSB    _u(18)
+#define PIO_SM0_SHIFTCTRL_IN_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_AUTOPULL
+// Description : Pull automatically when the output shift register is emptied,
+//               i.e. on or following an OUT instruction which causes the output
+//               shift counter to reach or exceed PULL_THRESH.
+#define PIO_SM0_SHIFTCTRL_AUTOPULL_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_AUTOPULL_BITS   _u(0x00020000)
+#define PIO_SM0_SHIFTCTRL_AUTOPULL_MSB    _u(17)
+#define PIO_SM0_SHIFTCTRL_AUTOPULL_LSB    _u(17)
+#define PIO_SM0_SHIFTCTRL_AUTOPULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_AUTOPUSH
+// Description : Push automatically when the input shift register is filled,
+//               i.e. on an IN instruction which causes the input shift counter
+//               to reach or exceed PUSH_THRESH.
+#define PIO_SM0_SHIFTCTRL_AUTOPUSH_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_AUTOPUSH_BITS   _u(0x00010000)
+#define PIO_SM0_SHIFTCTRL_AUTOPUSH_MSB    _u(16)
+#define PIO_SM0_SHIFTCTRL_AUTOPUSH_LSB    _u(16)
+#define PIO_SM0_SHIFTCTRL_AUTOPUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random write access by the state machine (using
+//               the `put` instruction) and, unless FJOIN_RX_GET is also set,
+//               random read access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT_BITS   _u(0x00008000)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT_MSB    _u(15)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT_LSB    _u(15)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_PUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_FJOIN_RX_GET
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random read access by the state machine (using
+//               the `get` instruction) and, unless FJOIN_RX_PUT is also set,
+//               random write access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_GET_RESET  _u(0x0)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_GET_BITS   _u(0x00004000)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_GET_MSB    _u(14)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_GET_LSB    _u(14)
+#define PIO_SM0_SHIFTCTRL_FJOIN_RX_GET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_SHIFTCTRL_IN_COUNT
+// Description : Set the number of pins which are not masked to 0 when read by
+//               an IN PINS, WAIT PIN or MOV x, PINS instruction.
+//
+//               For example, an IN_COUNT of 5 means that the 5 LSBs of the IN
+//               pin group are visible (bits 4:0), but the remaining 27 MSBs are
+//               masked to 0. A count of 32 is encoded with a field value of 0,
+//               so the default behaviour is to not perform any masking.
+//
+//               Note this masking is applied in addition to the masking usually
+//               performed by the IN instruction. This is mainly useful for the
+//               MOV x, PINS instruction, which otherwise has no way of masking
+//               pins.
+#define PIO_SM0_SHIFTCTRL_IN_COUNT_RESET  _u(0x00)
+#define PIO_SM0_SHIFTCTRL_IN_COUNT_BITS   _u(0x0000001f)
+#define PIO_SM0_SHIFTCTRL_IN_COUNT_MSB    _u(4)
+#define PIO_SM0_SHIFTCTRL_IN_COUNT_LSB    _u(0)
+#define PIO_SM0_SHIFTCTRL_IN_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM0_ADDR
+// Description : Current instruction address of state machine 0
+#define PIO_SM0_ADDR_OFFSET _u(0x000000d4)
+#define PIO_SM0_ADDR_BITS   _u(0x0000001f)
+#define PIO_SM0_ADDR_RESET  _u(0x00000000)
+#define PIO_SM0_ADDR_MSB    _u(4)
+#define PIO_SM0_ADDR_LSB    _u(0)
+#define PIO_SM0_ADDR_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_SM0_INSTR
+// Description : Read to see the instruction currently addressed by state
+//               machine 0's program counter
+//               Write to execute an instruction immediately (including jumps)
+//               and then resume execution.
+#define PIO_SM0_INSTR_OFFSET _u(0x000000d8)
+#define PIO_SM0_INSTR_BITS   _u(0x0000ffff)
+#define PIO_SM0_INSTR_RESET  "-"
+#define PIO_SM0_INSTR_MSB    _u(15)
+#define PIO_SM0_INSTR_LSB    _u(0)
+#define PIO_SM0_INSTR_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM0_PINCTRL
+// Description : State machine pin control
+#define PIO_SM0_PINCTRL_OFFSET _u(0x000000dc)
+#define PIO_SM0_PINCTRL_BITS   _u(0xffffffff)
+#define PIO_SM0_PINCTRL_RESET  _u(0x14000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_SIDESET_COUNT
+// Description : The number of MSBs of the Delay/Side-set instruction field
+//               which are used for side-set. Inclusive of the enable bit, if
+//               present. Minimum of 0 (all delay bits, no side-set) and maximum
+//               of 5 (all side-set, no delay).
+#define PIO_SM0_PINCTRL_SIDESET_COUNT_RESET  _u(0x0)
+#define PIO_SM0_PINCTRL_SIDESET_COUNT_BITS   _u(0xe0000000)
+#define PIO_SM0_PINCTRL_SIDESET_COUNT_MSB    _u(31)
+#define PIO_SM0_PINCTRL_SIDESET_COUNT_LSB    _u(29)
+#define PIO_SM0_PINCTRL_SIDESET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_SET_COUNT
+// Description : The number of pins asserted by a SET. In the range 0 to 5
+//               inclusive.
+#define PIO_SM0_PINCTRL_SET_COUNT_RESET  _u(0x5)
+#define PIO_SM0_PINCTRL_SET_COUNT_BITS   _u(0x1c000000)
+#define PIO_SM0_PINCTRL_SET_COUNT_MSB    _u(28)
+#define PIO_SM0_PINCTRL_SET_COUNT_LSB    _u(26)
+#define PIO_SM0_PINCTRL_SET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_OUT_COUNT
+// Description : The number of pins asserted by an OUT PINS, OUT PINDIRS or MOV
+//               PINS instruction. In the range 0 to 32 inclusive.
+#define PIO_SM0_PINCTRL_OUT_COUNT_RESET  _u(0x00)
+#define PIO_SM0_PINCTRL_OUT_COUNT_BITS   _u(0x03f00000)
+#define PIO_SM0_PINCTRL_OUT_COUNT_MSB    _u(25)
+#define PIO_SM0_PINCTRL_OUT_COUNT_LSB    _u(20)
+#define PIO_SM0_PINCTRL_OUT_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_IN_BASE
+// Description : The pin which is mapped to the least-significant bit of a state
+//               machine's IN data bus. Higher-numbered pins are mapped to
+//               consecutively more-significant data bits, with a modulo of 32
+//               applied to pin number.
+#define PIO_SM0_PINCTRL_IN_BASE_RESET  _u(0x00)
+#define PIO_SM0_PINCTRL_IN_BASE_BITS   _u(0x000f8000)
+#define PIO_SM0_PINCTRL_IN_BASE_MSB    _u(19)
+#define PIO_SM0_PINCTRL_IN_BASE_LSB    _u(15)
+#define PIO_SM0_PINCTRL_IN_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_SIDESET_BASE
+// Description : The lowest-numbered pin that will be affected by a side-set
+//               operation. The MSBs of an instruction's side-set/delay field
+//               (up to 5, determined by SIDESET_COUNT) are used for side-set
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
+#define PIO_SM0_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
+#define PIO_SM0_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
+#define PIO_SM0_PINCTRL_SIDESET_BASE_MSB    _u(14)
+#define PIO_SM0_PINCTRL_SIDESET_BASE_LSB    _u(10)
+#define PIO_SM0_PINCTRL_SIDESET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_SET_BASE
+// Description : The lowest-numbered pin that will be affected by a SET PINS or
+//               SET PINDIRS instruction. The data written to this pin is the
+//               least-significant bit of the SET data.
+#define PIO_SM0_PINCTRL_SET_BASE_RESET  _u(0x00)
+#define PIO_SM0_PINCTRL_SET_BASE_BITS   _u(0x000003e0)
+#define PIO_SM0_PINCTRL_SET_BASE_MSB    _u(9)
+#define PIO_SM0_PINCTRL_SET_BASE_LSB    _u(5)
+#define PIO_SM0_PINCTRL_SET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM0_PINCTRL_OUT_BASE
+// Description : The lowest-numbered pin that will be affected by an OUT PINS,
+//               OUT PINDIRS or MOV PINS instruction. The data written to this
+//               pin will always be the least-significant bit of the OUT or MOV
+//               data.
+#define PIO_SM0_PINCTRL_OUT_BASE_RESET  _u(0x00)
+#define PIO_SM0_PINCTRL_OUT_BASE_BITS   _u(0x0000001f)
+#define PIO_SM0_PINCTRL_OUT_BASE_MSB    _u(4)
+#define PIO_SM0_PINCTRL_OUT_BASE_LSB    _u(0)
+#define PIO_SM0_PINCTRL_OUT_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM1_CLKDIV
+// Description : Clock divisor register for state machine 1
+//               Frequency = clock freq / (CLKDIV_INT + CLKDIV_FRAC / 256)
+#define PIO_SM1_CLKDIV_OFFSET _u(0x000000e0)
+#define PIO_SM1_CLKDIV_BITS   _u(0xffffff00)
+#define PIO_SM1_CLKDIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_CLKDIV_INT
+// Description : Effective frequency is sysclk/(int + frac/256).
+//               Value of 0 is interpreted as 65536. If INT is 0, FRAC must also
+//               be 0.
+#define PIO_SM1_CLKDIV_INT_RESET  _u(0x0001)
+#define PIO_SM1_CLKDIV_INT_BITS   _u(0xffff0000)
+#define PIO_SM1_CLKDIV_INT_MSB    _u(31)
+#define PIO_SM1_CLKDIV_INT_LSB    _u(16)
+#define PIO_SM1_CLKDIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_CLKDIV_FRAC
+// Description : Fractional part of clock divisor
+#define PIO_SM1_CLKDIV_FRAC_RESET  _u(0x00)
+#define PIO_SM1_CLKDIV_FRAC_BITS   _u(0x0000ff00)
+#define PIO_SM1_CLKDIV_FRAC_MSB    _u(15)
+#define PIO_SM1_CLKDIV_FRAC_LSB    _u(8)
+#define PIO_SM1_CLKDIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM1_EXECCTRL
+// Description : Execution/behavioural settings for state machine 1
+#define PIO_SM1_EXECCTRL_OFFSET _u(0x000000e4)
+#define PIO_SM1_EXECCTRL_BITS   _u(0xffffffff)
+#define PIO_SM1_EXECCTRL_RESET  _u(0x0001f000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_EXEC_STALLED
+// Description : If 1, an instruction written to SMx_INSTR is stalled, and
+//               latched by the state machine. Will clear to 0 once this
+//               instruction completes.
+#define PIO_SM1_EXECCTRL_EXEC_STALLED_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_EXEC_STALLED_BITS   _u(0x80000000)
+#define PIO_SM1_EXECCTRL_EXEC_STALLED_MSB    _u(31)
+#define PIO_SM1_EXECCTRL_EXEC_STALLED_LSB    _u(31)
+#define PIO_SM1_EXECCTRL_EXEC_STALLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_SIDE_EN
+// Description : If 1, the MSB of the Delay/Side-set instruction field is used
+//               as side-set enable, rather than a side-set data bit. This
+//               allows instructions to perform side-set optionally, rather than
+//               on every instruction, but the maximum possible side-set width
+//               is reduced from 5 to 4. Note that the value of
+//               PINCTRL_SIDESET_COUNT is inclusive of this enable bit.
+#define PIO_SM1_EXECCTRL_SIDE_EN_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_SIDE_EN_BITS   _u(0x40000000)
+#define PIO_SM1_EXECCTRL_SIDE_EN_MSB    _u(30)
+#define PIO_SM1_EXECCTRL_SIDE_EN_LSB    _u(30)
+#define PIO_SM1_EXECCTRL_SIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_SIDE_PINDIR
+// Description : If 1, side-set data is asserted to pin directions, instead of
+//               pin values
+#define PIO_SM1_EXECCTRL_SIDE_PINDIR_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_SIDE_PINDIR_BITS   _u(0x20000000)
+#define PIO_SM1_EXECCTRL_SIDE_PINDIR_MSB    _u(29)
+#define PIO_SM1_EXECCTRL_SIDE_PINDIR_LSB    _u(29)
+#define PIO_SM1_EXECCTRL_SIDE_PINDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_JMP_PIN
+// Description : The GPIO number to use as condition for JMP PIN. Unaffected by
+//               input mapping.
+#define PIO_SM1_EXECCTRL_JMP_PIN_RESET  _u(0x00)
+#define PIO_SM1_EXECCTRL_JMP_PIN_BITS   _u(0x1f000000)
+#define PIO_SM1_EXECCTRL_JMP_PIN_MSB    _u(28)
+#define PIO_SM1_EXECCTRL_JMP_PIN_LSB    _u(24)
+#define PIO_SM1_EXECCTRL_JMP_PIN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_OUT_EN_SEL
+// Description : Which data bit to use for inline OUT enable
+#define PIO_SM1_EXECCTRL_OUT_EN_SEL_RESET  _u(0x00)
+#define PIO_SM1_EXECCTRL_OUT_EN_SEL_BITS   _u(0x00f80000)
+#define PIO_SM1_EXECCTRL_OUT_EN_SEL_MSB    _u(23)
+#define PIO_SM1_EXECCTRL_OUT_EN_SEL_LSB    _u(19)
+#define PIO_SM1_EXECCTRL_OUT_EN_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_INLINE_OUT_EN
+// Description : If 1, use a bit of OUT data as an auxiliary write enable
+//               When used in conjunction with OUT_STICKY, writes with an enable
+//               of 0 will
+//               deassert the latest pin write. This can create useful
+//               masking/override behaviour
+//               due to the priority ordering of state machine pin writes (SM0 <
+//               SM1 < ...)
+#define PIO_SM1_EXECCTRL_INLINE_OUT_EN_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_INLINE_OUT_EN_BITS   _u(0x00040000)
+#define PIO_SM1_EXECCTRL_INLINE_OUT_EN_MSB    _u(18)
+#define PIO_SM1_EXECCTRL_INLINE_OUT_EN_LSB    _u(18)
+#define PIO_SM1_EXECCTRL_INLINE_OUT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_OUT_STICKY
+// Description : Continuously assert the most recent OUT/SET to the pins
+#define PIO_SM1_EXECCTRL_OUT_STICKY_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_OUT_STICKY_BITS   _u(0x00020000)
+#define PIO_SM1_EXECCTRL_OUT_STICKY_MSB    _u(17)
+#define PIO_SM1_EXECCTRL_OUT_STICKY_LSB    _u(17)
+#define PIO_SM1_EXECCTRL_OUT_STICKY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_WRAP_TOP
+// Description : After reaching this address, execution is wrapped to
+//               wrap_bottom.
+//               If the instruction is a jump, and the jump condition is true,
+//               the jump takes priority.
+#define PIO_SM1_EXECCTRL_WRAP_TOP_RESET  _u(0x1f)
+#define PIO_SM1_EXECCTRL_WRAP_TOP_BITS   _u(0x0001f000)
+#define PIO_SM1_EXECCTRL_WRAP_TOP_MSB    _u(16)
+#define PIO_SM1_EXECCTRL_WRAP_TOP_LSB    _u(12)
+#define PIO_SM1_EXECCTRL_WRAP_TOP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_WRAP_BOTTOM
+// Description : After reaching wrap_top, execution is wrapped to this address.
+#define PIO_SM1_EXECCTRL_WRAP_BOTTOM_RESET  _u(0x00)
+#define PIO_SM1_EXECCTRL_WRAP_BOTTOM_BITS   _u(0x00000f80)
+#define PIO_SM1_EXECCTRL_WRAP_BOTTOM_MSB    _u(11)
+#define PIO_SM1_EXECCTRL_WRAP_BOTTOM_LSB    _u(7)
+#define PIO_SM1_EXECCTRL_WRAP_BOTTOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_STATUS_SEL
+// Description : Comparison used for the MOV x, STATUS instruction.
+//               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
+//               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
+//               0x2 -> All-ones if the indexed IRQ flag is raised, otherwise all-zeroes
+#define PIO_SM1_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_BITS   _u(0x00000060)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_MSB    _u(6)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_LSB    _u(5)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_ACCESS "RW"
+#define PIO_SM1_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
+#define PIO_SM1_EXECCTRL_STATUS_SEL_VALUE_IRQ _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_EXECCTRL_STATUS_N
+// Description : Comparison level or IRQ index for the MOV x, STATUS
+//               instruction.
+//
+//               If STATUS_SEL is TXLEVEL or RXLEVEL, then values of STATUS_N
+//               greater than the current FIFO depth are reserved, and have
+//               undefined behaviour.
+//               0x00 -> Index 0-7 of an IRQ flag in this PIO block
+//               0x08 -> Index 0-7 of an IRQ flag in the next lower-numbered PIO block
+//               0x10 -> Index 0-7 of an IRQ flag in the next higher-numbered PIO block
+#define PIO_SM1_EXECCTRL_STATUS_N_RESET  _u(0x00)
+#define PIO_SM1_EXECCTRL_STATUS_N_BITS   _u(0x0000001f)
+#define PIO_SM1_EXECCTRL_STATUS_N_MSB    _u(4)
+#define PIO_SM1_EXECCTRL_STATUS_N_LSB    _u(0)
+#define PIO_SM1_EXECCTRL_STATUS_N_ACCESS "RW"
+#define PIO_SM1_EXECCTRL_STATUS_N_VALUE_IRQ _u(0x00)
+#define PIO_SM1_EXECCTRL_STATUS_N_VALUE_IRQ_PREVPIO _u(0x08)
+#define PIO_SM1_EXECCTRL_STATUS_N_VALUE_IRQ_NEXTPIO _u(0x10)
+// =============================================================================
+// Register    : PIO_SM1_SHIFTCTRL
+// Description : Control behaviour of the input/output shift registers for state
+//               machine 1
+#define PIO_SM1_SHIFTCTRL_OFFSET _u(0x000000e8)
+#define PIO_SM1_SHIFTCTRL_BITS   _u(0xffffc01f)
+#define PIO_SM1_SHIFTCTRL_RESET  _u(0x000c0000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_FJOIN_RX
+// Description : When 1, RX FIFO steals the TX FIFO's storage, and becomes twice
+//               as deep.
+//               TX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_BITS   _u(0x80000000)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_MSB    _u(31)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_LSB    _u(31)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_FJOIN_TX
+// Description : When 1, TX FIFO steals the RX FIFO's storage, and becomes twice
+//               as deep.
+//               RX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM1_SHIFTCTRL_FJOIN_TX_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_FJOIN_TX_BITS   _u(0x40000000)
+#define PIO_SM1_SHIFTCTRL_FJOIN_TX_MSB    _u(30)
+#define PIO_SM1_SHIFTCTRL_FJOIN_TX_LSB    _u(30)
+#define PIO_SM1_SHIFTCTRL_FJOIN_TX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_PULL_THRESH
+// Description : Number of bits shifted out of OSR before autopull, or
+//               conditional pull (PULL IFEMPTY), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM1_SHIFTCTRL_PULL_THRESH_RESET  _u(0x00)
+#define PIO_SM1_SHIFTCTRL_PULL_THRESH_BITS   _u(0x3e000000)
+#define PIO_SM1_SHIFTCTRL_PULL_THRESH_MSB    _u(29)
+#define PIO_SM1_SHIFTCTRL_PULL_THRESH_LSB    _u(25)
+#define PIO_SM1_SHIFTCTRL_PULL_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_PUSH_THRESH
+// Description : Number of bits shifted into ISR before autopush, or conditional
+//               push (PUSH IFFULL), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM1_SHIFTCTRL_PUSH_THRESH_RESET  _u(0x00)
+#define PIO_SM1_SHIFTCTRL_PUSH_THRESH_BITS   _u(0x01f00000)
+#define PIO_SM1_SHIFTCTRL_PUSH_THRESH_MSB    _u(24)
+#define PIO_SM1_SHIFTCTRL_PUSH_THRESH_LSB    _u(20)
+#define PIO_SM1_SHIFTCTRL_PUSH_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR
+// Description : 1 = shift out of output shift register to right. 0 = to left.
+#define PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR_BITS   _u(0x00080000)
+#define PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR_MSB    _u(19)
+#define PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR_LSB    _u(19)
+#define PIO_SM1_SHIFTCTRL_OUT_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_IN_SHIFTDIR
+// Description : 1 = shift input shift register to right (data enters from
+//               left). 0 = to left.
+#define PIO_SM1_SHIFTCTRL_IN_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM1_SHIFTCTRL_IN_SHIFTDIR_BITS   _u(0x00040000)
+#define PIO_SM1_SHIFTCTRL_IN_SHIFTDIR_MSB    _u(18)
+#define PIO_SM1_SHIFTCTRL_IN_SHIFTDIR_LSB    _u(18)
+#define PIO_SM1_SHIFTCTRL_IN_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_AUTOPULL
+// Description : Pull automatically when the output shift register is emptied,
+//               i.e. on or following an OUT instruction which causes the output
+//               shift counter to reach or exceed PULL_THRESH.
+#define PIO_SM1_SHIFTCTRL_AUTOPULL_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_AUTOPULL_BITS   _u(0x00020000)
+#define PIO_SM1_SHIFTCTRL_AUTOPULL_MSB    _u(17)
+#define PIO_SM1_SHIFTCTRL_AUTOPULL_LSB    _u(17)
+#define PIO_SM1_SHIFTCTRL_AUTOPULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_AUTOPUSH
+// Description : Push automatically when the input shift register is filled,
+//               i.e. on an IN instruction which causes the input shift counter
+//               to reach or exceed PUSH_THRESH.
+#define PIO_SM1_SHIFTCTRL_AUTOPUSH_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_AUTOPUSH_BITS   _u(0x00010000)
+#define PIO_SM1_SHIFTCTRL_AUTOPUSH_MSB    _u(16)
+#define PIO_SM1_SHIFTCTRL_AUTOPUSH_LSB    _u(16)
+#define PIO_SM1_SHIFTCTRL_AUTOPUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random write access by the state machine (using
+//               the `put` instruction) and, unless FJOIN_RX_GET is also set,
+//               random read access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT_BITS   _u(0x00008000)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT_MSB    _u(15)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT_LSB    _u(15)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_PUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_FJOIN_RX_GET
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random read access by the state machine (using
+//               the `get` instruction) and, unless FJOIN_RX_PUT is also set,
+//               random write access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_GET_RESET  _u(0x0)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_GET_BITS   _u(0x00004000)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_GET_MSB    _u(14)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_GET_LSB    _u(14)
+#define PIO_SM1_SHIFTCTRL_FJOIN_RX_GET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_SHIFTCTRL_IN_COUNT
+// Description : Set the number of pins which are not masked to 0 when read by
+//               an IN PINS, WAIT PIN or MOV x, PINS instruction.
+//
+//               For example, an IN_COUNT of 5 means that the 5 LSBs of the IN
+//               pin group are visible (bits 4:0), but the remaining 27 MSBs are
+//               masked to 0. A count of 32 is encoded with a field value of 0,
+//               so the default behaviour is to not perform any masking.
+//
+//               Note this masking is applied in addition to the masking usually
+//               performed by the IN instruction. This is mainly useful for the
+//               MOV x, PINS instruction, which otherwise has no way of masking
+//               pins.
+#define PIO_SM1_SHIFTCTRL_IN_COUNT_RESET  _u(0x00)
+#define PIO_SM1_SHIFTCTRL_IN_COUNT_BITS   _u(0x0000001f)
+#define PIO_SM1_SHIFTCTRL_IN_COUNT_MSB    _u(4)
+#define PIO_SM1_SHIFTCTRL_IN_COUNT_LSB    _u(0)
+#define PIO_SM1_SHIFTCTRL_IN_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM1_ADDR
+// Description : Current instruction address of state machine 1
+#define PIO_SM1_ADDR_OFFSET _u(0x000000ec)
+#define PIO_SM1_ADDR_BITS   _u(0x0000001f)
+#define PIO_SM1_ADDR_RESET  _u(0x00000000)
+#define PIO_SM1_ADDR_MSB    _u(4)
+#define PIO_SM1_ADDR_LSB    _u(0)
+#define PIO_SM1_ADDR_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_SM1_INSTR
+// Description : Read to see the instruction currently addressed by state
+//               machine 1's program counter
+//               Write to execute an instruction immediately (including jumps)
+//               and then resume execution.
+#define PIO_SM1_INSTR_OFFSET _u(0x000000f0)
+#define PIO_SM1_INSTR_BITS   _u(0x0000ffff)
+#define PIO_SM1_INSTR_RESET  "-"
+#define PIO_SM1_INSTR_MSB    _u(15)
+#define PIO_SM1_INSTR_LSB    _u(0)
+#define PIO_SM1_INSTR_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM1_PINCTRL
+// Description : State machine pin control
+#define PIO_SM1_PINCTRL_OFFSET _u(0x000000f4)
+#define PIO_SM1_PINCTRL_BITS   _u(0xffffffff)
+#define PIO_SM1_PINCTRL_RESET  _u(0x14000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_SIDESET_COUNT
+// Description : The number of MSBs of the Delay/Side-set instruction field
+//               which are used for side-set. Inclusive of the enable bit, if
+//               present. Minimum of 0 (all delay bits, no side-set) and maximum
+//               of 5 (all side-set, no delay).
+#define PIO_SM1_PINCTRL_SIDESET_COUNT_RESET  _u(0x0)
+#define PIO_SM1_PINCTRL_SIDESET_COUNT_BITS   _u(0xe0000000)
+#define PIO_SM1_PINCTRL_SIDESET_COUNT_MSB    _u(31)
+#define PIO_SM1_PINCTRL_SIDESET_COUNT_LSB    _u(29)
+#define PIO_SM1_PINCTRL_SIDESET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_SET_COUNT
+// Description : The number of pins asserted by a SET. In the range 0 to 5
+//               inclusive.
+#define PIO_SM1_PINCTRL_SET_COUNT_RESET  _u(0x5)
+#define PIO_SM1_PINCTRL_SET_COUNT_BITS   _u(0x1c000000)
+#define PIO_SM1_PINCTRL_SET_COUNT_MSB    _u(28)
+#define PIO_SM1_PINCTRL_SET_COUNT_LSB    _u(26)
+#define PIO_SM1_PINCTRL_SET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_OUT_COUNT
+// Description : The number of pins asserted by an OUT PINS, OUT PINDIRS or MOV
+//               PINS instruction. In the range 0 to 32 inclusive.
+#define PIO_SM1_PINCTRL_OUT_COUNT_RESET  _u(0x00)
+#define PIO_SM1_PINCTRL_OUT_COUNT_BITS   _u(0x03f00000)
+#define PIO_SM1_PINCTRL_OUT_COUNT_MSB    _u(25)
+#define PIO_SM1_PINCTRL_OUT_COUNT_LSB    _u(20)
+#define PIO_SM1_PINCTRL_OUT_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_IN_BASE
+// Description : The pin which is mapped to the least-significant bit of a state
+//               machine's IN data bus. Higher-numbered pins are mapped to
+//               consecutively more-significant data bits, with a modulo of 32
+//               applied to pin number.
+#define PIO_SM1_PINCTRL_IN_BASE_RESET  _u(0x00)
+#define PIO_SM1_PINCTRL_IN_BASE_BITS   _u(0x000f8000)
+#define PIO_SM1_PINCTRL_IN_BASE_MSB    _u(19)
+#define PIO_SM1_PINCTRL_IN_BASE_LSB    _u(15)
+#define PIO_SM1_PINCTRL_IN_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_SIDESET_BASE
+// Description : The lowest-numbered pin that will be affected by a side-set
+//               operation. The MSBs of an instruction's side-set/delay field
+//               (up to 5, determined by SIDESET_COUNT) are used for side-set
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
+#define PIO_SM1_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
+#define PIO_SM1_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
+#define PIO_SM1_PINCTRL_SIDESET_BASE_MSB    _u(14)
+#define PIO_SM1_PINCTRL_SIDESET_BASE_LSB    _u(10)
+#define PIO_SM1_PINCTRL_SIDESET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_SET_BASE
+// Description : The lowest-numbered pin that will be affected by a SET PINS or
+//               SET PINDIRS instruction. The data written to this pin is the
+//               least-significant bit of the SET data.
+#define PIO_SM1_PINCTRL_SET_BASE_RESET  _u(0x00)
+#define PIO_SM1_PINCTRL_SET_BASE_BITS   _u(0x000003e0)
+#define PIO_SM1_PINCTRL_SET_BASE_MSB    _u(9)
+#define PIO_SM1_PINCTRL_SET_BASE_LSB    _u(5)
+#define PIO_SM1_PINCTRL_SET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM1_PINCTRL_OUT_BASE
+// Description : The lowest-numbered pin that will be affected by an OUT PINS,
+//               OUT PINDIRS or MOV PINS instruction. The data written to this
+//               pin will always be the least-significant bit of the OUT or MOV
+//               data.
+#define PIO_SM1_PINCTRL_OUT_BASE_RESET  _u(0x00)
+#define PIO_SM1_PINCTRL_OUT_BASE_BITS   _u(0x0000001f)
+#define PIO_SM1_PINCTRL_OUT_BASE_MSB    _u(4)
+#define PIO_SM1_PINCTRL_OUT_BASE_LSB    _u(0)
+#define PIO_SM1_PINCTRL_OUT_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM2_CLKDIV
+// Description : Clock divisor register for state machine 2
+//               Frequency = clock freq / (CLKDIV_INT + CLKDIV_FRAC / 256)
+#define PIO_SM2_CLKDIV_OFFSET _u(0x000000f8)
+#define PIO_SM2_CLKDIV_BITS   _u(0xffffff00)
+#define PIO_SM2_CLKDIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_CLKDIV_INT
+// Description : Effective frequency is sysclk/(int + frac/256).
+//               Value of 0 is interpreted as 65536. If INT is 0, FRAC must also
+//               be 0.
+#define PIO_SM2_CLKDIV_INT_RESET  _u(0x0001)
+#define PIO_SM2_CLKDIV_INT_BITS   _u(0xffff0000)
+#define PIO_SM2_CLKDIV_INT_MSB    _u(31)
+#define PIO_SM2_CLKDIV_INT_LSB    _u(16)
+#define PIO_SM2_CLKDIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_CLKDIV_FRAC
+// Description : Fractional part of clock divisor
+#define PIO_SM2_CLKDIV_FRAC_RESET  _u(0x00)
+#define PIO_SM2_CLKDIV_FRAC_BITS   _u(0x0000ff00)
+#define PIO_SM2_CLKDIV_FRAC_MSB    _u(15)
+#define PIO_SM2_CLKDIV_FRAC_LSB    _u(8)
+#define PIO_SM2_CLKDIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM2_EXECCTRL
+// Description : Execution/behavioural settings for state machine 2
+#define PIO_SM2_EXECCTRL_OFFSET _u(0x000000fc)
+#define PIO_SM2_EXECCTRL_BITS   _u(0xffffffff)
+#define PIO_SM2_EXECCTRL_RESET  _u(0x0001f000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_EXEC_STALLED
+// Description : If 1, an instruction written to SMx_INSTR is stalled, and
+//               latched by the state machine. Will clear to 0 once this
+//               instruction completes.
+#define PIO_SM2_EXECCTRL_EXEC_STALLED_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_EXEC_STALLED_BITS   _u(0x80000000)
+#define PIO_SM2_EXECCTRL_EXEC_STALLED_MSB    _u(31)
+#define PIO_SM2_EXECCTRL_EXEC_STALLED_LSB    _u(31)
+#define PIO_SM2_EXECCTRL_EXEC_STALLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_SIDE_EN
+// Description : If 1, the MSB of the Delay/Side-set instruction field is used
+//               as side-set enable, rather than a side-set data bit. This
+//               allows instructions to perform side-set optionally, rather than
+//               on every instruction, but the maximum possible side-set width
+//               is reduced from 5 to 4. Note that the value of
+//               PINCTRL_SIDESET_COUNT is inclusive of this enable bit.
+#define PIO_SM2_EXECCTRL_SIDE_EN_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_SIDE_EN_BITS   _u(0x40000000)
+#define PIO_SM2_EXECCTRL_SIDE_EN_MSB    _u(30)
+#define PIO_SM2_EXECCTRL_SIDE_EN_LSB    _u(30)
+#define PIO_SM2_EXECCTRL_SIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_SIDE_PINDIR
+// Description : If 1, side-set data is asserted to pin directions, instead of
+//               pin values
+#define PIO_SM2_EXECCTRL_SIDE_PINDIR_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_SIDE_PINDIR_BITS   _u(0x20000000)
+#define PIO_SM2_EXECCTRL_SIDE_PINDIR_MSB    _u(29)
+#define PIO_SM2_EXECCTRL_SIDE_PINDIR_LSB    _u(29)
+#define PIO_SM2_EXECCTRL_SIDE_PINDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_JMP_PIN
+// Description : The GPIO number to use as condition for JMP PIN. Unaffected by
+//               input mapping.
+#define PIO_SM2_EXECCTRL_JMP_PIN_RESET  _u(0x00)
+#define PIO_SM2_EXECCTRL_JMP_PIN_BITS   _u(0x1f000000)
+#define PIO_SM2_EXECCTRL_JMP_PIN_MSB    _u(28)
+#define PIO_SM2_EXECCTRL_JMP_PIN_LSB    _u(24)
+#define PIO_SM2_EXECCTRL_JMP_PIN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_OUT_EN_SEL
+// Description : Which data bit to use for inline OUT enable
+#define PIO_SM2_EXECCTRL_OUT_EN_SEL_RESET  _u(0x00)
+#define PIO_SM2_EXECCTRL_OUT_EN_SEL_BITS   _u(0x00f80000)
+#define PIO_SM2_EXECCTRL_OUT_EN_SEL_MSB    _u(23)
+#define PIO_SM2_EXECCTRL_OUT_EN_SEL_LSB    _u(19)
+#define PIO_SM2_EXECCTRL_OUT_EN_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_INLINE_OUT_EN
+// Description : If 1, use a bit of OUT data as an auxiliary write enable
+//               When used in conjunction with OUT_STICKY, writes with an enable
+//               of 0 will
+//               deassert the latest pin write. This can create useful
+//               masking/override behaviour
+//               due to the priority ordering of state machine pin writes (SM0 <
+//               SM1 < ...)
+#define PIO_SM2_EXECCTRL_INLINE_OUT_EN_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_INLINE_OUT_EN_BITS   _u(0x00040000)
+#define PIO_SM2_EXECCTRL_INLINE_OUT_EN_MSB    _u(18)
+#define PIO_SM2_EXECCTRL_INLINE_OUT_EN_LSB    _u(18)
+#define PIO_SM2_EXECCTRL_INLINE_OUT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_OUT_STICKY
+// Description : Continuously assert the most recent OUT/SET to the pins
+#define PIO_SM2_EXECCTRL_OUT_STICKY_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_OUT_STICKY_BITS   _u(0x00020000)
+#define PIO_SM2_EXECCTRL_OUT_STICKY_MSB    _u(17)
+#define PIO_SM2_EXECCTRL_OUT_STICKY_LSB    _u(17)
+#define PIO_SM2_EXECCTRL_OUT_STICKY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_WRAP_TOP
+// Description : After reaching this address, execution is wrapped to
+//               wrap_bottom.
+//               If the instruction is a jump, and the jump condition is true,
+//               the jump takes priority.
+#define PIO_SM2_EXECCTRL_WRAP_TOP_RESET  _u(0x1f)
+#define PIO_SM2_EXECCTRL_WRAP_TOP_BITS   _u(0x0001f000)
+#define PIO_SM2_EXECCTRL_WRAP_TOP_MSB    _u(16)
+#define PIO_SM2_EXECCTRL_WRAP_TOP_LSB    _u(12)
+#define PIO_SM2_EXECCTRL_WRAP_TOP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_WRAP_BOTTOM
+// Description : After reaching wrap_top, execution is wrapped to this address.
+#define PIO_SM2_EXECCTRL_WRAP_BOTTOM_RESET  _u(0x00)
+#define PIO_SM2_EXECCTRL_WRAP_BOTTOM_BITS   _u(0x00000f80)
+#define PIO_SM2_EXECCTRL_WRAP_BOTTOM_MSB    _u(11)
+#define PIO_SM2_EXECCTRL_WRAP_BOTTOM_LSB    _u(7)
+#define PIO_SM2_EXECCTRL_WRAP_BOTTOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_STATUS_SEL
+// Description : Comparison used for the MOV x, STATUS instruction.
+//               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
+//               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
+//               0x2 -> All-ones if the indexed IRQ flag is raised, otherwise all-zeroes
+#define PIO_SM2_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_BITS   _u(0x00000060)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_MSB    _u(6)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_LSB    _u(5)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_ACCESS "RW"
+#define PIO_SM2_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
+#define PIO_SM2_EXECCTRL_STATUS_SEL_VALUE_IRQ _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_EXECCTRL_STATUS_N
+// Description : Comparison level or IRQ index for the MOV x, STATUS
+//               instruction.
+//
+//               If STATUS_SEL is TXLEVEL or RXLEVEL, then values of STATUS_N
+//               greater than the current FIFO depth are reserved, and have
+//               undefined behaviour.
+//               0x00 -> Index 0-7 of an IRQ flag in this PIO block
+//               0x08 -> Index 0-7 of an IRQ flag in the next lower-numbered PIO block
+//               0x10 -> Index 0-7 of an IRQ flag in the next higher-numbered PIO block
+#define PIO_SM2_EXECCTRL_STATUS_N_RESET  _u(0x00)
+#define PIO_SM2_EXECCTRL_STATUS_N_BITS   _u(0x0000001f)
+#define PIO_SM2_EXECCTRL_STATUS_N_MSB    _u(4)
+#define PIO_SM2_EXECCTRL_STATUS_N_LSB    _u(0)
+#define PIO_SM2_EXECCTRL_STATUS_N_ACCESS "RW"
+#define PIO_SM2_EXECCTRL_STATUS_N_VALUE_IRQ _u(0x00)
+#define PIO_SM2_EXECCTRL_STATUS_N_VALUE_IRQ_PREVPIO _u(0x08)
+#define PIO_SM2_EXECCTRL_STATUS_N_VALUE_IRQ_NEXTPIO _u(0x10)
+// =============================================================================
+// Register    : PIO_SM2_SHIFTCTRL
+// Description : Control behaviour of the input/output shift registers for state
+//               machine 2
+#define PIO_SM2_SHIFTCTRL_OFFSET _u(0x00000100)
+#define PIO_SM2_SHIFTCTRL_BITS   _u(0xffffc01f)
+#define PIO_SM2_SHIFTCTRL_RESET  _u(0x000c0000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_FJOIN_RX
+// Description : When 1, RX FIFO steals the TX FIFO's storage, and becomes twice
+//               as deep.
+//               TX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_BITS   _u(0x80000000)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_MSB    _u(31)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_LSB    _u(31)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_FJOIN_TX
+// Description : When 1, TX FIFO steals the RX FIFO's storage, and becomes twice
+//               as deep.
+//               RX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM2_SHIFTCTRL_FJOIN_TX_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_FJOIN_TX_BITS   _u(0x40000000)
+#define PIO_SM2_SHIFTCTRL_FJOIN_TX_MSB    _u(30)
+#define PIO_SM2_SHIFTCTRL_FJOIN_TX_LSB    _u(30)
+#define PIO_SM2_SHIFTCTRL_FJOIN_TX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_PULL_THRESH
+// Description : Number of bits shifted out of OSR before autopull, or
+//               conditional pull (PULL IFEMPTY), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM2_SHIFTCTRL_PULL_THRESH_RESET  _u(0x00)
+#define PIO_SM2_SHIFTCTRL_PULL_THRESH_BITS   _u(0x3e000000)
+#define PIO_SM2_SHIFTCTRL_PULL_THRESH_MSB    _u(29)
+#define PIO_SM2_SHIFTCTRL_PULL_THRESH_LSB    _u(25)
+#define PIO_SM2_SHIFTCTRL_PULL_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_PUSH_THRESH
+// Description : Number of bits shifted into ISR before autopush, or conditional
+//               push (PUSH IFFULL), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM2_SHIFTCTRL_PUSH_THRESH_RESET  _u(0x00)
+#define PIO_SM2_SHIFTCTRL_PUSH_THRESH_BITS   _u(0x01f00000)
+#define PIO_SM2_SHIFTCTRL_PUSH_THRESH_MSB    _u(24)
+#define PIO_SM2_SHIFTCTRL_PUSH_THRESH_LSB    _u(20)
+#define PIO_SM2_SHIFTCTRL_PUSH_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR
+// Description : 1 = shift out of output shift register to right. 0 = to left.
+#define PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR_BITS   _u(0x00080000)
+#define PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR_MSB    _u(19)
+#define PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR_LSB    _u(19)
+#define PIO_SM2_SHIFTCTRL_OUT_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_IN_SHIFTDIR
+// Description : 1 = shift input shift register to right (data enters from
+//               left). 0 = to left.
+#define PIO_SM2_SHIFTCTRL_IN_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM2_SHIFTCTRL_IN_SHIFTDIR_BITS   _u(0x00040000)
+#define PIO_SM2_SHIFTCTRL_IN_SHIFTDIR_MSB    _u(18)
+#define PIO_SM2_SHIFTCTRL_IN_SHIFTDIR_LSB    _u(18)
+#define PIO_SM2_SHIFTCTRL_IN_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_AUTOPULL
+// Description : Pull automatically when the output shift register is emptied,
+//               i.e. on or following an OUT instruction which causes the output
+//               shift counter to reach or exceed PULL_THRESH.
+#define PIO_SM2_SHIFTCTRL_AUTOPULL_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_AUTOPULL_BITS   _u(0x00020000)
+#define PIO_SM2_SHIFTCTRL_AUTOPULL_MSB    _u(17)
+#define PIO_SM2_SHIFTCTRL_AUTOPULL_LSB    _u(17)
+#define PIO_SM2_SHIFTCTRL_AUTOPULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_AUTOPUSH
+// Description : Push automatically when the input shift register is filled,
+//               i.e. on an IN instruction which causes the input shift counter
+//               to reach or exceed PUSH_THRESH.
+#define PIO_SM2_SHIFTCTRL_AUTOPUSH_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_AUTOPUSH_BITS   _u(0x00010000)
+#define PIO_SM2_SHIFTCTRL_AUTOPUSH_MSB    _u(16)
+#define PIO_SM2_SHIFTCTRL_AUTOPUSH_LSB    _u(16)
+#define PIO_SM2_SHIFTCTRL_AUTOPUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random write access by the state machine (using
+//               the `put` instruction) and, unless FJOIN_RX_GET is also set,
+//               random read access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT_BITS   _u(0x00008000)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT_MSB    _u(15)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT_LSB    _u(15)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_PUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_FJOIN_RX_GET
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random read access by the state machine (using
+//               the `get` instruction) and, unless FJOIN_RX_PUT is also set,
+//               random write access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_GET_RESET  _u(0x0)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_GET_BITS   _u(0x00004000)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_GET_MSB    _u(14)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_GET_LSB    _u(14)
+#define PIO_SM2_SHIFTCTRL_FJOIN_RX_GET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_SHIFTCTRL_IN_COUNT
+// Description : Set the number of pins which are not masked to 0 when read by
+//               an IN PINS, WAIT PIN or MOV x, PINS instruction.
+//
+//               For example, an IN_COUNT of 5 means that the 5 LSBs of the IN
+//               pin group are visible (bits 4:0), but the remaining 27 MSBs are
+//               masked to 0. A count of 32 is encoded with a field value of 0,
+//               so the default behaviour is to not perform any masking.
+//
+//               Note this masking is applied in addition to the masking usually
+//               performed by the IN instruction. This is mainly useful for the
+//               MOV x, PINS instruction, which otherwise has no way of masking
+//               pins.
+#define PIO_SM2_SHIFTCTRL_IN_COUNT_RESET  _u(0x00)
+#define PIO_SM2_SHIFTCTRL_IN_COUNT_BITS   _u(0x0000001f)
+#define PIO_SM2_SHIFTCTRL_IN_COUNT_MSB    _u(4)
+#define PIO_SM2_SHIFTCTRL_IN_COUNT_LSB    _u(0)
+#define PIO_SM2_SHIFTCTRL_IN_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM2_ADDR
+// Description : Current instruction address of state machine 2
+#define PIO_SM2_ADDR_OFFSET _u(0x00000104)
+#define PIO_SM2_ADDR_BITS   _u(0x0000001f)
+#define PIO_SM2_ADDR_RESET  _u(0x00000000)
+#define PIO_SM2_ADDR_MSB    _u(4)
+#define PIO_SM2_ADDR_LSB    _u(0)
+#define PIO_SM2_ADDR_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_SM2_INSTR
+// Description : Read to see the instruction currently addressed by state
+//               machine 2's program counter
+//               Write to execute an instruction immediately (including jumps)
+//               and then resume execution.
+#define PIO_SM2_INSTR_OFFSET _u(0x00000108)
+#define PIO_SM2_INSTR_BITS   _u(0x0000ffff)
+#define PIO_SM2_INSTR_RESET  "-"
+#define PIO_SM2_INSTR_MSB    _u(15)
+#define PIO_SM2_INSTR_LSB    _u(0)
+#define PIO_SM2_INSTR_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM2_PINCTRL
+// Description : State machine pin control
+#define PIO_SM2_PINCTRL_OFFSET _u(0x0000010c)
+#define PIO_SM2_PINCTRL_BITS   _u(0xffffffff)
+#define PIO_SM2_PINCTRL_RESET  _u(0x14000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_SIDESET_COUNT
+// Description : The number of MSBs of the Delay/Side-set instruction field
+//               which are used for side-set. Inclusive of the enable bit, if
+//               present. Minimum of 0 (all delay bits, no side-set) and maximum
+//               of 5 (all side-set, no delay).
+#define PIO_SM2_PINCTRL_SIDESET_COUNT_RESET  _u(0x0)
+#define PIO_SM2_PINCTRL_SIDESET_COUNT_BITS   _u(0xe0000000)
+#define PIO_SM2_PINCTRL_SIDESET_COUNT_MSB    _u(31)
+#define PIO_SM2_PINCTRL_SIDESET_COUNT_LSB    _u(29)
+#define PIO_SM2_PINCTRL_SIDESET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_SET_COUNT
+// Description : The number of pins asserted by a SET. In the range 0 to 5
+//               inclusive.
+#define PIO_SM2_PINCTRL_SET_COUNT_RESET  _u(0x5)
+#define PIO_SM2_PINCTRL_SET_COUNT_BITS   _u(0x1c000000)
+#define PIO_SM2_PINCTRL_SET_COUNT_MSB    _u(28)
+#define PIO_SM2_PINCTRL_SET_COUNT_LSB    _u(26)
+#define PIO_SM2_PINCTRL_SET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_OUT_COUNT
+// Description : The number of pins asserted by an OUT PINS, OUT PINDIRS or MOV
+//               PINS instruction. In the range 0 to 32 inclusive.
+#define PIO_SM2_PINCTRL_OUT_COUNT_RESET  _u(0x00)
+#define PIO_SM2_PINCTRL_OUT_COUNT_BITS   _u(0x03f00000)
+#define PIO_SM2_PINCTRL_OUT_COUNT_MSB    _u(25)
+#define PIO_SM2_PINCTRL_OUT_COUNT_LSB    _u(20)
+#define PIO_SM2_PINCTRL_OUT_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_IN_BASE
+// Description : The pin which is mapped to the least-significant bit of a state
+//               machine's IN data bus. Higher-numbered pins are mapped to
+//               consecutively more-significant data bits, with a modulo of 32
+//               applied to pin number.
+#define PIO_SM2_PINCTRL_IN_BASE_RESET  _u(0x00)
+#define PIO_SM2_PINCTRL_IN_BASE_BITS   _u(0x000f8000)
+#define PIO_SM2_PINCTRL_IN_BASE_MSB    _u(19)
+#define PIO_SM2_PINCTRL_IN_BASE_LSB    _u(15)
+#define PIO_SM2_PINCTRL_IN_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_SIDESET_BASE
+// Description : The lowest-numbered pin that will be affected by a side-set
+//               operation. The MSBs of an instruction's side-set/delay field
+//               (up to 5, determined by SIDESET_COUNT) are used for side-set
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
+#define PIO_SM2_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
+#define PIO_SM2_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
+#define PIO_SM2_PINCTRL_SIDESET_BASE_MSB    _u(14)
+#define PIO_SM2_PINCTRL_SIDESET_BASE_LSB    _u(10)
+#define PIO_SM2_PINCTRL_SIDESET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_SET_BASE
+// Description : The lowest-numbered pin that will be affected by a SET PINS or
+//               SET PINDIRS instruction. The data written to this pin is the
+//               least-significant bit of the SET data.
+#define PIO_SM2_PINCTRL_SET_BASE_RESET  _u(0x00)
+#define PIO_SM2_PINCTRL_SET_BASE_BITS   _u(0x000003e0)
+#define PIO_SM2_PINCTRL_SET_BASE_MSB    _u(9)
+#define PIO_SM2_PINCTRL_SET_BASE_LSB    _u(5)
+#define PIO_SM2_PINCTRL_SET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM2_PINCTRL_OUT_BASE
+// Description : The lowest-numbered pin that will be affected by an OUT PINS,
+//               OUT PINDIRS or MOV PINS instruction. The data written to this
+//               pin will always be the least-significant bit of the OUT or MOV
+//               data.
+#define PIO_SM2_PINCTRL_OUT_BASE_RESET  _u(0x00)
+#define PIO_SM2_PINCTRL_OUT_BASE_BITS   _u(0x0000001f)
+#define PIO_SM2_PINCTRL_OUT_BASE_MSB    _u(4)
+#define PIO_SM2_PINCTRL_OUT_BASE_LSB    _u(0)
+#define PIO_SM2_PINCTRL_OUT_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM3_CLKDIV
+// Description : Clock divisor register for state machine 3
+//               Frequency = clock freq / (CLKDIV_INT + CLKDIV_FRAC / 256)
+#define PIO_SM3_CLKDIV_OFFSET _u(0x00000110)
+#define PIO_SM3_CLKDIV_BITS   _u(0xffffff00)
+#define PIO_SM3_CLKDIV_RESET  _u(0x00010000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_CLKDIV_INT
+// Description : Effective frequency is sysclk/(int + frac/256).
+//               Value of 0 is interpreted as 65536. If INT is 0, FRAC must also
+//               be 0.
+#define PIO_SM3_CLKDIV_INT_RESET  _u(0x0001)
+#define PIO_SM3_CLKDIV_INT_BITS   _u(0xffff0000)
+#define PIO_SM3_CLKDIV_INT_MSB    _u(31)
+#define PIO_SM3_CLKDIV_INT_LSB    _u(16)
+#define PIO_SM3_CLKDIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_CLKDIV_FRAC
+// Description : Fractional part of clock divisor
+#define PIO_SM3_CLKDIV_FRAC_RESET  _u(0x00)
+#define PIO_SM3_CLKDIV_FRAC_BITS   _u(0x0000ff00)
+#define PIO_SM3_CLKDIV_FRAC_MSB    _u(15)
+#define PIO_SM3_CLKDIV_FRAC_LSB    _u(8)
+#define PIO_SM3_CLKDIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM3_EXECCTRL
+// Description : Execution/behavioural settings for state machine 3
+#define PIO_SM3_EXECCTRL_OFFSET _u(0x00000114)
+#define PIO_SM3_EXECCTRL_BITS   _u(0xffffffff)
+#define PIO_SM3_EXECCTRL_RESET  _u(0x0001f000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_EXEC_STALLED
+// Description : If 1, an instruction written to SMx_INSTR is stalled, and
+//               latched by the state machine. Will clear to 0 once this
+//               instruction completes.
+#define PIO_SM3_EXECCTRL_EXEC_STALLED_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_EXEC_STALLED_BITS   _u(0x80000000)
+#define PIO_SM3_EXECCTRL_EXEC_STALLED_MSB    _u(31)
+#define PIO_SM3_EXECCTRL_EXEC_STALLED_LSB    _u(31)
+#define PIO_SM3_EXECCTRL_EXEC_STALLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_SIDE_EN
+// Description : If 1, the MSB of the Delay/Side-set instruction field is used
+//               as side-set enable, rather than a side-set data bit. This
+//               allows instructions to perform side-set optionally, rather than
+//               on every instruction, but the maximum possible side-set width
+//               is reduced from 5 to 4. Note that the value of
+//               PINCTRL_SIDESET_COUNT is inclusive of this enable bit.
+#define PIO_SM3_EXECCTRL_SIDE_EN_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_SIDE_EN_BITS   _u(0x40000000)
+#define PIO_SM3_EXECCTRL_SIDE_EN_MSB    _u(30)
+#define PIO_SM3_EXECCTRL_SIDE_EN_LSB    _u(30)
+#define PIO_SM3_EXECCTRL_SIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_SIDE_PINDIR
+// Description : If 1, side-set data is asserted to pin directions, instead of
+//               pin values
+#define PIO_SM3_EXECCTRL_SIDE_PINDIR_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_SIDE_PINDIR_BITS   _u(0x20000000)
+#define PIO_SM3_EXECCTRL_SIDE_PINDIR_MSB    _u(29)
+#define PIO_SM3_EXECCTRL_SIDE_PINDIR_LSB    _u(29)
+#define PIO_SM3_EXECCTRL_SIDE_PINDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_JMP_PIN
+// Description : The GPIO number to use as condition for JMP PIN. Unaffected by
+//               input mapping.
+#define PIO_SM3_EXECCTRL_JMP_PIN_RESET  _u(0x00)
+#define PIO_SM3_EXECCTRL_JMP_PIN_BITS   _u(0x1f000000)
+#define PIO_SM3_EXECCTRL_JMP_PIN_MSB    _u(28)
+#define PIO_SM3_EXECCTRL_JMP_PIN_LSB    _u(24)
+#define PIO_SM3_EXECCTRL_JMP_PIN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_OUT_EN_SEL
+// Description : Which data bit to use for inline OUT enable
+#define PIO_SM3_EXECCTRL_OUT_EN_SEL_RESET  _u(0x00)
+#define PIO_SM3_EXECCTRL_OUT_EN_SEL_BITS   _u(0x00f80000)
+#define PIO_SM3_EXECCTRL_OUT_EN_SEL_MSB    _u(23)
+#define PIO_SM3_EXECCTRL_OUT_EN_SEL_LSB    _u(19)
+#define PIO_SM3_EXECCTRL_OUT_EN_SEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_INLINE_OUT_EN
+// Description : If 1, use a bit of OUT data as an auxiliary write enable
+//               When used in conjunction with OUT_STICKY, writes with an enable
+//               of 0 will
+//               deassert the latest pin write. This can create useful
+//               masking/override behaviour
+//               due to the priority ordering of state machine pin writes (SM0 <
+//               SM1 < ...)
+#define PIO_SM3_EXECCTRL_INLINE_OUT_EN_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_INLINE_OUT_EN_BITS   _u(0x00040000)
+#define PIO_SM3_EXECCTRL_INLINE_OUT_EN_MSB    _u(18)
+#define PIO_SM3_EXECCTRL_INLINE_OUT_EN_LSB    _u(18)
+#define PIO_SM3_EXECCTRL_INLINE_OUT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_OUT_STICKY
+// Description : Continuously assert the most recent OUT/SET to the pins
+#define PIO_SM3_EXECCTRL_OUT_STICKY_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_OUT_STICKY_BITS   _u(0x00020000)
+#define PIO_SM3_EXECCTRL_OUT_STICKY_MSB    _u(17)
+#define PIO_SM3_EXECCTRL_OUT_STICKY_LSB    _u(17)
+#define PIO_SM3_EXECCTRL_OUT_STICKY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_WRAP_TOP
+// Description : After reaching this address, execution is wrapped to
+//               wrap_bottom.
+//               If the instruction is a jump, and the jump condition is true,
+//               the jump takes priority.
+#define PIO_SM3_EXECCTRL_WRAP_TOP_RESET  _u(0x1f)
+#define PIO_SM3_EXECCTRL_WRAP_TOP_BITS   _u(0x0001f000)
+#define PIO_SM3_EXECCTRL_WRAP_TOP_MSB    _u(16)
+#define PIO_SM3_EXECCTRL_WRAP_TOP_LSB    _u(12)
+#define PIO_SM3_EXECCTRL_WRAP_TOP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_WRAP_BOTTOM
+// Description : After reaching wrap_top, execution is wrapped to this address.
+#define PIO_SM3_EXECCTRL_WRAP_BOTTOM_RESET  _u(0x00)
+#define PIO_SM3_EXECCTRL_WRAP_BOTTOM_BITS   _u(0x00000f80)
+#define PIO_SM3_EXECCTRL_WRAP_BOTTOM_MSB    _u(11)
+#define PIO_SM3_EXECCTRL_WRAP_BOTTOM_LSB    _u(7)
+#define PIO_SM3_EXECCTRL_WRAP_BOTTOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_STATUS_SEL
+// Description : Comparison used for the MOV x, STATUS instruction.
+//               0x0 -> All-ones if TX FIFO level < N, otherwise all-zeroes
+//               0x1 -> All-ones if RX FIFO level < N, otherwise all-zeroes
+//               0x2 -> All-ones if the indexed IRQ flag is raised, otherwise all-zeroes
+#define PIO_SM3_EXECCTRL_STATUS_SEL_RESET  _u(0x0)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_BITS   _u(0x00000060)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_MSB    _u(6)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_LSB    _u(5)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_ACCESS "RW"
+#define PIO_SM3_EXECCTRL_STATUS_SEL_VALUE_TXLEVEL _u(0x0)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_VALUE_RXLEVEL _u(0x1)
+#define PIO_SM3_EXECCTRL_STATUS_SEL_VALUE_IRQ _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_EXECCTRL_STATUS_N
+// Description : Comparison level or IRQ index for the MOV x, STATUS
+//               instruction.
+//
+//               If STATUS_SEL is TXLEVEL or RXLEVEL, then values of STATUS_N
+//               greater than the current FIFO depth are reserved, and have
+//               undefined behaviour.
+//               0x00 -> Index 0-7 of an IRQ flag in this PIO block
+//               0x08 -> Index 0-7 of an IRQ flag in the next lower-numbered PIO block
+//               0x10 -> Index 0-7 of an IRQ flag in the next higher-numbered PIO block
+#define PIO_SM3_EXECCTRL_STATUS_N_RESET  _u(0x00)
+#define PIO_SM3_EXECCTRL_STATUS_N_BITS   _u(0x0000001f)
+#define PIO_SM3_EXECCTRL_STATUS_N_MSB    _u(4)
+#define PIO_SM3_EXECCTRL_STATUS_N_LSB    _u(0)
+#define PIO_SM3_EXECCTRL_STATUS_N_ACCESS "RW"
+#define PIO_SM3_EXECCTRL_STATUS_N_VALUE_IRQ _u(0x00)
+#define PIO_SM3_EXECCTRL_STATUS_N_VALUE_IRQ_PREVPIO _u(0x08)
+#define PIO_SM3_EXECCTRL_STATUS_N_VALUE_IRQ_NEXTPIO _u(0x10)
+// =============================================================================
+// Register    : PIO_SM3_SHIFTCTRL
+// Description : Control behaviour of the input/output shift registers for state
+//               machine 3
+#define PIO_SM3_SHIFTCTRL_OFFSET _u(0x00000118)
+#define PIO_SM3_SHIFTCTRL_BITS   _u(0xffffc01f)
+#define PIO_SM3_SHIFTCTRL_RESET  _u(0x000c0000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_FJOIN_RX
+// Description : When 1, RX FIFO steals the TX FIFO's storage, and becomes twice
+//               as deep.
+//               TX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_BITS   _u(0x80000000)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_MSB    _u(31)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_LSB    _u(31)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_FJOIN_TX
+// Description : When 1, TX FIFO steals the RX FIFO's storage, and becomes twice
+//               as deep.
+//               RX FIFO is disabled as a result (always reads as both full and
+//               empty).
+//               FIFOs are flushed when this bit is changed.
+#define PIO_SM3_SHIFTCTRL_FJOIN_TX_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_FJOIN_TX_BITS   _u(0x40000000)
+#define PIO_SM3_SHIFTCTRL_FJOIN_TX_MSB    _u(30)
+#define PIO_SM3_SHIFTCTRL_FJOIN_TX_LSB    _u(30)
+#define PIO_SM3_SHIFTCTRL_FJOIN_TX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_PULL_THRESH
+// Description : Number of bits shifted out of OSR before autopull, or
+//               conditional pull (PULL IFEMPTY), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM3_SHIFTCTRL_PULL_THRESH_RESET  _u(0x00)
+#define PIO_SM3_SHIFTCTRL_PULL_THRESH_BITS   _u(0x3e000000)
+#define PIO_SM3_SHIFTCTRL_PULL_THRESH_MSB    _u(29)
+#define PIO_SM3_SHIFTCTRL_PULL_THRESH_LSB    _u(25)
+#define PIO_SM3_SHIFTCTRL_PULL_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_PUSH_THRESH
+// Description : Number of bits shifted into ISR before autopush, or conditional
+//               push (PUSH IFFULL), will take place.
+//               Write 0 for value of 32.
+#define PIO_SM3_SHIFTCTRL_PUSH_THRESH_RESET  _u(0x00)
+#define PIO_SM3_SHIFTCTRL_PUSH_THRESH_BITS   _u(0x01f00000)
+#define PIO_SM3_SHIFTCTRL_PUSH_THRESH_MSB    _u(24)
+#define PIO_SM3_SHIFTCTRL_PUSH_THRESH_LSB    _u(20)
+#define PIO_SM3_SHIFTCTRL_PUSH_THRESH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR
+// Description : 1 = shift out of output shift register to right. 0 = to left.
+#define PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR_BITS   _u(0x00080000)
+#define PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR_MSB    _u(19)
+#define PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR_LSB    _u(19)
+#define PIO_SM3_SHIFTCTRL_OUT_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_IN_SHIFTDIR
+// Description : 1 = shift input shift register to right (data enters from
+//               left). 0 = to left.
+#define PIO_SM3_SHIFTCTRL_IN_SHIFTDIR_RESET  _u(0x1)
+#define PIO_SM3_SHIFTCTRL_IN_SHIFTDIR_BITS   _u(0x00040000)
+#define PIO_SM3_SHIFTCTRL_IN_SHIFTDIR_MSB    _u(18)
+#define PIO_SM3_SHIFTCTRL_IN_SHIFTDIR_LSB    _u(18)
+#define PIO_SM3_SHIFTCTRL_IN_SHIFTDIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_AUTOPULL
+// Description : Pull automatically when the output shift register is emptied,
+//               i.e. on or following an OUT instruction which causes the output
+//               shift counter to reach or exceed PULL_THRESH.
+#define PIO_SM3_SHIFTCTRL_AUTOPULL_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_AUTOPULL_BITS   _u(0x00020000)
+#define PIO_SM3_SHIFTCTRL_AUTOPULL_MSB    _u(17)
+#define PIO_SM3_SHIFTCTRL_AUTOPULL_LSB    _u(17)
+#define PIO_SM3_SHIFTCTRL_AUTOPULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_AUTOPUSH
+// Description : Push automatically when the input shift register is filled,
+//               i.e. on an IN instruction which causes the input shift counter
+//               to reach or exceed PUSH_THRESH.
+#define PIO_SM3_SHIFTCTRL_AUTOPUSH_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_AUTOPUSH_BITS   _u(0x00010000)
+#define PIO_SM3_SHIFTCTRL_AUTOPUSH_MSB    _u(16)
+#define PIO_SM3_SHIFTCTRL_AUTOPUSH_LSB    _u(16)
+#define PIO_SM3_SHIFTCTRL_AUTOPUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random write access by the state machine (using
+//               the `put` instruction) and, unless FJOIN_RX_GET is also set,
+//               random read access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT_BITS   _u(0x00008000)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT_MSB    _u(15)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT_LSB    _u(15)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_PUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_FJOIN_RX_GET
+// Description : If 1, disable this state machine's RX FIFO, make its storage
+//               available for random read access by the state machine (using
+//               the `get` instruction) and, unless FJOIN_RX_PUT is also set,
+//               random write access by the processor (through the RXFx_PUTGETy
+//               registers).
+//
+//               If FJOIN_RX_PUT and FJOIN_RX_GET are both set, then the RX
+//               FIFO's registers can be randomly read/written by the state
+//               machine, but are completely inaccessible to the processor.
+//
+//               Setting this bit will clear the FJOIN_TX and FJOIN_RX bits.
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_GET_RESET  _u(0x0)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_GET_BITS   _u(0x00004000)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_GET_MSB    _u(14)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_GET_LSB    _u(14)
+#define PIO_SM3_SHIFTCTRL_FJOIN_RX_GET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_SHIFTCTRL_IN_COUNT
+// Description : Set the number of pins which are not masked to 0 when read by
+//               an IN PINS, WAIT PIN or MOV x, PINS instruction.
+//
+//               For example, an IN_COUNT of 5 means that the 5 LSBs of the IN
+//               pin group are visible (bits 4:0), but the remaining 27 MSBs are
+//               masked to 0. A count of 32 is encoded with a field value of 0,
+//               so the default behaviour is to not perform any masking.
+//
+//               Note this masking is applied in addition to the masking usually
+//               performed by the IN instruction. This is mainly useful for the
+//               MOV x, PINS instruction, which otherwise has no way of masking
+//               pins.
+#define PIO_SM3_SHIFTCTRL_IN_COUNT_RESET  _u(0x00)
+#define PIO_SM3_SHIFTCTRL_IN_COUNT_BITS   _u(0x0000001f)
+#define PIO_SM3_SHIFTCTRL_IN_COUNT_MSB    _u(4)
+#define PIO_SM3_SHIFTCTRL_IN_COUNT_LSB    _u(0)
+#define PIO_SM3_SHIFTCTRL_IN_COUNT_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM3_ADDR
+// Description : Current instruction address of state machine 3
+#define PIO_SM3_ADDR_OFFSET _u(0x0000011c)
+#define PIO_SM3_ADDR_BITS   _u(0x0000001f)
+#define PIO_SM3_ADDR_RESET  _u(0x00000000)
+#define PIO_SM3_ADDR_MSB    _u(4)
+#define PIO_SM3_ADDR_LSB    _u(0)
+#define PIO_SM3_ADDR_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_SM3_INSTR
+// Description : Read to see the instruction currently addressed by state
+//               machine 3's program counter
+//               Write to execute an instruction immediately (including jumps)
+//               and then resume execution.
+#define PIO_SM3_INSTR_OFFSET _u(0x00000120)
+#define PIO_SM3_INSTR_BITS   _u(0x0000ffff)
+#define PIO_SM3_INSTR_RESET  "-"
+#define PIO_SM3_INSTR_MSB    _u(15)
+#define PIO_SM3_INSTR_LSB    _u(0)
+#define PIO_SM3_INSTR_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_SM3_PINCTRL
+// Description : State machine pin control
+#define PIO_SM3_PINCTRL_OFFSET _u(0x00000124)
+#define PIO_SM3_PINCTRL_BITS   _u(0xffffffff)
+#define PIO_SM3_PINCTRL_RESET  _u(0x14000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_SIDESET_COUNT
+// Description : The number of MSBs of the Delay/Side-set instruction field
+//               which are used for side-set. Inclusive of the enable bit, if
+//               present. Minimum of 0 (all delay bits, no side-set) and maximum
+//               of 5 (all side-set, no delay).
+#define PIO_SM3_PINCTRL_SIDESET_COUNT_RESET  _u(0x0)
+#define PIO_SM3_PINCTRL_SIDESET_COUNT_BITS   _u(0xe0000000)
+#define PIO_SM3_PINCTRL_SIDESET_COUNT_MSB    _u(31)
+#define PIO_SM3_PINCTRL_SIDESET_COUNT_LSB    _u(29)
+#define PIO_SM3_PINCTRL_SIDESET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_SET_COUNT
+// Description : The number of pins asserted by a SET. In the range 0 to 5
+//               inclusive.
+#define PIO_SM3_PINCTRL_SET_COUNT_RESET  _u(0x5)
+#define PIO_SM3_PINCTRL_SET_COUNT_BITS   _u(0x1c000000)
+#define PIO_SM3_PINCTRL_SET_COUNT_MSB    _u(28)
+#define PIO_SM3_PINCTRL_SET_COUNT_LSB    _u(26)
+#define PIO_SM3_PINCTRL_SET_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_OUT_COUNT
+// Description : The number of pins asserted by an OUT PINS, OUT PINDIRS or MOV
+//               PINS instruction. In the range 0 to 32 inclusive.
+#define PIO_SM3_PINCTRL_OUT_COUNT_RESET  _u(0x00)
+#define PIO_SM3_PINCTRL_OUT_COUNT_BITS   _u(0x03f00000)
+#define PIO_SM3_PINCTRL_OUT_COUNT_MSB    _u(25)
+#define PIO_SM3_PINCTRL_OUT_COUNT_LSB    _u(20)
+#define PIO_SM3_PINCTRL_OUT_COUNT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_IN_BASE
+// Description : The pin which is mapped to the least-significant bit of a state
+//               machine's IN data bus. Higher-numbered pins are mapped to
+//               consecutively more-significant data bits, with a modulo of 32
+//               applied to pin number.
+#define PIO_SM3_PINCTRL_IN_BASE_RESET  _u(0x00)
+#define PIO_SM3_PINCTRL_IN_BASE_BITS   _u(0x000f8000)
+#define PIO_SM3_PINCTRL_IN_BASE_MSB    _u(19)
+#define PIO_SM3_PINCTRL_IN_BASE_LSB    _u(15)
+#define PIO_SM3_PINCTRL_IN_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_SIDESET_BASE
+// Description : The lowest-numbered pin that will be affected by a side-set
+//               operation. The MSBs of an instruction's side-set/delay field
+//               (up to 5, determined by SIDESET_COUNT) are used for side-set
+//               data, with the remaining LSBs used for delay. The least-
+//               significant bit of the side-set portion is the bit written to
+//               this pin, with more-significant bits written to higher-numbered
+//               pins.
+#define PIO_SM3_PINCTRL_SIDESET_BASE_RESET  _u(0x00)
+#define PIO_SM3_PINCTRL_SIDESET_BASE_BITS   _u(0x00007c00)
+#define PIO_SM3_PINCTRL_SIDESET_BASE_MSB    _u(14)
+#define PIO_SM3_PINCTRL_SIDESET_BASE_LSB    _u(10)
+#define PIO_SM3_PINCTRL_SIDESET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_SET_BASE
+// Description : The lowest-numbered pin that will be affected by a SET PINS or
+//               SET PINDIRS instruction. The data written to this pin is the
+//               least-significant bit of the SET data.
+#define PIO_SM3_PINCTRL_SET_BASE_RESET  _u(0x00)
+#define PIO_SM3_PINCTRL_SET_BASE_BITS   _u(0x000003e0)
+#define PIO_SM3_PINCTRL_SET_BASE_MSB    _u(9)
+#define PIO_SM3_PINCTRL_SET_BASE_LSB    _u(5)
+#define PIO_SM3_PINCTRL_SET_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_SM3_PINCTRL_OUT_BASE
+// Description : The lowest-numbered pin that will be affected by an OUT PINS,
+//               OUT PINDIRS or MOV PINS instruction. The data written to this
+//               pin will always be the least-significant bit of the OUT or MOV
+//               data.
+#define PIO_SM3_PINCTRL_OUT_BASE_RESET  _u(0x00)
+#define PIO_SM3_PINCTRL_OUT_BASE_BITS   _u(0x0000001f)
+#define PIO_SM3_PINCTRL_OUT_BASE_MSB    _u(4)
+#define PIO_SM3_PINCTRL_OUT_BASE_LSB    _u(0)
+#define PIO_SM3_PINCTRL_OUT_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF0_PUTGET0
+// Description : Direct read/write access to entry 0 of SM0's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF0_PUTGET0_OFFSET _u(0x00000128)
+#define PIO_RXF0_PUTGET0_BITS   _u(0xffffffff)
+#define PIO_RXF0_PUTGET0_RESET  _u(0x00000000)
+#define PIO_RXF0_PUTGET0_MSB    _u(31)
+#define PIO_RXF0_PUTGET0_LSB    _u(0)
+#define PIO_RXF0_PUTGET0_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF0_PUTGET1
+// Description : Direct read/write access to entry 1 of SM0's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF0_PUTGET1_OFFSET _u(0x0000012c)
+#define PIO_RXF0_PUTGET1_BITS   _u(0xffffffff)
+#define PIO_RXF0_PUTGET1_RESET  _u(0x00000000)
+#define PIO_RXF0_PUTGET1_MSB    _u(31)
+#define PIO_RXF0_PUTGET1_LSB    _u(0)
+#define PIO_RXF0_PUTGET1_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF0_PUTGET2
+// Description : Direct read/write access to entry 2 of SM0's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF0_PUTGET2_OFFSET _u(0x00000130)
+#define PIO_RXF0_PUTGET2_BITS   _u(0xffffffff)
+#define PIO_RXF0_PUTGET2_RESET  _u(0x00000000)
+#define PIO_RXF0_PUTGET2_MSB    _u(31)
+#define PIO_RXF0_PUTGET2_LSB    _u(0)
+#define PIO_RXF0_PUTGET2_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF0_PUTGET3
+// Description : Direct read/write access to entry 3 of SM0's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF0_PUTGET3_OFFSET _u(0x00000134)
+#define PIO_RXF0_PUTGET3_BITS   _u(0xffffffff)
+#define PIO_RXF0_PUTGET3_RESET  _u(0x00000000)
+#define PIO_RXF0_PUTGET3_MSB    _u(31)
+#define PIO_RXF0_PUTGET3_LSB    _u(0)
+#define PIO_RXF0_PUTGET3_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF1_PUTGET0
+// Description : Direct read/write access to entry 0 of SM1's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF1_PUTGET0_OFFSET _u(0x00000138)
+#define PIO_RXF1_PUTGET0_BITS   _u(0xffffffff)
+#define PIO_RXF1_PUTGET0_RESET  _u(0x00000000)
+#define PIO_RXF1_PUTGET0_MSB    _u(31)
+#define PIO_RXF1_PUTGET0_LSB    _u(0)
+#define PIO_RXF1_PUTGET0_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF1_PUTGET1
+// Description : Direct read/write access to entry 1 of SM1's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF1_PUTGET1_OFFSET _u(0x0000013c)
+#define PIO_RXF1_PUTGET1_BITS   _u(0xffffffff)
+#define PIO_RXF1_PUTGET1_RESET  _u(0x00000000)
+#define PIO_RXF1_PUTGET1_MSB    _u(31)
+#define PIO_RXF1_PUTGET1_LSB    _u(0)
+#define PIO_RXF1_PUTGET1_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF1_PUTGET2
+// Description : Direct read/write access to entry 2 of SM1's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF1_PUTGET2_OFFSET _u(0x00000140)
+#define PIO_RXF1_PUTGET2_BITS   _u(0xffffffff)
+#define PIO_RXF1_PUTGET2_RESET  _u(0x00000000)
+#define PIO_RXF1_PUTGET2_MSB    _u(31)
+#define PIO_RXF1_PUTGET2_LSB    _u(0)
+#define PIO_RXF1_PUTGET2_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF1_PUTGET3
+// Description : Direct read/write access to entry 3 of SM1's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF1_PUTGET3_OFFSET _u(0x00000144)
+#define PIO_RXF1_PUTGET3_BITS   _u(0xffffffff)
+#define PIO_RXF1_PUTGET3_RESET  _u(0x00000000)
+#define PIO_RXF1_PUTGET3_MSB    _u(31)
+#define PIO_RXF1_PUTGET3_LSB    _u(0)
+#define PIO_RXF1_PUTGET3_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF2_PUTGET0
+// Description : Direct read/write access to entry 0 of SM2's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF2_PUTGET0_OFFSET _u(0x00000148)
+#define PIO_RXF2_PUTGET0_BITS   _u(0xffffffff)
+#define PIO_RXF2_PUTGET0_RESET  _u(0x00000000)
+#define PIO_RXF2_PUTGET0_MSB    _u(31)
+#define PIO_RXF2_PUTGET0_LSB    _u(0)
+#define PIO_RXF2_PUTGET0_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF2_PUTGET1
+// Description : Direct read/write access to entry 1 of SM2's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF2_PUTGET1_OFFSET _u(0x0000014c)
+#define PIO_RXF2_PUTGET1_BITS   _u(0xffffffff)
+#define PIO_RXF2_PUTGET1_RESET  _u(0x00000000)
+#define PIO_RXF2_PUTGET1_MSB    _u(31)
+#define PIO_RXF2_PUTGET1_LSB    _u(0)
+#define PIO_RXF2_PUTGET1_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF2_PUTGET2
+// Description : Direct read/write access to entry 2 of SM2's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF2_PUTGET2_OFFSET _u(0x00000150)
+#define PIO_RXF2_PUTGET2_BITS   _u(0xffffffff)
+#define PIO_RXF2_PUTGET2_RESET  _u(0x00000000)
+#define PIO_RXF2_PUTGET2_MSB    _u(31)
+#define PIO_RXF2_PUTGET2_LSB    _u(0)
+#define PIO_RXF2_PUTGET2_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF2_PUTGET3
+// Description : Direct read/write access to entry 3 of SM2's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF2_PUTGET3_OFFSET _u(0x00000154)
+#define PIO_RXF2_PUTGET3_BITS   _u(0xffffffff)
+#define PIO_RXF2_PUTGET3_RESET  _u(0x00000000)
+#define PIO_RXF2_PUTGET3_MSB    _u(31)
+#define PIO_RXF2_PUTGET3_LSB    _u(0)
+#define PIO_RXF2_PUTGET3_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF3_PUTGET0
+// Description : Direct read/write access to entry 0 of SM3's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF3_PUTGET0_OFFSET _u(0x00000158)
+#define PIO_RXF3_PUTGET0_BITS   _u(0xffffffff)
+#define PIO_RXF3_PUTGET0_RESET  _u(0x00000000)
+#define PIO_RXF3_PUTGET0_MSB    _u(31)
+#define PIO_RXF3_PUTGET0_LSB    _u(0)
+#define PIO_RXF3_PUTGET0_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF3_PUTGET1
+// Description : Direct read/write access to entry 1 of SM3's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF3_PUTGET1_OFFSET _u(0x0000015c)
+#define PIO_RXF3_PUTGET1_BITS   _u(0xffffffff)
+#define PIO_RXF3_PUTGET1_RESET  _u(0x00000000)
+#define PIO_RXF3_PUTGET1_MSB    _u(31)
+#define PIO_RXF3_PUTGET1_LSB    _u(0)
+#define PIO_RXF3_PUTGET1_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF3_PUTGET2
+// Description : Direct read/write access to entry 2 of SM3's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF3_PUTGET2_OFFSET _u(0x00000160)
+#define PIO_RXF3_PUTGET2_BITS   _u(0xffffffff)
+#define PIO_RXF3_PUTGET2_RESET  _u(0x00000000)
+#define PIO_RXF3_PUTGET2_MSB    _u(31)
+#define PIO_RXF3_PUTGET2_LSB    _u(0)
+#define PIO_RXF3_PUTGET2_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_RXF3_PUTGET3
+// Description : Direct read/write access to entry 3 of SM3's RX FIFO, if
+//               SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set.
+#define PIO_RXF3_PUTGET3_OFFSET _u(0x00000164)
+#define PIO_RXF3_PUTGET3_BITS   _u(0xffffffff)
+#define PIO_RXF3_PUTGET3_RESET  _u(0x00000000)
+#define PIO_RXF3_PUTGET3_MSB    _u(31)
+#define PIO_RXF3_PUTGET3_LSB    _u(0)
+#define PIO_RXF3_PUTGET3_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_GPIOBASE
+// Description : Relocate GPIO 0 (from PIO's point of view) in the system GPIO
+//               numbering, to access more than 32 GPIOs from PIO.
+//
+//               Only the values 0 and 16 are supported (only bit 4 is
+//               writable).
+#define PIO_GPIOBASE_OFFSET _u(0x00000168)
+#define PIO_GPIOBASE_BITS   _u(0x00000010)
+#define PIO_GPIOBASE_RESET  _u(0x00000000)
+#define PIO_GPIOBASE_MSB    _u(4)
+#define PIO_GPIOBASE_LSB    _u(4)
+#define PIO_GPIOBASE_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_INTR
+// Description : Raw Interrupts
+#define PIO_INTR_OFFSET _u(0x0000016c)
+#define PIO_INTR_BITS   _u(0x0000ffff)
+#define PIO_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM7
+#define PIO_INTR_SM7_RESET  _u(0x0)
+#define PIO_INTR_SM7_BITS   _u(0x00008000)
+#define PIO_INTR_SM7_MSB    _u(15)
+#define PIO_INTR_SM7_LSB    _u(15)
+#define PIO_INTR_SM7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM6
+#define PIO_INTR_SM6_RESET  _u(0x0)
+#define PIO_INTR_SM6_BITS   _u(0x00004000)
+#define PIO_INTR_SM6_MSB    _u(14)
+#define PIO_INTR_SM6_LSB    _u(14)
+#define PIO_INTR_SM6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM5
+#define PIO_INTR_SM5_RESET  _u(0x0)
+#define PIO_INTR_SM5_BITS   _u(0x00002000)
+#define PIO_INTR_SM5_MSB    _u(13)
+#define PIO_INTR_SM5_LSB    _u(13)
+#define PIO_INTR_SM5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM4
+#define PIO_INTR_SM4_RESET  _u(0x0)
+#define PIO_INTR_SM4_BITS   _u(0x00001000)
+#define PIO_INTR_SM4_MSB    _u(12)
+#define PIO_INTR_SM4_LSB    _u(12)
+#define PIO_INTR_SM4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM3
+#define PIO_INTR_SM3_RESET  _u(0x0)
+#define PIO_INTR_SM3_BITS   _u(0x00000800)
+#define PIO_INTR_SM3_MSB    _u(11)
+#define PIO_INTR_SM3_LSB    _u(11)
+#define PIO_INTR_SM3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM2
+#define PIO_INTR_SM2_RESET  _u(0x0)
+#define PIO_INTR_SM2_BITS   _u(0x00000400)
+#define PIO_INTR_SM2_MSB    _u(10)
+#define PIO_INTR_SM2_LSB    _u(10)
+#define PIO_INTR_SM2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM1
+#define PIO_INTR_SM1_RESET  _u(0x0)
+#define PIO_INTR_SM1_BITS   _u(0x00000200)
+#define PIO_INTR_SM1_MSB    _u(9)
+#define PIO_INTR_SM1_LSB    _u(9)
+#define PIO_INTR_SM1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM0
+#define PIO_INTR_SM0_RESET  _u(0x0)
+#define PIO_INTR_SM0_BITS   _u(0x00000100)
+#define PIO_INTR_SM0_MSB    _u(8)
+#define PIO_INTR_SM0_LSB    _u(8)
+#define PIO_INTR_SM0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM3_TXNFULL
+#define PIO_INTR_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_INTR_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_INTR_SM3_TXNFULL_MSB    _u(7)
+#define PIO_INTR_SM3_TXNFULL_LSB    _u(7)
+#define PIO_INTR_SM3_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM2_TXNFULL
+#define PIO_INTR_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_INTR_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_INTR_SM2_TXNFULL_MSB    _u(6)
+#define PIO_INTR_SM2_TXNFULL_LSB    _u(6)
+#define PIO_INTR_SM2_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM1_TXNFULL
+#define PIO_INTR_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_INTR_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_INTR_SM1_TXNFULL_MSB    _u(5)
+#define PIO_INTR_SM1_TXNFULL_LSB    _u(5)
+#define PIO_INTR_SM1_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM0_TXNFULL
+#define PIO_INTR_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_INTR_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_INTR_SM0_TXNFULL_MSB    _u(4)
+#define PIO_INTR_SM0_TXNFULL_LSB    _u(4)
+#define PIO_INTR_SM0_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM3_RXNEMPTY
+#define PIO_INTR_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_INTR_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_INTR_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_INTR_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_INTR_SM3_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM2_RXNEMPTY
+#define PIO_INTR_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_INTR_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_INTR_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_INTR_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_INTR_SM2_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM1_RXNEMPTY
+#define PIO_INTR_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_INTR_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_INTR_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_INTR_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_INTR_SM1_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_INTR_SM0_RXNEMPTY
+#define PIO_INTR_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_INTR_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_INTR_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_INTR_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_INTR_SM0_RXNEMPTY_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_IRQ0_INTE
+// Description : Interrupt Enable for irq0
+#define PIO_IRQ0_INTE_OFFSET _u(0x00000170)
+#define PIO_IRQ0_INTE_BITS   _u(0x0000ffff)
+#define PIO_IRQ0_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM7
+#define PIO_IRQ0_INTE_SM7_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ0_INTE_SM7_MSB    _u(15)
+#define PIO_IRQ0_INTE_SM7_LSB    _u(15)
+#define PIO_IRQ0_INTE_SM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM6
+#define PIO_IRQ0_INTE_SM6_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ0_INTE_SM6_MSB    _u(14)
+#define PIO_IRQ0_INTE_SM6_LSB    _u(14)
+#define PIO_IRQ0_INTE_SM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM5
+#define PIO_IRQ0_INTE_SM5_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ0_INTE_SM5_MSB    _u(13)
+#define PIO_IRQ0_INTE_SM5_LSB    _u(13)
+#define PIO_IRQ0_INTE_SM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM4
+#define PIO_IRQ0_INTE_SM4_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ0_INTE_SM4_MSB    _u(12)
+#define PIO_IRQ0_INTE_SM4_LSB    _u(12)
+#define PIO_IRQ0_INTE_SM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM3
+#define PIO_IRQ0_INTE_SM3_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ0_INTE_SM3_MSB    _u(11)
+#define PIO_IRQ0_INTE_SM3_LSB    _u(11)
+#define PIO_IRQ0_INTE_SM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM2
+#define PIO_IRQ0_INTE_SM2_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ0_INTE_SM2_MSB    _u(10)
+#define PIO_IRQ0_INTE_SM2_LSB    _u(10)
+#define PIO_IRQ0_INTE_SM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM1
+#define PIO_IRQ0_INTE_SM1_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ0_INTE_SM1_MSB    _u(9)
+#define PIO_IRQ0_INTE_SM1_LSB    _u(9)
+#define PIO_IRQ0_INTE_SM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM0
+#define PIO_IRQ0_INTE_SM0_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ0_INTE_SM0_MSB    _u(8)
+#define PIO_IRQ0_INTE_SM0_LSB    _u(8)
+#define PIO_IRQ0_INTE_SM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM3_TXNFULL
+#define PIO_IRQ0_INTE_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ0_INTE_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ0_INTE_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ0_INTE_SM3_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM2_TXNFULL
+#define PIO_IRQ0_INTE_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ0_INTE_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ0_INTE_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ0_INTE_SM2_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM1_TXNFULL
+#define PIO_IRQ0_INTE_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ0_INTE_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ0_INTE_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ0_INTE_SM1_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM0_TXNFULL
+#define PIO_IRQ0_INTE_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ0_INTE_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ0_INTE_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ0_INTE_SM0_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM3_RXNEMPTY
+#define PIO_IRQ0_INTE_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ0_INTE_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ0_INTE_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ0_INTE_SM3_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM2_RXNEMPTY
+#define PIO_IRQ0_INTE_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ0_INTE_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ0_INTE_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ0_INTE_SM2_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM1_RXNEMPTY
+#define PIO_IRQ0_INTE_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ0_INTE_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ0_INTE_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ0_INTE_SM1_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTE_SM0_RXNEMPTY
+#define PIO_IRQ0_INTE_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTE_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ0_INTE_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ0_INTE_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ0_INTE_SM0_RXNEMPTY_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_IRQ0_INTF
+// Description : Interrupt Force for irq0
+#define PIO_IRQ0_INTF_OFFSET _u(0x00000174)
+#define PIO_IRQ0_INTF_BITS   _u(0x0000ffff)
+#define PIO_IRQ0_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM7
+#define PIO_IRQ0_INTF_SM7_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ0_INTF_SM7_MSB    _u(15)
+#define PIO_IRQ0_INTF_SM7_LSB    _u(15)
+#define PIO_IRQ0_INTF_SM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM6
+#define PIO_IRQ0_INTF_SM6_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ0_INTF_SM6_MSB    _u(14)
+#define PIO_IRQ0_INTF_SM6_LSB    _u(14)
+#define PIO_IRQ0_INTF_SM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM5
+#define PIO_IRQ0_INTF_SM5_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ0_INTF_SM5_MSB    _u(13)
+#define PIO_IRQ0_INTF_SM5_LSB    _u(13)
+#define PIO_IRQ0_INTF_SM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM4
+#define PIO_IRQ0_INTF_SM4_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ0_INTF_SM4_MSB    _u(12)
+#define PIO_IRQ0_INTF_SM4_LSB    _u(12)
+#define PIO_IRQ0_INTF_SM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM3
+#define PIO_IRQ0_INTF_SM3_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ0_INTF_SM3_MSB    _u(11)
+#define PIO_IRQ0_INTF_SM3_LSB    _u(11)
+#define PIO_IRQ0_INTF_SM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM2
+#define PIO_IRQ0_INTF_SM2_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ0_INTF_SM2_MSB    _u(10)
+#define PIO_IRQ0_INTF_SM2_LSB    _u(10)
+#define PIO_IRQ0_INTF_SM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM1
+#define PIO_IRQ0_INTF_SM1_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ0_INTF_SM1_MSB    _u(9)
+#define PIO_IRQ0_INTF_SM1_LSB    _u(9)
+#define PIO_IRQ0_INTF_SM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM0
+#define PIO_IRQ0_INTF_SM0_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ0_INTF_SM0_MSB    _u(8)
+#define PIO_IRQ0_INTF_SM0_LSB    _u(8)
+#define PIO_IRQ0_INTF_SM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM3_TXNFULL
+#define PIO_IRQ0_INTF_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ0_INTF_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ0_INTF_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ0_INTF_SM3_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM2_TXNFULL
+#define PIO_IRQ0_INTF_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ0_INTF_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ0_INTF_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ0_INTF_SM2_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM1_TXNFULL
+#define PIO_IRQ0_INTF_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ0_INTF_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ0_INTF_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ0_INTF_SM1_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM0_TXNFULL
+#define PIO_IRQ0_INTF_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ0_INTF_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ0_INTF_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ0_INTF_SM0_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM3_RXNEMPTY
+#define PIO_IRQ0_INTF_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ0_INTF_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ0_INTF_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ0_INTF_SM3_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM2_RXNEMPTY
+#define PIO_IRQ0_INTF_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ0_INTF_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ0_INTF_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ0_INTF_SM2_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM1_RXNEMPTY
+#define PIO_IRQ0_INTF_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ0_INTF_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ0_INTF_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ0_INTF_SM1_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTF_SM0_RXNEMPTY
+#define PIO_IRQ0_INTF_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTF_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ0_INTF_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ0_INTF_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ0_INTF_SM0_RXNEMPTY_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_IRQ0_INTS
+// Description : Interrupt status after masking & forcing for irq0
+#define PIO_IRQ0_INTS_OFFSET _u(0x00000178)
+#define PIO_IRQ0_INTS_BITS   _u(0x0000ffff)
+#define PIO_IRQ0_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM7
+#define PIO_IRQ0_INTS_SM7_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ0_INTS_SM7_MSB    _u(15)
+#define PIO_IRQ0_INTS_SM7_LSB    _u(15)
+#define PIO_IRQ0_INTS_SM7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM6
+#define PIO_IRQ0_INTS_SM6_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ0_INTS_SM6_MSB    _u(14)
+#define PIO_IRQ0_INTS_SM6_LSB    _u(14)
+#define PIO_IRQ0_INTS_SM6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM5
+#define PIO_IRQ0_INTS_SM5_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ0_INTS_SM5_MSB    _u(13)
+#define PIO_IRQ0_INTS_SM5_LSB    _u(13)
+#define PIO_IRQ0_INTS_SM5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM4
+#define PIO_IRQ0_INTS_SM4_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ0_INTS_SM4_MSB    _u(12)
+#define PIO_IRQ0_INTS_SM4_LSB    _u(12)
+#define PIO_IRQ0_INTS_SM4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM3
+#define PIO_IRQ0_INTS_SM3_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ0_INTS_SM3_MSB    _u(11)
+#define PIO_IRQ0_INTS_SM3_LSB    _u(11)
+#define PIO_IRQ0_INTS_SM3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM2
+#define PIO_IRQ0_INTS_SM2_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ0_INTS_SM2_MSB    _u(10)
+#define PIO_IRQ0_INTS_SM2_LSB    _u(10)
+#define PIO_IRQ0_INTS_SM2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM1
+#define PIO_IRQ0_INTS_SM1_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ0_INTS_SM1_MSB    _u(9)
+#define PIO_IRQ0_INTS_SM1_LSB    _u(9)
+#define PIO_IRQ0_INTS_SM1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM0
+#define PIO_IRQ0_INTS_SM0_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ0_INTS_SM0_MSB    _u(8)
+#define PIO_IRQ0_INTS_SM0_LSB    _u(8)
+#define PIO_IRQ0_INTS_SM0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM3_TXNFULL
+#define PIO_IRQ0_INTS_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ0_INTS_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ0_INTS_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ0_INTS_SM3_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM2_TXNFULL
+#define PIO_IRQ0_INTS_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ0_INTS_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ0_INTS_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ0_INTS_SM2_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM1_TXNFULL
+#define PIO_IRQ0_INTS_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ0_INTS_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ0_INTS_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ0_INTS_SM1_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM0_TXNFULL
+#define PIO_IRQ0_INTS_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ0_INTS_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ0_INTS_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ0_INTS_SM0_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM3_RXNEMPTY
+#define PIO_IRQ0_INTS_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ0_INTS_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ0_INTS_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ0_INTS_SM3_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM2_RXNEMPTY
+#define PIO_IRQ0_INTS_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ0_INTS_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ0_INTS_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ0_INTS_SM2_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM1_RXNEMPTY
+#define PIO_IRQ0_INTS_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ0_INTS_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ0_INTS_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ0_INTS_SM1_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ0_INTS_SM0_RXNEMPTY
+#define PIO_IRQ0_INTS_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ0_INTS_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ0_INTS_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ0_INTS_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ0_INTS_SM0_RXNEMPTY_ACCESS "RO"
+// =============================================================================
+// Register    : PIO_IRQ1_INTE
+// Description : Interrupt Enable for irq1
+#define PIO_IRQ1_INTE_OFFSET _u(0x0000017c)
+#define PIO_IRQ1_INTE_BITS   _u(0x0000ffff)
+#define PIO_IRQ1_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM7
+#define PIO_IRQ1_INTE_SM7_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ1_INTE_SM7_MSB    _u(15)
+#define PIO_IRQ1_INTE_SM7_LSB    _u(15)
+#define PIO_IRQ1_INTE_SM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM6
+#define PIO_IRQ1_INTE_SM6_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ1_INTE_SM6_MSB    _u(14)
+#define PIO_IRQ1_INTE_SM6_LSB    _u(14)
+#define PIO_IRQ1_INTE_SM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM5
+#define PIO_IRQ1_INTE_SM5_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ1_INTE_SM5_MSB    _u(13)
+#define PIO_IRQ1_INTE_SM5_LSB    _u(13)
+#define PIO_IRQ1_INTE_SM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM4
+#define PIO_IRQ1_INTE_SM4_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ1_INTE_SM4_MSB    _u(12)
+#define PIO_IRQ1_INTE_SM4_LSB    _u(12)
+#define PIO_IRQ1_INTE_SM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM3
+#define PIO_IRQ1_INTE_SM3_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ1_INTE_SM3_MSB    _u(11)
+#define PIO_IRQ1_INTE_SM3_LSB    _u(11)
+#define PIO_IRQ1_INTE_SM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM2
+#define PIO_IRQ1_INTE_SM2_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ1_INTE_SM2_MSB    _u(10)
+#define PIO_IRQ1_INTE_SM2_LSB    _u(10)
+#define PIO_IRQ1_INTE_SM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM1
+#define PIO_IRQ1_INTE_SM1_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ1_INTE_SM1_MSB    _u(9)
+#define PIO_IRQ1_INTE_SM1_LSB    _u(9)
+#define PIO_IRQ1_INTE_SM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM0
+#define PIO_IRQ1_INTE_SM0_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ1_INTE_SM0_MSB    _u(8)
+#define PIO_IRQ1_INTE_SM0_LSB    _u(8)
+#define PIO_IRQ1_INTE_SM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM3_TXNFULL
+#define PIO_IRQ1_INTE_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ1_INTE_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ1_INTE_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ1_INTE_SM3_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM2_TXNFULL
+#define PIO_IRQ1_INTE_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ1_INTE_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ1_INTE_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ1_INTE_SM2_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM1_TXNFULL
+#define PIO_IRQ1_INTE_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ1_INTE_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ1_INTE_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ1_INTE_SM1_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM0_TXNFULL
+#define PIO_IRQ1_INTE_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ1_INTE_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ1_INTE_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ1_INTE_SM0_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM3_RXNEMPTY
+#define PIO_IRQ1_INTE_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ1_INTE_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ1_INTE_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ1_INTE_SM3_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM2_RXNEMPTY
+#define PIO_IRQ1_INTE_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ1_INTE_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ1_INTE_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ1_INTE_SM2_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM1_RXNEMPTY
+#define PIO_IRQ1_INTE_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ1_INTE_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ1_INTE_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ1_INTE_SM1_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTE_SM0_RXNEMPTY
+#define PIO_IRQ1_INTE_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTE_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ1_INTE_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ1_INTE_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ1_INTE_SM0_RXNEMPTY_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_IRQ1_INTF
+// Description : Interrupt Force for irq1
+#define PIO_IRQ1_INTF_OFFSET _u(0x00000180)
+#define PIO_IRQ1_INTF_BITS   _u(0x0000ffff)
+#define PIO_IRQ1_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM7
+#define PIO_IRQ1_INTF_SM7_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ1_INTF_SM7_MSB    _u(15)
+#define PIO_IRQ1_INTF_SM7_LSB    _u(15)
+#define PIO_IRQ1_INTF_SM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM6
+#define PIO_IRQ1_INTF_SM6_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ1_INTF_SM6_MSB    _u(14)
+#define PIO_IRQ1_INTF_SM6_LSB    _u(14)
+#define PIO_IRQ1_INTF_SM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM5
+#define PIO_IRQ1_INTF_SM5_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ1_INTF_SM5_MSB    _u(13)
+#define PIO_IRQ1_INTF_SM5_LSB    _u(13)
+#define PIO_IRQ1_INTF_SM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM4
+#define PIO_IRQ1_INTF_SM4_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ1_INTF_SM4_MSB    _u(12)
+#define PIO_IRQ1_INTF_SM4_LSB    _u(12)
+#define PIO_IRQ1_INTF_SM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM3
+#define PIO_IRQ1_INTF_SM3_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ1_INTF_SM3_MSB    _u(11)
+#define PIO_IRQ1_INTF_SM3_LSB    _u(11)
+#define PIO_IRQ1_INTF_SM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM2
+#define PIO_IRQ1_INTF_SM2_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ1_INTF_SM2_MSB    _u(10)
+#define PIO_IRQ1_INTF_SM2_LSB    _u(10)
+#define PIO_IRQ1_INTF_SM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM1
+#define PIO_IRQ1_INTF_SM1_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ1_INTF_SM1_MSB    _u(9)
+#define PIO_IRQ1_INTF_SM1_LSB    _u(9)
+#define PIO_IRQ1_INTF_SM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM0
+#define PIO_IRQ1_INTF_SM0_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ1_INTF_SM0_MSB    _u(8)
+#define PIO_IRQ1_INTF_SM0_LSB    _u(8)
+#define PIO_IRQ1_INTF_SM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM3_TXNFULL
+#define PIO_IRQ1_INTF_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ1_INTF_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ1_INTF_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ1_INTF_SM3_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM2_TXNFULL
+#define PIO_IRQ1_INTF_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ1_INTF_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ1_INTF_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ1_INTF_SM2_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM1_TXNFULL
+#define PIO_IRQ1_INTF_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ1_INTF_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ1_INTF_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ1_INTF_SM1_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM0_TXNFULL
+#define PIO_IRQ1_INTF_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ1_INTF_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ1_INTF_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ1_INTF_SM0_TXNFULL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM3_RXNEMPTY
+#define PIO_IRQ1_INTF_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ1_INTF_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ1_INTF_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ1_INTF_SM3_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM2_RXNEMPTY
+#define PIO_IRQ1_INTF_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ1_INTF_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ1_INTF_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ1_INTF_SM2_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM1_RXNEMPTY
+#define PIO_IRQ1_INTF_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ1_INTF_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ1_INTF_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ1_INTF_SM1_RXNEMPTY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTF_SM0_RXNEMPTY
+#define PIO_IRQ1_INTF_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTF_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ1_INTF_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ1_INTF_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ1_INTF_SM0_RXNEMPTY_ACCESS "RW"
+// =============================================================================
+// Register    : PIO_IRQ1_INTS
+// Description : Interrupt status after masking & forcing for irq1
+#define PIO_IRQ1_INTS_OFFSET _u(0x00000184)
+#define PIO_IRQ1_INTS_BITS   _u(0x0000ffff)
+#define PIO_IRQ1_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM7
+#define PIO_IRQ1_INTS_SM7_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM7_BITS   _u(0x00008000)
+#define PIO_IRQ1_INTS_SM7_MSB    _u(15)
+#define PIO_IRQ1_INTS_SM7_LSB    _u(15)
+#define PIO_IRQ1_INTS_SM7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM6
+#define PIO_IRQ1_INTS_SM6_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM6_BITS   _u(0x00004000)
+#define PIO_IRQ1_INTS_SM6_MSB    _u(14)
+#define PIO_IRQ1_INTS_SM6_LSB    _u(14)
+#define PIO_IRQ1_INTS_SM6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM5
+#define PIO_IRQ1_INTS_SM5_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM5_BITS   _u(0x00002000)
+#define PIO_IRQ1_INTS_SM5_MSB    _u(13)
+#define PIO_IRQ1_INTS_SM5_LSB    _u(13)
+#define PIO_IRQ1_INTS_SM5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM4
+#define PIO_IRQ1_INTS_SM4_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM4_BITS   _u(0x00001000)
+#define PIO_IRQ1_INTS_SM4_MSB    _u(12)
+#define PIO_IRQ1_INTS_SM4_LSB    _u(12)
+#define PIO_IRQ1_INTS_SM4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM3
+#define PIO_IRQ1_INTS_SM3_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM3_BITS   _u(0x00000800)
+#define PIO_IRQ1_INTS_SM3_MSB    _u(11)
+#define PIO_IRQ1_INTS_SM3_LSB    _u(11)
+#define PIO_IRQ1_INTS_SM3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM2
+#define PIO_IRQ1_INTS_SM2_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM2_BITS   _u(0x00000400)
+#define PIO_IRQ1_INTS_SM2_MSB    _u(10)
+#define PIO_IRQ1_INTS_SM2_LSB    _u(10)
+#define PIO_IRQ1_INTS_SM2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM1
+#define PIO_IRQ1_INTS_SM1_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM1_BITS   _u(0x00000200)
+#define PIO_IRQ1_INTS_SM1_MSB    _u(9)
+#define PIO_IRQ1_INTS_SM1_LSB    _u(9)
+#define PIO_IRQ1_INTS_SM1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM0
+#define PIO_IRQ1_INTS_SM0_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM0_BITS   _u(0x00000100)
+#define PIO_IRQ1_INTS_SM0_MSB    _u(8)
+#define PIO_IRQ1_INTS_SM0_LSB    _u(8)
+#define PIO_IRQ1_INTS_SM0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM3_TXNFULL
+#define PIO_IRQ1_INTS_SM3_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM3_TXNFULL_BITS   _u(0x00000080)
+#define PIO_IRQ1_INTS_SM3_TXNFULL_MSB    _u(7)
+#define PIO_IRQ1_INTS_SM3_TXNFULL_LSB    _u(7)
+#define PIO_IRQ1_INTS_SM3_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM2_TXNFULL
+#define PIO_IRQ1_INTS_SM2_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM2_TXNFULL_BITS   _u(0x00000040)
+#define PIO_IRQ1_INTS_SM2_TXNFULL_MSB    _u(6)
+#define PIO_IRQ1_INTS_SM2_TXNFULL_LSB    _u(6)
+#define PIO_IRQ1_INTS_SM2_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM1_TXNFULL
+#define PIO_IRQ1_INTS_SM1_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM1_TXNFULL_BITS   _u(0x00000020)
+#define PIO_IRQ1_INTS_SM1_TXNFULL_MSB    _u(5)
+#define PIO_IRQ1_INTS_SM1_TXNFULL_LSB    _u(5)
+#define PIO_IRQ1_INTS_SM1_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM0_TXNFULL
+#define PIO_IRQ1_INTS_SM0_TXNFULL_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM0_TXNFULL_BITS   _u(0x00000010)
+#define PIO_IRQ1_INTS_SM0_TXNFULL_MSB    _u(4)
+#define PIO_IRQ1_INTS_SM0_TXNFULL_LSB    _u(4)
+#define PIO_IRQ1_INTS_SM0_TXNFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM3_RXNEMPTY
+#define PIO_IRQ1_INTS_SM3_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM3_RXNEMPTY_BITS   _u(0x00000008)
+#define PIO_IRQ1_INTS_SM3_RXNEMPTY_MSB    _u(3)
+#define PIO_IRQ1_INTS_SM3_RXNEMPTY_LSB    _u(3)
+#define PIO_IRQ1_INTS_SM3_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM2_RXNEMPTY
+#define PIO_IRQ1_INTS_SM2_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM2_RXNEMPTY_BITS   _u(0x00000004)
+#define PIO_IRQ1_INTS_SM2_RXNEMPTY_MSB    _u(2)
+#define PIO_IRQ1_INTS_SM2_RXNEMPTY_LSB    _u(2)
+#define PIO_IRQ1_INTS_SM2_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM1_RXNEMPTY
+#define PIO_IRQ1_INTS_SM1_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM1_RXNEMPTY_BITS   _u(0x00000002)
+#define PIO_IRQ1_INTS_SM1_RXNEMPTY_MSB    _u(1)
+#define PIO_IRQ1_INTS_SM1_RXNEMPTY_LSB    _u(1)
+#define PIO_IRQ1_INTS_SM1_RXNEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PIO_IRQ1_INTS_SM0_RXNEMPTY
+#define PIO_IRQ1_INTS_SM0_RXNEMPTY_RESET  _u(0x0)
+#define PIO_IRQ1_INTS_SM0_RXNEMPTY_BITS   _u(0x00000001)
+#define PIO_IRQ1_INTS_SM0_RXNEMPTY_MSB    _u(0)
+#define PIO_IRQ1_INTS_SM0_RXNEMPTY_LSB    _u(0)
+#define PIO_IRQ1_INTS_SM0_RXNEMPTY_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_PIO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/pll.h b/lib/pico-sdk/rp2350/hardware/regs/pll.h
new file mode 100644
index 0000000..fdf254d
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/pll.h
@@ -0,0 +1,199 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PLL
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_PLL_H
+#define _HARDWARE_REGS_PLL_H
+// =============================================================================
+// Register    : PLL_CS
+// Description : Control and Status
+//               GENERAL CONSTRAINTS:
+//               Reference clock frequency min=5MHz, max=800MHz
+//               Feedback divider min=16, max=320
+//               VCO frequency min=750MHz, max=1600MHz
+#define PLL_CS_OFFSET _u(0x00000000)
+#define PLL_CS_BITS   _u(0xc000013f)
+#define PLL_CS_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : PLL_CS_LOCK
+// Description : PLL is locked
+#define PLL_CS_LOCK_RESET  _u(0x0)
+#define PLL_CS_LOCK_BITS   _u(0x80000000)
+#define PLL_CS_LOCK_MSB    _u(31)
+#define PLL_CS_LOCK_LSB    _u(31)
+#define PLL_CS_LOCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PLL_CS_LOCK_N
+// Description : PLL is not locked
+//               Ideally this is cleared when PLL lock is seen and this should
+//               never normally be set
+#define PLL_CS_LOCK_N_RESET  _u(0x0)
+#define PLL_CS_LOCK_N_BITS   _u(0x40000000)
+#define PLL_CS_LOCK_N_MSB    _u(30)
+#define PLL_CS_LOCK_N_LSB    _u(30)
+#define PLL_CS_LOCK_N_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PLL_CS_BYPASS
+// Description : Passes the reference clock to the output instead of the divided
+//               VCO. The VCO continues to run so the user can switch between
+//               the reference clock and the divided VCO but the output will
+//               glitch when doing so.
+#define PLL_CS_BYPASS_RESET  _u(0x0)
+#define PLL_CS_BYPASS_BITS   _u(0x00000100)
+#define PLL_CS_BYPASS_MSB    _u(8)
+#define PLL_CS_BYPASS_LSB    _u(8)
+#define PLL_CS_BYPASS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PLL_CS_REFDIV
+// Description : Divides the PLL input reference clock.
+//               Behaviour is undefined for div=0.
+//               PLL output will be unpredictable during refdiv changes, wait
+//               for lock=1 before using it.
+#define PLL_CS_REFDIV_RESET  _u(0x01)
+#define PLL_CS_REFDIV_BITS   _u(0x0000003f)
+#define PLL_CS_REFDIV_MSB    _u(5)
+#define PLL_CS_REFDIV_LSB    _u(0)
+#define PLL_CS_REFDIV_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_PWR
+// Description : Controls the PLL power modes.
+#define PLL_PWR_OFFSET _u(0x00000004)
+#define PLL_PWR_BITS   _u(0x0000002d)
+#define PLL_PWR_RESET  _u(0x0000002d)
+// -----------------------------------------------------------------------------
+// Field       : PLL_PWR_VCOPD
+// Description : PLL VCO powerdown
+//               To save power set high when PLL output not required or
+//               bypass=1.
+#define PLL_PWR_VCOPD_RESET  _u(0x1)
+#define PLL_PWR_VCOPD_BITS   _u(0x00000020)
+#define PLL_PWR_VCOPD_MSB    _u(5)
+#define PLL_PWR_VCOPD_LSB    _u(5)
+#define PLL_PWR_VCOPD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PLL_PWR_POSTDIVPD
+// Description : PLL post divider powerdown
+//               To save power set high when PLL output not required or
+//               bypass=1.
+#define PLL_PWR_POSTDIVPD_RESET  _u(0x1)
+#define PLL_PWR_POSTDIVPD_BITS   _u(0x00000008)
+#define PLL_PWR_POSTDIVPD_MSB    _u(3)
+#define PLL_PWR_POSTDIVPD_LSB    _u(3)
+#define PLL_PWR_POSTDIVPD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PLL_PWR_DSMPD
+// Description : PLL DSM powerdown
+//               Nothing is achieved by setting this low.
+#define PLL_PWR_DSMPD_RESET  _u(0x1)
+#define PLL_PWR_DSMPD_BITS   _u(0x00000004)
+#define PLL_PWR_DSMPD_MSB    _u(2)
+#define PLL_PWR_DSMPD_LSB    _u(2)
+#define PLL_PWR_DSMPD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PLL_PWR_PD
+// Description : PLL powerdown
+//               To save power set high when PLL output not required.
+#define PLL_PWR_PD_RESET  _u(0x1)
+#define PLL_PWR_PD_BITS   _u(0x00000001)
+#define PLL_PWR_PD_MSB    _u(0)
+#define PLL_PWR_PD_LSB    _u(0)
+#define PLL_PWR_PD_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_FBDIV_INT
+// Description : Feedback divisor
+//               (note: this PLL does not support fractional division)
+//               see ctrl reg description for constraints
+#define PLL_FBDIV_INT_OFFSET _u(0x00000008)
+#define PLL_FBDIV_INT_BITS   _u(0x00000fff)
+#define PLL_FBDIV_INT_RESET  _u(0x00000000)
+#define PLL_FBDIV_INT_MSB    _u(11)
+#define PLL_FBDIV_INT_LSB    _u(0)
+#define PLL_FBDIV_INT_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_PRIM
+// Description : Controls the PLL post dividers for the primary output
+//               (note: this PLL does not have a secondary output)
+//               the primary output is driven from VCO divided by
+//               postdiv1*postdiv2
+#define PLL_PRIM_OFFSET _u(0x0000000c)
+#define PLL_PRIM_BITS   _u(0x00077000)
+#define PLL_PRIM_RESET  _u(0x00077000)
+// -----------------------------------------------------------------------------
+// Field       : PLL_PRIM_POSTDIV1
+// Description : divide by 1-7
+#define PLL_PRIM_POSTDIV1_RESET  _u(0x7)
+#define PLL_PRIM_POSTDIV1_BITS   _u(0x00070000)
+#define PLL_PRIM_POSTDIV1_MSB    _u(18)
+#define PLL_PRIM_POSTDIV1_LSB    _u(16)
+#define PLL_PRIM_POSTDIV1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PLL_PRIM_POSTDIV2
+// Description : divide by 1-7
+#define PLL_PRIM_POSTDIV2_RESET  _u(0x7)
+#define PLL_PRIM_POSTDIV2_BITS   _u(0x00007000)
+#define PLL_PRIM_POSTDIV2_MSB    _u(14)
+#define PLL_PRIM_POSTDIV2_LSB    _u(12)
+#define PLL_PRIM_POSTDIV2_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_INTR
+// Description : Raw Interrupts
+#define PLL_INTR_OFFSET _u(0x00000010)
+#define PLL_INTR_BITS   _u(0x00000001)
+#define PLL_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PLL_INTR_LOCK_N_STICKY
+#define PLL_INTR_LOCK_N_STICKY_RESET  _u(0x0)
+#define PLL_INTR_LOCK_N_STICKY_BITS   _u(0x00000001)
+#define PLL_INTR_LOCK_N_STICKY_MSB    _u(0)
+#define PLL_INTR_LOCK_N_STICKY_LSB    _u(0)
+#define PLL_INTR_LOCK_N_STICKY_ACCESS "WC"
+// =============================================================================
+// Register    : PLL_INTE
+// Description : Interrupt Enable
+#define PLL_INTE_OFFSET _u(0x00000014)
+#define PLL_INTE_BITS   _u(0x00000001)
+#define PLL_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PLL_INTE_LOCK_N_STICKY
+#define PLL_INTE_LOCK_N_STICKY_RESET  _u(0x0)
+#define PLL_INTE_LOCK_N_STICKY_BITS   _u(0x00000001)
+#define PLL_INTE_LOCK_N_STICKY_MSB    _u(0)
+#define PLL_INTE_LOCK_N_STICKY_LSB    _u(0)
+#define PLL_INTE_LOCK_N_STICKY_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_INTF
+// Description : Interrupt Force
+#define PLL_INTF_OFFSET _u(0x00000018)
+#define PLL_INTF_BITS   _u(0x00000001)
+#define PLL_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PLL_INTF_LOCK_N_STICKY
+#define PLL_INTF_LOCK_N_STICKY_RESET  _u(0x0)
+#define PLL_INTF_LOCK_N_STICKY_BITS   _u(0x00000001)
+#define PLL_INTF_LOCK_N_STICKY_MSB    _u(0)
+#define PLL_INTF_LOCK_N_STICKY_LSB    _u(0)
+#define PLL_INTF_LOCK_N_STICKY_ACCESS "RW"
+// =============================================================================
+// Register    : PLL_INTS
+// Description : Interrupt status after masking & forcing
+#define PLL_INTS_OFFSET _u(0x0000001c)
+#define PLL_INTS_BITS   _u(0x00000001)
+#define PLL_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PLL_INTS_LOCK_N_STICKY
+#define PLL_INTS_LOCK_N_STICKY_RESET  _u(0x0)
+#define PLL_INTS_LOCK_N_STICKY_BITS   _u(0x00000001)
+#define PLL_INTS_LOCK_N_STICKY_MSB    _u(0)
+#define PLL_INTS_LOCK_N_STICKY_LSB    _u(0)
+#define PLL_INTS_LOCK_N_STICKY_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_PLL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/powman.h b/lib/pico-sdk/rp2350/hardware/regs/powman.h
new file mode 100644
index 0000000..edfbabb
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/powman.h
@@ -0,0 +1,2194 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : POWMAN
+// Version        : 1
+// Bus type       : apb
+// Description    : Controls vreg, bor, lposc, chip resets & xosc startup,
+//                  powman and provides scratch register for general use and for
+//                  bootcode use
+// =============================================================================
+#ifndef _HARDWARE_REGS_POWMAN_H
+#define _HARDWARE_REGS_POWMAN_H
+// =============================================================================
+// Register    : POWMAN_BADPASSWD
+// Description : Indicates a bad password has been used
+#define POWMAN_BADPASSWD_OFFSET _u(0x00000000)
+#define POWMAN_BADPASSWD_BITS   _u(0x00000001)
+#define POWMAN_BADPASSWD_RESET  _u(0x00000000)
+#define POWMAN_BADPASSWD_MSB    _u(0)
+#define POWMAN_BADPASSWD_LSB    _u(0)
+#define POWMAN_BADPASSWD_ACCESS "WC"
+// =============================================================================
+// Register    : POWMAN_VREG_CTRL
+// Description : Voltage Regulator Control
+#define POWMAN_VREG_CTRL_OFFSET _u(0x00000004)
+#define POWMAN_VREG_CTRL_BITS   _u(0x0000b170)
+#define POWMAN_VREG_CTRL_RESET  _u(0x00008050)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_CTRL_RST_N
+// Description : returns the regulator to its startup settings
+//               0 - reset
+//               1 - not reset (default)
+#define POWMAN_VREG_CTRL_RST_N_RESET  _u(0x1)
+#define POWMAN_VREG_CTRL_RST_N_BITS   _u(0x00008000)
+#define POWMAN_VREG_CTRL_RST_N_MSB    _u(15)
+#define POWMAN_VREG_CTRL_RST_N_LSB    _u(15)
+#define POWMAN_VREG_CTRL_RST_N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_CTRL_UNLOCK
+// Description : unlocks the VREG control interface after power up
+//               0 - Locked (default)
+//               1 - Unlocked
+//               It cannot be relocked when it is unlocked.
+#define POWMAN_VREG_CTRL_UNLOCK_RESET  _u(0x0)
+#define POWMAN_VREG_CTRL_UNLOCK_BITS   _u(0x00002000)
+#define POWMAN_VREG_CTRL_UNLOCK_MSB    _u(13)
+#define POWMAN_VREG_CTRL_UNLOCK_LSB    _u(13)
+#define POWMAN_VREG_CTRL_UNLOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_CTRL_ISOLATE
+// Description : isolates the VREG control interface
+//               0 - not isolated (default)
+//               1 - isolated
+#define POWMAN_VREG_CTRL_ISOLATE_RESET  _u(0x0)
+#define POWMAN_VREG_CTRL_ISOLATE_BITS   _u(0x00001000)
+#define POWMAN_VREG_CTRL_ISOLATE_MSB    _u(12)
+#define POWMAN_VREG_CTRL_ISOLATE_LSB    _u(12)
+#define POWMAN_VREG_CTRL_ISOLATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT
+// Description : 0=not disabled, 1=enabled
+#define POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT_RESET  _u(0x0)
+#define POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT_BITS   _u(0x00000100)
+#define POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT_MSB    _u(8)
+#define POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT_LSB    _u(8)
+#define POWMAN_VREG_CTRL_DISABLE_VOLTAGE_LIMIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_CTRL_HT_TH
+// Description : high temperature protection threshold
+//               regulator power transistors are disabled when junction
+//               temperature exceeds threshold
+//               000 - 100C
+//               001 - 105C
+//               010 - 110C
+//               011 - 115C
+//               100 - 120C
+//               101 - 125C
+//               110 - 135C
+//               111 - 150C
+#define POWMAN_VREG_CTRL_HT_TH_RESET  _u(0x5)
+#define POWMAN_VREG_CTRL_HT_TH_BITS   _u(0x00000070)
+#define POWMAN_VREG_CTRL_HT_TH_MSB    _u(6)
+#define POWMAN_VREG_CTRL_HT_TH_LSB    _u(4)
+#define POWMAN_VREG_CTRL_HT_TH_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_VREG_STS
+// Description : Voltage Regulator Status
+#define POWMAN_VREG_STS_OFFSET _u(0x00000008)
+#define POWMAN_VREG_STS_BITS   _u(0x00000011)
+#define POWMAN_VREG_STS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_STS_VOUT_OK
+// Description : output regulation status
+//               0=not in regulation, 1=in regulation
+#define POWMAN_VREG_STS_VOUT_OK_RESET  _u(0x0)
+#define POWMAN_VREG_STS_VOUT_OK_BITS   _u(0x00000010)
+#define POWMAN_VREG_STS_VOUT_OK_MSB    _u(4)
+#define POWMAN_VREG_STS_VOUT_OK_LSB    _u(4)
+#define POWMAN_VREG_STS_VOUT_OK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_STS_STARTUP
+// Description : startup status
+//               0=startup complete, 1=starting up
+#define POWMAN_VREG_STS_STARTUP_RESET  _u(0x0)
+#define POWMAN_VREG_STS_STARTUP_BITS   _u(0x00000001)
+#define POWMAN_VREG_STS_STARTUP_MSB    _u(0)
+#define POWMAN_VREG_STS_STARTUP_LSB    _u(0)
+#define POWMAN_VREG_STS_STARTUP_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_VREG
+// Description : Voltage Regulator Settings
+#define POWMAN_VREG_OFFSET _u(0x0000000c)
+#define POWMAN_VREG_BITS   _u(0x000081f2)
+#define POWMAN_VREG_RESET  _u(0x000000b0)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_UPDATE_IN_PROGRESS
+// Description : regulator state is being updated
+//               writes to the vreg register will be ignored when this field is
+//               set
+#define POWMAN_VREG_UPDATE_IN_PROGRESS_RESET  _u(0x0)
+#define POWMAN_VREG_UPDATE_IN_PROGRESS_BITS   _u(0x00008000)
+#define POWMAN_VREG_UPDATE_IN_PROGRESS_MSB    _u(15)
+#define POWMAN_VREG_UPDATE_IN_PROGRESS_LSB    _u(15)
+#define POWMAN_VREG_UPDATE_IN_PROGRESS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_VSEL
+// Description : output voltage select
+//               the regulator output voltage is limited to 1.3V unless the
+//               voltage limit
+//               is disabled using the disable_voltage_limit field in the
+//               vreg_ctrl register
+//               00000 - 0.55V
+//               00001 - 0.60V
+//               00010 - 0.65V
+//               00011 - 0.70V
+//               00100 - 0.75V
+//               00101 - 0.80V
+//               00110 - 0.85V
+//               00111 - 0.90V
+//               01000 - 0.95V
+//               01001 - 1.00V
+//               01010 - 1.05V
+//               01011 - 1.10V (default)
+//               01100 - 1.15V
+//               01101 - 1.20V
+//               01110 - 1.25V
+//               01111 - 1.30V
+//               10000 - 1.35V
+//               10001 - 1.40V
+//               10010 - 1.50V
+//               10011 - 1.60V
+//               10100 - 1.65V
+//               10101 - 1.70V
+//               10110 - 1.80V
+//               10111 - 1.90V
+//               11000 - 2.00V
+//               11001 - 2.35V
+//               11010 - 2.50V
+//               11011 - 2.65V
+//               11100 - 2.80V
+//               11101 - 3.00V
+//               11110 - 3.15V
+//               11111 - 3.30V
+#define POWMAN_VREG_VSEL_RESET  _u(0x0b)
+#define POWMAN_VREG_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_VREG_VSEL_MSB    _u(8)
+#define POWMAN_VREG_VSEL_LSB    _u(4)
+#define POWMAN_VREG_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_HIZ
+// Description : high impedance mode select
+//               0=not in high impedance mode, 1=in high impedance mode
+#define POWMAN_VREG_HIZ_RESET  _u(0x0)
+#define POWMAN_VREG_HIZ_BITS   _u(0x00000002)
+#define POWMAN_VREG_HIZ_MSB    _u(1)
+#define POWMAN_VREG_HIZ_LSB    _u(1)
+#define POWMAN_VREG_HIZ_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_VREG_LP_ENTRY
+// Description : Voltage Regulator Low Power Entry Settings
+#define POWMAN_VREG_LP_ENTRY_OFFSET _u(0x00000010)
+#define POWMAN_VREG_LP_ENTRY_BITS   _u(0x000001f6)
+#define POWMAN_VREG_LP_ENTRY_RESET  _u(0x000000b4)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_ENTRY_VSEL
+// Description : output voltage select
+//               the regulator output voltage is limited to 1.3V unless the
+//               voltage limit
+//               is disabled using the disable_voltage_limit field in the
+//               vreg_ctrl register
+//               00000 - 0.55V
+//               00001 - 0.60V
+//               00010 - 0.65V
+//               00011 - 0.70V
+//               00100 - 0.75V
+//               00101 - 0.80V
+//               00110 - 0.85V
+//               00111 - 0.90V
+//               01000 - 0.95V
+//               01001 - 1.00V
+//               01010 - 1.05V
+//               01011 - 1.10V (default)
+//               01100 - 1.15V
+//               01101 - 1.20V
+//               01110 - 1.25V
+//               01111 - 1.30V
+//               10000 - 1.35V
+//               10001 - 1.40V
+//               10010 - 1.50V
+//               10011 - 1.60V
+//               10100 - 1.65V
+//               10101 - 1.70V
+//               10110 - 1.80V
+//               10111 - 1.90V
+//               11000 - 2.00V
+//               11001 - 2.35V
+//               11010 - 2.50V
+//               11011 - 2.65V
+//               11100 - 2.80V
+//               11101 - 3.00V
+//               11110 - 3.15V
+//               11111 - 3.30V
+#define POWMAN_VREG_LP_ENTRY_VSEL_RESET  _u(0x0b)
+#define POWMAN_VREG_LP_ENTRY_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_VREG_LP_ENTRY_VSEL_MSB    _u(8)
+#define POWMAN_VREG_LP_ENTRY_VSEL_LSB    _u(4)
+#define POWMAN_VREG_LP_ENTRY_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_ENTRY_MODE
+// Description : selects either normal (switching) mode or low power (linear)
+//               mode
+//               low power mode can only be selected for output voltages up to
+//               1.3V
+//               0 = normal mode (switching)
+//               1 = low power mode (linear)
+#define POWMAN_VREG_LP_ENTRY_MODE_RESET  _u(0x1)
+#define POWMAN_VREG_LP_ENTRY_MODE_BITS   _u(0x00000004)
+#define POWMAN_VREG_LP_ENTRY_MODE_MSB    _u(2)
+#define POWMAN_VREG_LP_ENTRY_MODE_LSB    _u(2)
+#define POWMAN_VREG_LP_ENTRY_MODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_ENTRY_HIZ
+// Description : high impedance mode select
+//               0=not in high impedance mode, 1=in high impedance mode
+#define POWMAN_VREG_LP_ENTRY_HIZ_RESET  _u(0x0)
+#define POWMAN_VREG_LP_ENTRY_HIZ_BITS   _u(0x00000002)
+#define POWMAN_VREG_LP_ENTRY_HIZ_MSB    _u(1)
+#define POWMAN_VREG_LP_ENTRY_HIZ_LSB    _u(1)
+#define POWMAN_VREG_LP_ENTRY_HIZ_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_VREG_LP_EXIT
+// Description : Voltage Regulator Low Power Exit Settings
+#define POWMAN_VREG_LP_EXIT_OFFSET _u(0x00000014)
+#define POWMAN_VREG_LP_EXIT_BITS   _u(0x000001f6)
+#define POWMAN_VREG_LP_EXIT_RESET  _u(0x000000b0)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_EXIT_VSEL
+// Description : output voltage select
+//               the regulator output voltage is limited to 1.3V unless the
+//               voltage limit
+//               is disabled using the disable_voltage_limit field in the
+//               vreg_ctrl register
+//               00000 - 0.55V
+//               00001 - 0.60V
+//               00010 - 0.65V
+//               00011 - 0.70V
+//               00100 - 0.75V
+//               00101 - 0.80V
+//               00110 - 0.85V
+//               00111 - 0.90V
+//               01000 - 0.95V
+//               01001 - 1.00V
+//               01010 - 1.05V
+//               01011 - 1.10V (default)
+//               01100 - 1.15V
+//               01101 - 1.20V
+//               01110 - 1.25V
+//               01111 - 1.30V
+//               10000 - 1.35V
+//               10001 - 1.40V
+//               10010 - 1.50V
+//               10011 - 1.60V
+//               10100 - 1.65V
+//               10101 - 1.70V
+//               10110 - 1.80V
+//               10111 - 1.90V
+//               11000 - 2.00V
+//               11001 - 2.35V
+//               11010 - 2.50V
+//               11011 - 2.65V
+//               11100 - 2.80V
+//               11101 - 3.00V
+//               11110 - 3.15V
+//               11111 - 3.30V
+#define POWMAN_VREG_LP_EXIT_VSEL_RESET  _u(0x0b)
+#define POWMAN_VREG_LP_EXIT_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_VREG_LP_EXIT_VSEL_MSB    _u(8)
+#define POWMAN_VREG_LP_EXIT_VSEL_LSB    _u(4)
+#define POWMAN_VREG_LP_EXIT_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_EXIT_MODE
+// Description : selects either normal (switching) mode or low power (linear)
+//               mode
+//               low power mode can only be selected for output voltages up to
+//               1.3V
+//               0 = normal mode (switching)
+//               1 = low power mode (linear)
+#define POWMAN_VREG_LP_EXIT_MODE_RESET  _u(0x0)
+#define POWMAN_VREG_LP_EXIT_MODE_BITS   _u(0x00000004)
+#define POWMAN_VREG_LP_EXIT_MODE_MSB    _u(2)
+#define POWMAN_VREG_LP_EXIT_MODE_LSB    _u(2)
+#define POWMAN_VREG_LP_EXIT_MODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_VREG_LP_EXIT_HIZ
+// Description : high impedance mode select
+//               0=not in high impedance mode, 1=in high impedance mode
+#define POWMAN_VREG_LP_EXIT_HIZ_RESET  _u(0x0)
+#define POWMAN_VREG_LP_EXIT_HIZ_BITS   _u(0x00000002)
+#define POWMAN_VREG_LP_EXIT_HIZ_MSB    _u(1)
+#define POWMAN_VREG_LP_EXIT_HIZ_LSB    _u(1)
+#define POWMAN_VREG_LP_EXIT_HIZ_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOD_CTRL
+// Description : Brown-out Detection Control
+#define POWMAN_BOD_CTRL_OFFSET _u(0x00000018)
+#define POWMAN_BOD_CTRL_BITS   _u(0x00001000)
+#define POWMAN_BOD_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_CTRL_ISOLATE
+// Description : isolates the brown-out detection control interface
+//               0 - not isolated (default)
+//               1 - isolated
+#define POWMAN_BOD_CTRL_ISOLATE_RESET  _u(0x0)
+#define POWMAN_BOD_CTRL_ISOLATE_BITS   _u(0x00001000)
+#define POWMAN_BOD_CTRL_ISOLATE_MSB    _u(12)
+#define POWMAN_BOD_CTRL_ISOLATE_LSB    _u(12)
+#define POWMAN_BOD_CTRL_ISOLATE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOD
+// Description : Brown-out Detection Settings
+#define POWMAN_BOD_OFFSET _u(0x0000001c)
+#define POWMAN_BOD_BITS   _u(0x000001f1)
+#define POWMAN_BOD_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_VSEL
+// Description : threshold select
+//               00000 - 0.473V
+//               00001 - 0.516V
+//               00010 - 0.559V
+//               00011 - 0.602V
+//               00100 - 0.645VS
+//               00101 - 0.688V
+//               00110 - 0.731V
+//               00111 - 0.774V
+//               01000 - 0.817V
+//               01001 - 0.860V (default)
+//               01010 - 0.903V
+//               01011 - 0.946V
+//               01100 - 0.989V
+//               01101 - 1.032V
+//               01110 - 1.075V
+//               01111 - 1.118V
+//               10000 - 1.161
+//               10001 - 1.204V
+#define POWMAN_BOD_VSEL_RESET  _u(0x0b)
+#define POWMAN_BOD_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_BOD_VSEL_MSB    _u(8)
+#define POWMAN_BOD_VSEL_LSB    _u(4)
+#define POWMAN_BOD_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_EN
+// Description : enable brown-out detection
+//               0=not enabled, 1=enabled
+#define POWMAN_BOD_EN_RESET  _u(0x1)
+#define POWMAN_BOD_EN_BITS   _u(0x00000001)
+#define POWMAN_BOD_EN_MSB    _u(0)
+#define POWMAN_BOD_EN_LSB    _u(0)
+#define POWMAN_BOD_EN_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOD_LP_ENTRY
+// Description : Brown-out Detection Low Power Entry Settings
+#define POWMAN_BOD_LP_ENTRY_OFFSET _u(0x00000020)
+#define POWMAN_BOD_LP_ENTRY_BITS   _u(0x000001f1)
+#define POWMAN_BOD_LP_ENTRY_RESET  _u(0x000000b0)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_LP_ENTRY_VSEL
+// Description : threshold select
+//               00000 - 0.473V
+//               00001 - 0.516V
+//               00010 - 0.559V
+//               00011 - 0.602V
+//               00100 - 0.645VS
+//               00101 - 0.688V
+//               00110 - 0.731V
+//               00111 - 0.774V
+//               01000 - 0.817V
+//               01001 - 0.860V (default)
+//               01010 - 0.903V
+//               01011 - 0.946V
+//               01100 - 0.989V
+//               01101 - 1.032V
+//               01110 - 1.075V
+//               01111 - 1.118V
+//               10000 - 1.161
+//               10001 - 1.204V
+#define POWMAN_BOD_LP_ENTRY_VSEL_RESET  _u(0x0b)
+#define POWMAN_BOD_LP_ENTRY_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_BOD_LP_ENTRY_VSEL_MSB    _u(8)
+#define POWMAN_BOD_LP_ENTRY_VSEL_LSB    _u(4)
+#define POWMAN_BOD_LP_ENTRY_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_LP_ENTRY_EN
+// Description : enable brown-out detection
+//               0=not enabled, 1=enabled
+#define POWMAN_BOD_LP_ENTRY_EN_RESET  _u(0x0)
+#define POWMAN_BOD_LP_ENTRY_EN_BITS   _u(0x00000001)
+#define POWMAN_BOD_LP_ENTRY_EN_MSB    _u(0)
+#define POWMAN_BOD_LP_ENTRY_EN_LSB    _u(0)
+#define POWMAN_BOD_LP_ENTRY_EN_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOD_LP_EXIT
+// Description : Brown-out Detection Low Power Exit Settings
+#define POWMAN_BOD_LP_EXIT_OFFSET _u(0x00000024)
+#define POWMAN_BOD_LP_EXIT_BITS   _u(0x000001f1)
+#define POWMAN_BOD_LP_EXIT_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_LP_EXIT_VSEL
+// Description : threshold select
+//               00000 - 0.473V
+//               00001 - 0.516V
+//               00010 - 0.559V
+//               00011 - 0.602V
+//               00100 - 0.645VS
+//               00101 - 0.688V
+//               00110 - 0.731V
+//               00111 - 0.774V
+//               01000 - 0.817V
+//               01001 - 0.860V (default)
+//               01010 - 0.903V
+//               01011 - 0.946V
+//               01100 - 0.989V
+//               01101 - 1.032V
+//               01110 - 1.075V
+//               01111 - 1.118V
+//               10000 - 1.161
+//               10001 - 1.204V
+#define POWMAN_BOD_LP_EXIT_VSEL_RESET  _u(0x0b)
+#define POWMAN_BOD_LP_EXIT_VSEL_BITS   _u(0x000001f0)
+#define POWMAN_BOD_LP_EXIT_VSEL_MSB    _u(8)
+#define POWMAN_BOD_LP_EXIT_VSEL_LSB    _u(4)
+#define POWMAN_BOD_LP_EXIT_VSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOD_LP_EXIT_EN
+// Description : enable brown-out detection
+//               0=not enabled, 1=enabled
+#define POWMAN_BOD_LP_EXIT_EN_RESET  _u(0x1)
+#define POWMAN_BOD_LP_EXIT_EN_BITS   _u(0x00000001)
+#define POWMAN_BOD_LP_EXIT_EN_MSB    _u(0)
+#define POWMAN_BOD_LP_EXIT_EN_LSB    _u(0)
+#define POWMAN_BOD_LP_EXIT_EN_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_LPOSC
+// Description : Low power oscillator control register.
+#define POWMAN_LPOSC_OFFSET _u(0x00000028)
+#define POWMAN_LPOSC_BITS   _u(0x000003f3)
+#define POWMAN_LPOSC_RESET  _u(0x00000203)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_LPOSC_TRIM
+// Description : Frequency trim - the trim step is typically 1% of the reset
+//               frequency, but can be up to 3%
+#define POWMAN_LPOSC_TRIM_RESET  _u(0x20)
+#define POWMAN_LPOSC_TRIM_BITS   _u(0x000003f0)
+#define POWMAN_LPOSC_TRIM_MSB    _u(9)
+#define POWMAN_LPOSC_TRIM_LSB    _u(4)
+#define POWMAN_LPOSC_TRIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_LPOSC_MODE
+// Description : This feature has been removed
+#define POWMAN_LPOSC_MODE_RESET  _u(0x3)
+#define POWMAN_LPOSC_MODE_BITS   _u(0x00000003)
+#define POWMAN_LPOSC_MODE_MSB    _u(1)
+#define POWMAN_LPOSC_MODE_LSB    _u(0)
+#define POWMAN_LPOSC_MODE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_CHIP_RESET
+// Description : Chip reset control and status
+#define POWMAN_CHIP_RESET_OFFSET _u(0x0000002c)
+#define POWMAN_CHIP_RESET_BITS   _u(0x1fef0011)
+#define POWMAN_CHIP_RESET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM
+// Description : Last reset was a watchdog timeout which was configured to reset
+//               the power-on state machine
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              no
+//               powman             no
+//               swcore             no
+//               psm                yes
+//               and does not change the power state
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM_BITS   _u(0x10000000)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM_MSB    _u(28)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM_LSB    _u(28)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_RSM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ
+// Description : Last reset was a system reset from the hazard debugger
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              no
+//               powman             no
+//               swcore             no
+//               psm                yes
+//               and does not change the power state
+#define POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ_BITS   _u(0x08000000)
+#define POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ_MSB    _u(27)
+#define POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ_LSB    _u(27)
+#define POWMAN_CHIP_RESET_HAD_HZD_SYS_RESET_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_GLITCH_DETECT
+// Description : Last reset was due to a power supply glitch
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              no
+//               powman             no
+//               swcore             no
+//               psm                yes
+//               and does not change the power state
+#define POWMAN_CHIP_RESET_HAD_GLITCH_DETECT_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_GLITCH_DETECT_BITS   _u(0x04000000)
+#define POWMAN_CHIP_RESET_HAD_GLITCH_DETECT_MSB    _u(26)
+#define POWMAN_CHIP_RESET_HAD_GLITCH_DETECT_LSB    _u(26)
+#define POWMAN_CHIP_RESET_HAD_GLITCH_DETECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_SWCORE_PD
+// Description : Last reset was a switched core powerdown
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              no
+//               powman             no
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_SWCORE_PD_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_SWCORE_PD_BITS   _u(0x02000000)
+#define POWMAN_CHIP_RESET_HAD_SWCORE_PD_MSB    _u(25)
+#define POWMAN_CHIP_RESET_HAD_SWCORE_PD_LSB    _u(25)
+#define POWMAN_CHIP_RESET_HAD_SWCORE_PD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE
+// Description : Last reset was a watchdog timeout which was configured to reset
+//               the switched-core
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              no
+//               powman             no
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE_BITS   _u(0x01000000)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE_MSB    _u(24)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE_LSB    _u(24)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_SWCORE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN
+// Description : Last reset was a watchdog timeout which was configured to reset
+//               the power manager
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_BITS   _u(0x00800000)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_MSB    _u(23)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_LSB    _u(23)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC
+// Description : Last reset was a watchdog timeout which was configured to reset
+//               the power manager asynchronously
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC_BITS   _u(0x00400000)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC_MSB    _u(22)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC_LSB    _u(22)
+#define POWMAN_CHIP_RESET_HAD_WATCHDOG_RESET_POWMAN_ASYNC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_RESCUE
+// Description : Last reset was a rescue reset from the debugger
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        no, it sets this flag
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_RESCUE_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_RESCUE_BITS   _u(0x00200000)
+#define POWMAN_CHIP_RESET_HAD_RESCUE_MSB    _u(21)
+#define POWMAN_CHIP_RESET_HAD_RESCUE_LSB    _u(21)
+#define POWMAN_CHIP_RESET_HAD_RESCUE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_DP_RESET_REQ
+// Description : Last reset was an reset request from the arm debugger
+//               This resets:
+//               double_tap flag    no
+//               DP                 no
+//               RPAP               no
+//               rescue_flag        yes
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_DP_RESET_REQ_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_DP_RESET_REQ_BITS   _u(0x00080000)
+#define POWMAN_CHIP_RESET_HAD_DP_RESET_REQ_MSB    _u(19)
+#define POWMAN_CHIP_RESET_HAD_DP_RESET_REQ_LSB    _u(19)
+#define POWMAN_CHIP_RESET_HAD_DP_RESET_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_RUN_LOW
+// Description : Last reset was from the RUN pin
+//               This resets:
+//               double_tap flag    no
+//               DP                 yes
+//               RPAP               yes
+//               rescue_flag        yes
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_RUN_LOW_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_RUN_LOW_BITS   _u(0x00040000)
+#define POWMAN_CHIP_RESET_HAD_RUN_LOW_MSB    _u(18)
+#define POWMAN_CHIP_RESET_HAD_RUN_LOW_LSB    _u(18)
+#define POWMAN_CHIP_RESET_HAD_RUN_LOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_BOR
+// Description : Last reset was from the brown-out detection block
+//               This resets:
+//               double_tap flag    yes
+//               DP                 yes
+//               RPAP               yes
+//               rescue_flag        yes
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_BOR_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_BOR_BITS   _u(0x00020000)
+#define POWMAN_CHIP_RESET_HAD_BOR_MSB    _u(17)
+#define POWMAN_CHIP_RESET_HAD_BOR_LSB    _u(17)
+#define POWMAN_CHIP_RESET_HAD_BOR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_HAD_POR
+// Description : Last reset was from the power-on reset
+//               This resets:
+//               double_tap flag    yes
+//               DP                 yes
+//               RPAP               yes
+//               rescue_flag        yes
+//               timer              yes
+//               powman             yes
+//               swcore             yes
+//               psm                yes
+//               then starts the power sequencer
+#define POWMAN_CHIP_RESET_HAD_POR_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_HAD_POR_BITS   _u(0x00010000)
+#define POWMAN_CHIP_RESET_HAD_POR_MSB    _u(16)
+#define POWMAN_CHIP_RESET_HAD_POR_LSB    _u(16)
+#define POWMAN_CHIP_RESET_HAD_POR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_RESCUE_FLAG
+// Description : This is set by a rescue reset from the RP-AP.
+//               Its purpose is to halt before the bootrom before booting from
+//               flash in order to recover from a boot lock-up.
+//               The debugger can then attach once the bootrom has been halted
+//               and flash some working code that does not lock up.
+#define POWMAN_CHIP_RESET_RESCUE_FLAG_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_RESCUE_FLAG_BITS   _u(0x00000010)
+#define POWMAN_CHIP_RESET_RESCUE_FLAG_MSB    _u(4)
+#define POWMAN_CHIP_RESET_RESCUE_FLAG_LSB    _u(4)
+#define POWMAN_CHIP_RESET_RESCUE_FLAG_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_CHIP_RESET_DOUBLE_TAP
+// Description : This flag is set by double-tapping RUN. It tells bootcode to go
+//               into the bootloader.
+#define POWMAN_CHIP_RESET_DOUBLE_TAP_RESET  _u(0x0)
+#define POWMAN_CHIP_RESET_DOUBLE_TAP_BITS   _u(0x00000001)
+#define POWMAN_CHIP_RESET_DOUBLE_TAP_MSB    _u(0)
+#define POWMAN_CHIP_RESET_DOUBLE_TAP_LSB    _u(0)
+#define POWMAN_CHIP_RESET_DOUBLE_TAP_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_WDSEL
+// Description : Allows a watchdog reset to reset the internal state of powman
+//               in addition to the power-on state machine (PSM).
+//               Note that powman ignores watchdog resets that do not select at
+//               least the CLOCKS stage or earlier stages in the PSM. If using
+//               these bits, it's recommended to set PSM_WDSEL to all-ones in
+//               addition to the desired bits in this register. Failing to
+//               select CLOCKS or earlier will result in the POWMAN_WDSEL
+//               register having no effect.
+#define POWMAN_WDSEL_OFFSET _u(0x00000030)
+#define POWMAN_WDSEL_BITS   _u(0x00001111)
+#define POWMAN_WDSEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_WDSEL_RESET_RSM
+// Description : If set to 1, a watchdog reset will run the full power-on state
+//               machine (PSM) sequence
+//               From a user perspective it is the same as setting
+//               RSM_WDSEL_PROC_COLD
+//               From a hardware debug perspective it has the same effect as a
+//               reset from a glitch detector
+#define POWMAN_WDSEL_RESET_RSM_RESET  _u(0x0)
+#define POWMAN_WDSEL_RESET_RSM_BITS   _u(0x00001000)
+#define POWMAN_WDSEL_RESET_RSM_MSB    _u(12)
+#define POWMAN_WDSEL_RESET_RSM_LSB    _u(12)
+#define POWMAN_WDSEL_RESET_RSM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_WDSEL_RESET_SWCORE
+// Description : If set to 1, a watchdog reset will reset the switched core
+//               power domain and run the full power-on state machine (PSM)
+//               sequence
+//               From a user perspective it is the same as setting
+//               RSM_WDSEL_PROC_COLD
+//               From a hardware debug perspective it has the same effect as a
+//               power-on reset for the switched core power domain
+#define POWMAN_WDSEL_RESET_SWCORE_RESET  _u(0x0)
+#define POWMAN_WDSEL_RESET_SWCORE_BITS   _u(0x00000100)
+#define POWMAN_WDSEL_RESET_SWCORE_MSB    _u(8)
+#define POWMAN_WDSEL_RESET_SWCORE_LSB    _u(8)
+#define POWMAN_WDSEL_RESET_SWCORE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_WDSEL_RESET_POWMAN
+// Description : If set to 1, a watchdog reset will restore powman defaults,
+//               reset the timer, reset the switched core power domain
+//               and run the full power-on state machine (PSM) sequence
+//               This relies on clk_ref running. Use reset_powman_async if that
+//               may not be true
+#define POWMAN_WDSEL_RESET_POWMAN_RESET  _u(0x0)
+#define POWMAN_WDSEL_RESET_POWMAN_BITS   _u(0x00000010)
+#define POWMAN_WDSEL_RESET_POWMAN_MSB    _u(4)
+#define POWMAN_WDSEL_RESET_POWMAN_LSB    _u(4)
+#define POWMAN_WDSEL_RESET_POWMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_WDSEL_RESET_POWMAN_ASYNC
+// Description : If set to 1, a watchdog reset will restore powman defaults,
+//               reset the timer,
+//               reset the switched core domain and run the full power-on state
+//               machine (PSM) sequence
+//               This does not rely on clk_ref running
+#define POWMAN_WDSEL_RESET_POWMAN_ASYNC_RESET  _u(0x0)
+#define POWMAN_WDSEL_RESET_POWMAN_ASYNC_BITS   _u(0x00000001)
+#define POWMAN_WDSEL_RESET_POWMAN_ASYNC_MSB    _u(0)
+#define POWMAN_WDSEL_RESET_POWMAN_ASYNC_LSB    _u(0)
+#define POWMAN_WDSEL_RESET_POWMAN_ASYNC_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SEQ_CFG
+// Description : For configuration of the power sequencer
+//               Writes are ignored while POWMAN_STATE_CHANGING=1
+#define POWMAN_SEQ_CFG_OFFSET _u(0x00000034)
+#define POWMAN_SEQ_CFG_BITS   _u(0x001311f3)
+#define POWMAN_SEQ_CFG_RESET  _u(0x001011f0)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USING_FAST_POWCK
+// Description : 0 indicates the POWMAN clock is running from the low power
+//               oscillator (32kHz)
+//               1 indicates the POWMAN clock is running from the reference
+//               clock (2-50MHz)
+#define POWMAN_SEQ_CFG_USING_FAST_POWCK_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USING_FAST_POWCK_BITS   _u(0x00100000)
+#define POWMAN_SEQ_CFG_USING_FAST_POWCK_MSB    _u(20)
+#define POWMAN_SEQ_CFG_USING_FAST_POWCK_LSB    _u(20)
+#define POWMAN_SEQ_CFG_USING_FAST_POWCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USING_BOD_LP
+// Description : Indicates the brown-out detector (BOD) mode
+//               0 = BOD high power mode which is the default
+//               1 = BOD low power mode
+#define POWMAN_SEQ_CFG_USING_BOD_LP_RESET  _u(0x0)
+#define POWMAN_SEQ_CFG_USING_BOD_LP_BITS   _u(0x00020000)
+#define POWMAN_SEQ_CFG_USING_BOD_LP_MSB    _u(17)
+#define POWMAN_SEQ_CFG_USING_BOD_LP_LSB    _u(17)
+#define POWMAN_SEQ_CFG_USING_BOD_LP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USING_VREG_LP
+// Description : Indicates the voltage regulator (VREG) mode
+//               0 = VREG high power mode which is the default
+//               1 = VREG low power mode
+#define POWMAN_SEQ_CFG_USING_VREG_LP_RESET  _u(0x0)
+#define POWMAN_SEQ_CFG_USING_VREG_LP_BITS   _u(0x00010000)
+#define POWMAN_SEQ_CFG_USING_VREG_LP_MSB    _u(16)
+#define POWMAN_SEQ_CFG_USING_VREG_LP_LSB    _u(16)
+#define POWMAN_SEQ_CFG_USING_VREG_LP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USE_FAST_POWCK
+// Description : selects the reference clock (clk_ref) as the source of the
+//               POWMAN clock when switched-core is powered. The POWMAN clock
+//               always switches to the slow clock (lposc) when switched-core is
+//               powered down because the fast clock stops running.
+//               0 always run the POWMAN clock from the slow clock (lposc)
+//               1 run the POWMAN clock from the fast clock when available
+//               This setting takes effect when a power up sequence is next run
+#define POWMAN_SEQ_CFG_USE_FAST_POWCK_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USE_FAST_POWCK_BITS   _u(0x00001000)
+#define POWMAN_SEQ_CFG_USE_FAST_POWCK_MSB    _u(12)
+#define POWMAN_SEQ_CFG_USE_FAST_POWCK_LSB    _u(12)
+#define POWMAN_SEQ_CFG_USE_FAST_POWCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP
+// Description : Set to 0 to stop the low power osc when the switched-core is
+//               powered down, which is unwise if using it to clock the timer
+//               This setting takes effect when the swcore is next powered down
+#define POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP_BITS   _u(0x00000100)
+#define POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP_MSB    _u(8)
+#define POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP_LSB    _u(8)
+#define POWMAN_SEQ_CFG_RUN_LPOSC_IN_LP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USE_BOD_HP
+// Description : Set to 0 to prevent automatic switching to bod high power mode
+//               when switched-core is powered up
+//               This setting takes effect when the swcore is next powered up
+#define POWMAN_SEQ_CFG_USE_BOD_HP_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USE_BOD_HP_BITS   _u(0x00000080)
+#define POWMAN_SEQ_CFG_USE_BOD_HP_MSB    _u(7)
+#define POWMAN_SEQ_CFG_USE_BOD_HP_LSB    _u(7)
+#define POWMAN_SEQ_CFG_USE_BOD_HP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USE_BOD_LP
+// Description : Set to 0 to prevent automatic switching to bod low power mode
+//               when switched-core is powered down
+//               This setting takes effect when the swcore is next powered down
+#define POWMAN_SEQ_CFG_USE_BOD_LP_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USE_BOD_LP_BITS   _u(0x00000040)
+#define POWMAN_SEQ_CFG_USE_BOD_LP_MSB    _u(6)
+#define POWMAN_SEQ_CFG_USE_BOD_LP_LSB    _u(6)
+#define POWMAN_SEQ_CFG_USE_BOD_LP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USE_VREG_HP
+// Description : Set to 0 to prevent automatic switching to vreg high power mode
+//               when switched-core is powered up
+//               This setting takes effect when the swcore is next powered up
+#define POWMAN_SEQ_CFG_USE_VREG_HP_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USE_VREG_HP_BITS   _u(0x00000020)
+#define POWMAN_SEQ_CFG_USE_VREG_HP_MSB    _u(5)
+#define POWMAN_SEQ_CFG_USE_VREG_HP_LSB    _u(5)
+#define POWMAN_SEQ_CFG_USE_VREG_HP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_USE_VREG_LP
+// Description : Set to 0 to prevent automatic switching to vreg low power mode
+//               when switched-core is powered down
+//               This setting takes effect when the swcore is next powered down
+#define POWMAN_SEQ_CFG_USE_VREG_LP_RESET  _u(0x1)
+#define POWMAN_SEQ_CFG_USE_VREG_LP_BITS   _u(0x00000010)
+#define POWMAN_SEQ_CFG_USE_VREG_LP_MSB    _u(4)
+#define POWMAN_SEQ_CFG_USE_VREG_LP_LSB    _u(4)
+#define POWMAN_SEQ_CFG_USE_VREG_LP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_HW_PWRUP_SRAM0
+// Description : Specifies the power state of SRAM0 when powering up swcore from
+//               a low power state (P1.xxx) to a high power state (P0.0xx).
+//               0=power-up
+//               1=no change
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM0_RESET  _u(0x0)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM0_BITS   _u(0x00000002)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM0_MSB    _u(1)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM0_LSB    _u(1)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_SEQ_CFG_HW_PWRUP_SRAM1
+// Description : Specifies the power state of SRAM1 when powering up swcore from
+//               a low power state (P1.xxx) to a high power state (P0.0xx).
+//               0=power-up
+//               1=no change
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM1_RESET  _u(0x0)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM1_BITS   _u(0x00000001)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM1_MSB    _u(0)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM1_LSB    _u(0)
+#define POWMAN_SEQ_CFG_HW_PWRUP_SRAM1_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_STATE
+// Description : This register controls the power state of the 4 power domains.
+//               The current power state is indicated in POWMAN_STATE_CURRENT
+//               which is read-only.
+//               To change the state, write to POWMAN_STATE_REQ.
+//               The coding of POWMAN_STATE_CURRENT & POWMAN_STATE_REQ
+//               corresponds to the power states
+//               defined in the datasheet:
+//               bit 3 = SWCORE
+//               bit 2 = XIP cache
+//               bit 1 = SRAM0
+//               bit 0 = SRAM1
+//               0 = powered up
+//               1 = powered down
+//               When POWMAN_STATE_REQ is written, the POWMAN_STATE_WAITING flag
+//               is set while the Power Manager determines what is required. If
+//               an invalid transition is requested the Power Manager will still
+//               register the request in POWMAN_STATE_REQ but will also set the
+//               POWMAN_BAD_REQ flag. It will then implement the power-up
+//               requests and ignore the power down requests. To do nothing
+//               would risk entering an unrecoverable lock-up state. Invalid
+//               requests are: any combination of power up and power down
+//               requests any request that results in swcore boing powered and
+//               xip unpowered If the request is to power down the switched-core
+//               domain then POWMAN_STATE_WAITING stays active until the
+//               processors halt. During this time the POWMAN_STATE_REQ field
+//               can be re-written to change or cancel the request. When the
+//               power state transition begins the POWMAN_STATE_WAITING_flag is
+//               cleared, the POWMAN_STATE_CHANGING flag is set and POWMAN
+//               register writes are ignored until the transition completes.
+#define POWMAN_STATE_OFFSET _u(0x00000038)
+#define POWMAN_STATE_BITS   _u(0x00003fff)
+#define POWMAN_STATE_RESET  _u(0x0000000f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_CHANGING
+#define POWMAN_STATE_CHANGING_RESET  _u(0x0)
+#define POWMAN_STATE_CHANGING_BITS   _u(0x00002000)
+#define POWMAN_STATE_CHANGING_MSB    _u(13)
+#define POWMAN_STATE_CHANGING_LSB    _u(13)
+#define POWMAN_STATE_CHANGING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_WAITING
+#define POWMAN_STATE_WAITING_RESET  _u(0x0)
+#define POWMAN_STATE_WAITING_BITS   _u(0x00001000)
+#define POWMAN_STATE_WAITING_MSB    _u(12)
+#define POWMAN_STATE_WAITING_LSB    _u(12)
+#define POWMAN_STATE_WAITING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_BAD_HW_REQ
+// Description : Bad hardware initiated state request. Went back to state 0
+//               (i.e. everything powered up)
+#define POWMAN_STATE_BAD_HW_REQ_RESET  _u(0x0)
+#define POWMAN_STATE_BAD_HW_REQ_BITS   _u(0x00000800)
+#define POWMAN_STATE_BAD_HW_REQ_MSB    _u(11)
+#define POWMAN_STATE_BAD_HW_REQ_LSB    _u(11)
+#define POWMAN_STATE_BAD_HW_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_BAD_SW_REQ
+// Description : Bad software initiated state request. No action taken.
+#define POWMAN_STATE_BAD_SW_REQ_RESET  _u(0x0)
+#define POWMAN_STATE_BAD_SW_REQ_BITS   _u(0x00000400)
+#define POWMAN_STATE_BAD_SW_REQ_MSB    _u(10)
+#define POWMAN_STATE_BAD_SW_REQ_LSB    _u(10)
+#define POWMAN_STATE_BAD_SW_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_PWRUP_WHILE_WAITING
+// Description : Request ignored because of a pending pwrup request. See
+//               current_pwrup_req. Note this blocks powering up AND powering
+//               down.
+#define POWMAN_STATE_PWRUP_WHILE_WAITING_RESET  _u(0x0)
+#define POWMAN_STATE_PWRUP_WHILE_WAITING_BITS   _u(0x00000200)
+#define POWMAN_STATE_PWRUP_WHILE_WAITING_MSB    _u(9)
+#define POWMAN_STATE_PWRUP_WHILE_WAITING_LSB    _u(9)
+#define POWMAN_STATE_PWRUP_WHILE_WAITING_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_REQ_IGNORED
+#define POWMAN_STATE_REQ_IGNORED_RESET  _u(0x0)
+#define POWMAN_STATE_REQ_IGNORED_BITS   _u(0x00000100)
+#define POWMAN_STATE_REQ_IGNORED_MSB    _u(8)
+#define POWMAN_STATE_REQ_IGNORED_LSB    _u(8)
+#define POWMAN_STATE_REQ_IGNORED_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_REQ
+#define POWMAN_STATE_REQ_RESET  _u(0x0)
+#define POWMAN_STATE_REQ_BITS   _u(0x000000f0)
+#define POWMAN_STATE_REQ_MSB    _u(7)
+#define POWMAN_STATE_REQ_LSB    _u(4)
+#define POWMAN_STATE_REQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_STATE_CURRENT
+#define POWMAN_STATE_CURRENT_RESET  _u(0xf)
+#define POWMAN_STATE_CURRENT_BITS   _u(0x0000000f)
+#define POWMAN_STATE_CURRENT_MSB    _u(3)
+#define POWMAN_STATE_CURRENT_LSB    _u(0)
+#define POWMAN_STATE_CURRENT_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_POW_FASTDIV
+// Description : None
+//               divides the POWMAN clock to provide a tick for the delay module
+//               and state machines
+//               when clk_pow is running from the slow clock it is not divided
+//               when clk_pow is running from the fast clock it is divided by
+//               tick_div
+#define POWMAN_POW_FASTDIV_OFFSET _u(0x0000003c)
+#define POWMAN_POW_FASTDIV_BITS   _u(0x000007ff)
+#define POWMAN_POW_FASTDIV_RESET  _u(0x00000040)
+#define POWMAN_POW_FASTDIV_MSB    _u(10)
+#define POWMAN_POW_FASTDIV_LSB    _u(0)
+#define POWMAN_POW_FASTDIV_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_POW_DELAY
+// Description : power state machine delays
+#define POWMAN_POW_DELAY_OFFSET _u(0x00000040)
+#define POWMAN_POW_DELAY_BITS   _u(0x0000ffff)
+#define POWMAN_POW_DELAY_RESET  _u(0x00002011)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_POW_DELAY_SRAM_STEP
+// Description : timing between the sram0 and sram1 power state machine steps
+//               measured in units of the powman tick period (>=1us), 0 gives a
+//               delay of 1 unit
+#define POWMAN_POW_DELAY_SRAM_STEP_RESET  _u(0x20)
+#define POWMAN_POW_DELAY_SRAM_STEP_BITS   _u(0x0000ff00)
+#define POWMAN_POW_DELAY_SRAM_STEP_MSB    _u(15)
+#define POWMAN_POW_DELAY_SRAM_STEP_LSB    _u(8)
+#define POWMAN_POW_DELAY_SRAM_STEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_POW_DELAY_XIP_STEP
+// Description : timing between the xip power state machine steps
+//               measured in units of the lposc period, 0 gives a delay of 1
+//               unit
+#define POWMAN_POW_DELAY_XIP_STEP_RESET  _u(0x1)
+#define POWMAN_POW_DELAY_XIP_STEP_BITS   _u(0x000000f0)
+#define POWMAN_POW_DELAY_XIP_STEP_MSB    _u(7)
+#define POWMAN_POW_DELAY_XIP_STEP_LSB    _u(4)
+#define POWMAN_POW_DELAY_XIP_STEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_POW_DELAY_SWCORE_STEP
+// Description : timing between the swcore power state machine steps
+//               measured in units of the lposc period, 0 gives a delay of 1
+//               unit
+#define POWMAN_POW_DELAY_SWCORE_STEP_RESET  _u(0x1)
+#define POWMAN_POW_DELAY_SWCORE_STEP_BITS   _u(0x0000000f)
+#define POWMAN_POW_DELAY_SWCORE_STEP_MSB    _u(3)
+#define POWMAN_POW_DELAY_SWCORE_STEP_LSB    _u(0)
+#define POWMAN_POW_DELAY_SWCORE_STEP_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_EXT_CTRL0
+// Description : Configures a gpio as a power mode aware control output
+#define POWMAN_EXT_CTRL0_OFFSET _u(0x00000044)
+#define POWMAN_EXT_CTRL0_BITS   _u(0x0000713f)
+#define POWMAN_EXT_CTRL0_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL0_LP_EXIT_STATE
+// Description : output level when exiting the low power state
+#define POWMAN_EXT_CTRL0_LP_EXIT_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL0_LP_EXIT_STATE_BITS   _u(0x00004000)
+#define POWMAN_EXT_CTRL0_LP_EXIT_STATE_MSB    _u(14)
+#define POWMAN_EXT_CTRL0_LP_EXIT_STATE_LSB    _u(14)
+#define POWMAN_EXT_CTRL0_LP_EXIT_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL0_LP_ENTRY_STATE
+// Description : output level when entering the low power state
+#define POWMAN_EXT_CTRL0_LP_ENTRY_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL0_LP_ENTRY_STATE_BITS   _u(0x00002000)
+#define POWMAN_EXT_CTRL0_LP_ENTRY_STATE_MSB    _u(13)
+#define POWMAN_EXT_CTRL0_LP_ENTRY_STATE_LSB    _u(13)
+#define POWMAN_EXT_CTRL0_LP_ENTRY_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL0_INIT_STATE
+#define POWMAN_EXT_CTRL0_INIT_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL0_INIT_STATE_BITS   _u(0x00001000)
+#define POWMAN_EXT_CTRL0_INIT_STATE_MSB    _u(12)
+#define POWMAN_EXT_CTRL0_INIT_STATE_LSB    _u(12)
+#define POWMAN_EXT_CTRL0_INIT_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL0_INIT
+#define POWMAN_EXT_CTRL0_INIT_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL0_INIT_BITS   _u(0x00000100)
+#define POWMAN_EXT_CTRL0_INIT_MSB    _u(8)
+#define POWMAN_EXT_CTRL0_INIT_LSB    _u(8)
+#define POWMAN_EXT_CTRL0_INIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL0_GPIO_SELECT
+// Description : selects from gpio 0->30
+//               set to 31 to disable this feature
+#define POWMAN_EXT_CTRL0_GPIO_SELECT_RESET  _u(0x3f)
+#define POWMAN_EXT_CTRL0_GPIO_SELECT_BITS   _u(0x0000003f)
+#define POWMAN_EXT_CTRL0_GPIO_SELECT_MSB    _u(5)
+#define POWMAN_EXT_CTRL0_GPIO_SELECT_LSB    _u(0)
+#define POWMAN_EXT_CTRL0_GPIO_SELECT_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_EXT_CTRL1
+// Description : Configures a gpio as a power mode aware control output
+#define POWMAN_EXT_CTRL1_OFFSET _u(0x00000048)
+#define POWMAN_EXT_CTRL1_BITS   _u(0x0000713f)
+#define POWMAN_EXT_CTRL1_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL1_LP_EXIT_STATE
+// Description : output level when exiting the low power state
+#define POWMAN_EXT_CTRL1_LP_EXIT_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL1_LP_EXIT_STATE_BITS   _u(0x00004000)
+#define POWMAN_EXT_CTRL1_LP_EXIT_STATE_MSB    _u(14)
+#define POWMAN_EXT_CTRL1_LP_EXIT_STATE_LSB    _u(14)
+#define POWMAN_EXT_CTRL1_LP_EXIT_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL1_LP_ENTRY_STATE
+// Description : output level when entering the low power state
+#define POWMAN_EXT_CTRL1_LP_ENTRY_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL1_LP_ENTRY_STATE_BITS   _u(0x00002000)
+#define POWMAN_EXT_CTRL1_LP_ENTRY_STATE_MSB    _u(13)
+#define POWMAN_EXT_CTRL1_LP_ENTRY_STATE_LSB    _u(13)
+#define POWMAN_EXT_CTRL1_LP_ENTRY_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL1_INIT_STATE
+#define POWMAN_EXT_CTRL1_INIT_STATE_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL1_INIT_STATE_BITS   _u(0x00001000)
+#define POWMAN_EXT_CTRL1_INIT_STATE_MSB    _u(12)
+#define POWMAN_EXT_CTRL1_INIT_STATE_LSB    _u(12)
+#define POWMAN_EXT_CTRL1_INIT_STATE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL1_INIT
+#define POWMAN_EXT_CTRL1_INIT_RESET  _u(0x0)
+#define POWMAN_EXT_CTRL1_INIT_BITS   _u(0x00000100)
+#define POWMAN_EXT_CTRL1_INIT_MSB    _u(8)
+#define POWMAN_EXT_CTRL1_INIT_LSB    _u(8)
+#define POWMAN_EXT_CTRL1_INIT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_CTRL1_GPIO_SELECT
+// Description : selects from gpio 0->30
+//               set to 31 to disable this feature
+#define POWMAN_EXT_CTRL1_GPIO_SELECT_RESET  _u(0x3f)
+#define POWMAN_EXT_CTRL1_GPIO_SELECT_BITS   _u(0x0000003f)
+#define POWMAN_EXT_CTRL1_GPIO_SELECT_MSB    _u(5)
+#define POWMAN_EXT_CTRL1_GPIO_SELECT_LSB    _u(0)
+#define POWMAN_EXT_CTRL1_GPIO_SELECT_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_EXT_TIME_REF
+// Description : Select a GPIO to use as a time reference, the source can be
+//               used to drive the low power clock at 32kHz, or to provide a 1ms
+//               tick to the timer, or provide a 1Hz tick to the timer. The tick
+//               selection is controlled by the POWMAN_TIMER register.
+#define POWMAN_EXT_TIME_REF_OFFSET _u(0x0000004c)
+#define POWMAN_EXT_TIME_REF_BITS   _u(0x00000013)
+#define POWMAN_EXT_TIME_REF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_TIME_REF_DRIVE_LPCK
+// Description : Use the selected GPIO to drive the 32kHz low power clock, in
+//               place of LPOSC. This field must only be written when
+//               POWMAN_TIMER_RUN=0
+#define POWMAN_EXT_TIME_REF_DRIVE_LPCK_RESET  _u(0x0)
+#define POWMAN_EXT_TIME_REF_DRIVE_LPCK_BITS   _u(0x00000010)
+#define POWMAN_EXT_TIME_REF_DRIVE_LPCK_MSB    _u(4)
+#define POWMAN_EXT_TIME_REF_DRIVE_LPCK_LSB    _u(4)
+#define POWMAN_EXT_TIME_REF_DRIVE_LPCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_EXT_TIME_REF_SOURCE_SEL
+// Description : 0 ->  gpio12
+//               1 ->  gpio20
+//               2 ->  gpio14
+//               3 ->  gpio22
+#define POWMAN_EXT_TIME_REF_SOURCE_SEL_RESET  _u(0x0)
+#define POWMAN_EXT_TIME_REF_SOURCE_SEL_BITS   _u(0x00000003)
+#define POWMAN_EXT_TIME_REF_SOURCE_SEL_MSB    _u(1)
+#define POWMAN_EXT_TIME_REF_SOURCE_SEL_LSB    _u(0)
+#define POWMAN_EXT_TIME_REF_SOURCE_SEL_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_LPOSC_FREQ_KHZ_INT
+// Description : Informs the AON Timer of the integer component of the clock
+//               frequency when running off the LPOSC.
+//               Integer component of the LPOSC or GPIO clock source frequency
+//               in kHz. Default = 32 This field must only be written when
+//               POWMAN_TIMER_RUN=0 or POWMAN_TIMER_USING_XOSC=1
+#define POWMAN_LPOSC_FREQ_KHZ_INT_OFFSET _u(0x00000050)
+#define POWMAN_LPOSC_FREQ_KHZ_INT_BITS   _u(0x0000003f)
+#define POWMAN_LPOSC_FREQ_KHZ_INT_RESET  _u(0x00000020)
+#define POWMAN_LPOSC_FREQ_KHZ_INT_MSB    _u(5)
+#define POWMAN_LPOSC_FREQ_KHZ_INT_LSB    _u(0)
+#define POWMAN_LPOSC_FREQ_KHZ_INT_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_LPOSC_FREQ_KHZ_FRAC
+// Description : Informs the AON Timer of the fractional component of the clock
+//               frequency when running off the LPOSC.
+//               Fractional component of the LPOSC or GPIO clock source
+//               frequency in kHz. Default = 0.768 This field must only be
+//               written when POWMAN_TIMER_RUN=0 or POWMAN_TIMER_USING_XOSC=1
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_OFFSET _u(0x00000054)
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_BITS   _u(0x0000ffff)
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_RESET  _u(0x0000c49c)
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_MSB    _u(15)
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_LSB    _u(0)
+#define POWMAN_LPOSC_FREQ_KHZ_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_XOSC_FREQ_KHZ_INT
+// Description : Informs the AON Timer of the integer component of the clock
+//               frequency when running off the XOSC.
+//               Integer component of the XOSC frequency in kHz. Default = 12000
+//               Must be >1 This field must only be written when
+//               POWMAN_TIMER_RUN=0 or POWMAN_TIMER_USING_XOSC=0
+#define POWMAN_XOSC_FREQ_KHZ_INT_OFFSET _u(0x00000058)
+#define POWMAN_XOSC_FREQ_KHZ_INT_BITS   _u(0x0000ffff)
+#define POWMAN_XOSC_FREQ_KHZ_INT_RESET  _u(0x00002ee0)
+#define POWMAN_XOSC_FREQ_KHZ_INT_MSB    _u(15)
+#define POWMAN_XOSC_FREQ_KHZ_INT_LSB    _u(0)
+#define POWMAN_XOSC_FREQ_KHZ_INT_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_XOSC_FREQ_KHZ_FRAC
+// Description : Informs the AON Timer of the fractional component of the clock
+//               frequency when running off the XOSC.
+//               Fractional component of the XOSC frequency in kHz. This field
+//               must only be written when POWMAN_TIMER_RUN=0 or
+//               POWMAN_TIMER_USING_XOSC=0
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_OFFSET _u(0x0000005c)
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_BITS   _u(0x0000ffff)
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_RESET  _u(0x00000000)
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_MSB    _u(15)
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_LSB    _u(0)
+#define POWMAN_XOSC_FREQ_KHZ_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SET_TIME_63TO48
+// Description : None
+//               For setting the time, do not use for reading the time, use
+//               POWMAN_READ_TIME_UPPER and POWMAN_READ_TIME_LOWER. This field
+//               must only be written when POWMAN_TIMER_RUN=0
+#define POWMAN_SET_TIME_63TO48_OFFSET _u(0x00000060)
+#define POWMAN_SET_TIME_63TO48_BITS   _u(0x0000ffff)
+#define POWMAN_SET_TIME_63TO48_RESET  _u(0x00000000)
+#define POWMAN_SET_TIME_63TO48_MSB    _u(15)
+#define POWMAN_SET_TIME_63TO48_LSB    _u(0)
+#define POWMAN_SET_TIME_63TO48_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SET_TIME_47TO32
+// Description : None
+//               For setting the time, do not use for reading the time, use
+//               POWMAN_READ_TIME_UPPER and POWMAN_READ_TIME_LOWER. This field
+//               must only be written when POWMAN_TIMER_RUN=0
+#define POWMAN_SET_TIME_47TO32_OFFSET _u(0x00000064)
+#define POWMAN_SET_TIME_47TO32_BITS   _u(0x0000ffff)
+#define POWMAN_SET_TIME_47TO32_RESET  _u(0x00000000)
+#define POWMAN_SET_TIME_47TO32_MSB    _u(15)
+#define POWMAN_SET_TIME_47TO32_LSB    _u(0)
+#define POWMAN_SET_TIME_47TO32_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SET_TIME_31TO16
+// Description : None
+//               For setting the time, do not use for reading the time, use
+//               POWMAN_READ_TIME_UPPER and POWMAN_READ_TIME_LOWER. This field
+//               must only be written when POWMAN_TIMER_RUN=0
+#define POWMAN_SET_TIME_31TO16_OFFSET _u(0x00000068)
+#define POWMAN_SET_TIME_31TO16_BITS   _u(0x0000ffff)
+#define POWMAN_SET_TIME_31TO16_RESET  _u(0x00000000)
+#define POWMAN_SET_TIME_31TO16_MSB    _u(15)
+#define POWMAN_SET_TIME_31TO16_LSB    _u(0)
+#define POWMAN_SET_TIME_31TO16_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SET_TIME_15TO0
+// Description : None
+//               For setting the time, do not use for reading the time, use
+//               POWMAN_READ_TIME_UPPER and POWMAN_READ_TIME_LOWER. This field
+//               must only be written when POWMAN_TIMER_RUN=0
+#define POWMAN_SET_TIME_15TO0_OFFSET _u(0x0000006c)
+#define POWMAN_SET_TIME_15TO0_BITS   _u(0x0000ffff)
+#define POWMAN_SET_TIME_15TO0_RESET  _u(0x00000000)
+#define POWMAN_SET_TIME_15TO0_MSB    _u(15)
+#define POWMAN_SET_TIME_15TO0_LSB    _u(0)
+#define POWMAN_SET_TIME_15TO0_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_READ_TIME_UPPER
+// Description : None
+//               For reading bits 63:32 of the timer. When reading all 64 bits
+//               it is possible for the LOWER count to rollover during the read.
+//               It is recommended to read UPPER, then LOWER, then re-read UPPER
+//               and, if it has changed, re-read LOWER.
+#define POWMAN_READ_TIME_UPPER_OFFSET _u(0x00000070)
+#define POWMAN_READ_TIME_UPPER_BITS   _u(0xffffffff)
+#define POWMAN_READ_TIME_UPPER_RESET  _u(0x00000000)
+#define POWMAN_READ_TIME_UPPER_MSB    _u(31)
+#define POWMAN_READ_TIME_UPPER_LSB    _u(0)
+#define POWMAN_READ_TIME_UPPER_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_READ_TIME_LOWER
+// Description : None
+//               For reading bits 31:0 of the timer.
+#define POWMAN_READ_TIME_LOWER_OFFSET _u(0x00000074)
+#define POWMAN_READ_TIME_LOWER_BITS   _u(0xffffffff)
+#define POWMAN_READ_TIME_LOWER_RESET  _u(0x00000000)
+#define POWMAN_READ_TIME_LOWER_MSB    _u(31)
+#define POWMAN_READ_TIME_LOWER_LSB    _u(0)
+#define POWMAN_READ_TIME_LOWER_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_ALARM_TIME_63TO48
+// Description : None
+//               This field must only be written when POWMAN_ALARM_ENAB=0
+#define POWMAN_ALARM_TIME_63TO48_OFFSET _u(0x00000078)
+#define POWMAN_ALARM_TIME_63TO48_BITS   _u(0x0000ffff)
+#define POWMAN_ALARM_TIME_63TO48_RESET  _u(0x00000000)
+#define POWMAN_ALARM_TIME_63TO48_MSB    _u(15)
+#define POWMAN_ALARM_TIME_63TO48_LSB    _u(0)
+#define POWMAN_ALARM_TIME_63TO48_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_ALARM_TIME_47TO32
+// Description : None
+//               This field must only be written when POWMAN_ALARM_ENAB=0
+#define POWMAN_ALARM_TIME_47TO32_OFFSET _u(0x0000007c)
+#define POWMAN_ALARM_TIME_47TO32_BITS   _u(0x0000ffff)
+#define POWMAN_ALARM_TIME_47TO32_RESET  _u(0x00000000)
+#define POWMAN_ALARM_TIME_47TO32_MSB    _u(15)
+#define POWMAN_ALARM_TIME_47TO32_LSB    _u(0)
+#define POWMAN_ALARM_TIME_47TO32_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_ALARM_TIME_31TO16
+// Description : None
+//               This field must only be written when POWMAN_ALARM_ENAB=0
+#define POWMAN_ALARM_TIME_31TO16_OFFSET _u(0x00000080)
+#define POWMAN_ALARM_TIME_31TO16_BITS   _u(0x0000ffff)
+#define POWMAN_ALARM_TIME_31TO16_RESET  _u(0x00000000)
+#define POWMAN_ALARM_TIME_31TO16_MSB    _u(15)
+#define POWMAN_ALARM_TIME_31TO16_LSB    _u(0)
+#define POWMAN_ALARM_TIME_31TO16_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_ALARM_TIME_15TO0
+// Description : None
+//               This field must only be written when POWMAN_ALARM_ENAB=0
+#define POWMAN_ALARM_TIME_15TO0_OFFSET _u(0x00000084)
+#define POWMAN_ALARM_TIME_15TO0_BITS   _u(0x0000ffff)
+#define POWMAN_ALARM_TIME_15TO0_RESET  _u(0x00000000)
+#define POWMAN_ALARM_TIME_15TO0_MSB    _u(15)
+#define POWMAN_ALARM_TIME_15TO0_LSB    _u(0)
+#define POWMAN_ALARM_TIME_15TO0_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_TIMER
+#define POWMAN_TIMER_OFFSET _u(0x00000088)
+#define POWMAN_TIMER_BITS   _u(0x000f2777)
+#define POWMAN_TIMER_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USING_GPIO_1HZ
+// Description : Timer is synchronised to a 1hz gpio source
+#define POWMAN_TIMER_USING_GPIO_1HZ_RESET  _u(0x0)
+#define POWMAN_TIMER_USING_GPIO_1HZ_BITS   _u(0x00080000)
+#define POWMAN_TIMER_USING_GPIO_1HZ_MSB    _u(19)
+#define POWMAN_TIMER_USING_GPIO_1HZ_LSB    _u(19)
+#define POWMAN_TIMER_USING_GPIO_1HZ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USING_GPIO_1KHZ
+// Description : Timer is running from a 1khz gpio source
+#define POWMAN_TIMER_USING_GPIO_1KHZ_RESET  _u(0x0)
+#define POWMAN_TIMER_USING_GPIO_1KHZ_BITS   _u(0x00040000)
+#define POWMAN_TIMER_USING_GPIO_1KHZ_MSB    _u(18)
+#define POWMAN_TIMER_USING_GPIO_1KHZ_LSB    _u(18)
+#define POWMAN_TIMER_USING_GPIO_1KHZ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USING_LPOSC
+// Description : Timer is running from lposc
+#define POWMAN_TIMER_USING_LPOSC_RESET  _u(0x0)
+#define POWMAN_TIMER_USING_LPOSC_BITS   _u(0x00020000)
+#define POWMAN_TIMER_USING_LPOSC_MSB    _u(17)
+#define POWMAN_TIMER_USING_LPOSC_LSB    _u(17)
+#define POWMAN_TIMER_USING_LPOSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USING_XOSC
+// Description : Timer is running from xosc
+#define POWMAN_TIMER_USING_XOSC_RESET  _u(0x0)
+#define POWMAN_TIMER_USING_XOSC_BITS   _u(0x00010000)
+#define POWMAN_TIMER_USING_XOSC_MSB    _u(16)
+#define POWMAN_TIMER_USING_XOSC_LSB    _u(16)
+#define POWMAN_TIMER_USING_XOSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USE_GPIO_1HZ
+// Description : Selects the gpio source as the reference for the sec counter.
+//               The msec counter will continue to use the lposc or xosc
+//               reference.
+#define POWMAN_TIMER_USE_GPIO_1HZ_RESET  _u(0x0)
+#define POWMAN_TIMER_USE_GPIO_1HZ_BITS   _u(0x00002000)
+#define POWMAN_TIMER_USE_GPIO_1HZ_MSB    _u(13)
+#define POWMAN_TIMER_USE_GPIO_1HZ_LSB    _u(13)
+#define POWMAN_TIMER_USE_GPIO_1HZ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USE_GPIO_1KHZ
+// Description : switch to gpio as the source of the 1kHz timer tick
+#define POWMAN_TIMER_USE_GPIO_1KHZ_RESET  _u(0x0)
+#define POWMAN_TIMER_USE_GPIO_1KHZ_BITS   _u(0x00000400)
+#define POWMAN_TIMER_USE_GPIO_1KHZ_MSB    _u(10)
+#define POWMAN_TIMER_USE_GPIO_1KHZ_LSB    _u(10)
+#define POWMAN_TIMER_USE_GPIO_1KHZ_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USE_XOSC
+// Description : switch to xosc as the source of the 1kHz timer tick
+#define POWMAN_TIMER_USE_XOSC_RESET  _u(0x0)
+#define POWMAN_TIMER_USE_XOSC_BITS   _u(0x00000200)
+#define POWMAN_TIMER_USE_XOSC_MSB    _u(9)
+#define POWMAN_TIMER_USE_XOSC_LSB    _u(9)
+#define POWMAN_TIMER_USE_XOSC_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_USE_LPOSC
+// Description : Switch to lposc as the source of the 1kHz timer tick
+#define POWMAN_TIMER_USE_LPOSC_RESET  _u(0x0)
+#define POWMAN_TIMER_USE_LPOSC_BITS   _u(0x00000100)
+#define POWMAN_TIMER_USE_LPOSC_MSB    _u(8)
+#define POWMAN_TIMER_USE_LPOSC_LSB    _u(8)
+#define POWMAN_TIMER_USE_LPOSC_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_ALARM
+// Description : Alarm has fired. Write to 1 to clear the alarm.
+#define POWMAN_TIMER_ALARM_RESET  _u(0x0)
+#define POWMAN_TIMER_ALARM_BITS   _u(0x00000040)
+#define POWMAN_TIMER_ALARM_MSB    _u(6)
+#define POWMAN_TIMER_ALARM_LSB    _u(6)
+#define POWMAN_TIMER_ALARM_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_PWRUP_ON_ALARM
+// Description : Alarm wakes the chip from low power mode
+#define POWMAN_TIMER_PWRUP_ON_ALARM_RESET  _u(0x0)
+#define POWMAN_TIMER_PWRUP_ON_ALARM_BITS   _u(0x00000020)
+#define POWMAN_TIMER_PWRUP_ON_ALARM_MSB    _u(5)
+#define POWMAN_TIMER_PWRUP_ON_ALARM_LSB    _u(5)
+#define POWMAN_TIMER_PWRUP_ON_ALARM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_ALARM_ENAB
+// Description : Enables the alarm. The alarm must be disabled while writing the
+//               alarm time.
+#define POWMAN_TIMER_ALARM_ENAB_RESET  _u(0x0)
+#define POWMAN_TIMER_ALARM_ENAB_BITS   _u(0x00000010)
+#define POWMAN_TIMER_ALARM_ENAB_MSB    _u(4)
+#define POWMAN_TIMER_ALARM_ENAB_LSB    _u(4)
+#define POWMAN_TIMER_ALARM_ENAB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_CLEAR
+// Description : Clears the timer, does not disable the timer and does not
+//               affect the alarm. This control can be written at any time.
+#define POWMAN_TIMER_CLEAR_RESET  _u(0x0)
+#define POWMAN_TIMER_CLEAR_BITS   _u(0x00000004)
+#define POWMAN_TIMER_CLEAR_MSB    _u(2)
+#define POWMAN_TIMER_CLEAR_LSB    _u(2)
+#define POWMAN_TIMER_CLEAR_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_RUN
+// Description : Timer enable. Setting this bit causes the timer to begin
+//               counting up from its current value. Clearing this bit stops the
+//               timer from counting.
+//
+//               Before enabling the timer, set the POWMAN_LPOSC_FREQ* and
+//               POWMAN_XOSC_FREQ* registers to configure the count rate, and
+//               initialise the current time by writing to SET_TIME_63TO48
+//               through SET_TIME_15TO0. You must not write to the SET_TIME_x
+//               registers when the timer is running.
+//
+//               Once configured, start the timer by setting POWMAN_TIMER_RUN=1.
+//               This will start the timer running from the LPOSC. When the XOSC
+//               is available switch the reference clock to XOSC then select it
+//               as the timer clock by setting POWMAN_TIMER_USE_XOSC=1
+#define POWMAN_TIMER_RUN_RESET  _u(0x0)
+#define POWMAN_TIMER_RUN_BITS   _u(0x00000002)
+#define POWMAN_TIMER_RUN_MSB    _u(1)
+#define POWMAN_TIMER_RUN_LSB    _u(1)
+#define POWMAN_TIMER_RUN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_TIMER_NONSEC_WRITE
+// Description : Control whether Non-secure software can write to the timer
+//               registers. All other registers are hardwired to be inaccessible
+//               to Non-secure.
+#define POWMAN_TIMER_NONSEC_WRITE_RESET  _u(0x0)
+#define POWMAN_TIMER_NONSEC_WRITE_BITS   _u(0x00000001)
+#define POWMAN_TIMER_NONSEC_WRITE_MSB    _u(0)
+#define POWMAN_TIMER_NONSEC_WRITE_LSB    _u(0)
+#define POWMAN_TIMER_NONSEC_WRITE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_PWRUP0
+// Description : 4 GPIO powerup events can be configured to wake the chip up
+//               from a low power state.
+//               The pwrups are level/edge sensitive and can be set to trigger
+//               on a high/rising or low/falling event
+//               The number of gpios available depends on the package option. An
+//               invalid selection will be ignored
+//               source = 0 selects gpio0
+//               .
+//               .
+//               source = 47 selects gpio47
+//               source = 48 selects qspi_ss
+//               source = 49 selects qspi_sd0
+//               source = 50 selects qspi_sd1
+//               source = 51 selects qspi_sd2
+//               source = 52 selects qspi_sd3
+//               source = 53 selects qspi_sclk
+//               level  = 0 triggers the pwrup when the source is low
+//               level  = 1 triggers the pwrup when the source is high
+#define POWMAN_PWRUP0_OFFSET _u(0x0000008c)
+#define POWMAN_PWRUP0_BITS   _u(0x000007ff)
+#define POWMAN_PWRUP0_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_RAW_STATUS
+// Description : Value of selected gpio pin (only if enable == 1)
+#define POWMAN_PWRUP0_RAW_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP0_RAW_STATUS_BITS   _u(0x00000400)
+#define POWMAN_PWRUP0_RAW_STATUS_MSB    _u(10)
+#define POWMAN_PWRUP0_RAW_STATUS_LSB    _u(10)
+#define POWMAN_PWRUP0_RAW_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_STATUS
+// Description : Status of gpio wakeup. Write to 1 to clear a latched edge
+//               detect.
+#define POWMAN_PWRUP0_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP0_STATUS_BITS   _u(0x00000200)
+#define POWMAN_PWRUP0_STATUS_MSB    _u(9)
+#define POWMAN_PWRUP0_STATUS_LSB    _u(9)
+#define POWMAN_PWRUP0_STATUS_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_MODE
+// Description : Edge or level detect. Edge will detect a 0 to 1 transition (or
+//               1 to 0 transition). Level will detect a 1 or 0. Both types of
+//               event get latched into the current_pwrup_req register.
+//               0x0 -> level
+//               0x1 -> edge
+#define POWMAN_PWRUP0_MODE_RESET  _u(0x0)
+#define POWMAN_PWRUP0_MODE_BITS   _u(0x00000100)
+#define POWMAN_PWRUP0_MODE_MSB    _u(8)
+#define POWMAN_PWRUP0_MODE_LSB    _u(8)
+#define POWMAN_PWRUP0_MODE_ACCESS "RW"
+#define POWMAN_PWRUP0_MODE_VALUE_LEVEL _u(0x0)
+#define POWMAN_PWRUP0_MODE_VALUE_EDGE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_DIRECTION
+//               0x0 -> low_falling
+//               0x1 -> high_rising
+#define POWMAN_PWRUP0_DIRECTION_RESET  _u(0x0)
+#define POWMAN_PWRUP0_DIRECTION_BITS   _u(0x00000080)
+#define POWMAN_PWRUP0_DIRECTION_MSB    _u(7)
+#define POWMAN_PWRUP0_DIRECTION_LSB    _u(7)
+#define POWMAN_PWRUP0_DIRECTION_ACCESS "RW"
+#define POWMAN_PWRUP0_DIRECTION_VALUE_LOW_FALLING _u(0x0)
+#define POWMAN_PWRUP0_DIRECTION_VALUE_HIGH_RISING _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_ENABLE
+// Description : Set to 1 to enable the wakeup source. Set to 0 to disable the
+//               wakeup source and clear a pending wakeup event.
+//               If using edge detect a latched edge needs to be cleared by
+//               writing 1 to the status register also.
+#define POWMAN_PWRUP0_ENABLE_RESET  _u(0x0)
+#define POWMAN_PWRUP0_ENABLE_BITS   _u(0x00000040)
+#define POWMAN_PWRUP0_ENABLE_MSB    _u(6)
+#define POWMAN_PWRUP0_ENABLE_LSB    _u(6)
+#define POWMAN_PWRUP0_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP0_SOURCE
+#define POWMAN_PWRUP0_SOURCE_RESET  _u(0x3f)
+#define POWMAN_PWRUP0_SOURCE_BITS   _u(0x0000003f)
+#define POWMAN_PWRUP0_SOURCE_MSB    _u(5)
+#define POWMAN_PWRUP0_SOURCE_LSB    _u(0)
+#define POWMAN_PWRUP0_SOURCE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_PWRUP1
+// Description : 4 GPIO powerup events can be configured to wake the chip up
+//               from a low power state.
+//               The pwrups are level/edge sensitive and can be set to trigger
+//               on a high/rising or low/falling event
+//               The number of gpios available depends on the package option. An
+//               invalid selection will be ignored
+//               source = 0 selects gpio0
+//               .
+//               .
+//               source = 47 selects gpio47
+//               source = 48 selects qspi_ss
+//               source = 49 selects qspi_sd0
+//               source = 50 selects qspi_sd1
+//               source = 51 selects qspi_sd2
+//               source = 52 selects qspi_sd3
+//               source = 53 selects qspi_sclk
+//               level  = 0 triggers the pwrup when the source is low
+//               level  = 1 triggers the pwrup when the source is high
+#define POWMAN_PWRUP1_OFFSET _u(0x00000090)
+#define POWMAN_PWRUP1_BITS   _u(0x000007ff)
+#define POWMAN_PWRUP1_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_RAW_STATUS
+// Description : Value of selected gpio pin (only if enable == 1)
+#define POWMAN_PWRUP1_RAW_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP1_RAW_STATUS_BITS   _u(0x00000400)
+#define POWMAN_PWRUP1_RAW_STATUS_MSB    _u(10)
+#define POWMAN_PWRUP1_RAW_STATUS_LSB    _u(10)
+#define POWMAN_PWRUP1_RAW_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_STATUS
+// Description : Status of gpio wakeup. Write to 1 to clear a latched edge
+//               detect.
+#define POWMAN_PWRUP1_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP1_STATUS_BITS   _u(0x00000200)
+#define POWMAN_PWRUP1_STATUS_MSB    _u(9)
+#define POWMAN_PWRUP1_STATUS_LSB    _u(9)
+#define POWMAN_PWRUP1_STATUS_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_MODE
+// Description : Edge or level detect. Edge will detect a 0 to 1 transition (or
+//               1 to 0 transition). Level will detect a 1 or 0. Both types of
+//               event get latched into the current_pwrup_req register.
+//               0x0 -> level
+//               0x1 -> edge
+#define POWMAN_PWRUP1_MODE_RESET  _u(0x0)
+#define POWMAN_PWRUP1_MODE_BITS   _u(0x00000100)
+#define POWMAN_PWRUP1_MODE_MSB    _u(8)
+#define POWMAN_PWRUP1_MODE_LSB    _u(8)
+#define POWMAN_PWRUP1_MODE_ACCESS "RW"
+#define POWMAN_PWRUP1_MODE_VALUE_LEVEL _u(0x0)
+#define POWMAN_PWRUP1_MODE_VALUE_EDGE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_DIRECTION
+//               0x0 -> low_falling
+//               0x1 -> high_rising
+#define POWMAN_PWRUP1_DIRECTION_RESET  _u(0x0)
+#define POWMAN_PWRUP1_DIRECTION_BITS   _u(0x00000080)
+#define POWMAN_PWRUP1_DIRECTION_MSB    _u(7)
+#define POWMAN_PWRUP1_DIRECTION_LSB    _u(7)
+#define POWMAN_PWRUP1_DIRECTION_ACCESS "RW"
+#define POWMAN_PWRUP1_DIRECTION_VALUE_LOW_FALLING _u(0x0)
+#define POWMAN_PWRUP1_DIRECTION_VALUE_HIGH_RISING _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_ENABLE
+// Description : Set to 1 to enable the wakeup source. Set to 0 to disable the
+//               wakeup source and clear a pending wakeup event.
+//               If using edge detect a latched edge needs to be cleared by
+//               writing 1 to the status register also.
+#define POWMAN_PWRUP1_ENABLE_RESET  _u(0x0)
+#define POWMAN_PWRUP1_ENABLE_BITS   _u(0x00000040)
+#define POWMAN_PWRUP1_ENABLE_MSB    _u(6)
+#define POWMAN_PWRUP1_ENABLE_LSB    _u(6)
+#define POWMAN_PWRUP1_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP1_SOURCE
+#define POWMAN_PWRUP1_SOURCE_RESET  _u(0x3f)
+#define POWMAN_PWRUP1_SOURCE_BITS   _u(0x0000003f)
+#define POWMAN_PWRUP1_SOURCE_MSB    _u(5)
+#define POWMAN_PWRUP1_SOURCE_LSB    _u(0)
+#define POWMAN_PWRUP1_SOURCE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_PWRUP2
+// Description : 4 GPIO powerup events can be configured to wake the chip up
+//               from a low power state.
+//               The pwrups are level/edge sensitive and can be set to trigger
+//               on a high/rising or low/falling event
+//               The number of gpios available depends on the package option. An
+//               invalid selection will be ignored
+//               source = 0 selects gpio0
+//               .
+//               .
+//               source = 47 selects gpio47
+//               source = 48 selects qspi_ss
+//               source = 49 selects qspi_sd0
+//               source = 50 selects qspi_sd1
+//               source = 51 selects qspi_sd2
+//               source = 52 selects qspi_sd3
+//               source = 53 selects qspi_sclk
+//               level  = 0 triggers the pwrup when the source is low
+//               level  = 1 triggers the pwrup when the source is high
+#define POWMAN_PWRUP2_OFFSET _u(0x00000094)
+#define POWMAN_PWRUP2_BITS   _u(0x000007ff)
+#define POWMAN_PWRUP2_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_RAW_STATUS
+// Description : Value of selected gpio pin (only if enable == 1)
+#define POWMAN_PWRUP2_RAW_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP2_RAW_STATUS_BITS   _u(0x00000400)
+#define POWMAN_PWRUP2_RAW_STATUS_MSB    _u(10)
+#define POWMAN_PWRUP2_RAW_STATUS_LSB    _u(10)
+#define POWMAN_PWRUP2_RAW_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_STATUS
+// Description : Status of gpio wakeup. Write to 1 to clear a latched edge
+//               detect.
+#define POWMAN_PWRUP2_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP2_STATUS_BITS   _u(0x00000200)
+#define POWMAN_PWRUP2_STATUS_MSB    _u(9)
+#define POWMAN_PWRUP2_STATUS_LSB    _u(9)
+#define POWMAN_PWRUP2_STATUS_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_MODE
+// Description : Edge or level detect. Edge will detect a 0 to 1 transition (or
+//               1 to 0 transition). Level will detect a 1 or 0. Both types of
+//               event get latched into the current_pwrup_req register.
+//               0x0 -> level
+//               0x1 -> edge
+#define POWMAN_PWRUP2_MODE_RESET  _u(0x0)
+#define POWMAN_PWRUP2_MODE_BITS   _u(0x00000100)
+#define POWMAN_PWRUP2_MODE_MSB    _u(8)
+#define POWMAN_PWRUP2_MODE_LSB    _u(8)
+#define POWMAN_PWRUP2_MODE_ACCESS "RW"
+#define POWMAN_PWRUP2_MODE_VALUE_LEVEL _u(0x0)
+#define POWMAN_PWRUP2_MODE_VALUE_EDGE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_DIRECTION
+//               0x0 -> low_falling
+//               0x1 -> high_rising
+#define POWMAN_PWRUP2_DIRECTION_RESET  _u(0x0)
+#define POWMAN_PWRUP2_DIRECTION_BITS   _u(0x00000080)
+#define POWMAN_PWRUP2_DIRECTION_MSB    _u(7)
+#define POWMAN_PWRUP2_DIRECTION_LSB    _u(7)
+#define POWMAN_PWRUP2_DIRECTION_ACCESS "RW"
+#define POWMAN_PWRUP2_DIRECTION_VALUE_LOW_FALLING _u(0x0)
+#define POWMAN_PWRUP2_DIRECTION_VALUE_HIGH_RISING _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_ENABLE
+// Description : Set to 1 to enable the wakeup source. Set to 0 to disable the
+//               wakeup source and clear a pending wakeup event.
+//               If using edge detect a latched edge needs to be cleared by
+//               writing 1 to the status register also.
+#define POWMAN_PWRUP2_ENABLE_RESET  _u(0x0)
+#define POWMAN_PWRUP2_ENABLE_BITS   _u(0x00000040)
+#define POWMAN_PWRUP2_ENABLE_MSB    _u(6)
+#define POWMAN_PWRUP2_ENABLE_LSB    _u(6)
+#define POWMAN_PWRUP2_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP2_SOURCE
+#define POWMAN_PWRUP2_SOURCE_RESET  _u(0x3f)
+#define POWMAN_PWRUP2_SOURCE_BITS   _u(0x0000003f)
+#define POWMAN_PWRUP2_SOURCE_MSB    _u(5)
+#define POWMAN_PWRUP2_SOURCE_LSB    _u(0)
+#define POWMAN_PWRUP2_SOURCE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_PWRUP3
+// Description : 4 GPIO powerup events can be configured to wake the chip up
+//               from a low power state.
+//               The pwrups are level/edge sensitive and can be set to trigger
+//               on a high/rising or low/falling event
+//               The number of gpios available depends on the package option. An
+//               invalid selection will be ignored
+//               source = 0 selects gpio0
+//               .
+//               .
+//               source = 47 selects gpio47
+//               source = 48 selects qspi_ss
+//               source = 49 selects qspi_sd0
+//               source = 50 selects qspi_sd1
+//               source = 51 selects qspi_sd2
+//               source = 52 selects qspi_sd3
+//               source = 53 selects qspi_sclk
+//               level  = 0 triggers the pwrup when the source is low
+//               level  = 1 triggers the pwrup when the source is high
+#define POWMAN_PWRUP3_OFFSET _u(0x00000098)
+#define POWMAN_PWRUP3_BITS   _u(0x000007ff)
+#define POWMAN_PWRUP3_RESET  _u(0x0000003f)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_RAW_STATUS
+// Description : Value of selected gpio pin (only if enable == 1)
+#define POWMAN_PWRUP3_RAW_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP3_RAW_STATUS_BITS   _u(0x00000400)
+#define POWMAN_PWRUP3_RAW_STATUS_MSB    _u(10)
+#define POWMAN_PWRUP3_RAW_STATUS_LSB    _u(10)
+#define POWMAN_PWRUP3_RAW_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_STATUS
+// Description : Status of gpio wakeup. Write to 1 to clear a latched edge
+//               detect.
+#define POWMAN_PWRUP3_STATUS_RESET  _u(0x0)
+#define POWMAN_PWRUP3_STATUS_BITS   _u(0x00000200)
+#define POWMAN_PWRUP3_STATUS_MSB    _u(9)
+#define POWMAN_PWRUP3_STATUS_LSB    _u(9)
+#define POWMAN_PWRUP3_STATUS_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_MODE
+// Description : Edge or level detect. Edge will detect a 0 to 1 transition (or
+//               1 to 0 transition). Level will detect a 1 or 0. Both types of
+//               event get latched into the current_pwrup_req register.
+//               0x0 -> level
+//               0x1 -> edge
+#define POWMAN_PWRUP3_MODE_RESET  _u(0x0)
+#define POWMAN_PWRUP3_MODE_BITS   _u(0x00000100)
+#define POWMAN_PWRUP3_MODE_MSB    _u(8)
+#define POWMAN_PWRUP3_MODE_LSB    _u(8)
+#define POWMAN_PWRUP3_MODE_ACCESS "RW"
+#define POWMAN_PWRUP3_MODE_VALUE_LEVEL _u(0x0)
+#define POWMAN_PWRUP3_MODE_VALUE_EDGE _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_DIRECTION
+//               0x0 -> low_falling
+//               0x1 -> high_rising
+#define POWMAN_PWRUP3_DIRECTION_RESET  _u(0x0)
+#define POWMAN_PWRUP3_DIRECTION_BITS   _u(0x00000080)
+#define POWMAN_PWRUP3_DIRECTION_MSB    _u(7)
+#define POWMAN_PWRUP3_DIRECTION_LSB    _u(7)
+#define POWMAN_PWRUP3_DIRECTION_ACCESS "RW"
+#define POWMAN_PWRUP3_DIRECTION_VALUE_LOW_FALLING _u(0x0)
+#define POWMAN_PWRUP3_DIRECTION_VALUE_HIGH_RISING _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_ENABLE
+// Description : Set to 1 to enable the wakeup source. Set to 0 to disable the
+//               wakeup source and clear a pending wakeup event.
+//               If using edge detect a latched edge needs to be cleared by
+//               writing 1 to the status register also.
+#define POWMAN_PWRUP3_ENABLE_RESET  _u(0x0)
+#define POWMAN_PWRUP3_ENABLE_BITS   _u(0x00000040)
+#define POWMAN_PWRUP3_ENABLE_MSB    _u(6)
+#define POWMAN_PWRUP3_ENABLE_LSB    _u(6)
+#define POWMAN_PWRUP3_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_PWRUP3_SOURCE
+#define POWMAN_PWRUP3_SOURCE_RESET  _u(0x3f)
+#define POWMAN_PWRUP3_SOURCE_BITS   _u(0x0000003f)
+#define POWMAN_PWRUP3_SOURCE_MSB    _u(5)
+#define POWMAN_PWRUP3_SOURCE_LSB    _u(0)
+#define POWMAN_PWRUP3_SOURCE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_CURRENT_PWRUP_REQ
+// Description : Indicates current powerup request state
+//               pwrup events can be cleared by removing the enable from the
+//               pwrup register. The alarm pwrup req can be cleared by clearing
+//               timer.alarm_enab
+//               0 = chip reset, for the source of the last reset see
+//               POWMAN_CHIP_RESET
+//               1 = pwrup0
+//               2 = pwrup1
+//               3 = pwrup2
+//               4 = pwrup3
+//               5 = coresight_pwrup
+//               6 = alarm_pwrup
+#define POWMAN_CURRENT_PWRUP_REQ_OFFSET _u(0x0000009c)
+#define POWMAN_CURRENT_PWRUP_REQ_BITS   _u(0x0000007f)
+#define POWMAN_CURRENT_PWRUP_REQ_RESET  _u(0x00000000)
+#define POWMAN_CURRENT_PWRUP_REQ_MSB    _u(6)
+#define POWMAN_CURRENT_PWRUP_REQ_LSB    _u(0)
+#define POWMAN_CURRENT_PWRUP_REQ_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_LAST_SWCORE_PWRUP
+// Description : Indicates which pwrup source triggered the last switched-core
+//               power up
+//               0 = chip reset, for the source of the last reset see
+//               POWMAN_CHIP_RESET
+//               1 = pwrup0
+//               2 = pwrup1
+//               3 = pwrup2
+//               4 = pwrup3
+//               5 = coresight_pwrup
+//               6 = alarm_pwrup
+#define POWMAN_LAST_SWCORE_PWRUP_OFFSET _u(0x000000a0)
+#define POWMAN_LAST_SWCORE_PWRUP_BITS   _u(0x0000007f)
+#define POWMAN_LAST_SWCORE_PWRUP_RESET  _u(0x00000000)
+#define POWMAN_LAST_SWCORE_PWRUP_MSB    _u(6)
+#define POWMAN_LAST_SWCORE_PWRUP_LSB    _u(0)
+#define POWMAN_LAST_SWCORE_PWRUP_ACCESS "RO"
+// =============================================================================
+// Register    : POWMAN_DBG_PWRCFG
+#define POWMAN_DBG_PWRCFG_OFFSET _u(0x000000a4)
+#define POWMAN_DBG_PWRCFG_BITS   _u(0x00000001)
+#define POWMAN_DBG_PWRCFG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_DBG_PWRCFG_IGNORE
+// Description : Ignore pwrup req from debugger. If pwrup req is asserted then
+//               this will prevent power down and set powerdown blocked. Set
+//               ignore to stop paying attention to pwrup_req
+#define POWMAN_DBG_PWRCFG_IGNORE_RESET  _u(0x0)
+#define POWMAN_DBG_PWRCFG_IGNORE_BITS   _u(0x00000001)
+#define POWMAN_DBG_PWRCFG_IGNORE_MSB    _u(0)
+#define POWMAN_DBG_PWRCFG_IGNORE_LSB    _u(0)
+#define POWMAN_DBG_PWRCFG_IGNORE_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOOTDIS
+// Description : Tell the bootrom to ignore the BOOT0..3 registers following the
+//               next RSM reset (e.g. the next core power down/up).
+//
+//               If an early boot stage has soft-locked some OTP pages in order
+//               to protect their contents from later stages, there is a risk
+//               that Secure code running at a later stage can unlock the pages
+//               by powering the core up and down.
+//
+//               This register can be used to ensure that the bootloader runs as
+//               normal on the next power up, preventing Secure code at a later
+//               stage from accessing OTP in its unlocked state.
+//
+//               Should be used in conjunction with the OTP BOOTDIS register.
+#define POWMAN_BOOTDIS_OFFSET _u(0x000000a8)
+#define POWMAN_BOOTDIS_BITS   _u(0x00000003)
+#define POWMAN_BOOTDIS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOOTDIS_NEXT
+// Description : This flag always ORs writes into its current contents. It can
+//               be set but not cleared by software.
+//
+//               The BOOTDIS_NEXT bit is OR'd into the BOOTDIS_NOW bit when the
+//               core is powered down. Simultaneously, the BOOTDIS_NEXT bit is
+//               cleared. Setting this bit means that the BOOT0..3 registers
+//               will be ignored following the next reset of the RSM by powman.
+//
+//               This flag should be set by an early boot stage that has soft-
+//               locked OTP pages, to prevent later stages from unlocking it by
+//               power cycling.
+#define POWMAN_BOOTDIS_NEXT_RESET  _u(0x0)
+#define POWMAN_BOOTDIS_NEXT_BITS   _u(0x00000002)
+#define POWMAN_BOOTDIS_NEXT_MSB    _u(1)
+#define POWMAN_BOOTDIS_NEXT_LSB    _u(1)
+#define POWMAN_BOOTDIS_NEXT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_BOOTDIS_NOW
+// Description : When powman resets the RSM, the current value of BOOTDIS_NEXT
+//               is OR'd into BOOTDIS_NOW, and BOOTDIS_NEXT is cleared.
+//
+//               The bootrom checks this flag before reading the BOOT0..3
+//               registers. If it is set, the bootrom clears it, and ignores the
+//               BOOT registers. This prevents Secure software from diverting
+//               the boot path before a bootloader has had the chance to soft
+//               lock OTP pages containing sensitive data.
+#define POWMAN_BOOTDIS_NOW_RESET  _u(0x0)
+#define POWMAN_BOOTDIS_NOW_BITS   _u(0x00000001)
+#define POWMAN_BOOTDIS_NOW_MSB    _u(0)
+#define POWMAN_BOOTDIS_NOW_LSB    _u(0)
+#define POWMAN_BOOTDIS_NOW_ACCESS "WC"
+// =============================================================================
+// Register    : POWMAN_DBGCONFIG
+#define POWMAN_DBGCONFIG_OFFSET _u(0x000000ac)
+#define POWMAN_DBGCONFIG_BITS   _u(0x0000000f)
+#define POWMAN_DBGCONFIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_DBGCONFIG_DP_INSTID
+// Description : Configure DP instance ID for SWD multidrop selection.
+//               Recommend that this is NOT changed until you require debug
+//               access in multi-chip environment
+#define POWMAN_DBGCONFIG_DP_INSTID_RESET  _u(0x0)
+#define POWMAN_DBGCONFIG_DP_INSTID_BITS   _u(0x0000000f)
+#define POWMAN_DBGCONFIG_DP_INSTID_MSB    _u(3)
+#define POWMAN_DBGCONFIG_DP_INSTID_LSB    _u(0)
+#define POWMAN_DBGCONFIG_DP_INSTID_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH0
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH0_OFFSET _u(0x000000b0)
+#define POWMAN_SCRATCH0_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH0_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH0_MSB    _u(31)
+#define POWMAN_SCRATCH0_LSB    _u(0)
+#define POWMAN_SCRATCH0_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH1
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH1_OFFSET _u(0x000000b4)
+#define POWMAN_SCRATCH1_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH1_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH1_MSB    _u(31)
+#define POWMAN_SCRATCH1_LSB    _u(0)
+#define POWMAN_SCRATCH1_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH2
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH2_OFFSET _u(0x000000b8)
+#define POWMAN_SCRATCH2_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH2_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH2_MSB    _u(31)
+#define POWMAN_SCRATCH2_LSB    _u(0)
+#define POWMAN_SCRATCH2_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH3
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH3_OFFSET _u(0x000000bc)
+#define POWMAN_SCRATCH3_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH3_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH3_MSB    _u(31)
+#define POWMAN_SCRATCH3_LSB    _u(0)
+#define POWMAN_SCRATCH3_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH4
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH4_OFFSET _u(0x000000c0)
+#define POWMAN_SCRATCH4_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH4_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH4_MSB    _u(31)
+#define POWMAN_SCRATCH4_LSB    _u(0)
+#define POWMAN_SCRATCH4_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH5
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH5_OFFSET _u(0x000000c4)
+#define POWMAN_SCRATCH5_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH5_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH5_MSB    _u(31)
+#define POWMAN_SCRATCH5_LSB    _u(0)
+#define POWMAN_SCRATCH5_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH6
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH6_OFFSET _u(0x000000c8)
+#define POWMAN_SCRATCH6_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH6_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH6_MSB    _u(31)
+#define POWMAN_SCRATCH6_LSB    _u(0)
+#define POWMAN_SCRATCH6_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_SCRATCH7
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_SCRATCH7_OFFSET _u(0x000000cc)
+#define POWMAN_SCRATCH7_BITS   _u(0xffffffff)
+#define POWMAN_SCRATCH7_RESET  _u(0x00000000)
+#define POWMAN_SCRATCH7_MSB    _u(31)
+#define POWMAN_SCRATCH7_LSB    _u(0)
+#define POWMAN_SCRATCH7_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOOT0
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_BOOT0_OFFSET _u(0x000000d0)
+#define POWMAN_BOOT0_BITS   _u(0xffffffff)
+#define POWMAN_BOOT0_RESET  _u(0x00000000)
+#define POWMAN_BOOT0_MSB    _u(31)
+#define POWMAN_BOOT0_LSB    _u(0)
+#define POWMAN_BOOT0_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOOT1
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_BOOT1_OFFSET _u(0x000000d4)
+#define POWMAN_BOOT1_BITS   _u(0xffffffff)
+#define POWMAN_BOOT1_RESET  _u(0x00000000)
+#define POWMAN_BOOT1_MSB    _u(31)
+#define POWMAN_BOOT1_LSB    _u(0)
+#define POWMAN_BOOT1_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOOT2
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_BOOT2_OFFSET _u(0x000000d8)
+#define POWMAN_BOOT2_BITS   _u(0xffffffff)
+#define POWMAN_BOOT2_RESET  _u(0x00000000)
+#define POWMAN_BOOT2_MSB    _u(31)
+#define POWMAN_BOOT2_LSB    _u(0)
+#define POWMAN_BOOT2_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_BOOT3
+// Description : Scratch register. Information persists in low power mode
+#define POWMAN_BOOT3_OFFSET _u(0x000000dc)
+#define POWMAN_BOOT3_BITS   _u(0xffffffff)
+#define POWMAN_BOOT3_RESET  _u(0x00000000)
+#define POWMAN_BOOT3_MSB    _u(31)
+#define POWMAN_BOOT3_LSB    _u(0)
+#define POWMAN_BOOT3_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_INTR
+// Description : Raw Interrupts
+#define POWMAN_INTR_OFFSET _u(0x000000e0)
+#define POWMAN_INTR_BITS   _u(0x0000000f)
+#define POWMAN_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTR_PWRUP_WHILE_WAITING
+// Description : Source is state.pwrup_while_waiting
+#define POWMAN_INTR_PWRUP_WHILE_WAITING_RESET  _u(0x0)
+#define POWMAN_INTR_PWRUP_WHILE_WAITING_BITS   _u(0x00000008)
+#define POWMAN_INTR_PWRUP_WHILE_WAITING_MSB    _u(3)
+#define POWMAN_INTR_PWRUP_WHILE_WAITING_LSB    _u(3)
+#define POWMAN_INTR_PWRUP_WHILE_WAITING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTR_STATE_REQ_IGNORED
+// Description : Source is state.req_ignored
+#define POWMAN_INTR_STATE_REQ_IGNORED_RESET  _u(0x0)
+#define POWMAN_INTR_STATE_REQ_IGNORED_BITS   _u(0x00000004)
+#define POWMAN_INTR_STATE_REQ_IGNORED_MSB    _u(2)
+#define POWMAN_INTR_STATE_REQ_IGNORED_LSB    _u(2)
+#define POWMAN_INTR_STATE_REQ_IGNORED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTR_TIMER
+#define POWMAN_INTR_TIMER_RESET  _u(0x0)
+#define POWMAN_INTR_TIMER_BITS   _u(0x00000002)
+#define POWMAN_INTR_TIMER_MSB    _u(1)
+#define POWMAN_INTR_TIMER_LSB    _u(1)
+#define POWMAN_INTR_TIMER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTR_VREG_OUTPUT_LOW
+#define POWMAN_INTR_VREG_OUTPUT_LOW_RESET  _u(0x0)
+#define POWMAN_INTR_VREG_OUTPUT_LOW_BITS   _u(0x00000001)
+#define POWMAN_INTR_VREG_OUTPUT_LOW_MSB    _u(0)
+#define POWMAN_INTR_VREG_OUTPUT_LOW_LSB    _u(0)
+#define POWMAN_INTR_VREG_OUTPUT_LOW_ACCESS "WC"
+// =============================================================================
+// Register    : POWMAN_INTE
+// Description : Interrupt Enable
+#define POWMAN_INTE_OFFSET _u(0x000000e4)
+#define POWMAN_INTE_BITS   _u(0x0000000f)
+#define POWMAN_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTE_PWRUP_WHILE_WAITING
+// Description : Source is state.pwrup_while_waiting
+#define POWMAN_INTE_PWRUP_WHILE_WAITING_RESET  _u(0x0)
+#define POWMAN_INTE_PWRUP_WHILE_WAITING_BITS   _u(0x00000008)
+#define POWMAN_INTE_PWRUP_WHILE_WAITING_MSB    _u(3)
+#define POWMAN_INTE_PWRUP_WHILE_WAITING_LSB    _u(3)
+#define POWMAN_INTE_PWRUP_WHILE_WAITING_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTE_STATE_REQ_IGNORED
+// Description : Source is state.req_ignored
+#define POWMAN_INTE_STATE_REQ_IGNORED_RESET  _u(0x0)
+#define POWMAN_INTE_STATE_REQ_IGNORED_BITS   _u(0x00000004)
+#define POWMAN_INTE_STATE_REQ_IGNORED_MSB    _u(2)
+#define POWMAN_INTE_STATE_REQ_IGNORED_LSB    _u(2)
+#define POWMAN_INTE_STATE_REQ_IGNORED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTE_TIMER
+#define POWMAN_INTE_TIMER_RESET  _u(0x0)
+#define POWMAN_INTE_TIMER_BITS   _u(0x00000002)
+#define POWMAN_INTE_TIMER_MSB    _u(1)
+#define POWMAN_INTE_TIMER_LSB    _u(1)
+#define POWMAN_INTE_TIMER_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTE_VREG_OUTPUT_LOW
+#define POWMAN_INTE_VREG_OUTPUT_LOW_RESET  _u(0x0)
+#define POWMAN_INTE_VREG_OUTPUT_LOW_BITS   _u(0x00000001)
+#define POWMAN_INTE_VREG_OUTPUT_LOW_MSB    _u(0)
+#define POWMAN_INTE_VREG_OUTPUT_LOW_LSB    _u(0)
+#define POWMAN_INTE_VREG_OUTPUT_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_INTF
+// Description : Interrupt Force
+#define POWMAN_INTF_OFFSET _u(0x000000e8)
+#define POWMAN_INTF_BITS   _u(0x0000000f)
+#define POWMAN_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTF_PWRUP_WHILE_WAITING
+// Description : Source is state.pwrup_while_waiting
+#define POWMAN_INTF_PWRUP_WHILE_WAITING_RESET  _u(0x0)
+#define POWMAN_INTF_PWRUP_WHILE_WAITING_BITS   _u(0x00000008)
+#define POWMAN_INTF_PWRUP_WHILE_WAITING_MSB    _u(3)
+#define POWMAN_INTF_PWRUP_WHILE_WAITING_LSB    _u(3)
+#define POWMAN_INTF_PWRUP_WHILE_WAITING_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTF_STATE_REQ_IGNORED
+// Description : Source is state.req_ignored
+#define POWMAN_INTF_STATE_REQ_IGNORED_RESET  _u(0x0)
+#define POWMAN_INTF_STATE_REQ_IGNORED_BITS   _u(0x00000004)
+#define POWMAN_INTF_STATE_REQ_IGNORED_MSB    _u(2)
+#define POWMAN_INTF_STATE_REQ_IGNORED_LSB    _u(2)
+#define POWMAN_INTF_STATE_REQ_IGNORED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTF_TIMER
+#define POWMAN_INTF_TIMER_RESET  _u(0x0)
+#define POWMAN_INTF_TIMER_BITS   _u(0x00000002)
+#define POWMAN_INTF_TIMER_MSB    _u(1)
+#define POWMAN_INTF_TIMER_LSB    _u(1)
+#define POWMAN_INTF_TIMER_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTF_VREG_OUTPUT_LOW
+#define POWMAN_INTF_VREG_OUTPUT_LOW_RESET  _u(0x0)
+#define POWMAN_INTF_VREG_OUTPUT_LOW_BITS   _u(0x00000001)
+#define POWMAN_INTF_VREG_OUTPUT_LOW_MSB    _u(0)
+#define POWMAN_INTF_VREG_OUTPUT_LOW_LSB    _u(0)
+#define POWMAN_INTF_VREG_OUTPUT_LOW_ACCESS "RW"
+// =============================================================================
+// Register    : POWMAN_INTS
+// Description : Interrupt status after masking & forcing
+#define POWMAN_INTS_OFFSET _u(0x000000ec)
+#define POWMAN_INTS_BITS   _u(0x0000000f)
+#define POWMAN_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTS_PWRUP_WHILE_WAITING
+// Description : Source is state.pwrup_while_waiting
+#define POWMAN_INTS_PWRUP_WHILE_WAITING_RESET  _u(0x0)
+#define POWMAN_INTS_PWRUP_WHILE_WAITING_BITS   _u(0x00000008)
+#define POWMAN_INTS_PWRUP_WHILE_WAITING_MSB    _u(3)
+#define POWMAN_INTS_PWRUP_WHILE_WAITING_LSB    _u(3)
+#define POWMAN_INTS_PWRUP_WHILE_WAITING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTS_STATE_REQ_IGNORED
+// Description : Source is state.req_ignored
+#define POWMAN_INTS_STATE_REQ_IGNORED_RESET  _u(0x0)
+#define POWMAN_INTS_STATE_REQ_IGNORED_BITS   _u(0x00000004)
+#define POWMAN_INTS_STATE_REQ_IGNORED_MSB    _u(2)
+#define POWMAN_INTS_STATE_REQ_IGNORED_LSB    _u(2)
+#define POWMAN_INTS_STATE_REQ_IGNORED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTS_TIMER
+#define POWMAN_INTS_TIMER_RESET  _u(0x0)
+#define POWMAN_INTS_TIMER_BITS   _u(0x00000002)
+#define POWMAN_INTS_TIMER_MSB    _u(1)
+#define POWMAN_INTS_TIMER_LSB    _u(1)
+#define POWMAN_INTS_TIMER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : POWMAN_INTS_VREG_OUTPUT_LOW
+#define POWMAN_INTS_VREG_OUTPUT_LOW_RESET  _u(0x0)
+#define POWMAN_INTS_VREG_OUTPUT_LOW_BITS   _u(0x00000001)
+#define POWMAN_INTS_VREG_OUTPUT_LOW_MSB    _u(0)
+#define POWMAN_INTS_VREG_OUTPUT_LOW_LSB    _u(0)
+#define POWMAN_INTS_VREG_OUTPUT_LOW_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_POWMAN_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/psm.h b/lib/pico-sdk/rp2350/hardware/regs/psm.h
new file mode 100644
index 0000000..cad268a
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/psm.h
@@ -0,0 +1,741 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PSM
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_PSM_H
+#define _HARDWARE_REGS_PSM_H
+// =============================================================================
+// Register    : PSM_FRCE_ON
+// Description : Force block out of reset (i.e. power it on)
+#define PSM_FRCE_ON_OFFSET _u(0x00000000)
+#define PSM_FRCE_ON_BITS   _u(0x01ffffff)
+#define PSM_FRCE_ON_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_PROC1
+#define PSM_FRCE_ON_PROC1_RESET  _u(0x0)
+#define PSM_FRCE_ON_PROC1_BITS   _u(0x01000000)
+#define PSM_FRCE_ON_PROC1_MSB    _u(24)
+#define PSM_FRCE_ON_PROC1_LSB    _u(24)
+#define PSM_FRCE_ON_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_PROC0
+#define PSM_FRCE_ON_PROC0_RESET  _u(0x0)
+#define PSM_FRCE_ON_PROC0_BITS   _u(0x00800000)
+#define PSM_FRCE_ON_PROC0_MSB    _u(23)
+#define PSM_FRCE_ON_PROC0_LSB    _u(23)
+#define PSM_FRCE_ON_PROC0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_ACCESSCTRL
+#define PSM_FRCE_ON_ACCESSCTRL_RESET  _u(0x0)
+#define PSM_FRCE_ON_ACCESSCTRL_BITS   _u(0x00400000)
+#define PSM_FRCE_ON_ACCESSCTRL_MSB    _u(22)
+#define PSM_FRCE_ON_ACCESSCTRL_LSB    _u(22)
+#define PSM_FRCE_ON_ACCESSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SIO
+#define PSM_FRCE_ON_SIO_RESET  _u(0x0)
+#define PSM_FRCE_ON_SIO_BITS   _u(0x00200000)
+#define PSM_FRCE_ON_SIO_MSB    _u(21)
+#define PSM_FRCE_ON_SIO_LSB    _u(21)
+#define PSM_FRCE_ON_SIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_XIP
+#define PSM_FRCE_ON_XIP_RESET  _u(0x0)
+#define PSM_FRCE_ON_XIP_BITS   _u(0x00100000)
+#define PSM_FRCE_ON_XIP_MSB    _u(20)
+#define PSM_FRCE_ON_XIP_LSB    _u(20)
+#define PSM_FRCE_ON_XIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM9
+#define PSM_FRCE_ON_SRAM9_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM9_BITS   _u(0x00080000)
+#define PSM_FRCE_ON_SRAM9_MSB    _u(19)
+#define PSM_FRCE_ON_SRAM9_LSB    _u(19)
+#define PSM_FRCE_ON_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM8
+#define PSM_FRCE_ON_SRAM8_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM8_BITS   _u(0x00040000)
+#define PSM_FRCE_ON_SRAM8_MSB    _u(18)
+#define PSM_FRCE_ON_SRAM8_LSB    _u(18)
+#define PSM_FRCE_ON_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM7
+#define PSM_FRCE_ON_SRAM7_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM7_BITS   _u(0x00020000)
+#define PSM_FRCE_ON_SRAM7_MSB    _u(17)
+#define PSM_FRCE_ON_SRAM7_LSB    _u(17)
+#define PSM_FRCE_ON_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM6
+#define PSM_FRCE_ON_SRAM6_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM6_BITS   _u(0x00010000)
+#define PSM_FRCE_ON_SRAM6_MSB    _u(16)
+#define PSM_FRCE_ON_SRAM6_LSB    _u(16)
+#define PSM_FRCE_ON_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM5
+#define PSM_FRCE_ON_SRAM5_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM5_BITS   _u(0x00008000)
+#define PSM_FRCE_ON_SRAM5_MSB    _u(15)
+#define PSM_FRCE_ON_SRAM5_LSB    _u(15)
+#define PSM_FRCE_ON_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM4
+#define PSM_FRCE_ON_SRAM4_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM4_BITS   _u(0x00004000)
+#define PSM_FRCE_ON_SRAM4_MSB    _u(14)
+#define PSM_FRCE_ON_SRAM4_LSB    _u(14)
+#define PSM_FRCE_ON_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM3
+#define PSM_FRCE_ON_SRAM3_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM3_BITS   _u(0x00002000)
+#define PSM_FRCE_ON_SRAM3_MSB    _u(13)
+#define PSM_FRCE_ON_SRAM3_LSB    _u(13)
+#define PSM_FRCE_ON_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM2
+#define PSM_FRCE_ON_SRAM2_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM2_BITS   _u(0x00001000)
+#define PSM_FRCE_ON_SRAM2_MSB    _u(12)
+#define PSM_FRCE_ON_SRAM2_LSB    _u(12)
+#define PSM_FRCE_ON_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM1
+#define PSM_FRCE_ON_SRAM1_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM1_BITS   _u(0x00000800)
+#define PSM_FRCE_ON_SRAM1_MSB    _u(11)
+#define PSM_FRCE_ON_SRAM1_LSB    _u(11)
+#define PSM_FRCE_ON_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_SRAM0
+#define PSM_FRCE_ON_SRAM0_RESET  _u(0x0)
+#define PSM_FRCE_ON_SRAM0_BITS   _u(0x00000400)
+#define PSM_FRCE_ON_SRAM0_MSB    _u(10)
+#define PSM_FRCE_ON_SRAM0_LSB    _u(10)
+#define PSM_FRCE_ON_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_BOOTRAM
+#define PSM_FRCE_ON_BOOTRAM_RESET  _u(0x0)
+#define PSM_FRCE_ON_BOOTRAM_BITS   _u(0x00000200)
+#define PSM_FRCE_ON_BOOTRAM_MSB    _u(9)
+#define PSM_FRCE_ON_BOOTRAM_LSB    _u(9)
+#define PSM_FRCE_ON_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_ROM
+#define PSM_FRCE_ON_ROM_RESET  _u(0x0)
+#define PSM_FRCE_ON_ROM_BITS   _u(0x00000100)
+#define PSM_FRCE_ON_ROM_MSB    _u(8)
+#define PSM_FRCE_ON_ROM_LSB    _u(8)
+#define PSM_FRCE_ON_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_BUSFABRIC
+#define PSM_FRCE_ON_BUSFABRIC_RESET  _u(0x0)
+#define PSM_FRCE_ON_BUSFABRIC_BITS   _u(0x00000080)
+#define PSM_FRCE_ON_BUSFABRIC_MSB    _u(7)
+#define PSM_FRCE_ON_BUSFABRIC_LSB    _u(7)
+#define PSM_FRCE_ON_BUSFABRIC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_PSM_READY
+#define PSM_FRCE_ON_PSM_READY_RESET  _u(0x0)
+#define PSM_FRCE_ON_PSM_READY_BITS   _u(0x00000040)
+#define PSM_FRCE_ON_PSM_READY_MSB    _u(6)
+#define PSM_FRCE_ON_PSM_READY_LSB    _u(6)
+#define PSM_FRCE_ON_PSM_READY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_CLOCKS
+#define PSM_FRCE_ON_CLOCKS_RESET  _u(0x0)
+#define PSM_FRCE_ON_CLOCKS_BITS   _u(0x00000020)
+#define PSM_FRCE_ON_CLOCKS_MSB    _u(5)
+#define PSM_FRCE_ON_CLOCKS_LSB    _u(5)
+#define PSM_FRCE_ON_CLOCKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_RESETS
+#define PSM_FRCE_ON_RESETS_RESET  _u(0x0)
+#define PSM_FRCE_ON_RESETS_BITS   _u(0x00000010)
+#define PSM_FRCE_ON_RESETS_MSB    _u(4)
+#define PSM_FRCE_ON_RESETS_LSB    _u(4)
+#define PSM_FRCE_ON_RESETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_XOSC
+#define PSM_FRCE_ON_XOSC_RESET  _u(0x0)
+#define PSM_FRCE_ON_XOSC_BITS   _u(0x00000008)
+#define PSM_FRCE_ON_XOSC_MSB    _u(3)
+#define PSM_FRCE_ON_XOSC_LSB    _u(3)
+#define PSM_FRCE_ON_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_ROSC
+#define PSM_FRCE_ON_ROSC_RESET  _u(0x0)
+#define PSM_FRCE_ON_ROSC_BITS   _u(0x00000004)
+#define PSM_FRCE_ON_ROSC_MSB    _u(2)
+#define PSM_FRCE_ON_ROSC_LSB    _u(2)
+#define PSM_FRCE_ON_ROSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_OTP
+#define PSM_FRCE_ON_OTP_RESET  _u(0x0)
+#define PSM_FRCE_ON_OTP_BITS   _u(0x00000002)
+#define PSM_FRCE_ON_OTP_MSB    _u(1)
+#define PSM_FRCE_ON_OTP_LSB    _u(1)
+#define PSM_FRCE_ON_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_ON_PROC_COLD
+#define PSM_FRCE_ON_PROC_COLD_RESET  _u(0x0)
+#define PSM_FRCE_ON_PROC_COLD_BITS   _u(0x00000001)
+#define PSM_FRCE_ON_PROC_COLD_MSB    _u(0)
+#define PSM_FRCE_ON_PROC_COLD_LSB    _u(0)
+#define PSM_FRCE_ON_PROC_COLD_ACCESS "RW"
+// =============================================================================
+// Register    : PSM_FRCE_OFF
+// Description : Force into reset (i.e. power it off)
+#define PSM_FRCE_OFF_OFFSET _u(0x00000004)
+#define PSM_FRCE_OFF_BITS   _u(0x01ffffff)
+#define PSM_FRCE_OFF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_PROC1
+#define PSM_FRCE_OFF_PROC1_RESET  _u(0x0)
+#define PSM_FRCE_OFF_PROC1_BITS   _u(0x01000000)
+#define PSM_FRCE_OFF_PROC1_MSB    _u(24)
+#define PSM_FRCE_OFF_PROC1_LSB    _u(24)
+#define PSM_FRCE_OFF_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_PROC0
+#define PSM_FRCE_OFF_PROC0_RESET  _u(0x0)
+#define PSM_FRCE_OFF_PROC0_BITS   _u(0x00800000)
+#define PSM_FRCE_OFF_PROC0_MSB    _u(23)
+#define PSM_FRCE_OFF_PROC0_LSB    _u(23)
+#define PSM_FRCE_OFF_PROC0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_ACCESSCTRL
+#define PSM_FRCE_OFF_ACCESSCTRL_RESET  _u(0x0)
+#define PSM_FRCE_OFF_ACCESSCTRL_BITS   _u(0x00400000)
+#define PSM_FRCE_OFF_ACCESSCTRL_MSB    _u(22)
+#define PSM_FRCE_OFF_ACCESSCTRL_LSB    _u(22)
+#define PSM_FRCE_OFF_ACCESSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SIO
+#define PSM_FRCE_OFF_SIO_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SIO_BITS   _u(0x00200000)
+#define PSM_FRCE_OFF_SIO_MSB    _u(21)
+#define PSM_FRCE_OFF_SIO_LSB    _u(21)
+#define PSM_FRCE_OFF_SIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_XIP
+#define PSM_FRCE_OFF_XIP_RESET  _u(0x0)
+#define PSM_FRCE_OFF_XIP_BITS   _u(0x00100000)
+#define PSM_FRCE_OFF_XIP_MSB    _u(20)
+#define PSM_FRCE_OFF_XIP_LSB    _u(20)
+#define PSM_FRCE_OFF_XIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM9
+#define PSM_FRCE_OFF_SRAM9_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM9_BITS   _u(0x00080000)
+#define PSM_FRCE_OFF_SRAM9_MSB    _u(19)
+#define PSM_FRCE_OFF_SRAM9_LSB    _u(19)
+#define PSM_FRCE_OFF_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM8
+#define PSM_FRCE_OFF_SRAM8_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM8_BITS   _u(0x00040000)
+#define PSM_FRCE_OFF_SRAM8_MSB    _u(18)
+#define PSM_FRCE_OFF_SRAM8_LSB    _u(18)
+#define PSM_FRCE_OFF_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM7
+#define PSM_FRCE_OFF_SRAM7_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM7_BITS   _u(0x00020000)
+#define PSM_FRCE_OFF_SRAM7_MSB    _u(17)
+#define PSM_FRCE_OFF_SRAM7_LSB    _u(17)
+#define PSM_FRCE_OFF_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM6
+#define PSM_FRCE_OFF_SRAM6_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM6_BITS   _u(0x00010000)
+#define PSM_FRCE_OFF_SRAM6_MSB    _u(16)
+#define PSM_FRCE_OFF_SRAM6_LSB    _u(16)
+#define PSM_FRCE_OFF_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM5
+#define PSM_FRCE_OFF_SRAM5_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM5_BITS   _u(0x00008000)
+#define PSM_FRCE_OFF_SRAM5_MSB    _u(15)
+#define PSM_FRCE_OFF_SRAM5_LSB    _u(15)
+#define PSM_FRCE_OFF_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM4
+#define PSM_FRCE_OFF_SRAM4_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM4_BITS   _u(0x00004000)
+#define PSM_FRCE_OFF_SRAM4_MSB    _u(14)
+#define PSM_FRCE_OFF_SRAM4_LSB    _u(14)
+#define PSM_FRCE_OFF_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM3
+#define PSM_FRCE_OFF_SRAM3_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM3_BITS   _u(0x00002000)
+#define PSM_FRCE_OFF_SRAM3_MSB    _u(13)
+#define PSM_FRCE_OFF_SRAM3_LSB    _u(13)
+#define PSM_FRCE_OFF_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM2
+#define PSM_FRCE_OFF_SRAM2_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM2_BITS   _u(0x00001000)
+#define PSM_FRCE_OFF_SRAM2_MSB    _u(12)
+#define PSM_FRCE_OFF_SRAM2_LSB    _u(12)
+#define PSM_FRCE_OFF_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM1
+#define PSM_FRCE_OFF_SRAM1_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM1_BITS   _u(0x00000800)
+#define PSM_FRCE_OFF_SRAM1_MSB    _u(11)
+#define PSM_FRCE_OFF_SRAM1_LSB    _u(11)
+#define PSM_FRCE_OFF_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_SRAM0
+#define PSM_FRCE_OFF_SRAM0_RESET  _u(0x0)
+#define PSM_FRCE_OFF_SRAM0_BITS   _u(0x00000400)
+#define PSM_FRCE_OFF_SRAM0_MSB    _u(10)
+#define PSM_FRCE_OFF_SRAM0_LSB    _u(10)
+#define PSM_FRCE_OFF_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_BOOTRAM
+#define PSM_FRCE_OFF_BOOTRAM_RESET  _u(0x0)
+#define PSM_FRCE_OFF_BOOTRAM_BITS   _u(0x00000200)
+#define PSM_FRCE_OFF_BOOTRAM_MSB    _u(9)
+#define PSM_FRCE_OFF_BOOTRAM_LSB    _u(9)
+#define PSM_FRCE_OFF_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_ROM
+#define PSM_FRCE_OFF_ROM_RESET  _u(0x0)
+#define PSM_FRCE_OFF_ROM_BITS   _u(0x00000100)
+#define PSM_FRCE_OFF_ROM_MSB    _u(8)
+#define PSM_FRCE_OFF_ROM_LSB    _u(8)
+#define PSM_FRCE_OFF_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_BUSFABRIC
+#define PSM_FRCE_OFF_BUSFABRIC_RESET  _u(0x0)
+#define PSM_FRCE_OFF_BUSFABRIC_BITS   _u(0x00000080)
+#define PSM_FRCE_OFF_BUSFABRIC_MSB    _u(7)
+#define PSM_FRCE_OFF_BUSFABRIC_LSB    _u(7)
+#define PSM_FRCE_OFF_BUSFABRIC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_PSM_READY
+#define PSM_FRCE_OFF_PSM_READY_RESET  _u(0x0)
+#define PSM_FRCE_OFF_PSM_READY_BITS   _u(0x00000040)
+#define PSM_FRCE_OFF_PSM_READY_MSB    _u(6)
+#define PSM_FRCE_OFF_PSM_READY_LSB    _u(6)
+#define PSM_FRCE_OFF_PSM_READY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_CLOCKS
+#define PSM_FRCE_OFF_CLOCKS_RESET  _u(0x0)
+#define PSM_FRCE_OFF_CLOCKS_BITS   _u(0x00000020)
+#define PSM_FRCE_OFF_CLOCKS_MSB    _u(5)
+#define PSM_FRCE_OFF_CLOCKS_LSB    _u(5)
+#define PSM_FRCE_OFF_CLOCKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_RESETS
+#define PSM_FRCE_OFF_RESETS_RESET  _u(0x0)
+#define PSM_FRCE_OFF_RESETS_BITS   _u(0x00000010)
+#define PSM_FRCE_OFF_RESETS_MSB    _u(4)
+#define PSM_FRCE_OFF_RESETS_LSB    _u(4)
+#define PSM_FRCE_OFF_RESETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_XOSC
+#define PSM_FRCE_OFF_XOSC_RESET  _u(0x0)
+#define PSM_FRCE_OFF_XOSC_BITS   _u(0x00000008)
+#define PSM_FRCE_OFF_XOSC_MSB    _u(3)
+#define PSM_FRCE_OFF_XOSC_LSB    _u(3)
+#define PSM_FRCE_OFF_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_ROSC
+#define PSM_FRCE_OFF_ROSC_RESET  _u(0x0)
+#define PSM_FRCE_OFF_ROSC_BITS   _u(0x00000004)
+#define PSM_FRCE_OFF_ROSC_MSB    _u(2)
+#define PSM_FRCE_OFF_ROSC_LSB    _u(2)
+#define PSM_FRCE_OFF_ROSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_OTP
+#define PSM_FRCE_OFF_OTP_RESET  _u(0x0)
+#define PSM_FRCE_OFF_OTP_BITS   _u(0x00000002)
+#define PSM_FRCE_OFF_OTP_MSB    _u(1)
+#define PSM_FRCE_OFF_OTP_LSB    _u(1)
+#define PSM_FRCE_OFF_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_FRCE_OFF_PROC_COLD
+#define PSM_FRCE_OFF_PROC_COLD_RESET  _u(0x0)
+#define PSM_FRCE_OFF_PROC_COLD_BITS   _u(0x00000001)
+#define PSM_FRCE_OFF_PROC_COLD_MSB    _u(0)
+#define PSM_FRCE_OFF_PROC_COLD_LSB    _u(0)
+#define PSM_FRCE_OFF_PROC_COLD_ACCESS "RW"
+// =============================================================================
+// Register    : PSM_WDSEL
+// Description : Set to 1 if the watchdog should reset this
+#define PSM_WDSEL_OFFSET _u(0x00000008)
+#define PSM_WDSEL_BITS   _u(0x01ffffff)
+#define PSM_WDSEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_PROC1
+#define PSM_WDSEL_PROC1_RESET  _u(0x0)
+#define PSM_WDSEL_PROC1_BITS   _u(0x01000000)
+#define PSM_WDSEL_PROC1_MSB    _u(24)
+#define PSM_WDSEL_PROC1_LSB    _u(24)
+#define PSM_WDSEL_PROC1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_PROC0
+#define PSM_WDSEL_PROC0_RESET  _u(0x0)
+#define PSM_WDSEL_PROC0_BITS   _u(0x00800000)
+#define PSM_WDSEL_PROC0_MSB    _u(23)
+#define PSM_WDSEL_PROC0_LSB    _u(23)
+#define PSM_WDSEL_PROC0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_ACCESSCTRL
+#define PSM_WDSEL_ACCESSCTRL_RESET  _u(0x0)
+#define PSM_WDSEL_ACCESSCTRL_BITS   _u(0x00400000)
+#define PSM_WDSEL_ACCESSCTRL_MSB    _u(22)
+#define PSM_WDSEL_ACCESSCTRL_LSB    _u(22)
+#define PSM_WDSEL_ACCESSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SIO
+#define PSM_WDSEL_SIO_RESET  _u(0x0)
+#define PSM_WDSEL_SIO_BITS   _u(0x00200000)
+#define PSM_WDSEL_SIO_MSB    _u(21)
+#define PSM_WDSEL_SIO_LSB    _u(21)
+#define PSM_WDSEL_SIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_XIP
+#define PSM_WDSEL_XIP_RESET  _u(0x0)
+#define PSM_WDSEL_XIP_BITS   _u(0x00100000)
+#define PSM_WDSEL_XIP_MSB    _u(20)
+#define PSM_WDSEL_XIP_LSB    _u(20)
+#define PSM_WDSEL_XIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM9
+#define PSM_WDSEL_SRAM9_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM9_BITS   _u(0x00080000)
+#define PSM_WDSEL_SRAM9_MSB    _u(19)
+#define PSM_WDSEL_SRAM9_LSB    _u(19)
+#define PSM_WDSEL_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM8
+#define PSM_WDSEL_SRAM8_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM8_BITS   _u(0x00040000)
+#define PSM_WDSEL_SRAM8_MSB    _u(18)
+#define PSM_WDSEL_SRAM8_LSB    _u(18)
+#define PSM_WDSEL_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM7
+#define PSM_WDSEL_SRAM7_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM7_BITS   _u(0x00020000)
+#define PSM_WDSEL_SRAM7_MSB    _u(17)
+#define PSM_WDSEL_SRAM7_LSB    _u(17)
+#define PSM_WDSEL_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM6
+#define PSM_WDSEL_SRAM6_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM6_BITS   _u(0x00010000)
+#define PSM_WDSEL_SRAM6_MSB    _u(16)
+#define PSM_WDSEL_SRAM6_LSB    _u(16)
+#define PSM_WDSEL_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM5
+#define PSM_WDSEL_SRAM5_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM5_BITS   _u(0x00008000)
+#define PSM_WDSEL_SRAM5_MSB    _u(15)
+#define PSM_WDSEL_SRAM5_LSB    _u(15)
+#define PSM_WDSEL_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM4
+#define PSM_WDSEL_SRAM4_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM4_BITS   _u(0x00004000)
+#define PSM_WDSEL_SRAM4_MSB    _u(14)
+#define PSM_WDSEL_SRAM4_LSB    _u(14)
+#define PSM_WDSEL_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM3
+#define PSM_WDSEL_SRAM3_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM3_BITS   _u(0x00002000)
+#define PSM_WDSEL_SRAM3_MSB    _u(13)
+#define PSM_WDSEL_SRAM3_LSB    _u(13)
+#define PSM_WDSEL_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM2
+#define PSM_WDSEL_SRAM2_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM2_BITS   _u(0x00001000)
+#define PSM_WDSEL_SRAM2_MSB    _u(12)
+#define PSM_WDSEL_SRAM2_LSB    _u(12)
+#define PSM_WDSEL_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM1
+#define PSM_WDSEL_SRAM1_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM1_BITS   _u(0x00000800)
+#define PSM_WDSEL_SRAM1_MSB    _u(11)
+#define PSM_WDSEL_SRAM1_LSB    _u(11)
+#define PSM_WDSEL_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_SRAM0
+#define PSM_WDSEL_SRAM0_RESET  _u(0x0)
+#define PSM_WDSEL_SRAM0_BITS   _u(0x00000400)
+#define PSM_WDSEL_SRAM0_MSB    _u(10)
+#define PSM_WDSEL_SRAM0_LSB    _u(10)
+#define PSM_WDSEL_SRAM0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_BOOTRAM
+#define PSM_WDSEL_BOOTRAM_RESET  _u(0x0)
+#define PSM_WDSEL_BOOTRAM_BITS   _u(0x00000200)
+#define PSM_WDSEL_BOOTRAM_MSB    _u(9)
+#define PSM_WDSEL_BOOTRAM_LSB    _u(9)
+#define PSM_WDSEL_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_ROM
+#define PSM_WDSEL_ROM_RESET  _u(0x0)
+#define PSM_WDSEL_ROM_BITS   _u(0x00000100)
+#define PSM_WDSEL_ROM_MSB    _u(8)
+#define PSM_WDSEL_ROM_LSB    _u(8)
+#define PSM_WDSEL_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_BUSFABRIC
+#define PSM_WDSEL_BUSFABRIC_RESET  _u(0x0)
+#define PSM_WDSEL_BUSFABRIC_BITS   _u(0x00000080)
+#define PSM_WDSEL_BUSFABRIC_MSB    _u(7)
+#define PSM_WDSEL_BUSFABRIC_LSB    _u(7)
+#define PSM_WDSEL_BUSFABRIC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_PSM_READY
+#define PSM_WDSEL_PSM_READY_RESET  _u(0x0)
+#define PSM_WDSEL_PSM_READY_BITS   _u(0x00000040)
+#define PSM_WDSEL_PSM_READY_MSB    _u(6)
+#define PSM_WDSEL_PSM_READY_LSB    _u(6)
+#define PSM_WDSEL_PSM_READY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_CLOCKS
+#define PSM_WDSEL_CLOCKS_RESET  _u(0x0)
+#define PSM_WDSEL_CLOCKS_BITS   _u(0x00000020)
+#define PSM_WDSEL_CLOCKS_MSB    _u(5)
+#define PSM_WDSEL_CLOCKS_LSB    _u(5)
+#define PSM_WDSEL_CLOCKS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_RESETS
+#define PSM_WDSEL_RESETS_RESET  _u(0x0)
+#define PSM_WDSEL_RESETS_BITS   _u(0x00000010)
+#define PSM_WDSEL_RESETS_MSB    _u(4)
+#define PSM_WDSEL_RESETS_LSB    _u(4)
+#define PSM_WDSEL_RESETS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_XOSC
+#define PSM_WDSEL_XOSC_RESET  _u(0x0)
+#define PSM_WDSEL_XOSC_BITS   _u(0x00000008)
+#define PSM_WDSEL_XOSC_MSB    _u(3)
+#define PSM_WDSEL_XOSC_LSB    _u(3)
+#define PSM_WDSEL_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_ROSC
+#define PSM_WDSEL_ROSC_RESET  _u(0x0)
+#define PSM_WDSEL_ROSC_BITS   _u(0x00000004)
+#define PSM_WDSEL_ROSC_MSB    _u(2)
+#define PSM_WDSEL_ROSC_LSB    _u(2)
+#define PSM_WDSEL_ROSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_OTP
+#define PSM_WDSEL_OTP_RESET  _u(0x0)
+#define PSM_WDSEL_OTP_BITS   _u(0x00000002)
+#define PSM_WDSEL_OTP_MSB    _u(1)
+#define PSM_WDSEL_OTP_LSB    _u(1)
+#define PSM_WDSEL_OTP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PSM_WDSEL_PROC_COLD
+#define PSM_WDSEL_PROC_COLD_RESET  _u(0x0)
+#define PSM_WDSEL_PROC_COLD_BITS   _u(0x00000001)
+#define PSM_WDSEL_PROC_COLD_MSB    _u(0)
+#define PSM_WDSEL_PROC_COLD_LSB    _u(0)
+#define PSM_WDSEL_PROC_COLD_ACCESS "RW"
+// =============================================================================
+// Register    : PSM_DONE
+// Description : Is the subsystem ready?
+#define PSM_DONE_OFFSET _u(0x0000000c)
+#define PSM_DONE_BITS   _u(0x01ffffff)
+#define PSM_DONE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_PROC1
+#define PSM_DONE_PROC1_RESET  _u(0x0)
+#define PSM_DONE_PROC1_BITS   _u(0x01000000)
+#define PSM_DONE_PROC1_MSB    _u(24)
+#define PSM_DONE_PROC1_LSB    _u(24)
+#define PSM_DONE_PROC1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_PROC0
+#define PSM_DONE_PROC0_RESET  _u(0x0)
+#define PSM_DONE_PROC0_BITS   _u(0x00800000)
+#define PSM_DONE_PROC0_MSB    _u(23)
+#define PSM_DONE_PROC0_LSB    _u(23)
+#define PSM_DONE_PROC0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_ACCESSCTRL
+#define PSM_DONE_ACCESSCTRL_RESET  _u(0x0)
+#define PSM_DONE_ACCESSCTRL_BITS   _u(0x00400000)
+#define PSM_DONE_ACCESSCTRL_MSB    _u(22)
+#define PSM_DONE_ACCESSCTRL_LSB    _u(22)
+#define PSM_DONE_ACCESSCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SIO
+#define PSM_DONE_SIO_RESET  _u(0x0)
+#define PSM_DONE_SIO_BITS   _u(0x00200000)
+#define PSM_DONE_SIO_MSB    _u(21)
+#define PSM_DONE_SIO_LSB    _u(21)
+#define PSM_DONE_SIO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_XIP
+#define PSM_DONE_XIP_RESET  _u(0x0)
+#define PSM_DONE_XIP_BITS   _u(0x00100000)
+#define PSM_DONE_XIP_MSB    _u(20)
+#define PSM_DONE_XIP_LSB    _u(20)
+#define PSM_DONE_XIP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM9
+#define PSM_DONE_SRAM9_RESET  _u(0x0)
+#define PSM_DONE_SRAM9_BITS   _u(0x00080000)
+#define PSM_DONE_SRAM9_MSB    _u(19)
+#define PSM_DONE_SRAM9_LSB    _u(19)
+#define PSM_DONE_SRAM9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM8
+#define PSM_DONE_SRAM8_RESET  _u(0x0)
+#define PSM_DONE_SRAM8_BITS   _u(0x00040000)
+#define PSM_DONE_SRAM8_MSB    _u(18)
+#define PSM_DONE_SRAM8_LSB    _u(18)
+#define PSM_DONE_SRAM8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM7
+#define PSM_DONE_SRAM7_RESET  _u(0x0)
+#define PSM_DONE_SRAM7_BITS   _u(0x00020000)
+#define PSM_DONE_SRAM7_MSB    _u(17)
+#define PSM_DONE_SRAM7_LSB    _u(17)
+#define PSM_DONE_SRAM7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM6
+#define PSM_DONE_SRAM6_RESET  _u(0x0)
+#define PSM_DONE_SRAM6_BITS   _u(0x00010000)
+#define PSM_DONE_SRAM6_MSB    _u(16)
+#define PSM_DONE_SRAM6_LSB    _u(16)
+#define PSM_DONE_SRAM6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM5
+#define PSM_DONE_SRAM5_RESET  _u(0x0)
+#define PSM_DONE_SRAM5_BITS   _u(0x00008000)
+#define PSM_DONE_SRAM5_MSB    _u(15)
+#define PSM_DONE_SRAM5_LSB    _u(15)
+#define PSM_DONE_SRAM5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM4
+#define PSM_DONE_SRAM4_RESET  _u(0x0)
+#define PSM_DONE_SRAM4_BITS   _u(0x00004000)
+#define PSM_DONE_SRAM4_MSB    _u(14)
+#define PSM_DONE_SRAM4_LSB    _u(14)
+#define PSM_DONE_SRAM4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM3
+#define PSM_DONE_SRAM3_RESET  _u(0x0)
+#define PSM_DONE_SRAM3_BITS   _u(0x00002000)
+#define PSM_DONE_SRAM3_MSB    _u(13)
+#define PSM_DONE_SRAM3_LSB    _u(13)
+#define PSM_DONE_SRAM3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM2
+#define PSM_DONE_SRAM2_RESET  _u(0x0)
+#define PSM_DONE_SRAM2_BITS   _u(0x00001000)
+#define PSM_DONE_SRAM2_MSB    _u(12)
+#define PSM_DONE_SRAM2_LSB    _u(12)
+#define PSM_DONE_SRAM2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM1
+#define PSM_DONE_SRAM1_RESET  _u(0x0)
+#define PSM_DONE_SRAM1_BITS   _u(0x00000800)
+#define PSM_DONE_SRAM1_MSB    _u(11)
+#define PSM_DONE_SRAM1_LSB    _u(11)
+#define PSM_DONE_SRAM1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_SRAM0
+#define PSM_DONE_SRAM0_RESET  _u(0x0)
+#define PSM_DONE_SRAM0_BITS   _u(0x00000400)
+#define PSM_DONE_SRAM0_MSB    _u(10)
+#define PSM_DONE_SRAM0_LSB    _u(10)
+#define PSM_DONE_SRAM0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_BOOTRAM
+#define PSM_DONE_BOOTRAM_RESET  _u(0x0)
+#define PSM_DONE_BOOTRAM_BITS   _u(0x00000200)
+#define PSM_DONE_BOOTRAM_MSB    _u(9)
+#define PSM_DONE_BOOTRAM_LSB    _u(9)
+#define PSM_DONE_BOOTRAM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_ROM
+#define PSM_DONE_ROM_RESET  _u(0x0)
+#define PSM_DONE_ROM_BITS   _u(0x00000100)
+#define PSM_DONE_ROM_MSB    _u(8)
+#define PSM_DONE_ROM_LSB    _u(8)
+#define PSM_DONE_ROM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_BUSFABRIC
+#define PSM_DONE_BUSFABRIC_RESET  _u(0x0)
+#define PSM_DONE_BUSFABRIC_BITS   _u(0x00000080)
+#define PSM_DONE_BUSFABRIC_MSB    _u(7)
+#define PSM_DONE_BUSFABRIC_LSB    _u(7)
+#define PSM_DONE_BUSFABRIC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_PSM_READY
+#define PSM_DONE_PSM_READY_RESET  _u(0x0)
+#define PSM_DONE_PSM_READY_BITS   _u(0x00000040)
+#define PSM_DONE_PSM_READY_MSB    _u(6)
+#define PSM_DONE_PSM_READY_LSB    _u(6)
+#define PSM_DONE_PSM_READY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_CLOCKS
+#define PSM_DONE_CLOCKS_RESET  _u(0x0)
+#define PSM_DONE_CLOCKS_BITS   _u(0x00000020)
+#define PSM_DONE_CLOCKS_MSB    _u(5)
+#define PSM_DONE_CLOCKS_LSB    _u(5)
+#define PSM_DONE_CLOCKS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_RESETS
+#define PSM_DONE_RESETS_RESET  _u(0x0)
+#define PSM_DONE_RESETS_BITS   _u(0x00000010)
+#define PSM_DONE_RESETS_MSB    _u(4)
+#define PSM_DONE_RESETS_LSB    _u(4)
+#define PSM_DONE_RESETS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_XOSC
+#define PSM_DONE_XOSC_RESET  _u(0x0)
+#define PSM_DONE_XOSC_BITS   _u(0x00000008)
+#define PSM_DONE_XOSC_MSB    _u(3)
+#define PSM_DONE_XOSC_LSB    _u(3)
+#define PSM_DONE_XOSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_ROSC
+#define PSM_DONE_ROSC_RESET  _u(0x0)
+#define PSM_DONE_ROSC_BITS   _u(0x00000004)
+#define PSM_DONE_ROSC_MSB    _u(2)
+#define PSM_DONE_ROSC_LSB    _u(2)
+#define PSM_DONE_ROSC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_OTP
+#define PSM_DONE_OTP_RESET  _u(0x0)
+#define PSM_DONE_OTP_BITS   _u(0x00000002)
+#define PSM_DONE_OTP_MSB    _u(1)
+#define PSM_DONE_OTP_LSB    _u(1)
+#define PSM_DONE_OTP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PSM_DONE_PROC_COLD
+#define PSM_DONE_PROC_COLD_RESET  _u(0x0)
+#define PSM_DONE_PROC_COLD_BITS   _u(0x00000001)
+#define PSM_DONE_PROC_COLD_MSB    _u(0)
+#define PSM_DONE_PROC_COLD_LSB    _u(0)
+#define PSM_DONE_PROC_COLD_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_PSM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/pwm.h b/lib/pico-sdk/rp2350/hardware/regs/pwm.h
new file mode 100644
index 0000000..629ee8a
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/pwm.h
@@ -0,0 +1,2374 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : PWM
+// Version        : 1
+// Bus type       : apb
+// Description    : Simple PWM
+// =============================================================================
+#ifndef _HARDWARE_REGS_PWM_H
+#define _HARDWARE_REGS_PWM_H
+// =============================================================================
+// Register    : PWM_CH0_CSR
+// Description : Control and status register
+#define PWM_CH0_CSR_OFFSET _u(0x00000000)
+#define PWM_CH0_CSR_BITS   _u(0x000000ff)
+#define PWM_CH0_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH0_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH0_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH0_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH0_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH0_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH0_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH0_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH0_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH0_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH0_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH0_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH0_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH0_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH0_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH0_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH0_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH0_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH0_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH0_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH0_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH0_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH0_CSR_B_INV_MSB    _u(3)
+#define PWM_CH0_CSR_B_INV_LSB    _u(3)
+#define PWM_CH0_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH0_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH0_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH0_CSR_A_INV_MSB    _u(2)
+#define PWM_CH0_CSR_A_INV_LSB    _u(2)
+#define PWM_CH0_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH0_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH0_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH0_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH0_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH0_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH0_CSR_EN_RESET  _u(0x0)
+#define PWM_CH0_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH0_CSR_EN_MSB    _u(0)
+#define PWM_CH0_CSR_EN_LSB    _u(0)
+#define PWM_CH0_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH0_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH0_DIV_OFFSET _u(0x00000004)
+#define PWM_CH0_DIV_BITS   _u(0x00000fff)
+#define PWM_CH0_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_DIV_INT
+#define PWM_CH0_DIV_INT_RESET  _u(0x01)
+#define PWM_CH0_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH0_DIV_INT_MSB    _u(11)
+#define PWM_CH0_DIV_INT_LSB    _u(4)
+#define PWM_CH0_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_DIV_FRAC
+#define PWM_CH0_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH0_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH0_DIV_FRAC_MSB    _u(3)
+#define PWM_CH0_DIV_FRAC_LSB    _u(0)
+#define PWM_CH0_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH0_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH0_CTR_OFFSET _u(0x00000008)
+#define PWM_CH0_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH0_CTR_RESET  _u(0x00000000)
+#define PWM_CH0_CTR_MSB    _u(15)
+#define PWM_CH0_CTR_LSB    _u(0)
+#define PWM_CH0_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH0_CC
+// Description : Counter compare values
+#define PWM_CH0_CC_OFFSET _u(0x0000000c)
+#define PWM_CH0_CC_BITS   _u(0xffffffff)
+#define PWM_CH0_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CC_B
+#define PWM_CH0_CC_B_RESET  _u(0x0000)
+#define PWM_CH0_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH0_CC_B_MSB    _u(31)
+#define PWM_CH0_CC_B_LSB    _u(16)
+#define PWM_CH0_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH0_CC_A
+#define PWM_CH0_CC_A_RESET  _u(0x0000)
+#define PWM_CH0_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH0_CC_A_MSB    _u(15)
+#define PWM_CH0_CC_A_LSB    _u(0)
+#define PWM_CH0_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH0_TOP
+// Description : Counter wrap value
+#define PWM_CH0_TOP_OFFSET _u(0x00000010)
+#define PWM_CH0_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH0_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH0_TOP_MSB    _u(15)
+#define PWM_CH0_TOP_LSB    _u(0)
+#define PWM_CH0_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH1_CSR
+// Description : Control and status register
+#define PWM_CH1_CSR_OFFSET _u(0x00000014)
+#define PWM_CH1_CSR_BITS   _u(0x000000ff)
+#define PWM_CH1_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH1_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH1_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH1_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH1_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH1_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH1_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH1_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH1_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH1_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH1_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH1_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH1_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH1_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH1_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH1_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH1_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH1_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH1_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH1_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH1_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH1_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH1_CSR_B_INV_MSB    _u(3)
+#define PWM_CH1_CSR_B_INV_LSB    _u(3)
+#define PWM_CH1_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH1_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH1_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH1_CSR_A_INV_MSB    _u(2)
+#define PWM_CH1_CSR_A_INV_LSB    _u(2)
+#define PWM_CH1_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH1_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH1_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH1_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH1_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH1_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH1_CSR_EN_RESET  _u(0x0)
+#define PWM_CH1_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH1_CSR_EN_MSB    _u(0)
+#define PWM_CH1_CSR_EN_LSB    _u(0)
+#define PWM_CH1_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH1_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH1_DIV_OFFSET _u(0x00000018)
+#define PWM_CH1_DIV_BITS   _u(0x00000fff)
+#define PWM_CH1_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_DIV_INT
+#define PWM_CH1_DIV_INT_RESET  _u(0x01)
+#define PWM_CH1_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH1_DIV_INT_MSB    _u(11)
+#define PWM_CH1_DIV_INT_LSB    _u(4)
+#define PWM_CH1_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_DIV_FRAC
+#define PWM_CH1_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH1_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH1_DIV_FRAC_MSB    _u(3)
+#define PWM_CH1_DIV_FRAC_LSB    _u(0)
+#define PWM_CH1_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH1_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH1_CTR_OFFSET _u(0x0000001c)
+#define PWM_CH1_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH1_CTR_RESET  _u(0x00000000)
+#define PWM_CH1_CTR_MSB    _u(15)
+#define PWM_CH1_CTR_LSB    _u(0)
+#define PWM_CH1_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH1_CC
+// Description : Counter compare values
+#define PWM_CH1_CC_OFFSET _u(0x00000020)
+#define PWM_CH1_CC_BITS   _u(0xffffffff)
+#define PWM_CH1_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CC_B
+#define PWM_CH1_CC_B_RESET  _u(0x0000)
+#define PWM_CH1_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH1_CC_B_MSB    _u(31)
+#define PWM_CH1_CC_B_LSB    _u(16)
+#define PWM_CH1_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH1_CC_A
+#define PWM_CH1_CC_A_RESET  _u(0x0000)
+#define PWM_CH1_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH1_CC_A_MSB    _u(15)
+#define PWM_CH1_CC_A_LSB    _u(0)
+#define PWM_CH1_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH1_TOP
+// Description : Counter wrap value
+#define PWM_CH1_TOP_OFFSET _u(0x00000024)
+#define PWM_CH1_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH1_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH1_TOP_MSB    _u(15)
+#define PWM_CH1_TOP_LSB    _u(0)
+#define PWM_CH1_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH2_CSR
+// Description : Control and status register
+#define PWM_CH2_CSR_OFFSET _u(0x00000028)
+#define PWM_CH2_CSR_BITS   _u(0x000000ff)
+#define PWM_CH2_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH2_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH2_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH2_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH2_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH2_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH2_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH2_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH2_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH2_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH2_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH2_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH2_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH2_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH2_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH2_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH2_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH2_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH2_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH2_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH2_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH2_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH2_CSR_B_INV_MSB    _u(3)
+#define PWM_CH2_CSR_B_INV_LSB    _u(3)
+#define PWM_CH2_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH2_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH2_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH2_CSR_A_INV_MSB    _u(2)
+#define PWM_CH2_CSR_A_INV_LSB    _u(2)
+#define PWM_CH2_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH2_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH2_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH2_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH2_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH2_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH2_CSR_EN_RESET  _u(0x0)
+#define PWM_CH2_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH2_CSR_EN_MSB    _u(0)
+#define PWM_CH2_CSR_EN_LSB    _u(0)
+#define PWM_CH2_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH2_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH2_DIV_OFFSET _u(0x0000002c)
+#define PWM_CH2_DIV_BITS   _u(0x00000fff)
+#define PWM_CH2_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_DIV_INT
+#define PWM_CH2_DIV_INT_RESET  _u(0x01)
+#define PWM_CH2_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH2_DIV_INT_MSB    _u(11)
+#define PWM_CH2_DIV_INT_LSB    _u(4)
+#define PWM_CH2_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_DIV_FRAC
+#define PWM_CH2_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH2_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH2_DIV_FRAC_MSB    _u(3)
+#define PWM_CH2_DIV_FRAC_LSB    _u(0)
+#define PWM_CH2_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH2_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH2_CTR_OFFSET _u(0x00000030)
+#define PWM_CH2_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH2_CTR_RESET  _u(0x00000000)
+#define PWM_CH2_CTR_MSB    _u(15)
+#define PWM_CH2_CTR_LSB    _u(0)
+#define PWM_CH2_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH2_CC
+// Description : Counter compare values
+#define PWM_CH2_CC_OFFSET _u(0x00000034)
+#define PWM_CH2_CC_BITS   _u(0xffffffff)
+#define PWM_CH2_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CC_B
+#define PWM_CH2_CC_B_RESET  _u(0x0000)
+#define PWM_CH2_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH2_CC_B_MSB    _u(31)
+#define PWM_CH2_CC_B_LSB    _u(16)
+#define PWM_CH2_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH2_CC_A
+#define PWM_CH2_CC_A_RESET  _u(0x0000)
+#define PWM_CH2_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH2_CC_A_MSB    _u(15)
+#define PWM_CH2_CC_A_LSB    _u(0)
+#define PWM_CH2_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH2_TOP
+// Description : Counter wrap value
+#define PWM_CH2_TOP_OFFSET _u(0x00000038)
+#define PWM_CH2_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH2_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH2_TOP_MSB    _u(15)
+#define PWM_CH2_TOP_LSB    _u(0)
+#define PWM_CH2_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH3_CSR
+// Description : Control and status register
+#define PWM_CH3_CSR_OFFSET _u(0x0000003c)
+#define PWM_CH3_CSR_BITS   _u(0x000000ff)
+#define PWM_CH3_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH3_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH3_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH3_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH3_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH3_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH3_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH3_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH3_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH3_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH3_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH3_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH3_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH3_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH3_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH3_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH3_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH3_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH3_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH3_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH3_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH3_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH3_CSR_B_INV_MSB    _u(3)
+#define PWM_CH3_CSR_B_INV_LSB    _u(3)
+#define PWM_CH3_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH3_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH3_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH3_CSR_A_INV_MSB    _u(2)
+#define PWM_CH3_CSR_A_INV_LSB    _u(2)
+#define PWM_CH3_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH3_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH3_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH3_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH3_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH3_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH3_CSR_EN_RESET  _u(0x0)
+#define PWM_CH3_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH3_CSR_EN_MSB    _u(0)
+#define PWM_CH3_CSR_EN_LSB    _u(0)
+#define PWM_CH3_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH3_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH3_DIV_OFFSET _u(0x00000040)
+#define PWM_CH3_DIV_BITS   _u(0x00000fff)
+#define PWM_CH3_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_DIV_INT
+#define PWM_CH3_DIV_INT_RESET  _u(0x01)
+#define PWM_CH3_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH3_DIV_INT_MSB    _u(11)
+#define PWM_CH3_DIV_INT_LSB    _u(4)
+#define PWM_CH3_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_DIV_FRAC
+#define PWM_CH3_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH3_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH3_DIV_FRAC_MSB    _u(3)
+#define PWM_CH3_DIV_FRAC_LSB    _u(0)
+#define PWM_CH3_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH3_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH3_CTR_OFFSET _u(0x00000044)
+#define PWM_CH3_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH3_CTR_RESET  _u(0x00000000)
+#define PWM_CH3_CTR_MSB    _u(15)
+#define PWM_CH3_CTR_LSB    _u(0)
+#define PWM_CH3_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH3_CC
+// Description : Counter compare values
+#define PWM_CH3_CC_OFFSET _u(0x00000048)
+#define PWM_CH3_CC_BITS   _u(0xffffffff)
+#define PWM_CH3_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CC_B
+#define PWM_CH3_CC_B_RESET  _u(0x0000)
+#define PWM_CH3_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH3_CC_B_MSB    _u(31)
+#define PWM_CH3_CC_B_LSB    _u(16)
+#define PWM_CH3_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH3_CC_A
+#define PWM_CH3_CC_A_RESET  _u(0x0000)
+#define PWM_CH3_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH3_CC_A_MSB    _u(15)
+#define PWM_CH3_CC_A_LSB    _u(0)
+#define PWM_CH3_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH3_TOP
+// Description : Counter wrap value
+#define PWM_CH3_TOP_OFFSET _u(0x0000004c)
+#define PWM_CH3_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH3_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH3_TOP_MSB    _u(15)
+#define PWM_CH3_TOP_LSB    _u(0)
+#define PWM_CH3_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH4_CSR
+// Description : Control and status register
+#define PWM_CH4_CSR_OFFSET _u(0x00000050)
+#define PWM_CH4_CSR_BITS   _u(0x000000ff)
+#define PWM_CH4_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH4_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH4_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH4_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH4_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH4_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH4_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH4_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH4_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH4_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH4_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH4_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH4_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH4_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH4_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH4_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH4_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH4_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH4_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH4_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH4_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH4_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH4_CSR_B_INV_MSB    _u(3)
+#define PWM_CH4_CSR_B_INV_LSB    _u(3)
+#define PWM_CH4_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH4_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH4_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH4_CSR_A_INV_MSB    _u(2)
+#define PWM_CH4_CSR_A_INV_LSB    _u(2)
+#define PWM_CH4_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH4_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH4_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH4_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH4_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH4_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH4_CSR_EN_RESET  _u(0x0)
+#define PWM_CH4_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH4_CSR_EN_MSB    _u(0)
+#define PWM_CH4_CSR_EN_LSB    _u(0)
+#define PWM_CH4_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH4_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH4_DIV_OFFSET _u(0x00000054)
+#define PWM_CH4_DIV_BITS   _u(0x00000fff)
+#define PWM_CH4_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_DIV_INT
+#define PWM_CH4_DIV_INT_RESET  _u(0x01)
+#define PWM_CH4_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH4_DIV_INT_MSB    _u(11)
+#define PWM_CH4_DIV_INT_LSB    _u(4)
+#define PWM_CH4_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_DIV_FRAC
+#define PWM_CH4_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH4_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH4_DIV_FRAC_MSB    _u(3)
+#define PWM_CH4_DIV_FRAC_LSB    _u(0)
+#define PWM_CH4_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH4_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH4_CTR_OFFSET _u(0x00000058)
+#define PWM_CH4_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH4_CTR_RESET  _u(0x00000000)
+#define PWM_CH4_CTR_MSB    _u(15)
+#define PWM_CH4_CTR_LSB    _u(0)
+#define PWM_CH4_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH4_CC
+// Description : Counter compare values
+#define PWM_CH4_CC_OFFSET _u(0x0000005c)
+#define PWM_CH4_CC_BITS   _u(0xffffffff)
+#define PWM_CH4_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CC_B
+#define PWM_CH4_CC_B_RESET  _u(0x0000)
+#define PWM_CH4_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH4_CC_B_MSB    _u(31)
+#define PWM_CH4_CC_B_LSB    _u(16)
+#define PWM_CH4_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH4_CC_A
+#define PWM_CH4_CC_A_RESET  _u(0x0000)
+#define PWM_CH4_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH4_CC_A_MSB    _u(15)
+#define PWM_CH4_CC_A_LSB    _u(0)
+#define PWM_CH4_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH4_TOP
+// Description : Counter wrap value
+#define PWM_CH4_TOP_OFFSET _u(0x00000060)
+#define PWM_CH4_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH4_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH4_TOP_MSB    _u(15)
+#define PWM_CH4_TOP_LSB    _u(0)
+#define PWM_CH4_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH5_CSR
+// Description : Control and status register
+#define PWM_CH5_CSR_OFFSET _u(0x00000064)
+#define PWM_CH5_CSR_BITS   _u(0x000000ff)
+#define PWM_CH5_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH5_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH5_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH5_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH5_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH5_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH5_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH5_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH5_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH5_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH5_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH5_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH5_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH5_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH5_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH5_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH5_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH5_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH5_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH5_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH5_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH5_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH5_CSR_B_INV_MSB    _u(3)
+#define PWM_CH5_CSR_B_INV_LSB    _u(3)
+#define PWM_CH5_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH5_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH5_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH5_CSR_A_INV_MSB    _u(2)
+#define PWM_CH5_CSR_A_INV_LSB    _u(2)
+#define PWM_CH5_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH5_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH5_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH5_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH5_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH5_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH5_CSR_EN_RESET  _u(0x0)
+#define PWM_CH5_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH5_CSR_EN_MSB    _u(0)
+#define PWM_CH5_CSR_EN_LSB    _u(0)
+#define PWM_CH5_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH5_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH5_DIV_OFFSET _u(0x00000068)
+#define PWM_CH5_DIV_BITS   _u(0x00000fff)
+#define PWM_CH5_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_DIV_INT
+#define PWM_CH5_DIV_INT_RESET  _u(0x01)
+#define PWM_CH5_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH5_DIV_INT_MSB    _u(11)
+#define PWM_CH5_DIV_INT_LSB    _u(4)
+#define PWM_CH5_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_DIV_FRAC
+#define PWM_CH5_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH5_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH5_DIV_FRAC_MSB    _u(3)
+#define PWM_CH5_DIV_FRAC_LSB    _u(0)
+#define PWM_CH5_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH5_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH5_CTR_OFFSET _u(0x0000006c)
+#define PWM_CH5_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH5_CTR_RESET  _u(0x00000000)
+#define PWM_CH5_CTR_MSB    _u(15)
+#define PWM_CH5_CTR_LSB    _u(0)
+#define PWM_CH5_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH5_CC
+// Description : Counter compare values
+#define PWM_CH5_CC_OFFSET _u(0x00000070)
+#define PWM_CH5_CC_BITS   _u(0xffffffff)
+#define PWM_CH5_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CC_B
+#define PWM_CH5_CC_B_RESET  _u(0x0000)
+#define PWM_CH5_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH5_CC_B_MSB    _u(31)
+#define PWM_CH5_CC_B_LSB    _u(16)
+#define PWM_CH5_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH5_CC_A
+#define PWM_CH5_CC_A_RESET  _u(0x0000)
+#define PWM_CH5_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH5_CC_A_MSB    _u(15)
+#define PWM_CH5_CC_A_LSB    _u(0)
+#define PWM_CH5_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH5_TOP
+// Description : Counter wrap value
+#define PWM_CH5_TOP_OFFSET _u(0x00000074)
+#define PWM_CH5_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH5_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH5_TOP_MSB    _u(15)
+#define PWM_CH5_TOP_LSB    _u(0)
+#define PWM_CH5_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH6_CSR
+// Description : Control and status register
+#define PWM_CH6_CSR_OFFSET _u(0x00000078)
+#define PWM_CH6_CSR_BITS   _u(0x000000ff)
+#define PWM_CH6_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH6_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH6_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH6_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH6_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH6_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH6_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH6_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH6_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH6_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH6_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH6_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH6_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH6_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH6_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH6_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH6_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH6_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH6_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH6_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH6_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH6_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH6_CSR_B_INV_MSB    _u(3)
+#define PWM_CH6_CSR_B_INV_LSB    _u(3)
+#define PWM_CH6_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH6_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH6_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH6_CSR_A_INV_MSB    _u(2)
+#define PWM_CH6_CSR_A_INV_LSB    _u(2)
+#define PWM_CH6_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH6_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH6_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH6_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH6_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH6_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH6_CSR_EN_RESET  _u(0x0)
+#define PWM_CH6_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH6_CSR_EN_MSB    _u(0)
+#define PWM_CH6_CSR_EN_LSB    _u(0)
+#define PWM_CH6_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH6_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH6_DIV_OFFSET _u(0x0000007c)
+#define PWM_CH6_DIV_BITS   _u(0x00000fff)
+#define PWM_CH6_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_DIV_INT
+#define PWM_CH6_DIV_INT_RESET  _u(0x01)
+#define PWM_CH6_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH6_DIV_INT_MSB    _u(11)
+#define PWM_CH6_DIV_INT_LSB    _u(4)
+#define PWM_CH6_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_DIV_FRAC
+#define PWM_CH6_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH6_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH6_DIV_FRAC_MSB    _u(3)
+#define PWM_CH6_DIV_FRAC_LSB    _u(0)
+#define PWM_CH6_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH6_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH6_CTR_OFFSET _u(0x00000080)
+#define PWM_CH6_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH6_CTR_RESET  _u(0x00000000)
+#define PWM_CH6_CTR_MSB    _u(15)
+#define PWM_CH6_CTR_LSB    _u(0)
+#define PWM_CH6_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH6_CC
+// Description : Counter compare values
+#define PWM_CH6_CC_OFFSET _u(0x00000084)
+#define PWM_CH6_CC_BITS   _u(0xffffffff)
+#define PWM_CH6_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CC_B
+#define PWM_CH6_CC_B_RESET  _u(0x0000)
+#define PWM_CH6_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH6_CC_B_MSB    _u(31)
+#define PWM_CH6_CC_B_LSB    _u(16)
+#define PWM_CH6_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH6_CC_A
+#define PWM_CH6_CC_A_RESET  _u(0x0000)
+#define PWM_CH6_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH6_CC_A_MSB    _u(15)
+#define PWM_CH6_CC_A_LSB    _u(0)
+#define PWM_CH6_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH6_TOP
+// Description : Counter wrap value
+#define PWM_CH6_TOP_OFFSET _u(0x00000088)
+#define PWM_CH6_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH6_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH6_TOP_MSB    _u(15)
+#define PWM_CH6_TOP_LSB    _u(0)
+#define PWM_CH6_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH7_CSR
+// Description : Control and status register
+#define PWM_CH7_CSR_OFFSET _u(0x0000008c)
+#define PWM_CH7_CSR_BITS   _u(0x000000ff)
+#define PWM_CH7_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH7_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH7_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH7_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH7_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH7_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH7_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH7_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH7_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH7_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH7_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH7_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH7_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH7_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH7_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH7_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH7_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH7_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH7_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH7_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH7_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH7_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH7_CSR_B_INV_MSB    _u(3)
+#define PWM_CH7_CSR_B_INV_LSB    _u(3)
+#define PWM_CH7_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH7_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH7_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH7_CSR_A_INV_MSB    _u(2)
+#define PWM_CH7_CSR_A_INV_LSB    _u(2)
+#define PWM_CH7_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH7_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH7_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH7_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH7_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH7_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH7_CSR_EN_RESET  _u(0x0)
+#define PWM_CH7_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH7_CSR_EN_MSB    _u(0)
+#define PWM_CH7_CSR_EN_LSB    _u(0)
+#define PWM_CH7_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH7_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH7_DIV_OFFSET _u(0x00000090)
+#define PWM_CH7_DIV_BITS   _u(0x00000fff)
+#define PWM_CH7_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_DIV_INT
+#define PWM_CH7_DIV_INT_RESET  _u(0x01)
+#define PWM_CH7_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH7_DIV_INT_MSB    _u(11)
+#define PWM_CH7_DIV_INT_LSB    _u(4)
+#define PWM_CH7_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_DIV_FRAC
+#define PWM_CH7_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH7_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH7_DIV_FRAC_MSB    _u(3)
+#define PWM_CH7_DIV_FRAC_LSB    _u(0)
+#define PWM_CH7_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH7_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH7_CTR_OFFSET _u(0x00000094)
+#define PWM_CH7_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH7_CTR_RESET  _u(0x00000000)
+#define PWM_CH7_CTR_MSB    _u(15)
+#define PWM_CH7_CTR_LSB    _u(0)
+#define PWM_CH7_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH7_CC
+// Description : Counter compare values
+#define PWM_CH7_CC_OFFSET _u(0x00000098)
+#define PWM_CH7_CC_BITS   _u(0xffffffff)
+#define PWM_CH7_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CC_B
+#define PWM_CH7_CC_B_RESET  _u(0x0000)
+#define PWM_CH7_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH7_CC_B_MSB    _u(31)
+#define PWM_CH7_CC_B_LSB    _u(16)
+#define PWM_CH7_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH7_CC_A
+#define PWM_CH7_CC_A_RESET  _u(0x0000)
+#define PWM_CH7_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH7_CC_A_MSB    _u(15)
+#define PWM_CH7_CC_A_LSB    _u(0)
+#define PWM_CH7_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH7_TOP
+// Description : Counter wrap value
+#define PWM_CH7_TOP_OFFSET _u(0x0000009c)
+#define PWM_CH7_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH7_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH7_TOP_MSB    _u(15)
+#define PWM_CH7_TOP_LSB    _u(0)
+#define PWM_CH7_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH8_CSR
+// Description : Control and status register
+#define PWM_CH8_CSR_OFFSET _u(0x000000a0)
+#define PWM_CH8_CSR_BITS   _u(0x000000ff)
+#define PWM_CH8_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH8_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH8_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH8_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH8_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH8_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH8_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH8_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH8_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH8_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH8_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH8_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH8_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH8_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH8_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH8_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH8_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH8_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH8_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH8_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH8_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH8_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH8_CSR_B_INV_MSB    _u(3)
+#define PWM_CH8_CSR_B_INV_LSB    _u(3)
+#define PWM_CH8_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH8_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH8_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH8_CSR_A_INV_MSB    _u(2)
+#define PWM_CH8_CSR_A_INV_LSB    _u(2)
+#define PWM_CH8_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH8_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH8_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH8_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH8_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH8_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH8_CSR_EN_RESET  _u(0x0)
+#define PWM_CH8_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH8_CSR_EN_MSB    _u(0)
+#define PWM_CH8_CSR_EN_LSB    _u(0)
+#define PWM_CH8_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH8_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH8_DIV_OFFSET _u(0x000000a4)
+#define PWM_CH8_DIV_BITS   _u(0x00000fff)
+#define PWM_CH8_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_DIV_INT
+#define PWM_CH8_DIV_INT_RESET  _u(0x01)
+#define PWM_CH8_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH8_DIV_INT_MSB    _u(11)
+#define PWM_CH8_DIV_INT_LSB    _u(4)
+#define PWM_CH8_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_DIV_FRAC
+#define PWM_CH8_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH8_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH8_DIV_FRAC_MSB    _u(3)
+#define PWM_CH8_DIV_FRAC_LSB    _u(0)
+#define PWM_CH8_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH8_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH8_CTR_OFFSET _u(0x000000a8)
+#define PWM_CH8_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH8_CTR_RESET  _u(0x00000000)
+#define PWM_CH8_CTR_MSB    _u(15)
+#define PWM_CH8_CTR_LSB    _u(0)
+#define PWM_CH8_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH8_CC
+// Description : Counter compare values
+#define PWM_CH8_CC_OFFSET _u(0x000000ac)
+#define PWM_CH8_CC_BITS   _u(0xffffffff)
+#define PWM_CH8_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CC_B
+#define PWM_CH8_CC_B_RESET  _u(0x0000)
+#define PWM_CH8_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH8_CC_B_MSB    _u(31)
+#define PWM_CH8_CC_B_LSB    _u(16)
+#define PWM_CH8_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH8_CC_A
+#define PWM_CH8_CC_A_RESET  _u(0x0000)
+#define PWM_CH8_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH8_CC_A_MSB    _u(15)
+#define PWM_CH8_CC_A_LSB    _u(0)
+#define PWM_CH8_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH8_TOP
+// Description : Counter wrap value
+#define PWM_CH8_TOP_OFFSET _u(0x000000b0)
+#define PWM_CH8_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH8_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH8_TOP_MSB    _u(15)
+#define PWM_CH8_TOP_LSB    _u(0)
+#define PWM_CH8_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH9_CSR
+// Description : Control and status register
+#define PWM_CH9_CSR_OFFSET _u(0x000000b4)
+#define PWM_CH9_CSR_BITS   _u(0x000000ff)
+#define PWM_CH9_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH9_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH9_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH9_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH9_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH9_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH9_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH9_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH9_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH9_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH9_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH9_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH9_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH9_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH9_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH9_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH9_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH9_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH9_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH9_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH9_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH9_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH9_CSR_B_INV_MSB    _u(3)
+#define PWM_CH9_CSR_B_INV_LSB    _u(3)
+#define PWM_CH9_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH9_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH9_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH9_CSR_A_INV_MSB    _u(2)
+#define PWM_CH9_CSR_A_INV_LSB    _u(2)
+#define PWM_CH9_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH9_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH9_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH9_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH9_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH9_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH9_CSR_EN_RESET  _u(0x0)
+#define PWM_CH9_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH9_CSR_EN_MSB    _u(0)
+#define PWM_CH9_CSR_EN_LSB    _u(0)
+#define PWM_CH9_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH9_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH9_DIV_OFFSET _u(0x000000b8)
+#define PWM_CH9_DIV_BITS   _u(0x00000fff)
+#define PWM_CH9_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_DIV_INT
+#define PWM_CH9_DIV_INT_RESET  _u(0x01)
+#define PWM_CH9_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH9_DIV_INT_MSB    _u(11)
+#define PWM_CH9_DIV_INT_LSB    _u(4)
+#define PWM_CH9_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_DIV_FRAC
+#define PWM_CH9_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH9_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH9_DIV_FRAC_MSB    _u(3)
+#define PWM_CH9_DIV_FRAC_LSB    _u(0)
+#define PWM_CH9_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH9_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH9_CTR_OFFSET _u(0x000000bc)
+#define PWM_CH9_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH9_CTR_RESET  _u(0x00000000)
+#define PWM_CH9_CTR_MSB    _u(15)
+#define PWM_CH9_CTR_LSB    _u(0)
+#define PWM_CH9_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH9_CC
+// Description : Counter compare values
+#define PWM_CH9_CC_OFFSET _u(0x000000c0)
+#define PWM_CH9_CC_BITS   _u(0xffffffff)
+#define PWM_CH9_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CC_B
+#define PWM_CH9_CC_B_RESET  _u(0x0000)
+#define PWM_CH9_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH9_CC_B_MSB    _u(31)
+#define PWM_CH9_CC_B_LSB    _u(16)
+#define PWM_CH9_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH9_CC_A
+#define PWM_CH9_CC_A_RESET  _u(0x0000)
+#define PWM_CH9_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH9_CC_A_MSB    _u(15)
+#define PWM_CH9_CC_A_LSB    _u(0)
+#define PWM_CH9_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH9_TOP
+// Description : Counter wrap value
+#define PWM_CH9_TOP_OFFSET _u(0x000000c4)
+#define PWM_CH9_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH9_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH9_TOP_MSB    _u(15)
+#define PWM_CH9_TOP_LSB    _u(0)
+#define PWM_CH9_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH10_CSR
+// Description : Control and status register
+#define PWM_CH10_CSR_OFFSET _u(0x000000c8)
+#define PWM_CH10_CSR_BITS   _u(0x000000ff)
+#define PWM_CH10_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH10_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH10_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH10_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH10_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH10_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH10_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH10_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH10_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH10_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH10_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH10_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH10_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH10_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH10_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH10_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH10_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH10_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH10_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH10_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH10_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH10_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH10_CSR_B_INV_MSB    _u(3)
+#define PWM_CH10_CSR_B_INV_LSB    _u(3)
+#define PWM_CH10_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH10_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH10_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH10_CSR_A_INV_MSB    _u(2)
+#define PWM_CH10_CSR_A_INV_LSB    _u(2)
+#define PWM_CH10_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH10_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH10_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH10_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH10_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH10_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH10_CSR_EN_RESET  _u(0x0)
+#define PWM_CH10_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH10_CSR_EN_MSB    _u(0)
+#define PWM_CH10_CSR_EN_LSB    _u(0)
+#define PWM_CH10_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH10_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH10_DIV_OFFSET _u(0x000000cc)
+#define PWM_CH10_DIV_BITS   _u(0x00000fff)
+#define PWM_CH10_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_DIV_INT
+#define PWM_CH10_DIV_INT_RESET  _u(0x01)
+#define PWM_CH10_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH10_DIV_INT_MSB    _u(11)
+#define PWM_CH10_DIV_INT_LSB    _u(4)
+#define PWM_CH10_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_DIV_FRAC
+#define PWM_CH10_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH10_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH10_DIV_FRAC_MSB    _u(3)
+#define PWM_CH10_DIV_FRAC_LSB    _u(0)
+#define PWM_CH10_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH10_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH10_CTR_OFFSET _u(0x000000d0)
+#define PWM_CH10_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH10_CTR_RESET  _u(0x00000000)
+#define PWM_CH10_CTR_MSB    _u(15)
+#define PWM_CH10_CTR_LSB    _u(0)
+#define PWM_CH10_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH10_CC
+// Description : Counter compare values
+#define PWM_CH10_CC_OFFSET _u(0x000000d4)
+#define PWM_CH10_CC_BITS   _u(0xffffffff)
+#define PWM_CH10_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CC_B
+#define PWM_CH10_CC_B_RESET  _u(0x0000)
+#define PWM_CH10_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH10_CC_B_MSB    _u(31)
+#define PWM_CH10_CC_B_LSB    _u(16)
+#define PWM_CH10_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH10_CC_A
+#define PWM_CH10_CC_A_RESET  _u(0x0000)
+#define PWM_CH10_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH10_CC_A_MSB    _u(15)
+#define PWM_CH10_CC_A_LSB    _u(0)
+#define PWM_CH10_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH10_TOP
+// Description : Counter wrap value
+#define PWM_CH10_TOP_OFFSET _u(0x000000d8)
+#define PWM_CH10_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH10_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH10_TOP_MSB    _u(15)
+#define PWM_CH10_TOP_LSB    _u(0)
+#define PWM_CH10_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH11_CSR
+// Description : Control and status register
+#define PWM_CH11_CSR_OFFSET _u(0x000000dc)
+#define PWM_CH11_CSR_BITS   _u(0x000000ff)
+#define PWM_CH11_CSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_PH_ADV
+// Description : Advance the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running
+//               at less than full speed (div_int + div_frac / 16 > 1)
+#define PWM_CH11_CSR_PH_ADV_RESET  _u(0x0)
+#define PWM_CH11_CSR_PH_ADV_BITS   _u(0x00000080)
+#define PWM_CH11_CSR_PH_ADV_MSB    _u(7)
+#define PWM_CH11_CSR_PH_ADV_LSB    _u(7)
+#define PWM_CH11_CSR_PH_ADV_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_PH_RET
+// Description : Retard the phase of the counter by 1 count, while it is
+//               running.
+//               Self-clearing. Write a 1, and poll until low. Counter must be
+//               running.
+#define PWM_CH11_CSR_PH_RET_RESET  _u(0x0)
+#define PWM_CH11_CSR_PH_RET_BITS   _u(0x00000040)
+#define PWM_CH11_CSR_PH_RET_MSB    _u(6)
+#define PWM_CH11_CSR_PH_RET_LSB    _u(6)
+#define PWM_CH11_CSR_PH_RET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_DIVMODE
+//               0x0 -> Free-running counting at rate dictated by fractional divider
+//               0x1 -> Fractional divider operation is gated by the PWM B pin.
+//               0x2 -> Counter advances with each rising edge of the PWM B pin.
+//               0x3 -> Counter advances with each falling edge of the PWM B pin.
+#define PWM_CH11_CSR_DIVMODE_RESET  _u(0x0)
+#define PWM_CH11_CSR_DIVMODE_BITS   _u(0x00000030)
+#define PWM_CH11_CSR_DIVMODE_MSB    _u(5)
+#define PWM_CH11_CSR_DIVMODE_LSB    _u(4)
+#define PWM_CH11_CSR_DIVMODE_ACCESS "RW"
+#define PWM_CH11_CSR_DIVMODE_VALUE_DIV _u(0x0)
+#define PWM_CH11_CSR_DIVMODE_VALUE_LEVEL _u(0x1)
+#define PWM_CH11_CSR_DIVMODE_VALUE_RISE _u(0x2)
+#define PWM_CH11_CSR_DIVMODE_VALUE_FALL _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_B_INV
+// Description : Invert output B
+#define PWM_CH11_CSR_B_INV_RESET  _u(0x0)
+#define PWM_CH11_CSR_B_INV_BITS   _u(0x00000008)
+#define PWM_CH11_CSR_B_INV_MSB    _u(3)
+#define PWM_CH11_CSR_B_INV_LSB    _u(3)
+#define PWM_CH11_CSR_B_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_A_INV
+// Description : Invert output A
+#define PWM_CH11_CSR_A_INV_RESET  _u(0x0)
+#define PWM_CH11_CSR_A_INV_BITS   _u(0x00000004)
+#define PWM_CH11_CSR_A_INV_MSB    _u(2)
+#define PWM_CH11_CSR_A_INV_LSB    _u(2)
+#define PWM_CH11_CSR_A_INV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_PH_CORRECT
+// Description : 1: Enable phase-correct modulation. 0: Trailing-edge
+#define PWM_CH11_CSR_PH_CORRECT_RESET  _u(0x0)
+#define PWM_CH11_CSR_PH_CORRECT_BITS   _u(0x00000002)
+#define PWM_CH11_CSR_PH_CORRECT_MSB    _u(1)
+#define PWM_CH11_CSR_PH_CORRECT_LSB    _u(1)
+#define PWM_CH11_CSR_PH_CORRECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CSR_EN
+// Description : Enable the PWM channel.
+#define PWM_CH11_CSR_EN_RESET  _u(0x0)
+#define PWM_CH11_CSR_EN_BITS   _u(0x00000001)
+#define PWM_CH11_CSR_EN_MSB    _u(0)
+#define PWM_CH11_CSR_EN_LSB    _u(0)
+#define PWM_CH11_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH11_DIV
+// Description : INT and FRAC form a fixed-point fractional number.
+//               Counting rate is system clock frequency divided by this number.
+//               Fractional division uses simple 1st-order sigma-delta.
+#define PWM_CH11_DIV_OFFSET _u(0x000000e0)
+#define PWM_CH11_DIV_BITS   _u(0x00000fff)
+#define PWM_CH11_DIV_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_DIV_INT
+#define PWM_CH11_DIV_INT_RESET  _u(0x01)
+#define PWM_CH11_DIV_INT_BITS   _u(0x00000ff0)
+#define PWM_CH11_DIV_INT_MSB    _u(11)
+#define PWM_CH11_DIV_INT_LSB    _u(4)
+#define PWM_CH11_DIV_INT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_DIV_FRAC
+#define PWM_CH11_DIV_FRAC_RESET  _u(0x0)
+#define PWM_CH11_DIV_FRAC_BITS   _u(0x0000000f)
+#define PWM_CH11_DIV_FRAC_MSB    _u(3)
+#define PWM_CH11_DIV_FRAC_LSB    _u(0)
+#define PWM_CH11_DIV_FRAC_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH11_CTR
+// Description : Direct access to the PWM counter
+#define PWM_CH11_CTR_OFFSET _u(0x000000e4)
+#define PWM_CH11_CTR_BITS   _u(0x0000ffff)
+#define PWM_CH11_CTR_RESET  _u(0x00000000)
+#define PWM_CH11_CTR_MSB    _u(15)
+#define PWM_CH11_CTR_LSB    _u(0)
+#define PWM_CH11_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH11_CC
+// Description : Counter compare values
+#define PWM_CH11_CC_OFFSET _u(0x000000e8)
+#define PWM_CH11_CC_BITS   _u(0xffffffff)
+#define PWM_CH11_CC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CC_B
+#define PWM_CH11_CC_B_RESET  _u(0x0000)
+#define PWM_CH11_CC_B_BITS   _u(0xffff0000)
+#define PWM_CH11_CC_B_MSB    _u(31)
+#define PWM_CH11_CC_B_LSB    _u(16)
+#define PWM_CH11_CC_B_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_CH11_CC_A
+#define PWM_CH11_CC_A_RESET  _u(0x0000)
+#define PWM_CH11_CC_A_BITS   _u(0x0000ffff)
+#define PWM_CH11_CC_A_MSB    _u(15)
+#define PWM_CH11_CC_A_LSB    _u(0)
+#define PWM_CH11_CC_A_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_CH11_TOP
+// Description : Counter wrap value
+#define PWM_CH11_TOP_OFFSET _u(0x000000ec)
+#define PWM_CH11_TOP_BITS   _u(0x0000ffff)
+#define PWM_CH11_TOP_RESET  _u(0x0000ffff)
+#define PWM_CH11_TOP_MSB    _u(15)
+#define PWM_CH11_TOP_LSB    _u(0)
+#define PWM_CH11_TOP_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_EN
+// Description : This register aliases the CSR_EN bits for all channels.
+//               Writing to this register allows multiple channels to be enabled
+//               or disabled simultaneously, so they can run in perfect sync.
+//               For each channel, there is only one physical EN register bit,
+//               which can be accessed through here or CHx_CSR.
+#define PWM_EN_OFFSET _u(0x000000f0)
+#define PWM_EN_BITS   _u(0x00000fff)
+#define PWM_EN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH11
+#define PWM_EN_CH11_RESET  _u(0x0)
+#define PWM_EN_CH11_BITS   _u(0x00000800)
+#define PWM_EN_CH11_MSB    _u(11)
+#define PWM_EN_CH11_LSB    _u(11)
+#define PWM_EN_CH11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH10
+#define PWM_EN_CH10_RESET  _u(0x0)
+#define PWM_EN_CH10_BITS   _u(0x00000400)
+#define PWM_EN_CH10_MSB    _u(10)
+#define PWM_EN_CH10_LSB    _u(10)
+#define PWM_EN_CH10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH9
+#define PWM_EN_CH9_RESET  _u(0x0)
+#define PWM_EN_CH9_BITS   _u(0x00000200)
+#define PWM_EN_CH9_MSB    _u(9)
+#define PWM_EN_CH9_LSB    _u(9)
+#define PWM_EN_CH9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH8
+#define PWM_EN_CH8_RESET  _u(0x0)
+#define PWM_EN_CH8_BITS   _u(0x00000100)
+#define PWM_EN_CH8_MSB    _u(8)
+#define PWM_EN_CH8_LSB    _u(8)
+#define PWM_EN_CH8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH7
+#define PWM_EN_CH7_RESET  _u(0x0)
+#define PWM_EN_CH7_BITS   _u(0x00000080)
+#define PWM_EN_CH7_MSB    _u(7)
+#define PWM_EN_CH7_LSB    _u(7)
+#define PWM_EN_CH7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH6
+#define PWM_EN_CH6_RESET  _u(0x0)
+#define PWM_EN_CH6_BITS   _u(0x00000040)
+#define PWM_EN_CH6_MSB    _u(6)
+#define PWM_EN_CH6_LSB    _u(6)
+#define PWM_EN_CH6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH5
+#define PWM_EN_CH5_RESET  _u(0x0)
+#define PWM_EN_CH5_BITS   _u(0x00000020)
+#define PWM_EN_CH5_MSB    _u(5)
+#define PWM_EN_CH5_LSB    _u(5)
+#define PWM_EN_CH5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH4
+#define PWM_EN_CH4_RESET  _u(0x0)
+#define PWM_EN_CH4_BITS   _u(0x00000010)
+#define PWM_EN_CH4_MSB    _u(4)
+#define PWM_EN_CH4_LSB    _u(4)
+#define PWM_EN_CH4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH3
+#define PWM_EN_CH3_RESET  _u(0x0)
+#define PWM_EN_CH3_BITS   _u(0x00000008)
+#define PWM_EN_CH3_MSB    _u(3)
+#define PWM_EN_CH3_LSB    _u(3)
+#define PWM_EN_CH3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH2
+#define PWM_EN_CH2_RESET  _u(0x0)
+#define PWM_EN_CH2_BITS   _u(0x00000004)
+#define PWM_EN_CH2_MSB    _u(2)
+#define PWM_EN_CH2_LSB    _u(2)
+#define PWM_EN_CH2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH1
+#define PWM_EN_CH1_RESET  _u(0x0)
+#define PWM_EN_CH1_BITS   _u(0x00000002)
+#define PWM_EN_CH1_MSB    _u(1)
+#define PWM_EN_CH1_LSB    _u(1)
+#define PWM_EN_CH1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_EN_CH0
+#define PWM_EN_CH0_RESET  _u(0x0)
+#define PWM_EN_CH0_BITS   _u(0x00000001)
+#define PWM_EN_CH0_MSB    _u(0)
+#define PWM_EN_CH0_LSB    _u(0)
+#define PWM_EN_CH0_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_INTR
+// Description : Raw Interrupts
+#define PWM_INTR_OFFSET _u(0x000000f4)
+#define PWM_INTR_BITS   _u(0x00000fff)
+#define PWM_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH11
+#define PWM_INTR_CH11_RESET  _u(0x0)
+#define PWM_INTR_CH11_BITS   _u(0x00000800)
+#define PWM_INTR_CH11_MSB    _u(11)
+#define PWM_INTR_CH11_LSB    _u(11)
+#define PWM_INTR_CH11_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH10
+#define PWM_INTR_CH10_RESET  _u(0x0)
+#define PWM_INTR_CH10_BITS   _u(0x00000400)
+#define PWM_INTR_CH10_MSB    _u(10)
+#define PWM_INTR_CH10_LSB    _u(10)
+#define PWM_INTR_CH10_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH9
+#define PWM_INTR_CH9_RESET  _u(0x0)
+#define PWM_INTR_CH9_BITS   _u(0x00000200)
+#define PWM_INTR_CH9_MSB    _u(9)
+#define PWM_INTR_CH9_LSB    _u(9)
+#define PWM_INTR_CH9_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH8
+#define PWM_INTR_CH8_RESET  _u(0x0)
+#define PWM_INTR_CH8_BITS   _u(0x00000100)
+#define PWM_INTR_CH8_MSB    _u(8)
+#define PWM_INTR_CH8_LSB    _u(8)
+#define PWM_INTR_CH8_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH7
+#define PWM_INTR_CH7_RESET  _u(0x0)
+#define PWM_INTR_CH7_BITS   _u(0x00000080)
+#define PWM_INTR_CH7_MSB    _u(7)
+#define PWM_INTR_CH7_LSB    _u(7)
+#define PWM_INTR_CH7_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH6
+#define PWM_INTR_CH6_RESET  _u(0x0)
+#define PWM_INTR_CH6_BITS   _u(0x00000040)
+#define PWM_INTR_CH6_MSB    _u(6)
+#define PWM_INTR_CH6_LSB    _u(6)
+#define PWM_INTR_CH6_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH5
+#define PWM_INTR_CH5_RESET  _u(0x0)
+#define PWM_INTR_CH5_BITS   _u(0x00000020)
+#define PWM_INTR_CH5_MSB    _u(5)
+#define PWM_INTR_CH5_LSB    _u(5)
+#define PWM_INTR_CH5_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH4
+#define PWM_INTR_CH4_RESET  _u(0x0)
+#define PWM_INTR_CH4_BITS   _u(0x00000010)
+#define PWM_INTR_CH4_MSB    _u(4)
+#define PWM_INTR_CH4_LSB    _u(4)
+#define PWM_INTR_CH4_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH3
+#define PWM_INTR_CH3_RESET  _u(0x0)
+#define PWM_INTR_CH3_BITS   _u(0x00000008)
+#define PWM_INTR_CH3_MSB    _u(3)
+#define PWM_INTR_CH3_LSB    _u(3)
+#define PWM_INTR_CH3_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH2
+#define PWM_INTR_CH2_RESET  _u(0x0)
+#define PWM_INTR_CH2_BITS   _u(0x00000004)
+#define PWM_INTR_CH2_MSB    _u(2)
+#define PWM_INTR_CH2_LSB    _u(2)
+#define PWM_INTR_CH2_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH1
+#define PWM_INTR_CH1_RESET  _u(0x0)
+#define PWM_INTR_CH1_BITS   _u(0x00000002)
+#define PWM_INTR_CH1_MSB    _u(1)
+#define PWM_INTR_CH1_LSB    _u(1)
+#define PWM_INTR_CH1_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : PWM_INTR_CH0
+#define PWM_INTR_CH0_RESET  _u(0x0)
+#define PWM_INTR_CH0_BITS   _u(0x00000001)
+#define PWM_INTR_CH0_MSB    _u(0)
+#define PWM_INTR_CH0_LSB    _u(0)
+#define PWM_INTR_CH0_ACCESS "WC"
+// =============================================================================
+// Register    : PWM_IRQ0_INTE
+// Description : Interrupt Enable for irq0
+#define PWM_IRQ0_INTE_OFFSET _u(0x000000f8)
+#define PWM_IRQ0_INTE_BITS   _u(0x00000fff)
+#define PWM_IRQ0_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH11
+#define PWM_IRQ0_INTE_CH11_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ0_INTE_CH11_MSB    _u(11)
+#define PWM_IRQ0_INTE_CH11_LSB    _u(11)
+#define PWM_IRQ0_INTE_CH11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH10
+#define PWM_IRQ0_INTE_CH10_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ0_INTE_CH10_MSB    _u(10)
+#define PWM_IRQ0_INTE_CH10_LSB    _u(10)
+#define PWM_IRQ0_INTE_CH10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH9
+#define PWM_IRQ0_INTE_CH9_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ0_INTE_CH9_MSB    _u(9)
+#define PWM_IRQ0_INTE_CH9_LSB    _u(9)
+#define PWM_IRQ0_INTE_CH9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH8
+#define PWM_IRQ0_INTE_CH8_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ0_INTE_CH8_MSB    _u(8)
+#define PWM_IRQ0_INTE_CH8_LSB    _u(8)
+#define PWM_IRQ0_INTE_CH8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH7
+#define PWM_IRQ0_INTE_CH7_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ0_INTE_CH7_MSB    _u(7)
+#define PWM_IRQ0_INTE_CH7_LSB    _u(7)
+#define PWM_IRQ0_INTE_CH7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH6
+#define PWM_IRQ0_INTE_CH6_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ0_INTE_CH6_MSB    _u(6)
+#define PWM_IRQ0_INTE_CH6_LSB    _u(6)
+#define PWM_IRQ0_INTE_CH6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH5
+#define PWM_IRQ0_INTE_CH5_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ0_INTE_CH5_MSB    _u(5)
+#define PWM_IRQ0_INTE_CH5_LSB    _u(5)
+#define PWM_IRQ0_INTE_CH5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH4
+#define PWM_IRQ0_INTE_CH4_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ0_INTE_CH4_MSB    _u(4)
+#define PWM_IRQ0_INTE_CH4_LSB    _u(4)
+#define PWM_IRQ0_INTE_CH4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH3
+#define PWM_IRQ0_INTE_CH3_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ0_INTE_CH3_MSB    _u(3)
+#define PWM_IRQ0_INTE_CH3_LSB    _u(3)
+#define PWM_IRQ0_INTE_CH3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH2
+#define PWM_IRQ0_INTE_CH2_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ0_INTE_CH2_MSB    _u(2)
+#define PWM_IRQ0_INTE_CH2_LSB    _u(2)
+#define PWM_IRQ0_INTE_CH2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH1
+#define PWM_IRQ0_INTE_CH1_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ0_INTE_CH1_MSB    _u(1)
+#define PWM_IRQ0_INTE_CH1_LSB    _u(1)
+#define PWM_IRQ0_INTE_CH1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTE_CH0
+#define PWM_IRQ0_INTE_CH0_RESET  _u(0x0)
+#define PWM_IRQ0_INTE_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ0_INTE_CH0_MSB    _u(0)
+#define PWM_IRQ0_INTE_CH0_LSB    _u(0)
+#define PWM_IRQ0_INTE_CH0_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_IRQ0_INTF
+// Description : Interrupt Force for irq0
+#define PWM_IRQ0_INTF_OFFSET _u(0x000000fc)
+#define PWM_IRQ0_INTF_BITS   _u(0x00000fff)
+#define PWM_IRQ0_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH11
+#define PWM_IRQ0_INTF_CH11_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ0_INTF_CH11_MSB    _u(11)
+#define PWM_IRQ0_INTF_CH11_LSB    _u(11)
+#define PWM_IRQ0_INTF_CH11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH10
+#define PWM_IRQ0_INTF_CH10_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ0_INTF_CH10_MSB    _u(10)
+#define PWM_IRQ0_INTF_CH10_LSB    _u(10)
+#define PWM_IRQ0_INTF_CH10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH9
+#define PWM_IRQ0_INTF_CH9_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ0_INTF_CH9_MSB    _u(9)
+#define PWM_IRQ0_INTF_CH9_LSB    _u(9)
+#define PWM_IRQ0_INTF_CH9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH8
+#define PWM_IRQ0_INTF_CH8_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ0_INTF_CH8_MSB    _u(8)
+#define PWM_IRQ0_INTF_CH8_LSB    _u(8)
+#define PWM_IRQ0_INTF_CH8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH7
+#define PWM_IRQ0_INTF_CH7_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ0_INTF_CH7_MSB    _u(7)
+#define PWM_IRQ0_INTF_CH7_LSB    _u(7)
+#define PWM_IRQ0_INTF_CH7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH6
+#define PWM_IRQ0_INTF_CH6_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ0_INTF_CH6_MSB    _u(6)
+#define PWM_IRQ0_INTF_CH6_LSB    _u(6)
+#define PWM_IRQ0_INTF_CH6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH5
+#define PWM_IRQ0_INTF_CH5_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ0_INTF_CH5_MSB    _u(5)
+#define PWM_IRQ0_INTF_CH5_LSB    _u(5)
+#define PWM_IRQ0_INTF_CH5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH4
+#define PWM_IRQ0_INTF_CH4_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ0_INTF_CH4_MSB    _u(4)
+#define PWM_IRQ0_INTF_CH4_LSB    _u(4)
+#define PWM_IRQ0_INTF_CH4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH3
+#define PWM_IRQ0_INTF_CH3_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ0_INTF_CH3_MSB    _u(3)
+#define PWM_IRQ0_INTF_CH3_LSB    _u(3)
+#define PWM_IRQ0_INTF_CH3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH2
+#define PWM_IRQ0_INTF_CH2_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ0_INTF_CH2_MSB    _u(2)
+#define PWM_IRQ0_INTF_CH2_LSB    _u(2)
+#define PWM_IRQ0_INTF_CH2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH1
+#define PWM_IRQ0_INTF_CH1_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ0_INTF_CH1_MSB    _u(1)
+#define PWM_IRQ0_INTF_CH1_LSB    _u(1)
+#define PWM_IRQ0_INTF_CH1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTF_CH0
+#define PWM_IRQ0_INTF_CH0_RESET  _u(0x0)
+#define PWM_IRQ0_INTF_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ0_INTF_CH0_MSB    _u(0)
+#define PWM_IRQ0_INTF_CH0_LSB    _u(0)
+#define PWM_IRQ0_INTF_CH0_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_IRQ0_INTS
+// Description : Interrupt status after masking & forcing for irq0
+#define PWM_IRQ0_INTS_OFFSET _u(0x00000100)
+#define PWM_IRQ0_INTS_BITS   _u(0x00000fff)
+#define PWM_IRQ0_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH11
+#define PWM_IRQ0_INTS_CH11_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ0_INTS_CH11_MSB    _u(11)
+#define PWM_IRQ0_INTS_CH11_LSB    _u(11)
+#define PWM_IRQ0_INTS_CH11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH10
+#define PWM_IRQ0_INTS_CH10_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ0_INTS_CH10_MSB    _u(10)
+#define PWM_IRQ0_INTS_CH10_LSB    _u(10)
+#define PWM_IRQ0_INTS_CH10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH9
+#define PWM_IRQ0_INTS_CH9_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ0_INTS_CH9_MSB    _u(9)
+#define PWM_IRQ0_INTS_CH9_LSB    _u(9)
+#define PWM_IRQ0_INTS_CH9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH8
+#define PWM_IRQ0_INTS_CH8_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ0_INTS_CH8_MSB    _u(8)
+#define PWM_IRQ0_INTS_CH8_LSB    _u(8)
+#define PWM_IRQ0_INTS_CH8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH7
+#define PWM_IRQ0_INTS_CH7_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ0_INTS_CH7_MSB    _u(7)
+#define PWM_IRQ0_INTS_CH7_LSB    _u(7)
+#define PWM_IRQ0_INTS_CH7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH6
+#define PWM_IRQ0_INTS_CH6_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ0_INTS_CH6_MSB    _u(6)
+#define PWM_IRQ0_INTS_CH6_LSB    _u(6)
+#define PWM_IRQ0_INTS_CH6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH5
+#define PWM_IRQ0_INTS_CH5_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ0_INTS_CH5_MSB    _u(5)
+#define PWM_IRQ0_INTS_CH5_LSB    _u(5)
+#define PWM_IRQ0_INTS_CH5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH4
+#define PWM_IRQ0_INTS_CH4_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ0_INTS_CH4_MSB    _u(4)
+#define PWM_IRQ0_INTS_CH4_LSB    _u(4)
+#define PWM_IRQ0_INTS_CH4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH3
+#define PWM_IRQ0_INTS_CH3_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ0_INTS_CH3_MSB    _u(3)
+#define PWM_IRQ0_INTS_CH3_LSB    _u(3)
+#define PWM_IRQ0_INTS_CH3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH2
+#define PWM_IRQ0_INTS_CH2_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ0_INTS_CH2_MSB    _u(2)
+#define PWM_IRQ0_INTS_CH2_LSB    _u(2)
+#define PWM_IRQ0_INTS_CH2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH1
+#define PWM_IRQ0_INTS_CH1_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ0_INTS_CH1_MSB    _u(1)
+#define PWM_IRQ0_INTS_CH1_LSB    _u(1)
+#define PWM_IRQ0_INTS_CH1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ0_INTS_CH0
+#define PWM_IRQ0_INTS_CH0_RESET  _u(0x0)
+#define PWM_IRQ0_INTS_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ0_INTS_CH0_MSB    _u(0)
+#define PWM_IRQ0_INTS_CH0_LSB    _u(0)
+#define PWM_IRQ0_INTS_CH0_ACCESS "RO"
+// =============================================================================
+// Register    : PWM_IRQ1_INTE
+// Description : Interrupt Enable for irq1
+#define PWM_IRQ1_INTE_OFFSET _u(0x00000104)
+#define PWM_IRQ1_INTE_BITS   _u(0x00000fff)
+#define PWM_IRQ1_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH11
+#define PWM_IRQ1_INTE_CH11_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ1_INTE_CH11_MSB    _u(11)
+#define PWM_IRQ1_INTE_CH11_LSB    _u(11)
+#define PWM_IRQ1_INTE_CH11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH10
+#define PWM_IRQ1_INTE_CH10_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ1_INTE_CH10_MSB    _u(10)
+#define PWM_IRQ1_INTE_CH10_LSB    _u(10)
+#define PWM_IRQ1_INTE_CH10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH9
+#define PWM_IRQ1_INTE_CH9_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ1_INTE_CH9_MSB    _u(9)
+#define PWM_IRQ1_INTE_CH9_LSB    _u(9)
+#define PWM_IRQ1_INTE_CH9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH8
+#define PWM_IRQ1_INTE_CH8_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ1_INTE_CH8_MSB    _u(8)
+#define PWM_IRQ1_INTE_CH8_LSB    _u(8)
+#define PWM_IRQ1_INTE_CH8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH7
+#define PWM_IRQ1_INTE_CH7_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ1_INTE_CH7_MSB    _u(7)
+#define PWM_IRQ1_INTE_CH7_LSB    _u(7)
+#define PWM_IRQ1_INTE_CH7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH6
+#define PWM_IRQ1_INTE_CH6_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ1_INTE_CH6_MSB    _u(6)
+#define PWM_IRQ1_INTE_CH6_LSB    _u(6)
+#define PWM_IRQ1_INTE_CH6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH5
+#define PWM_IRQ1_INTE_CH5_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ1_INTE_CH5_MSB    _u(5)
+#define PWM_IRQ1_INTE_CH5_LSB    _u(5)
+#define PWM_IRQ1_INTE_CH5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH4
+#define PWM_IRQ1_INTE_CH4_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ1_INTE_CH4_MSB    _u(4)
+#define PWM_IRQ1_INTE_CH4_LSB    _u(4)
+#define PWM_IRQ1_INTE_CH4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH3
+#define PWM_IRQ1_INTE_CH3_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ1_INTE_CH3_MSB    _u(3)
+#define PWM_IRQ1_INTE_CH3_LSB    _u(3)
+#define PWM_IRQ1_INTE_CH3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH2
+#define PWM_IRQ1_INTE_CH2_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ1_INTE_CH2_MSB    _u(2)
+#define PWM_IRQ1_INTE_CH2_LSB    _u(2)
+#define PWM_IRQ1_INTE_CH2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH1
+#define PWM_IRQ1_INTE_CH1_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ1_INTE_CH1_MSB    _u(1)
+#define PWM_IRQ1_INTE_CH1_LSB    _u(1)
+#define PWM_IRQ1_INTE_CH1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTE_CH0
+#define PWM_IRQ1_INTE_CH0_RESET  _u(0x0)
+#define PWM_IRQ1_INTE_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ1_INTE_CH0_MSB    _u(0)
+#define PWM_IRQ1_INTE_CH0_LSB    _u(0)
+#define PWM_IRQ1_INTE_CH0_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_IRQ1_INTF
+// Description : Interrupt Force for irq1
+#define PWM_IRQ1_INTF_OFFSET _u(0x00000108)
+#define PWM_IRQ1_INTF_BITS   _u(0x00000fff)
+#define PWM_IRQ1_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH11
+#define PWM_IRQ1_INTF_CH11_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ1_INTF_CH11_MSB    _u(11)
+#define PWM_IRQ1_INTF_CH11_LSB    _u(11)
+#define PWM_IRQ1_INTF_CH11_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH10
+#define PWM_IRQ1_INTF_CH10_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ1_INTF_CH10_MSB    _u(10)
+#define PWM_IRQ1_INTF_CH10_LSB    _u(10)
+#define PWM_IRQ1_INTF_CH10_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH9
+#define PWM_IRQ1_INTF_CH9_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ1_INTF_CH9_MSB    _u(9)
+#define PWM_IRQ1_INTF_CH9_LSB    _u(9)
+#define PWM_IRQ1_INTF_CH9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH8
+#define PWM_IRQ1_INTF_CH8_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ1_INTF_CH8_MSB    _u(8)
+#define PWM_IRQ1_INTF_CH8_LSB    _u(8)
+#define PWM_IRQ1_INTF_CH8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH7
+#define PWM_IRQ1_INTF_CH7_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ1_INTF_CH7_MSB    _u(7)
+#define PWM_IRQ1_INTF_CH7_LSB    _u(7)
+#define PWM_IRQ1_INTF_CH7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH6
+#define PWM_IRQ1_INTF_CH6_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ1_INTF_CH6_MSB    _u(6)
+#define PWM_IRQ1_INTF_CH6_LSB    _u(6)
+#define PWM_IRQ1_INTF_CH6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH5
+#define PWM_IRQ1_INTF_CH5_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ1_INTF_CH5_MSB    _u(5)
+#define PWM_IRQ1_INTF_CH5_LSB    _u(5)
+#define PWM_IRQ1_INTF_CH5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH4
+#define PWM_IRQ1_INTF_CH4_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ1_INTF_CH4_MSB    _u(4)
+#define PWM_IRQ1_INTF_CH4_LSB    _u(4)
+#define PWM_IRQ1_INTF_CH4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH3
+#define PWM_IRQ1_INTF_CH3_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ1_INTF_CH3_MSB    _u(3)
+#define PWM_IRQ1_INTF_CH3_LSB    _u(3)
+#define PWM_IRQ1_INTF_CH3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH2
+#define PWM_IRQ1_INTF_CH2_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ1_INTF_CH2_MSB    _u(2)
+#define PWM_IRQ1_INTF_CH2_LSB    _u(2)
+#define PWM_IRQ1_INTF_CH2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH1
+#define PWM_IRQ1_INTF_CH1_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ1_INTF_CH1_MSB    _u(1)
+#define PWM_IRQ1_INTF_CH1_LSB    _u(1)
+#define PWM_IRQ1_INTF_CH1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTF_CH0
+#define PWM_IRQ1_INTF_CH0_RESET  _u(0x0)
+#define PWM_IRQ1_INTF_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ1_INTF_CH0_MSB    _u(0)
+#define PWM_IRQ1_INTF_CH0_LSB    _u(0)
+#define PWM_IRQ1_INTF_CH0_ACCESS "RW"
+// =============================================================================
+// Register    : PWM_IRQ1_INTS
+// Description : Interrupt status after masking & forcing for irq1
+#define PWM_IRQ1_INTS_OFFSET _u(0x0000010c)
+#define PWM_IRQ1_INTS_BITS   _u(0x00000fff)
+#define PWM_IRQ1_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH11
+#define PWM_IRQ1_INTS_CH11_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH11_BITS   _u(0x00000800)
+#define PWM_IRQ1_INTS_CH11_MSB    _u(11)
+#define PWM_IRQ1_INTS_CH11_LSB    _u(11)
+#define PWM_IRQ1_INTS_CH11_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH10
+#define PWM_IRQ1_INTS_CH10_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH10_BITS   _u(0x00000400)
+#define PWM_IRQ1_INTS_CH10_MSB    _u(10)
+#define PWM_IRQ1_INTS_CH10_LSB    _u(10)
+#define PWM_IRQ1_INTS_CH10_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH9
+#define PWM_IRQ1_INTS_CH9_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH9_BITS   _u(0x00000200)
+#define PWM_IRQ1_INTS_CH9_MSB    _u(9)
+#define PWM_IRQ1_INTS_CH9_LSB    _u(9)
+#define PWM_IRQ1_INTS_CH9_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH8
+#define PWM_IRQ1_INTS_CH8_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH8_BITS   _u(0x00000100)
+#define PWM_IRQ1_INTS_CH8_MSB    _u(8)
+#define PWM_IRQ1_INTS_CH8_LSB    _u(8)
+#define PWM_IRQ1_INTS_CH8_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH7
+#define PWM_IRQ1_INTS_CH7_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH7_BITS   _u(0x00000080)
+#define PWM_IRQ1_INTS_CH7_MSB    _u(7)
+#define PWM_IRQ1_INTS_CH7_LSB    _u(7)
+#define PWM_IRQ1_INTS_CH7_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH6
+#define PWM_IRQ1_INTS_CH6_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH6_BITS   _u(0x00000040)
+#define PWM_IRQ1_INTS_CH6_MSB    _u(6)
+#define PWM_IRQ1_INTS_CH6_LSB    _u(6)
+#define PWM_IRQ1_INTS_CH6_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH5
+#define PWM_IRQ1_INTS_CH5_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH5_BITS   _u(0x00000020)
+#define PWM_IRQ1_INTS_CH5_MSB    _u(5)
+#define PWM_IRQ1_INTS_CH5_LSB    _u(5)
+#define PWM_IRQ1_INTS_CH5_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH4
+#define PWM_IRQ1_INTS_CH4_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH4_BITS   _u(0x00000010)
+#define PWM_IRQ1_INTS_CH4_MSB    _u(4)
+#define PWM_IRQ1_INTS_CH4_LSB    _u(4)
+#define PWM_IRQ1_INTS_CH4_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH3
+#define PWM_IRQ1_INTS_CH3_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH3_BITS   _u(0x00000008)
+#define PWM_IRQ1_INTS_CH3_MSB    _u(3)
+#define PWM_IRQ1_INTS_CH3_LSB    _u(3)
+#define PWM_IRQ1_INTS_CH3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH2
+#define PWM_IRQ1_INTS_CH2_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH2_BITS   _u(0x00000004)
+#define PWM_IRQ1_INTS_CH2_MSB    _u(2)
+#define PWM_IRQ1_INTS_CH2_LSB    _u(2)
+#define PWM_IRQ1_INTS_CH2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH1
+#define PWM_IRQ1_INTS_CH1_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH1_BITS   _u(0x00000002)
+#define PWM_IRQ1_INTS_CH1_MSB    _u(1)
+#define PWM_IRQ1_INTS_CH1_LSB    _u(1)
+#define PWM_IRQ1_INTS_CH1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : PWM_IRQ1_INTS_CH0
+#define PWM_IRQ1_INTS_CH0_RESET  _u(0x0)
+#define PWM_IRQ1_INTS_CH0_BITS   _u(0x00000001)
+#define PWM_IRQ1_INTS_CH0_MSB    _u(0)
+#define PWM_IRQ1_INTS_CH0_LSB    _u(0)
+#define PWM_IRQ1_INTS_CH0_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_PWM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/qmi.h b/lib/pico-sdk/rp2350/hardware/regs/qmi.h
new file mode 100644
index 0000000..3efebc1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/qmi.h
@@ -0,0 +1,1781 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : QMI
+// Version        : 1
+// Bus type       : apb
+// Description    : QSPI Memory Interface.
+//
+//                  Provides a memory-mapped interface to up to two
+//                  SPI/DSPI/QSPI flash or PSRAM devices. Also provides a serial
+//                  interface for programming and configuration of the external
+//                  device.
+// =============================================================================
+#ifndef _HARDWARE_REGS_QMI_H
+#define _HARDWARE_REGS_QMI_H
+// =============================================================================
+// Register    : QMI_DIRECT_CSR
+// Description : Control and status for direct serial mode
+//
+//               Direct serial mode allows the processor to send and receive raw
+//               serial frames, for programming, configuration and control of
+//               the external memory devices. Only SPI mode 0 (CPOL=0 CPHA=0) is
+//               supported.
+#define QMI_DIRECT_CSR_OFFSET _u(0x00000000)
+#define QMI_DIRECT_CSR_BITS   _u(0xffdf7ccf)
+#define QMI_DIRECT_CSR_RESET  _u(0x01800000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_RXDELAY
+// Description : Delay the read data sample timing, in units of one half of a
+//               system clock cycle. (Not necessarily half of an SCK cycle.)
+#define QMI_DIRECT_CSR_RXDELAY_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_RXDELAY_BITS   _u(0xc0000000)
+#define QMI_DIRECT_CSR_RXDELAY_MSB    _u(31)
+#define QMI_DIRECT_CSR_RXDELAY_LSB    _u(30)
+#define QMI_DIRECT_CSR_RXDELAY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_CLKDIV
+// Description : Clock divisor for direct serial mode. Divisors of 1..255 are
+//               encoded directly, and the maximum divisor of 256 is encoded by
+//               a value of CLKDIV=0.
+//
+//               The clock divisor can be changed on-the-fly by software,
+//               without halting or otherwise coordinating with the serial
+//               interface. The serial interface will sample the latest clock
+//               divisor each time it begins the transmission of a new byte.
+#define QMI_DIRECT_CSR_CLKDIV_RESET  _u(0x06)
+#define QMI_DIRECT_CSR_CLKDIV_BITS   _u(0x3fc00000)
+#define QMI_DIRECT_CSR_CLKDIV_MSB    _u(29)
+#define QMI_DIRECT_CSR_CLKDIV_LSB    _u(22)
+#define QMI_DIRECT_CSR_CLKDIV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_RXLEVEL
+// Description : Current level of DIRECT_RX FIFO
+#define QMI_DIRECT_CSR_RXLEVEL_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_RXLEVEL_BITS   _u(0x001c0000)
+#define QMI_DIRECT_CSR_RXLEVEL_MSB    _u(20)
+#define QMI_DIRECT_CSR_RXLEVEL_LSB    _u(18)
+#define QMI_DIRECT_CSR_RXLEVEL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_RXFULL
+// Description : When 1, the DIRECT_RX FIFO is currently full. The serial
+//               interface will be stalled until data is popped; the interface
+//               will not begin a new serial frame when the DIRECT_TX FIFO is
+//               empty or the DIRECT_RX FIFO is full.
+#define QMI_DIRECT_CSR_RXFULL_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_RXFULL_BITS   _u(0x00020000)
+#define QMI_DIRECT_CSR_RXFULL_MSB    _u(17)
+#define QMI_DIRECT_CSR_RXFULL_LSB    _u(17)
+#define QMI_DIRECT_CSR_RXFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_RXEMPTY
+// Description : When 1, the DIRECT_RX FIFO is currently empty. If the processor
+//               attempts to read more data, the FIFO state is not affected, but
+//               the value returned to the processor is undefined.
+#define QMI_DIRECT_CSR_RXEMPTY_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_RXEMPTY_BITS   _u(0x00010000)
+#define QMI_DIRECT_CSR_RXEMPTY_MSB    _u(16)
+#define QMI_DIRECT_CSR_RXEMPTY_LSB    _u(16)
+#define QMI_DIRECT_CSR_RXEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_TXLEVEL
+// Description : Current level of DIRECT_TX FIFO
+#define QMI_DIRECT_CSR_TXLEVEL_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_TXLEVEL_BITS   _u(0x00007000)
+#define QMI_DIRECT_CSR_TXLEVEL_MSB    _u(14)
+#define QMI_DIRECT_CSR_TXLEVEL_LSB    _u(12)
+#define QMI_DIRECT_CSR_TXLEVEL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_TXEMPTY
+// Description : When 1, the DIRECT_TX FIFO is currently empty. Unless the
+//               processor pushes more data, transmission will stop and BUSY
+//               will go low once the current 8-bit serial frame completes.
+#define QMI_DIRECT_CSR_TXEMPTY_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_TXEMPTY_BITS   _u(0x00000800)
+#define QMI_DIRECT_CSR_TXEMPTY_MSB    _u(11)
+#define QMI_DIRECT_CSR_TXEMPTY_LSB    _u(11)
+#define QMI_DIRECT_CSR_TXEMPTY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_TXFULL
+// Description : When 1, the DIRECT_TX FIFO is currently full. If the processor
+//               tries to write more data, that data will be ignored.
+#define QMI_DIRECT_CSR_TXFULL_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_TXFULL_BITS   _u(0x00000400)
+#define QMI_DIRECT_CSR_TXFULL_MSB    _u(10)
+#define QMI_DIRECT_CSR_TXFULL_LSB    _u(10)
+#define QMI_DIRECT_CSR_TXFULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_AUTO_CS1N
+// Description : When 1, automatically assert the CS1n chip select line whenever
+//               the BUSY flag is set.
+#define QMI_DIRECT_CSR_AUTO_CS1N_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_AUTO_CS1N_BITS   _u(0x00000080)
+#define QMI_DIRECT_CSR_AUTO_CS1N_MSB    _u(7)
+#define QMI_DIRECT_CSR_AUTO_CS1N_LSB    _u(7)
+#define QMI_DIRECT_CSR_AUTO_CS1N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_AUTO_CS0N
+// Description : When 1, automatically assert the CS0n chip select line whenever
+//               the BUSY flag is set.
+#define QMI_DIRECT_CSR_AUTO_CS0N_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_AUTO_CS0N_BITS   _u(0x00000040)
+#define QMI_DIRECT_CSR_AUTO_CS0N_MSB    _u(6)
+#define QMI_DIRECT_CSR_AUTO_CS0N_LSB    _u(6)
+#define QMI_DIRECT_CSR_AUTO_CS0N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_ASSERT_CS1N
+// Description : When 1, assert (i.e. drive low) the CS1n chip select line.
+//
+//               Note that this applies even when DIRECT_CSR_EN is 0.
+#define QMI_DIRECT_CSR_ASSERT_CS1N_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_ASSERT_CS1N_BITS   _u(0x00000008)
+#define QMI_DIRECT_CSR_ASSERT_CS1N_MSB    _u(3)
+#define QMI_DIRECT_CSR_ASSERT_CS1N_LSB    _u(3)
+#define QMI_DIRECT_CSR_ASSERT_CS1N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_ASSERT_CS0N
+// Description : When 1, assert (i.e. drive low) the CS0n chip select line.
+//
+//               Note that this applies even when DIRECT_CSR_EN is 0.
+#define QMI_DIRECT_CSR_ASSERT_CS0N_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_ASSERT_CS0N_BITS   _u(0x00000004)
+#define QMI_DIRECT_CSR_ASSERT_CS0N_MSB    _u(2)
+#define QMI_DIRECT_CSR_ASSERT_CS0N_LSB    _u(2)
+#define QMI_DIRECT_CSR_ASSERT_CS0N_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_BUSY
+// Description : Direct mode busy flag. If 1, data is currently being shifted
+//               in/out (or would be if the interface were not stalled on the RX
+//               FIFO), and the chip select must not yet be deasserted.
+//
+//               The busy flag will also be set to 1 if a memory-mapped transfer
+//               is still in progress when direct mode is enabled. Direct mode
+//               blocks new memory-mapped transfers, but can't halt a transfer
+//               that is already in progress. If there is a chance that memory-
+//               mapped transfers may be in progress, the busy flag should be
+//               polled for 0 before asserting the chip select.
+//
+//               (In practice you will usually discover this timing condition
+//               through other means, because any subsequent memory-mapped
+//               transfers when direct mode is enabled will return bus errors,
+//               which are difficult to ignore.)
+#define QMI_DIRECT_CSR_BUSY_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_BUSY_BITS   _u(0x00000002)
+#define QMI_DIRECT_CSR_BUSY_MSB    _u(1)
+#define QMI_DIRECT_CSR_BUSY_LSB    _u(1)
+#define QMI_DIRECT_CSR_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_CSR_EN
+// Description : Enable direct mode.
+//
+//               In direct mode, software controls the chip select lines, and
+//               can perform direct SPI transfers by pushing data to the
+//               DIRECT_TX FIFO, and popping the same amount of data from the
+//               DIRECT_RX FIFO.
+//
+//               Memory-mapped accesses will generate bus errors when direct
+//               serial mode is enabled.
+#define QMI_DIRECT_CSR_EN_RESET  _u(0x0)
+#define QMI_DIRECT_CSR_EN_BITS   _u(0x00000001)
+#define QMI_DIRECT_CSR_EN_MSB    _u(0)
+#define QMI_DIRECT_CSR_EN_LSB    _u(0)
+#define QMI_DIRECT_CSR_EN_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_DIRECT_TX
+// Description : Transmit FIFO for direct mode
+#define QMI_DIRECT_TX_OFFSET _u(0x00000004)
+#define QMI_DIRECT_TX_BITS   _u(0x001fffff)
+#define QMI_DIRECT_TX_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_TX_NOPUSH
+// Description : Inhibit the RX FIFO push that would correspond to this TX FIFO
+//               entry.
+//
+//               Useful to avoid garbage appearing in the RX FIFO when pushing
+//               the command at the beginning of a SPI transfer.
+#define QMI_DIRECT_TX_NOPUSH_RESET  _u(0x0)
+#define QMI_DIRECT_TX_NOPUSH_BITS   _u(0x00100000)
+#define QMI_DIRECT_TX_NOPUSH_MSB    _u(20)
+#define QMI_DIRECT_TX_NOPUSH_LSB    _u(20)
+#define QMI_DIRECT_TX_NOPUSH_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_TX_OE
+// Description : Output enable (active-high). For single width (SPI), this field
+//               is ignored, and SD0 is always set to output, with SD1 always
+//               set to input.
+//
+//               For dual and quad width (DSPI/QSPI), this sets whether the
+//               relevant SDx pads are set to output whilst transferring this
+//               FIFO record. In this case the command/address should have OE
+//               set, and the data transfer should have OE set or clear
+//               depending on the direction of the transfer.
+#define QMI_DIRECT_TX_OE_RESET  _u(0x0)
+#define QMI_DIRECT_TX_OE_BITS   _u(0x00080000)
+#define QMI_DIRECT_TX_OE_MSB    _u(19)
+#define QMI_DIRECT_TX_OE_LSB    _u(19)
+#define QMI_DIRECT_TX_OE_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_TX_DWIDTH
+// Description : Data width. If 0, hardware will transmit the 8 LSBs of the
+//               DIRECT_TX DATA field, and return an 8-bit value in the 8 LSBs
+//               of DIRECT_RX. If 1, the full 16-bit width is used. 8-bit and
+//               16-bit transfers can be mixed freely.
+#define QMI_DIRECT_TX_DWIDTH_RESET  _u(0x0)
+#define QMI_DIRECT_TX_DWIDTH_BITS   _u(0x00040000)
+#define QMI_DIRECT_TX_DWIDTH_MSB    _u(18)
+#define QMI_DIRECT_TX_DWIDTH_LSB    _u(18)
+#define QMI_DIRECT_TX_DWIDTH_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_TX_IWIDTH
+// Description : Configure whether this FIFO record is transferred with
+//               single/dual/quad interface width (0/1/2). Different widths can
+//               be mixed freely.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_DIRECT_TX_IWIDTH_RESET  _u(0x0)
+#define QMI_DIRECT_TX_IWIDTH_BITS   _u(0x00030000)
+#define QMI_DIRECT_TX_IWIDTH_MSB    _u(17)
+#define QMI_DIRECT_TX_IWIDTH_LSB    _u(16)
+#define QMI_DIRECT_TX_IWIDTH_ACCESS "WF"
+#define QMI_DIRECT_TX_IWIDTH_VALUE_S _u(0x0)
+#define QMI_DIRECT_TX_IWIDTH_VALUE_D _u(0x1)
+#define QMI_DIRECT_TX_IWIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_DIRECT_TX_DATA
+// Description : Data pushed here will be clocked out falling edges of SCK (or
+//               before the very first rising edge of SCK, if this is the first
+//               pulse). For each byte clocked out, the interface will
+//               simultaneously sample one byte, on rising edges of SCK, and
+//               push this to the DIRECT_RX FIFO.
+//
+//               For 16-bit data, the least-significant byte is transmitted
+//               first.
+#define QMI_DIRECT_TX_DATA_RESET  _u(0x0000)
+#define QMI_DIRECT_TX_DATA_BITS   _u(0x0000ffff)
+#define QMI_DIRECT_TX_DATA_MSB    _u(15)
+#define QMI_DIRECT_TX_DATA_LSB    _u(0)
+#define QMI_DIRECT_TX_DATA_ACCESS "WF"
+// =============================================================================
+// Register    : QMI_DIRECT_RX
+// Description : Receive FIFO for direct mode
+//               With each byte clocked out on the serial interface, one byte
+//               will simultaneously be clocked in, and will appear in this
+//               FIFO. The serial interface will stall when this FIFO is full,
+//               to avoid dropping data.
+//
+//               When 16-bit data is pushed into the TX FIFO, the corresponding
+//               RX FIFO push will also contain 16 bits of data. The least-
+//               significant byte is the first one received.
+#define QMI_DIRECT_RX_OFFSET _u(0x00000008)
+#define QMI_DIRECT_RX_BITS   _u(0x0000ffff)
+#define QMI_DIRECT_RX_RESET  _u(0x00000000)
+#define QMI_DIRECT_RX_MSB    _u(15)
+#define QMI_DIRECT_RX_LSB    _u(0)
+#define QMI_DIRECT_RX_ACCESS "RF"
+// =============================================================================
+// Register    : QMI_M0_TIMING
+// Description : Timing configuration register for memory address window 0.
+#define QMI_M0_TIMING_OFFSET _u(0x0000000c)
+#define QMI_M0_TIMING_BITS   _u(0xf3fff7ff)
+#define QMI_M0_TIMING_RESET  _u(0x40000004)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_COOLDOWN
+// Description : Chip select cooldown period. When a memory transfer finishes,
+//               the chip select remains asserted for 64 x COOLDOWN system clock
+//               cycles, plus half an SCK clock period (rounded up for odd SCK
+//               divisors). After this cooldown expires, the chip select is
+//               always deasserted to save power.
+//
+//               If the next memory access arrives within the cooldown period,
+//               the QMI may be able to append more SCK cycles to the currently
+//               ongoing SPI transfer, rather than starting a new transfer. This
+//               reduces access latency and increases bus throughput.
+//
+//               Specifically, the next access must be in the same direction
+//               (read/write), access the same memory window (chip select 0/1),
+//               and follow sequentially the address of the last transfer. If
+//               any of these are false, the new access will first deassert the
+//               chip select, then begin a new transfer.
+//
+//               If COOLDOWN is 0, the address alignment configured by PAGEBREAK
+//               has been reached, or the total chip select assertion limit
+//               MAX_SELECT has been reached, the cooldown period is skipped,
+//               and the chip select will always be deasserted one half SCK
+//               period after the transfer finishes.
+#define QMI_M0_TIMING_COOLDOWN_RESET  _u(0x1)
+#define QMI_M0_TIMING_COOLDOWN_BITS   _u(0xc0000000)
+#define QMI_M0_TIMING_COOLDOWN_MSB    _u(31)
+#define QMI_M0_TIMING_COOLDOWN_LSB    _u(30)
+#define QMI_M0_TIMING_COOLDOWN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_PAGEBREAK
+// Description : When page break is enabled, chip select will automatically
+//               deassert when crossing certain power-of-2-aligned address
+//               boundaries. The next access will always begin a new read/write
+//               SPI burst, even if the address of the next access follows in
+//               sequence with the last access before the page boundary.
+//
+//               Some flash and PSRAM devices forbid crossing page boundaries
+//               with a single read/write transfer, or restrict the operating
+//               frequency for transfers that do cross page a boundary. This
+//               option allows the QMI to safely support those devices.
+//
+//               This field has no effect when COOLDOWN is disabled.
+//               0x0 -> No page boundary is enforced
+//               0x1 -> Break bursts crossing a 256-byte page boundary
+//               0x2 -> Break bursts crossing a 1024-byte quad-page boundary
+//               0x3 -> Break bursts crossing a 4096-byte sector boundary
+#define QMI_M0_TIMING_PAGEBREAK_RESET  _u(0x0)
+#define QMI_M0_TIMING_PAGEBREAK_BITS   _u(0x30000000)
+#define QMI_M0_TIMING_PAGEBREAK_MSB    _u(29)
+#define QMI_M0_TIMING_PAGEBREAK_LSB    _u(28)
+#define QMI_M0_TIMING_PAGEBREAK_ACCESS "RW"
+#define QMI_M0_TIMING_PAGEBREAK_VALUE_NONE _u(0x0)
+#define QMI_M0_TIMING_PAGEBREAK_VALUE_256 _u(0x1)
+#define QMI_M0_TIMING_PAGEBREAK_VALUE_1024 _u(0x2)
+#define QMI_M0_TIMING_PAGEBREAK_VALUE_4096 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_SELECT_SETUP
+// Description : Add up to one additional system clock cycle of setup between
+//               chip select assertion and the first rising edge of SCK.
+//
+//               The default setup time is one half SCK period, which is usually
+//               sufficient except for very high SCK frequencies with some flash
+//               devices.
+#define QMI_M0_TIMING_SELECT_SETUP_RESET  _u(0x0)
+#define QMI_M0_TIMING_SELECT_SETUP_BITS   _u(0x02000000)
+#define QMI_M0_TIMING_SELECT_SETUP_MSB    _u(25)
+#define QMI_M0_TIMING_SELECT_SETUP_LSB    _u(25)
+#define QMI_M0_TIMING_SELECT_SETUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_SELECT_HOLD
+// Description : Add up to three additional system clock cycles of active hold
+//               between the last falling edge of SCK and the deassertion of
+//               this window's chip select.
+//
+//               The default hold time is one system clock cycle. Note that
+//               flash datasheets usually give chip select active hold time from
+//               the last *rising* edge of SCK, and so even zero hold from the
+//               last falling edge would be safe.
+//
+//               Note that this is a minimum hold time guaranteed by the QMI:
+//               the actual chip select active hold may be slightly longer for
+//               read transfers with low clock divisors and/or high sample
+//               delays. Specifically, if the point two cycles after the last RX
+//               data sample is later than the last SCK falling edge, then the
+//               hold time is measured from *this* point.
+//
+//               Note also that, in case the final SCK pulse is masked to save
+//               energy (true for non-DTR reads when COOLDOWN is disabled or
+//               PAGE_BREAK is reached), all of QMI's timing logic behaves as
+//               though the clock pulse were still present. The SELECT_HOLD time
+//               is applied from the point where the last SCK falling edge would
+//               be if the clock pulse were not masked.
+#define QMI_M0_TIMING_SELECT_HOLD_RESET  _u(0x0)
+#define QMI_M0_TIMING_SELECT_HOLD_BITS   _u(0x01800000)
+#define QMI_M0_TIMING_SELECT_HOLD_MSB    _u(24)
+#define QMI_M0_TIMING_SELECT_HOLD_LSB    _u(23)
+#define QMI_M0_TIMING_SELECT_HOLD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_MAX_SELECT
+// Description : Enforce a maximum assertion duration for this window's chip
+//               select, in units of 64 system clock cycles. If 0, the QMI is
+//               permitted to keep the chip select asserted indefinitely when
+//               servicing sequential memory accesses (see COOLDOWN).
+//
+//               This feature is required to meet timing constraints of PSRAM
+//               devices, which specify a maximum chip select assertion so they
+//               can perform DRAM refresh cycles. See also MIN_DESELECT, which
+//               can enforce a minimum deselect time.
+//
+//               If a memory access is in progress at the time MAX_SELECT is
+//               reached, the QMI will wait for the access to complete before
+//               deasserting the chip select. This additional time must be
+//               accounted for to calculate a safe MAX_SELECT value. In the
+//               worst case, this may be a fully-formed serial transfer,
+//               including command prefix and address, with a data payload as
+//               large as one cache line.
+#define QMI_M0_TIMING_MAX_SELECT_RESET  _u(0x00)
+#define QMI_M0_TIMING_MAX_SELECT_BITS   _u(0x007e0000)
+#define QMI_M0_TIMING_MAX_SELECT_MSB    _u(22)
+#define QMI_M0_TIMING_MAX_SELECT_LSB    _u(17)
+#define QMI_M0_TIMING_MAX_SELECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_MIN_DESELECT
+// Description : After this window's chip select is deasserted, it remains
+//               deasserted for half an SCK cycle (rounded up to an integer
+//               number of system clock cycles), plus MIN_DESELECT additional
+//               system clock cycles, before the QMI reasserts either chip
+//               select pin.
+//
+//               Nonzero values may be required for PSRAM devices which enforce
+//               a longer minimum CS deselect time, so that they can perform
+//               internal DRAM refresh cycles whilst deselected.
+#define QMI_M0_TIMING_MIN_DESELECT_RESET  _u(0x00)
+#define QMI_M0_TIMING_MIN_DESELECT_BITS   _u(0x0001f000)
+#define QMI_M0_TIMING_MIN_DESELECT_MSB    _u(16)
+#define QMI_M0_TIMING_MIN_DESELECT_LSB    _u(12)
+#define QMI_M0_TIMING_MIN_DESELECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_RXDELAY
+// Description : Delay the read data sample timing, in units of one half of a
+//               system clock cycle. (Not necessarily half of an SCK cycle.) An
+//               RXDELAY of 0 means the sample is captured at the SDI input
+//               registers simultaneously with the rising edge of SCK launched
+//               from the SCK output register.
+//
+//               At higher SCK frequencies, RXDELAY may need to be increased to
+//               account for the round trip delay of the pads, and the clock-
+//               to-Q delay of the QSPI memory device.
+#define QMI_M0_TIMING_RXDELAY_RESET  _u(0x0)
+#define QMI_M0_TIMING_RXDELAY_BITS   _u(0x00000700)
+#define QMI_M0_TIMING_RXDELAY_MSB    _u(10)
+#define QMI_M0_TIMING_RXDELAY_LSB    _u(8)
+#define QMI_M0_TIMING_RXDELAY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_TIMING_CLKDIV
+// Description : Clock divisor. Odd and even divisors are supported. Defines the
+//               SCK clock period in units of 1 system clock cycle. Divisors
+//               1..255 are encoded directly, and a divisor of 256 is encoded
+//               with a value of CLKDIV=0.
+//
+//               The clock divisor can be changed on-the-fly, even when the QMI
+//               is currently accessing memory in this address window. All other
+//               parameters must only be changed when the QMI is idle.
+//
+//               If software is increasing CLKDIV in anticipation of an increase
+//               in the system clock frequency, a dummy access to either memory
+//               window (and appropriate processor barriers/fences) must be
+//               inserted after the Mx_TIMING write to ensure the SCK divisor
+//               change is in effect _before_ the system clock is changed.
+#define QMI_M0_TIMING_CLKDIV_RESET  _u(0x04)
+#define QMI_M0_TIMING_CLKDIV_BITS   _u(0x000000ff)
+#define QMI_M0_TIMING_CLKDIV_MSB    _u(7)
+#define QMI_M0_TIMING_CLKDIV_LSB    _u(0)
+#define QMI_M0_TIMING_CLKDIV_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_M0_RFMT
+// Description : Read transfer format configuration for memory address window 0.
+//
+//               Configure the bus width of each transfer phase individually,
+//               and configure the length or presence of the command prefix,
+//               command suffix and dummy/turnaround transfer phases. Only
+//               24-bit addresses are supported.
+//
+//               The reset value of the M0_RFMT register is configured to
+//               support a basic 03h serial read transfer with no additional
+//               configuration.
+#define QMI_M0_RFMT_OFFSET _u(0x00000010)
+#define QMI_M0_RFMT_BITS   _u(0x1007d3ff)
+#define QMI_M0_RFMT_RESET  _u(0x00001000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_DTR
+// Description : Enable double transfer rate (DTR) for read commands: address,
+//               suffix and read data phases are active on both edges of SCK.
+//               SDO data is launched centre-aligned on each SCK edge, and SDI
+//               data is captured on the SCK edge that follows its launch.
+//
+//               DTR is implemented by halving the clock rate; SCK has a period
+//               of 2 x CLK_DIV throughout the transfer. The prefix and dummy
+//               phases are still single transfer rate.
+//
+//               If the suffix is quad-width, it must be 0 or 8 bits in length,
+//               to ensure an even number of SCK edges.
+#define QMI_M0_RFMT_DTR_RESET  _u(0x0)
+#define QMI_M0_RFMT_DTR_BITS   _u(0x10000000)
+#define QMI_M0_RFMT_DTR_MSB    _u(28)
+#define QMI_M0_RFMT_DTR_LSB    _u(28)
+#define QMI_M0_RFMT_DTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_DUMMY_LEN
+// Description : Length of dummy phase between command suffix and data phase, in
+//               units of 4 bits. (i.e. 1 cycle for quad width, 2 for dual, 4
+//               for single)
+//               0x0 -> No dummy phase
+//               0x1 -> 4 dummy bits
+//               0x2 -> 8 dummy bits
+//               0x3 -> 12 dummy bits
+//               0x4 -> 16 dummy bits
+//               0x5 -> 20 dummy bits
+//               0x6 -> 24 dummy bits
+//               0x7 -> 28 dummy bits
+#define QMI_M0_RFMT_DUMMY_LEN_RESET  _u(0x0)
+#define QMI_M0_RFMT_DUMMY_LEN_BITS   _u(0x00070000)
+#define QMI_M0_RFMT_DUMMY_LEN_MSB    _u(18)
+#define QMI_M0_RFMT_DUMMY_LEN_LSB    _u(16)
+#define QMI_M0_RFMT_DUMMY_LEN_ACCESS "RW"
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_4 _u(0x1)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_8 _u(0x2)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_12 _u(0x3)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_16 _u(0x4)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_20 _u(0x5)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_24 _u(0x6)
+#define QMI_M0_RFMT_DUMMY_LEN_VALUE_28 _u(0x7)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_SUFFIX_LEN
+// Description : Length of post-address command suffix, in units of 4 bits.
+//               (i.e. 1 cycle for quad width, 2 for dual, 4 for single)
+//
+//               Only values of 0 and 8 bits are supported.
+//               0x0 -> No suffix
+//               0x2 -> 8-bit suffix
+#define QMI_M0_RFMT_SUFFIX_LEN_RESET  _u(0x0)
+#define QMI_M0_RFMT_SUFFIX_LEN_BITS   _u(0x0000c000)
+#define QMI_M0_RFMT_SUFFIX_LEN_MSB    _u(15)
+#define QMI_M0_RFMT_SUFFIX_LEN_LSB    _u(14)
+#define QMI_M0_RFMT_SUFFIX_LEN_ACCESS "RW"
+#define QMI_M0_RFMT_SUFFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_RFMT_SUFFIX_LEN_VALUE_8 _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_PREFIX_LEN
+// Description : Length of command prefix, in units of 8 bits. (i.e. 2 cycles
+//               for quad width, 4 for dual, 8 for single)
+//               0x0 -> No prefix
+//               0x1 -> 8-bit prefix
+#define QMI_M0_RFMT_PREFIX_LEN_RESET  _u(0x1)
+#define QMI_M0_RFMT_PREFIX_LEN_BITS   _u(0x00001000)
+#define QMI_M0_RFMT_PREFIX_LEN_MSB    _u(12)
+#define QMI_M0_RFMT_PREFIX_LEN_LSB    _u(12)
+#define QMI_M0_RFMT_PREFIX_LEN_ACCESS "RW"
+#define QMI_M0_RFMT_PREFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_RFMT_PREFIX_LEN_VALUE_8 _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_DATA_WIDTH
+// Description : The width used for the data transfer
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_RFMT_DATA_WIDTH_RESET  _u(0x0)
+#define QMI_M0_RFMT_DATA_WIDTH_BITS   _u(0x00000300)
+#define QMI_M0_RFMT_DATA_WIDTH_MSB    _u(9)
+#define QMI_M0_RFMT_DATA_WIDTH_LSB    _u(8)
+#define QMI_M0_RFMT_DATA_WIDTH_ACCESS "RW"
+#define QMI_M0_RFMT_DATA_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_RFMT_DATA_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_RFMT_DATA_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_DUMMY_WIDTH
+// Description : The width used for the dummy phase, if any.
+//
+//               If width is single, SD0/MOSI is held asserted low during the
+//               dummy phase, and SD1...SD3 are tristated. If width is
+//               dual/quad, all IOs are tristated during the dummy phase.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_RFMT_DUMMY_WIDTH_RESET  _u(0x0)
+#define QMI_M0_RFMT_DUMMY_WIDTH_BITS   _u(0x000000c0)
+#define QMI_M0_RFMT_DUMMY_WIDTH_MSB    _u(7)
+#define QMI_M0_RFMT_DUMMY_WIDTH_LSB    _u(6)
+#define QMI_M0_RFMT_DUMMY_WIDTH_ACCESS "RW"
+#define QMI_M0_RFMT_DUMMY_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_RFMT_DUMMY_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_RFMT_DUMMY_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_SUFFIX_WIDTH
+// Description : The width used for the post-address command suffix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_RFMT_SUFFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_BITS   _u(0x00000030)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_MSB    _u(5)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_LSB    _u(4)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_ACCESS "RW"
+#define QMI_M0_RFMT_SUFFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_RFMT_SUFFIX_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_ADDR_WIDTH
+// Description : The transfer width used for the address. The address phase
+//               always transfers 24 bits in total.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_RFMT_ADDR_WIDTH_RESET  _u(0x0)
+#define QMI_M0_RFMT_ADDR_WIDTH_BITS   _u(0x0000000c)
+#define QMI_M0_RFMT_ADDR_WIDTH_MSB    _u(3)
+#define QMI_M0_RFMT_ADDR_WIDTH_LSB    _u(2)
+#define QMI_M0_RFMT_ADDR_WIDTH_ACCESS "RW"
+#define QMI_M0_RFMT_ADDR_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_RFMT_ADDR_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_RFMT_ADDR_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RFMT_PREFIX_WIDTH
+// Description : The transfer width used for the command prefix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_RFMT_PREFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M0_RFMT_PREFIX_WIDTH_BITS   _u(0x00000003)
+#define QMI_M0_RFMT_PREFIX_WIDTH_MSB    _u(1)
+#define QMI_M0_RFMT_PREFIX_WIDTH_LSB    _u(0)
+#define QMI_M0_RFMT_PREFIX_WIDTH_ACCESS "RW"
+#define QMI_M0_RFMT_PREFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_RFMT_PREFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_RFMT_PREFIX_WIDTH_VALUE_Q _u(0x2)
+// =============================================================================
+// Register    : QMI_M0_RCMD
+// Description : Command constants used for reads from memory address window 0.
+//
+//               The reset value of the M0_RCMD register is configured to
+//               support a basic 03h serial read transfer with no additional
+//               configuration.
+#define QMI_M0_RCMD_OFFSET _u(0x00000014)
+#define QMI_M0_RCMD_BITS   _u(0x0000ffff)
+#define QMI_M0_RCMD_RESET  _u(0x0000a003)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RCMD_SUFFIX
+// Description : The command suffix bits following the address, if
+//               Mx_RFMT_SUFFIX_LEN is nonzero.
+#define QMI_M0_RCMD_SUFFIX_RESET  _u(0xa0)
+#define QMI_M0_RCMD_SUFFIX_BITS   _u(0x0000ff00)
+#define QMI_M0_RCMD_SUFFIX_MSB    _u(15)
+#define QMI_M0_RCMD_SUFFIX_LSB    _u(8)
+#define QMI_M0_RCMD_SUFFIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_RCMD_PREFIX
+// Description : The command prefix bits to prepend on each new transfer, if
+//               Mx_RFMT_PREFIX_LEN is nonzero.
+#define QMI_M0_RCMD_PREFIX_RESET  _u(0x03)
+#define QMI_M0_RCMD_PREFIX_BITS   _u(0x000000ff)
+#define QMI_M0_RCMD_PREFIX_MSB    _u(7)
+#define QMI_M0_RCMD_PREFIX_LSB    _u(0)
+#define QMI_M0_RCMD_PREFIX_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_M0_WFMT
+// Description : Write transfer format configuration for memory address window
+//               0.
+//
+//               Configure the bus width of each transfer phase individually,
+//               and configure the length or presence of the command prefix,
+//               command suffix and dummy/turnaround transfer phases. Only
+//               24-bit addresses are supported.
+//
+//               The reset value of the M0_WFMT register is configured to
+//               support a basic 02h serial write transfer. However, writes to
+//               this window must first be enabled via the XIP_CTRL_WRITABLE_M0
+//               bit, as XIP memory is read-only by default.
+#define QMI_M0_WFMT_OFFSET _u(0x00000018)
+#define QMI_M0_WFMT_BITS   _u(0x1007d3ff)
+#define QMI_M0_WFMT_RESET  _u(0x00001000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_DTR
+// Description : Enable double transfer rate (DTR) for write commands: address,
+//               suffix and write data phases are active on both edges of SCK.
+//               SDO data is launched centre-aligned on each SCK edge, and SDI
+//               data is captured on the SCK edge that follows its launch.
+//
+//               DTR is implemented by halving the clock rate; SCK has a period
+//               of 2 x CLK_DIV throughout the transfer. The prefix and dummy
+//               phases are still single transfer rate.
+//
+//               If the suffix is quad-width, it must be 0 or 8 bits in length,
+//               to ensure an even number of SCK edges.
+#define QMI_M0_WFMT_DTR_RESET  _u(0x0)
+#define QMI_M0_WFMT_DTR_BITS   _u(0x10000000)
+#define QMI_M0_WFMT_DTR_MSB    _u(28)
+#define QMI_M0_WFMT_DTR_LSB    _u(28)
+#define QMI_M0_WFMT_DTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_DUMMY_LEN
+// Description : Length of dummy phase between command suffix and data phase, in
+//               units of 4 bits. (i.e. 1 cycle for quad width, 2 for dual, 4
+//               for single)
+//               0x0 -> No dummy phase
+//               0x1 -> 4 dummy bits
+//               0x2 -> 8 dummy bits
+//               0x3 -> 12 dummy bits
+//               0x4 -> 16 dummy bits
+//               0x5 -> 20 dummy bits
+//               0x6 -> 24 dummy bits
+//               0x7 -> 28 dummy bits
+#define QMI_M0_WFMT_DUMMY_LEN_RESET  _u(0x0)
+#define QMI_M0_WFMT_DUMMY_LEN_BITS   _u(0x00070000)
+#define QMI_M0_WFMT_DUMMY_LEN_MSB    _u(18)
+#define QMI_M0_WFMT_DUMMY_LEN_LSB    _u(16)
+#define QMI_M0_WFMT_DUMMY_LEN_ACCESS "RW"
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_4 _u(0x1)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_8 _u(0x2)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_12 _u(0x3)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_16 _u(0x4)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_20 _u(0x5)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_24 _u(0x6)
+#define QMI_M0_WFMT_DUMMY_LEN_VALUE_28 _u(0x7)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_SUFFIX_LEN
+// Description : Length of post-address command suffix, in units of 4 bits.
+//               (i.e. 1 cycle for quad width, 2 for dual, 4 for single)
+//
+//               Only values of 0 and 8 bits are supported.
+//               0x0 -> No suffix
+//               0x2 -> 8-bit suffix
+#define QMI_M0_WFMT_SUFFIX_LEN_RESET  _u(0x0)
+#define QMI_M0_WFMT_SUFFIX_LEN_BITS   _u(0x0000c000)
+#define QMI_M0_WFMT_SUFFIX_LEN_MSB    _u(15)
+#define QMI_M0_WFMT_SUFFIX_LEN_LSB    _u(14)
+#define QMI_M0_WFMT_SUFFIX_LEN_ACCESS "RW"
+#define QMI_M0_WFMT_SUFFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_WFMT_SUFFIX_LEN_VALUE_8 _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_PREFIX_LEN
+// Description : Length of command prefix, in units of 8 bits. (i.e. 2 cycles
+//               for quad width, 4 for dual, 8 for single)
+//               0x0 -> No prefix
+//               0x1 -> 8-bit prefix
+#define QMI_M0_WFMT_PREFIX_LEN_RESET  _u(0x1)
+#define QMI_M0_WFMT_PREFIX_LEN_BITS   _u(0x00001000)
+#define QMI_M0_WFMT_PREFIX_LEN_MSB    _u(12)
+#define QMI_M0_WFMT_PREFIX_LEN_LSB    _u(12)
+#define QMI_M0_WFMT_PREFIX_LEN_ACCESS "RW"
+#define QMI_M0_WFMT_PREFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M0_WFMT_PREFIX_LEN_VALUE_8 _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_DATA_WIDTH
+// Description : The width used for the data transfer
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_WFMT_DATA_WIDTH_RESET  _u(0x0)
+#define QMI_M0_WFMT_DATA_WIDTH_BITS   _u(0x00000300)
+#define QMI_M0_WFMT_DATA_WIDTH_MSB    _u(9)
+#define QMI_M0_WFMT_DATA_WIDTH_LSB    _u(8)
+#define QMI_M0_WFMT_DATA_WIDTH_ACCESS "RW"
+#define QMI_M0_WFMT_DATA_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_WFMT_DATA_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_WFMT_DATA_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_DUMMY_WIDTH
+// Description : The width used for the dummy phase, if any.
+//
+//               If width is single, SD0/MOSI is held asserted low during the
+//               dummy phase, and SD1...SD3 are tristated. If width is
+//               dual/quad, all IOs are tristated during the dummy phase.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_WFMT_DUMMY_WIDTH_RESET  _u(0x0)
+#define QMI_M0_WFMT_DUMMY_WIDTH_BITS   _u(0x000000c0)
+#define QMI_M0_WFMT_DUMMY_WIDTH_MSB    _u(7)
+#define QMI_M0_WFMT_DUMMY_WIDTH_LSB    _u(6)
+#define QMI_M0_WFMT_DUMMY_WIDTH_ACCESS "RW"
+#define QMI_M0_WFMT_DUMMY_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_WFMT_DUMMY_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_WFMT_DUMMY_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_SUFFIX_WIDTH
+// Description : The width used for the post-address command suffix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_WFMT_SUFFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_BITS   _u(0x00000030)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_MSB    _u(5)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_LSB    _u(4)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_ACCESS "RW"
+#define QMI_M0_WFMT_SUFFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_WFMT_SUFFIX_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_ADDR_WIDTH
+// Description : The transfer width used for the address. The address phase
+//               always transfers 24 bits in total.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_WFMT_ADDR_WIDTH_RESET  _u(0x0)
+#define QMI_M0_WFMT_ADDR_WIDTH_BITS   _u(0x0000000c)
+#define QMI_M0_WFMT_ADDR_WIDTH_MSB    _u(3)
+#define QMI_M0_WFMT_ADDR_WIDTH_LSB    _u(2)
+#define QMI_M0_WFMT_ADDR_WIDTH_ACCESS "RW"
+#define QMI_M0_WFMT_ADDR_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_WFMT_ADDR_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_WFMT_ADDR_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WFMT_PREFIX_WIDTH
+// Description : The transfer width used for the command prefix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M0_WFMT_PREFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M0_WFMT_PREFIX_WIDTH_BITS   _u(0x00000003)
+#define QMI_M0_WFMT_PREFIX_WIDTH_MSB    _u(1)
+#define QMI_M0_WFMT_PREFIX_WIDTH_LSB    _u(0)
+#define QMI_M0_WFMT_PREFIX_WIDTH_ACCESS "RW"
+#define QMI_M0_WFMT_PREFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M0_WFMT_PREFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M0_WFMT_PREFIX_WIDTH_VALUE_Q _u(0x2)
+// =============================================================================
+// Register    : QMI_M0_WCMD
+// Description : Command constants used for writes to memory address window 0.
+//
+//               The reset value of the M0_WCMD register is configured to
+//               support a basic 02h serial write transfer with no additional
+//               configuration.
+#define QMI_M0_WCMD_OFFSET _u(0x0000001c)
+#define QMI_M0_WCMD_BITS   _u(0x0000ffff)
+#define QMI_M0_WCMD_RESET  _u(0x0000a002)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WCMD_SUFFIX
+// Description : The command suffix bits following the address, if
+//               Mx_WFMT_SUFFIX_LEN is nonzero.
+#define QMI_M0_WCMD_SUFFIX_RESET  _u(0xa0)
+#define QMI_M0_WCMD_SUFFIX_BITS   _u(0x0000ff00)
+#define QMI_M0_WCMD_SUFFIX_MSB    _u(15)
+#define QMI_M0_WCMD_SUFFIX_LSB    _u(8)
+#define QMI_M0_WCMD_SUFFIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M0_WCMD_PREFIX
+// Description : The command prefix bits to prepend on each new transfer, if
+//               Mx_WFMT_PREFIX_LEN is nonzero.
+#define QMI_M0_WCMD_PREFIX_RESET  _u(0x02)
+#define QMI_M0_WCMD_PREFIX_BITS   _u(0x000000ff)
+#define QMI_M0_WCMD_PREFIX_MSB    _u(7)
+#define QMI_M0_WCMD_PREFIX_LSB    _u(0)
+#define QMI_M0_WCMD_PREFIX_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_M1_TIMING
+// Description : Timing configuration register for memory address window 1.
+#define QMI_M1_TIMING_OFFSET _u(0x00000020)
+#define QMI_M1_TIMING_BITS   _u(0xf3fff7ff)
+#define QMI_M1_TIMING_RESET  _u(0x40000004)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_COOLDOWN
+// Description : Chip select cooldown period. When a memory transfer finishes,
+//               the chip select remains asserted for 64 x COOLDOWN system clock
+//               cycles, plus half an SCK clock period (rounded up for odd SCK
+//               divisors). After this cooldown expires, the chip select is
+//               always deasserted to save power.
+//
+//               If the next memory access arrives within the cooldown period,
+//               the QMI may be able to append more SCK cycles to the currently
+//               ongoing SPI transfer, rather than starting a new transfer. This
+//               reduces access latency and increases bus throughput.
+//
+//               Specifically, the next access must be in the same direction
+//               (read/write), access the same memory window (chip select 0/1),
+//               and follow sequentially the address of the last transfer. If
+//               any of these are false, the new access will first deassert the
+//               chip select, then begin a new transfer.
+//
+//               If COOLDOWN is 0, the address alignment configured by PAGEBREAK
+//               has been reached, or the total chip select assertion limit
+//               MAX_SELECT has been reached, the cooldown period is skipped,
+//               and the chip select will always be deasserted one half SCK
+//               period after the transfer finishes.
+#define QMI_M1_TIMING_COOLDOWN_RESET  _u(0x1)
+#define QMI_M1_TIMING_COOLDOWN_BITS   _u(0xc0000000)
+#define QMI_M1_TIMING_COOLDOWN_MSB    _u(31)
+#define QMI_M1_TIMING_COOLDOWN_LSB    _u(30)
+#define QMI_M1_TIMING_COOLDOWN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_PAGEBREAK
+// Description : When page break is enabled, chip select will automatically
+//               deassert when crossing certain power-of-2-aligned address
+//               boundaries. The next access will always begin a new read/write
+//               SPI burst, even if the address of the next access follows in
+//               sequence with the last access before the page boundary.
+//
+//               Some flash and PSRAM devices forbid crossing page boundaries
+//               with a single read/write transfer, or restrict the operating
+//               frequency for transfers that do cross page a boundary. This
+//               option allows the QMI to safely support those devices.
+//
+//               This field has no effect when COOLDOWN is disabled.
+//               0x0 -> No page boundary is enforced
+//               0x1 -> Break bursts crossing a 256-byte page boundary
+//               0x2 -> Break bursts crossing a 1024-byte quad-page boundary
+//               0x3 -> Break bursts crossing a 4096-byte sector boundary
+#define QMI_M1_TIMING_PAGEBREAK_RESET  _u(0x0)
+#define QMI_M1_TIMING_PAGEBREAK_BITS   _u(0x30000000)
+#define QMI_M1_TIMING_PAGEBREAK_MSB    _u(29)
+#define QMI_M1_TIMING_PAGEBREAK_LSB    _u(28)
+#define QMI_M1_TIMING_PAGEBREAK_ACCESS "RW"
+#define QMI_M1_TIMING_PAGEBREAK_VALUE_NONE _u(0x0)
+#define QMI_M1_TIMING_PAGEBREAK_VALUE_256 _u(0x1)
+#define QMI_M1_TIMING_PAGEBREAK_VALUE_1024 _u(0x2)
+#define QMI_M1_TIMING_PAGEBREAK_VALUE_4096 _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_SELECT_SETUP
+// Description : Add up to one additional system clock cycle of setup between
+//               chip select assertion and the first rising edge of SCK.
+//
+//               The default setup time is one half SCK period, which is usually
+//               sufficient except for very high SCK frequencies with some flash
+//               devices.
+#define QMI_M1_TIMING_SELECT_SETUP_RESET  _u(0x0)
+#define QMI_M1_TIMING_SELECT_SETUP_BITS   _u(0x02000000)
+#define QMI_M1_TIMING_SELECT_SETUP_MSB    _u(25)
+#define QMI_M1_TIMING_SELECT_SETUP_LSB    _u(25)
+#define QMI_M1_TIMING_SELECT_SETUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_SELECT_HOLD
+// Description : Add up to three additional system clock cycles of active hold
+//               between the last falling edge of SCK and the deassertion of
+//               this window's chip select.
+//
+//               The default hold time is one system clock cycle. Note that
+//               flash datasheets usually give chip select active hold time from
+//               the last *rising* edge of SCK, and so even zero hold from the
+//               last falling edge would be safe.
+//
+//               Note that this is a minimum hold time guaranteed by the QMI:
+//               the actual chip select active hold may be slightly longer for
+//               read transfers with low clock divisors and/or high sample
+//               delays. Specifically, if the point two cycles after the last RX
+//               data sample is later than the last SCK falling edge, then the
+//               hold time is measured from *this* point.
+//
+//               Note also that, in case the final SCK pulse is masked to save
+//               energy (true for non-DTR reads when COOLDOWN is disabled or
+//               PAGE_BREAK is reached), all of QMI's timing logic behaves as
+//               though the clock pulse were still present. The SELECT_HOLD time
+//               is applied from the point where the last SCK falling edge would
+//               be if the clock pulse were not masked.
+#define QMI_M1_TIMING_SELECT_HOLD_RESET  _u(0x0)
+#define QMI_M1_TIMING_SELECT_HOLD_BITS   _u(0x01800000)
+#define QMI_M1_TIMING_SELECT_HOLD_MSB    _u(24)
+#define QMI_M1_TIMING_SELECT_HOLD_LSB    _u(23)
+#define QMI_M1_TIMING_SELECT_HOLD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_MAX_SELECT
+// Description : Enforce a maximum assertion duration for this window's chip
+//               select, in units of 64 system clock cycles. If 0, the QMI is
+//               permitted to keep the chip select asserted indefinitely when
+//               servicing sequential memory accesses (see COOLDOWN).
+//
+//               This feature is required to meet timing constraints of PSRAM
+//               devices, which specify a maximum chip select assertion so they
+//               can perform DRAM refresh cycles. See also MIN_DESELECT, which
+//               can enforce a minimum deselect time.
+//
+//               If a memory access is in progress at the time MAX_SELECT is
+//               reached, the QMI will wait for the access to complete before
+//               deasserting the chip select. This additional time must be
+//               accounted for to calculate a safe MAX_SELECT value. In the
+//               worst case, this may be a fully-formed serial transfer,
+//               including command prefix and address, with a data payload as
+//               large as one cache line.
+#define QMI_M1_TIMING_MAX_SELECT_RESET  _u(0x00)
+#define QMI_M1_TIMING_MAX_SELECT_BITS   _u(0x007e0000)
+#define QMI_M1_TIMING_MAX_SELECT_MSB    _u(22)
+#define QMI_M1_TIMING_MAX_SELECT_LSB    _u(17)
+#define QMI_M1_TIMING_MAX_SELECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_MIN_DESELECT
+// Description : After this window's chip select is deasserted, it remains
+//               deasserted for half an SCK cycle (rounded up to an integer
+//               number of system clock cycles), plus MIN_DESELECT additional
+//               system clock cycles, before the QMI reasserts either chip
+//               select pin.
+//
+//               Nonzero values may be required for PSRAM devices which enforce
+//               a longer minimum CS deselect time, so that they can perform
+//               internal DRAM refresh cycles whilst deselected.
+#define QMI_M1_TIMING_MIN_DESELECT_RESET  _u(0x00)
+#define QMI_M1_TIMING_MIN_DESELECT_BITS   _u(0x0001f000)
+#define QMI_M1_TIMING_MIN_DESELECT_MSB    _u(16)
+#define QMI_M1_TIMING_MIN_DESELECT_LSB    _u(12)
+#define QMI_M1_TIMING_MIN_DESELECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_RXDELAY
+// Description : Delay the read data sample timing, in units of one half of a
+//               system clock cycle. (Not necessarily half of an SCK cycle.) An
+//               RXDELAY of 0 means the sample is captured at the SDI input
+//               registers simultaneously with the rising edge of SCK launched
+//               from the SCK output register.
+//
+//               At higher SCK frequencies, RXDELAY may need to be increased to
+//               account for the round trip delay of the pads, and the clock-
+//               to-Q delay of the QSPI memory device.
+#define QMI_M1_TIMING_RXDELAY_RESET  _u(0x0)
+#define QMI_M1_TIMING_RXDELAY_BITS   _u(0x00000700)
+#define QMI_M1_TIMING_RXDELAY_MSB    _u(10)
+#define QMI_M1_TIMING_RXDELAY_LSB    _u(8)
+#define QMI_M1_TIMING_RXDELAY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_TIMING_CLKDIV
+// Description : Clock divisor. Odd and even divisors are supported. Defines the
+//               SCK clock period in units of 1 system clock cycle. Divisors
+//               1..255 are encoded directly, and a divisor of 256 is encoded
+//               with a value of CLKDIV=0.
+//
+//               The clock divisor can be changed on-the-fly, even when the QMI
+//               is currently accessing memory in this address window. All other
+//               parameters must only be changed when the QMI is idle.
+//
+//               If software is increasing CLKDIV in anticipation of an increase
+//               in the system clock frequency, a dummy access to either memory
+//               window (and appropriate processor barriers/fences) must be
+//               inserted after the Mx_TIMING write to ensure the SCK divisor
+//               change is in effect _before_ the system clock is changed.
+#define QMI_M1_TIMING_CLKDIV_RESET  _u(0x04)
+#define QMI_M1_TIMING_CLKDIV_BITS   _u(0x000000ff)
+#define QMI_M1_TIMING_CLKDIV_MSB    _u(7)
+#define QMI_M1_TIMING_CLKDIV_LSB    _u(0)
+#define QMI_M1_TIMING_CLKDIV_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_M1_RFMT
+// Description : Read transfer format configuration for memory address window 1.
+//
+//               Configure the bus width of each transfer phase individually,
+//               and configure the length or presence of the command prefix,
+//               command suffix and dummy/turnaround transfer phases. Only
+//               24-bit addresses are supported.
+//
+//               The reset value of the M1_RFMT register is configured to
+//               support a basic 03h serial read transfer with no additional
+//               configuration.
+#define QMI_M1_RFMT_OFFSET _u(0x00000024)
+#define QMI_M1_RFMT_BITS   _u(0x1007d3ff)
+#define QMI_M1_RFMT_RESET  _u(0x00001000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_DTR
+// Description : Enable double transfer rate (DTR) for read commands: address,
+//               suffix and read data phases are active on both edges of SCK.
+//               SDO data is launched centre-aligned on each SCK edge, and SDI
+//               data is captured on the SCK edge that follows its launch.
+//
+//               DTR is implemented by halving the clock rate; SCK has a period
+//               of 2 x CLK_DIV throughout the transfer. The prefix and dummy
+//               phases are still single transfer rate.
+//
+//               If the suffix is quad-width, it must be 0 or 8 bits in length,
+//               to ensure an even number of SCK edges.
+#define QMI_M1_RFMT_DTR_RESET  _u(0x0)
+#define QMI_M1_RFMT_DTR_BITS   _u(0x10000000)
+#define QMI_M1_RFMT_DTR_MSB    _u(28)
+#define QMI_M1_RFMT_DTR_LSB    _u(28)
+#define QMI_M1_RFMT_DTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_DUMMY_LEN
+// Description : Length of dummy phase between command suffix and data phase, in
+//               units of 4 bits. (i.e. 1 cycle for quad width, 2 for dual, 4
+//               for single)
+//               0x0 -> No dummy phase
+//               0x1 -> 4 dummy bits
+//               0x2 -> 8 dummy bits
+//               0x3 -> 12 dummy bits
+//               0x4 -> 16 dummy bits
+//               0x5 -> 20 dummy bits
+//               0x6 -> 24 dummy bits
+//               0x7 -> 28 dummy bits
+#define QMI_M1_RFMT_DUMMY_LEN_RESET  _u(0x0)
+#define QMI_M1_RFMT_DUMMY_LEN_BITS   _u(0x00070000)
+#define QMI_M1_RFMT_DUMMY_LEN_MSB    _u(18)
+#define QMI_M1_RFMT_DUMMY_LEN_LSB    _u(16)
+#define QMI_M1_RFMT_DUMMY_LEN_ACCESS "RW"
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_4 _u(0x1)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_8 _u(0x2)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_12 _u(0x3)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_16 _u(0x4)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_20 _u(0x5)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_24 _u(0x6)
+#define QMI_M1_RFMT_DUMMY_LEN_VALUE_28 _u(0x7)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_SUFFIX_LEN
+// Description : Length of post-address command suffix, in units of 4 bits.
+//               (i.e. 1 cycle for quad width, 2 for dual, 4 for single)
+//
+//               Only values of 0 and 8 bits are supported.
+//               0x0 -> No suffix
+//               0x2 -> 8-bit suffix
+#define QMI_M1_RFMT_SUFFIX_LEN_RESET  _u(0x0)
+#define QMI_M1_RFMT_SUFFIX_LEN_BITS   _u(0x0000c000)
+#define QMI_M1_RFMT_SUFFIX_LEN_MSB    _u(15)
+#define QMI_M1_RFMT_SUFFIX_LEN_LSB    _u(14)
+#define QMI_M1_RFMT_SUFFIX_LEN_ACCESS "RW"
+#define QMI_M1_RFMT_SUFFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_RFMT_SUFFIX_LEN_VALUE_8 _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_PREFIX_LEN
+// Description : Length of command prefix, in units of 8 bits. (i.e. 2 cycles
+//               for quad width, 4 for dual, 8 for single)
+//               0x0 -> No prefix
+//               0x1 -> 8-bit prefix
+#define QMI_M1_RFMT_PREFIX_LEN_RESET  _u(0x1)
+#define QMI_M1_RFMT_PREFIX_LEN_BITS   _u(0x00001000)
+#define QMI_M1_RFMT_PREFIX_LEN_MSB    _u(12)
+#define QMI_M1_RFMT_PREFIX_LEN_LSB    _u(12)
+#define QMI_M1_RFMT_PREFIX_LEN_ACCESS "RW"
+#define QMI_M1_RFMT_PREFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_RFMT_PREFIX_LEN_VALUE_8 _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_DATA_WIDTH
+// Description : The width used for the data transfer
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_RFMT_DATA_WIDTH_RESET  _u(0x0)
+#define QMI_M1_RFMT_DATA_WIDTH_BITS   _u(0x00000300)
+#define QMI_M1_RFMT_DATA_WIDTH_MSB    _u(9)
+#define QMI_M1_RFMT_DATA_WIDTH_LSB    _u(8)
+#define QMI_M1_RFMT_DATA_WIDTH_ACCESS "RW"
+#define QMI_M1_RFMT_DATA_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_RFMT_DATA_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_RFMT_DATA_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_DUMMY_WIDTH
+// Description : The width used for the dummy phase, if any.
+//
+//               If width is single, SD0/MOSI is held asserted low during the
+//               dummy phase, and SD1...SD3 are tristated. If width is
+//               dual/quad, all IOs are tristated during the dummy phase.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_RFMT_DUMMY_WIDTH_RESET  _u(0x0)
+#define QMI_M1_RFMT_DUMMY_WIDTH_BITS   _u(0x000000c0)
+#define QMI_M1_RFMT_DUMMY_WIDTH_MSB    _u(7)
+#define QMI_M1_RFMT_DUMMY_WIDTH_LSB    _u(6)
+#define QMI_M1_RFMT_DUMMY_WIDTH_ACCESS "RW"
+#define QMI_M1_RFMT_DUMMY_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_RFMT_DUMMY_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_RFMT_DUMMY_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_SUFFIX_WIDTH
+// Description : The width used for the post-address command suffix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_RFMT_SUFFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_BITS   _u(0x00000030)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_MSB    _u(5)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_LSB    _u(4)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_ACCESS "RW"
+#define QMI_M1_RFMT_SUFFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_RFMT_SUFFIX_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_ADDR_WIDTH
+// Description : The transfer width used for the address. The address phase
+//               always transfers 24 bits in total.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_RFMT_ADDR_WIDTH_RESET  _u(0x0)
+#define QMI_M1_RFMT_ADDR_WIDTH_BITS   _u(0x0000000c)
+#define QMI_M1_RFMT_ADDR_WIDTH_MSB    _u(3)
+#define QMI_M1_RFMT_ADDR_WIDTH_LSB    _u(2)
+#define QMI_M1_RFMT_ADDR_WIDTH_ACCESS "RW"
+#define QMI_M1_RFMT_ADDR_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_RFMT_ADDR_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_RFMT_ADDR_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RFMT_PREFIX_WIDTH
+// Description : The transfer width used for the command prefix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_RFMT_PREFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M1_RFMT_PREFIX_WIDTH_BITS   _u(0x00000003)
+#define QMI_M1_RFMT_PREFIX_WIDTH_MSB    _u(1)
+#define QMI_M1_RFMT_PREFIX_WIDTH_LSB    _u(0)
+#define QMI_M1_RFMT_PREFIX_WIDTH_ACCESS "RW"
+#define QMI_M1_RFMT_PREFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_RFMT_PREFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_RFMT_PREFIX_WIDTH_VALUE_Q _u(0x2)
+// =============================================================================
+// Register    : QMI_M1_RCMD
+// Description : Command constants used for reads from memory address window 1.
+//
+//               The reset value of the M1_RCMD register is configured to
+//               support a basic 03h serial read transfer with no additional
+//               configuration.
+#define QMI_M1_RCMD_OFFSET _u(0x00000028)
+#define QMI_M1_RCMD_BITS   _u(0x0000ffff)
+#define QMI_M1_RCMD_RESET  _u(0x0000a003)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RCMD_SUFFIX
+// Description : The command suffix bits following the address, if
+//               Mx_RFMT_SUFFIX_LEN is nonzero.
+#define QMI_M1_RCMD_SUFFIX_RESET  _u(0xa0)
+#define QMI_M1_RCMD_SUFFIX_BITS   _u(0x0000ff00)
+#define QMI_M1_RCMD_SUFFIX_MSB    _u(15)
+#define QMI_M1_RCMD_SUFFIX_LSB    _u(8)
+#define QMI_M1_RCMD_SUFFIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_RCMD_PREFIX
+// Description : The command prefix bits to prepend on each new transfer, if
+//               Mx_RFMT_PREFIX_LEN is nonzero.
+#define QMI_M1_RCMD_PREFIX_RESET  _u(0x03)
+#define QMI_M1_RCMD_PREFIX_BITS   _u(0x000000ff)
+#define QMI_M1_RCMD_PREFIX_MSB    _u(7)
+#define QMI_M1_RCMD_PREFIX_LSB    _u(0)
+#define QMI_M1_RCMD_PREFIX_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_M1_WFMT
+// Description : Write transfer format configuration for memory address window
+//               1.
+//
+//               Configure the bus width of each transfer phase individually,
+//               and configure the length or presence of the command prefix,
+//               command suffix and dummy/turnaround transfer phases. Only
+//               24-bit addresses are supported.
+//
+//               The reset value of the M1_WFMT register is configured to
+//               support a basic 02h serial write transfer. However, writes to
+//               this window must first be enabled via the XIP_CTRL_WRITABLE_M1
+//               bit, as XIP memory is read-only by default.
+#define QMI_M1_WFMT_OFFSET _u(0x0000002c)
+#define QMI_M1_WFMT_BITS   _u(0x1007d3ff)
+#define QMI_M1_WFMT_RESET  _u(0x00001000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_DTR
+// Description : Enable double transfer rate (DTR) for write commands: address,
+//               suffix and write data phases are active on both edges of SCK.
+//               SDO data is launched centre-aligned on each SCK edge, and SDI
+//               data is captured on the SCK edge that follows its launch.
+//
+//               DTR is implemented by halving the clock rate; SCK has a period
+//               of 2 x CLK_DIV throughout the transfer. The prefix and dummy
+//               phases are still single transfer rate.
+//
+//               If the suffix is quad-width, it must be 0 or 8 bits in length,
+//               to ensure an even number of SCK edges.
+#define QMI_M1_WFMT_DTR_RESET  _u(0x0)
+#define QMI_M1_WFMT_DTR_BITS   _u(0x10000000)
+#define QMI_M1_WFMT_DTR_MSB    _u(28)
+#define QMI_M1_WFMT_DTR_LSB    _u(28)
+#define QMI_M1_WFMT_DTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_DUMMY_LEN
+// Description : Length of dummy phase between command suffix and data phase, in
+//               units of 4 bits. (i.e. 1 cycle for quad width, 2 for dual, 4
+//               for single)
+//               0x0 -> No dummy phase
+//               0x1 -> 4 dummy bits
+//               0x2 -> 8 dummy bits
+//               0x3 -> 12 dummy bits
+//               0x4 -> 16 dummy bits
+//               0x5 -> 20 dummy bits
+//               0x6 -> 24 dummy bits
+//               0x7 -> 28 dummy bits
+#define QMI_M1_WFMT_DUMMY_LEN_RESET  _u(0x0)
+#define QMI_M1_WFMT_DUMMY_LEN_BITS   _u(0x00070000)
+#define QMI_M1_WFMT_DUMMY_LEN_MSB    _u(18)
+#define QMI_M1_WFMT_DUMMY_LEN_LSB    _u(16)
+#define QMI_M1_WFMT_DUMMY_LEN_ACCESS "RW"
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_4 _u(0x1)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_8 _u(0x2)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_12 _u(0x3)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_16 _u(0x4)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_20 _u(0x5)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_24 _u(0x6)
+#define QMI_M1_WFMT_DUMMY_LEN_VALUE_28 _u(0x7)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_SUFFIX_LEN
+// Description : Length of post-address command suffix, in units of 4 bits.
+//               (i.e. 1 cycle for quad width, 2 for dual, 4 for single)
+//
+//               Only values of 0 and 8 bits are supported.
+//               0x0 -> No suffix
+//               0x2 -> 8-bit suffix
+#define QMI_M1_WFMT_SUFFIX_LEN_RESET  _u(0x0)
+#define QMI_M1_WFMT_SUFFIX_LEN_BITS   _u(0x0000c000)
+#define QMI_M1_WFMT_SUFFIX_LEN_MSB    _u(15)
+#define QMI_M1_WFMT_SUFFIX_LEN_LSB    _u(14)
+#define QMI_M1_WFMT_SUFFIX_LEN_ACCESS "RW"
+#define QMI_M1_WFMT_SUFFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_WFMT_SUFFIX_LEN_VALUE_8 _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_PREFIX_LEN
+// Description : Length of command prefix, in units of 8 bits. (i.e. 2 cycles
+//               for quad width, 4 for dual, 8 for single)
+//               0x0 -> No prefix
+//               0x1 -> 8-bit prefix
+#define QMI_M1_WFMT_PREFIX_LEN_RESET  _u(0x1)
+#define QMI_M1_WFMT_PREFIX_LEN_BITS   _u(0x00001000)
+#define QMI_M1_WFMT_PREFIX_LEN_MSB    _u(12)
+#define QMI_M1_WFMT_PREFIX_LEN_LSB    _u(12)
+#define QMI_M1_WFMT_PREFIX_LEN_ACCESS "RW"
+#define QMI_M1_WFMT_PREFIX_LEN_VALUE_NONE _u(0x0)
+#define QMI_M1_WFMT_PREFIX_LEN_VALUE_8 _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_DATA_WIDTH
+// Description : The width used for the data transfer
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_WFMT_DATA_WIDTH_RESET  _u(0x0)
+#define QMI_M1_WFMT_DATA_WIDTH_BITS   _u(0x00000300)
+#define QMI_M1_WFMT_DATA_WIDTH_MSB    _u(9)
+#define QMI_M1_WFMT_DATA_WIDTH_LSB    _u(8)
+#define QMI_M1_WFMT_DATA_WIDTH_ACCESS "RW"
+#define QMI_M1_WFMT_DATA_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_WFMT_DATA_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_WFMT_DATA_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_DUMMY_WIDTH
+// Description : The width used for the dummy phase, if any.
+//
+//               If width is single, SD0/MOSI is held asserted low during the
+//               dummy phase, and SD1...SD3 are tristated. If width is
+//               dual/quad, all IOs are tristated during the dummy phase.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_WFMT_DUMMY_WIDTH_RESET  _u(0x0)
+#define QMI_M1_WFMT_DUMMY_WIDTH_BITS   _u(0x000000c0)
+#define QMI_M1_WFMT_DUMMY_WIDTH_MSB    _u(7)
+#define QMI_M1_WFMT_DUMMY_WIDTH_LSB    _u(6)
+#define QMI_M1_WFMT_DUMMY_WIDTH_ACCESS "RW"
+#define QMI_M1_WFMT_DUMMY_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_WFMT_DUMMY_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_WFMT_DUMMY_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_SUFFIX_WIDTH
+// Description : The width used for the post-address command suffix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_WFMT_SUFFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_BITS   _u(0x00000030)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_MSB    _u(5)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_LSB    _u(4)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_ACCESS "RW"
+#define QMI_M1_WFMT_SUFFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_WFMT_SUFFIX_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_ADDR_WIDTH
+// Description : The transfer width used for the address. The address phase
+//               always transfers 24 bits in total.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_WFMT_ADDR_WIDTH_RESET  _u(0x0)
+#define QMI_M1_WFMT_ADDR_WIDTH_BITS   _u(0x0000000c)
+#define QMI_M1_WFMT_ADDR_WIDTH_MSB    _u(3)
+#define QMI_M1_WFMT_ADDR_WIDTH_LSB    _u(2)
+#define QMI_M1_WFMT_ADDR_WIDTH_ACCESS "RW"
+#define QMI_M1_WFMT_ADDR_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_WFMT_ADDR_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_WFMT_ADDR_WIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WFMT_PREFIX_WIDTH
+// Description : The transfer width used for the command prefix, if any
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define QMI_M1_WFMT_PREFIX_WIDTH_RESET  _u(0x0)
+#define QMI_M1_WFMT_PREFIX_WIDTH_BITS   _u(0x00000003)
+#define QMI_M1_WFMT_PREFIX_WIDTH_MSB    _u(1)
+#define QMI_M1_WFMT_PREFIX_WIDTH_LSB    _u(0)
+#define QMI_M1_WFMT_PREFIX_WIDTH_ACCESS "RW"
+#define QMI_M1_WFMT_PREFIX_WIDTH_VALUE_S _u(0x0)
+#define QMI_M1_WFMT_PREFIX_WIDTH_VALUE_D _u(0x1)
+#define QMI_M1_WFMT_PREFIX_WIDTH_VALUE_Q _u(0x2)
+// =============================================================================
+// Register    : QMI_M1_WCMD
+// Description : Command constants used for writes to memory address window 1.
+//
+//               The reset value of the M1_WCMD register is configured to
+//               support a basic 02h serial write transfer with no additional
+//               configuration.
+#define QMI_M1_WCMD_OFFSET _u(0x00000030)
+#define QMI_M1_WCMD_BITS   _u(0x0000ffff)
+#define QMI_M1_WCMD_RESET  _u(0x0000a002)
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WCMD_SUFFIX
+// Description : The command suffix bits following the address, if
+//               Mx_WFMT_SUFFIX_LEN is nonzero.
+#define QMI_M1_WCMD_SUFFIX_RESET  _u(0xa0)
+#define QMI_M1_WCMD_SUFFIX_BITS   _u(0x0000ff00)
+#define QMI_M1_WCMD_SUFFIX_MSB    _u(15)
+#define QMI_M1_WCMD_SUFFIX_LSB    _u(8)
+#define QMI_M1_WCMD_SUFFIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_M1_WCMD_PREFIX
+// Description : The command prefix bits to prepend on each new transfer, if
+//               Mx_WFMT_PREFIX_LEN is nonzero.
+#define QMI_M1_WCMD_PREFIX_RESET  _u(0x02)
+#define QMI_M1_WCMD_PREFIX_BITS   _u(0x000000ff)
+#define QMI_M1_WCMD_PREFIX_MSB    _u(7)
+#define QMI_M1_WCMD_PREFIX_LSB    _u(0)
+#define QMI_M1_WCMD_PREFIX_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS0
+// Description : Configure address translation for XIP virtual addresses
+//               0x000000 through 0x3fffff (a 4 MiB window starting at +0 MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS0_OFFSET _u(0x00000034)
+#define QMI_ATRANS0_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS0_RESET  _u(0x04000000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS0_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS0_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS0_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS0_SIZE_MSB    _u(26)
+#define QMI_ATRANS0_SIZE_LSB    _u(16)
+#define QMI_ATRANS0_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS0_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS0_BASE_RESET  _u(0x000)
+#define QMI_ATRANS0_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS0_BASE_MSB    _u(11)
+#define QMI_ATRANS0_BASE_LSB    _u(0)
+#define QMI_ATRANS0_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS1
+// Description : Configure address translation for XIP virtual addresses
+//               0x400000 through 0x7fffff (a 4 MiB window starting at +4 MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS1_OFFSET _u(0x00000038)
+#define QMI_ATRANS1_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS1_RESET  _u(0x04000400)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS1_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS1_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS1_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS1_SIZE_MSB    _u(26)
+#define QMI_ATRANS1_SIZE_LSB    _u(16)
+#define QMI_ATRANS1_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS1_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS1_BASE_RESET  _u(0x400)
+#define QMI_ATRANS1_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS1_BASE_MSB    _u(11)
+#define QMI_ATRANS1_BASE_LSB    _u(0)
+#define QMI_ATRANS1_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS2
+// Description : Configure address translation for XIP virtual addresses
+//               0x800000 through 0xbfffff (a 4 MiB window starting at +8 MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS2_OFFSET _u(0x0000003c)
+#define QMI_ATRANS2_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS2_RESET  _u(0x04000800)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS2_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS2_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS2_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS2_SIZE_MSB    _u(26)
+#define QMI_ATRANS2_SIZE_LSB    _u(16)
+#define QMI_ATRANS2_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS2_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS2_BASE_RESET  _u(0x800)
+#define QMI_ATRANS2_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS2_BASE_MSB    _u(11)
+#define QMI_ATRANS2_BASE_LSB    _u(0)
+#define QMI_ATRANS2_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS3
+// Description : Configure address translation for XIP virtual addresses
+//               0xc00000 through 0xffffff (a 4 MiB window starting at +12 MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS3_OFFSET _u(0x00000040)
+#define QMI_ATRANS3_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS3_RESET  _u(0x04000c00)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS3_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS3_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS3_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS3_SIZE_MSB    _u(26)
+#define QMI_ATRANS3_SIZE_LSB    _u(16)
+#define QMI_ATRANS3_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS3_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS3_BASE_RESET  _u(0xc00)
+#define QMI_ATRANS3_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS3_BASE_MSB    _u(11)
+#define QMI_ATRANS3_BASE_LSB    _u(0)
+#define QMI_ATRANS3_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS4
+// Description : Configure address translation for XIP virtual addresses
+//               0x1000000 through 0x13fffff (a 4 MiB window starting at +16
+//               MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS4_OFFSET _u(0x00000044)
+#define QMI_ATRANS4_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS4_RESET  _u(0x04000000)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS4_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS4_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS4_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS4_SIZE_MSB    _u(26)
+#define QMI_ATRANS4_SIZE_LSB    _u(16)
+#define QMI_ATRANS4_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS4_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS4_BASE_RESET  _u(0x000)
+#define QMI_ATRANS4_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS4_BASE_MSB    _u(11)
+#define QMI_ATRANS4_BASE_LSB    _u(0)
+#define QMI_ATRANS4_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS5
+// Description : Configure address translation for XIP virtual addresses
+//               0x1400000 through 0x17fffff (a 4 MiB window starting at +20
+//               MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS5_OFFSET _u(0x00000048)
+#define QMI_ATRANS5_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS5_RESET  _u(0x04000400)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS5_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS5_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS5_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS5_SIZE_MSB    _u(26)
+#define QMI_ATRANS5_SIZE_LSB    _u(16)
+#define QMI_ATRANS5_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS5_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS5_BASE_RESET  _u(0x400)
+#define QMI_ATRANS5_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS5_BASE_MSB    _u(11)
+#define QMI_ATRANS5_BASE_LSB    _u(0)
+#define QMI_ATRANS5_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS6
+// Description : Configure address translation for XIP virtual addresses
+//               0x1800000 through 0x1bfffff (a 4 MiB window starting at +24
+//               MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS6_OFFSET _u(0x0000004c)
+#define QMI_ATRANS6_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS6_RESET  _u(0x04000800)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS6_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS6_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS6_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS6_SIZE_MSB    _u(26)
+#define QMI_ATRANS6_SIZE_LSB    _u(16)
+#define QMI_ATRANS6_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS6_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS6_BASE_RESET  _u(0x800)
+#define QMI_ATRANS6_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS6_BASE_MSB    _u(11)
+#define QMI_ATRANS6_BASE_LSB    _u(0)
+#define QMI_ATRANS6_BASE_ACCESS "RW"
+// =============================================================================
+// Register    : QMI_ATRANS7
+// Description : Configure address translation for XIP virtual addresses
+//               0x1c00000 through 0x1ffffff (a 4 MiB window starting at +28
+//               MiB).
+//
+//               Address translation allows a program image to be executed in
+//               place at multiple physical flash addresses (for example, a
+//               double-buffered flash image for over-the-air updates), without
+//               the overhead of position-independent code.
+//
+//               At reset, the address translation registers are initialised to
+//               an identity mapping, so that they can be ignored if address
+//               translation is not required.
+//
+//               Note that the XIP cache is fully virtually addressed, so a
+//               cache flush is required after changing the address translation.
+#define QMI_ATRANS7_OFFSET _u(0x00000050)
+#define QMI_ATRANS7_BITS   _u(0x07ff0fff)
+#define QMI_ATRANS7_RESET  _u(0x04000c00)
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS7_SIZE
+// Description : Translation aperture size for this virtual address range, in
+//               units of 4 kiB (one flash sector).
+//
+//               Bits 21:12 of the virtual address are compared to SIZE. Offsets
+//               greater than SIZE return a bus error, and do not cause a QSPI
+//               access.
+#define QMI_ATRANS7_SIZE_RESET  _u(0x400)
+#define QMI_ATRANS7_SIZE_BITS   _u(0x07ff0000)
+#define QMI_ATRANS7_SIZE_MSB    _u(26)
+#define QMI_ATRANS7_SIZE_LSB    _u(16)
+#define QMI_ATRANS7_SIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : QMI_ATRANS7_BASE
+// Description : Physical address base for this virtual address range, in units
+//               of 4 kiB (one flash sector).
+//
+//               Taking a 24-bit virtual address, firstly bits 23:22 (the two
+//               MSBs) are masked to zero, and then BASE is added to bits 23:12
+//               (the upper 12 bits) to form the physical address. Translation
+//               wraps on a 16 MiB boundary.
+#define QMI_ATRANS7_BASE_RESET  _u(0xc00)
+#define QMI_ATRANS7_BASE_BITS   _u(0x00000fff)
+#define QMI_ATRANS7_BASE_MSB    _u(11)
+#define QMI_ATRANS7_BASE_LSB    _u(0)
+#define QMI_ATRANS7_BASE_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_QMI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/resets.h b/lib/pico-sdk/rp2350/hardware/regs/resets.h
new file mode 100644
index 0000000..459f24e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/resets.h
@@ -0,0 +1,641 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : RESETS
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_RESETS_H
+#define _HARDWARE_REGS_RESETS_H
+// =============================================================================
+// Register    : RESETS_RESET
+#define RESETS_RESET_OFFSET _u(0x00000000)
+#define RESETS_RESET_BITS   _u(0x1fffffff)
+#define RESETS_RESET_RESET  _u(0x1fffffff)
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_USBCTRL
+#define RESETS_RESET_USBCTRL_RESET  _u(0x1)
+#define RESETS_RESET_USBCTRL_BITS   _u(0x10000000)
+#define RESETS_RESET_USBCTRL_MSB    _u(28)
+#define RESETS_RESET_USBCTRL_LSB    _u(28)
+#define RESETS_RESET_USBCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_UART1
+#define RESETS_RESET_UART1_RESET  _u(0x1)
+#define RESETS_RESET_UART1_BITS   _u(0x08000000)
+#define RESETS_RESET_UART1_MSB    _u(27)
+#define RESETS_RESET_UART1_LSB    _u(27)
+#define RESETS_RESET_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_UART0
+#define RESETS_RESET_UART0_RESET  _u(0x1)
+#define RESETS_RESET_UART0_BITS   _u(0x04000000)
+#define RESETS_RESET_UART0_MSB    _u(26)
+#define RESETS_RESET_UART0_LSB    _u(26)
+#define RESETS_RESET_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_TRNG
+#define RESETS_RESET_TRNG_RESET  _u(0x1)
+#define RESETS_RESET_TRNG_BITS   _u(0x02000000)
+#define RESETS_RESET_TRNG_MSB    _u(25)
+#define RESETS_RESET_TRNG_LSB    _u(25)
+#define RESETS_RESET_TRNG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_TIMER1
+#define RESETS_RESET_TIMER1_RESET  _u(0x1)
+#define RESETS_RESET_TIMER1_BITS   _u(0x01000000)
+#define RESETS_RESET_TIMER1_MSB    _u(24)
+#define RESETS_RESET_TIMER1_LSB    _u(24)
+#define RESETS_RESET_TIMER1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_TIMER0
+#define RESETS_RESET_TIMER0_RESET  _u(0x1)
+#define RESETS_RESET_TIMER0_BITS   _u(0x00800000)
+#define RESETS_RESET_TIMER0_MSB    _u(23)
+#define RESETS_RESET_TIMER0_LSB    _u(23)
+#define RESETS_RESET_TIMER0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_TBMAN
+#define RESETS_RESET_TBMAN_RESET  _u(0x1)
+#define RESETS_RESET_TBMAN_BITS   _u(0x00400000)
+#define RESETS_RESET_TBMAN_MSB    _u(22)
+#define RESETS_RESET_TBMAN_LSB    _u(22)
+#define RESETS_RESET_TBMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_SYSINFO
+#define RESETS_RESET_SYSINFO_RESET  _u(0x1)
+#define RESETS_RESET_SYSINFO_BITS   _u(0x00200000)
+#define RESETS_RESET_SYSINFO_MSB    _u(21)
+#define RESETS_RESET_SYSINFO_LSB    _u(21)
+#define RESETS_RESET_SYSINFO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_SYSCFG
+#define RESETS_RESET_SYSCFG_RESET  _u(0x1)
+#define RESETS_RESET_SYSCFG_BITS   _u(0x00100000)
+#define RESETS_RESET_SYSCFG_MSB    _u(20)
+#define RESETS_RESET_SYSCFG_LSB    _u(20)
+#define RESETS_RESET_SYSCFG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_SPI1
+#define RESETS_RESET_SPI1_RESET  _u(0x1)
+#define RESETS_RESET_SPI1_BITS   _u(0x00080000)
+#define RESETS_RESET_SPI1_MSB    _u(19)
+#define RESETS_RESET_SPI1_LSB    _u(19)
+#define RESETS_RESET_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_SPI0
+#define RESETS_RESET_SPI0_RESET  _u(0x1)
+#define RESETS_RESET_SPI0_BITS   _u(0x00040000)
+#define RESETS_RESET_SPI0_MSB    _u(18)
+#define RESETS_RESET_SPI0_LSB    _u(18)
+#define RESETS_RESET_SPI0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_SHA256
+#define RESETS_RESET_SHA256_RESET  _u(0x1)
+#define RESETS_RESET_SHA256_BITS   _u(0x00020000)
+#define RESETS_RESET_SHA256_MSB    _u(17)
+#define RESETS_RESET_SHA256_LSB    _u(17)
+#define RESETS_RESET_SHA256_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PWM
+#define RESETS_RESET_PWM_RESET  _u(0x1)
+#define RESETS_RESET_PWM_BITS   _u(0x00010000)
+#define RESETS_RESET_PWM_MSB    _u(16)
+#define RESETS_RESET_PWM_LSB    _u(16)
+#define RESETS_RESET_PWM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PLL_USB
+#define RESETS_RESET_PLL_USB_RESET  _u(0x1)
+#define RESETS_RESET_PLL_USB_BITS   _u(0x00008000)
+#define RESETS_RESET_PLL_USB_MSB    _u(15)
+#define RESETS_RESET_PLL_USB_LSB    _u(15)
+#define RESETS_RESET_PLL_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PLL_SYS
+#define RESETS_RESET_PLL_SYS_RESET  _u(0x1)
+#define RESETS_RESET_PLL_SYS_BITS   _u(0x00004000)
+#define RESETS_RESET_PLL_SYS_MSB    _u(14)
+#define RESETS_RESET_PLL_SYS_LSB    _u(14)
+#define RESETS_RESET_PLL_SYS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PIO2
+#define RESETS_RESET_PIO2_RESET  _u(0x1)
+#define RESETS_RESET_PIO2_BITS   _u(0x00002000)
+#define RESETS_RESET_PIO2_MSB    _u(13)
+#define RESETS_RESET_PIO2_LSB    _u(13)
+#define RESETS_RESET_PIO2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PIO1
+#define RESETS_RESET_PIO1_RESET  _u(0x1)
+#define RESETS_RESET_PIO1_BITS   _u(0x00001000)
+#define RESETS_RESET_PIO1_MSB    _u(12)
+#define RESETS_RESET_PIO1_LSB    _u(12)
+#define RESETS_RESET_PIO1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PIO0
+#define RESETS_RESET_PIO0_RESET  _u(0x1)
+#define RESETS_RESET_PIO0_BITS   _u(0x00000800)
+#define RESETS_RESET_PIO0_MSB    _u(11)
+#define RESETS_RESET_PIO0_LSB    _u(11)
+#define RESETS_RESET_PIO0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PADS_QSPI
+#define RESETS_RESET_PADS_QSPI_RESET  _u(0x1)
+#define RESETS_RESET_PADS_QSPI_BITS   _u(0x00000400)
+#define RESETS_RESET_PADS_QSPI_MSB    _u(10)
+#define RESETS_RESET_PADS_QSPI_LSB    _u(10)
+#define RESETS_RESET_PADS_QSPI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_PADS_BANK0
+#define RESETS_RESET_PADS_BANK0_RESET  _u(0x1)
+#define RESETS_RESET_PADS_BANK0_BITS   _u(0x00000200)
+#define RESETS_RESET_PADS_BANK0_MSB    _u(9)
+#define RESETS_RESET_PADS_BANK0_LSB    _u(9)
+#define RESETS_RESET_PADS_BANK0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_JTAG
+#define RESETS_RESET_JTAG_RESET  _u(0x1)
+#define RESETS_RESET_JTAG_BITS   _u(0x00000100)
+#define RESETS_RESET_JTAG_MSB    _u(8)
+#define RESETS_RESET_JTAG_LSB    _u(8)
+#define RESETS_RESET_JTAG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_IO_QSPI
+#define RESETS_RESET_IO_QSPI_RESET  _u(0x1)
+#define RESETS_RESET_IO_QSPI_BITS   _u(0x00000080)
+#define RESETS_RESET_IO_QSPI_MSB    _u(7)
+#define RESETS_RESET_IO_QSPI_LSB    _u(7)
+#define RESETS_RESET_IO_QSPI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_IO_BANK0
+#define RESETS_RESET_IO_BANK0_RESET  _u(0x1)
+#define RESETS_RESET_IO_BANK0_BITS   _u(0x00000040)
+#define RESETS_RESET_IO_BANK0_MSB    _u(6)
+#define RESETS_RESET_IO_BANK0_LSB    _u(6)
+#define RESETS_RESET_IO_BANK0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_I2C1
+#define RESETS_RESET_I2C1_RESET  _u(0x1)
+#define RESETS_RESET_I2C1_BITS   _u(0x00000020)
+#define RESETS_RESET_I2C1_MSB    _u(5)
+#define RESETS_RESET_I2C1_LSB    _u(5)
+#define RESETS_RESET_I2C1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_I2C0
+#define RESETS_RESET_I2C0_RESET  _u(0x1)
+#define RESETS_RESET_I2C0_BITS   _u(0x00000010)
+#define RESETS_RESET_I2C0_MSB    _u(4)
+#define RESETS_RESET_I2C0_LSB    _u(4)
+#define RESETS_RESET_I2C0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_HSTX
+#define RESETS_RESET_HSTX_RESET  _u(0x1)
+#define RESETS_RESET_HSTX_BITS   _u(0x00000008)
+#define RESETS_RESET_HSTX_MSB    _u(3)
+#define RESETS_RESET_HSTX_LSB    _u(3)
+#define RESETS_RESET_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DMA
+#define RESETS_RESET_DMA_RESET  _u(0x1)
+#define RESETS_RESET_DMA_BITS   _u(0x00000004)
+#define RESETS_RESET_DMA_MSB    _u(2)
+#define RESETS_RESET_DMA_LSB    _u(2)
+#define RESETS_RESET_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_BUSCTRL
+#define RESETS_RESET_BUSCTRL_RESET  _u(0x1)
+#define RESETS_RESET_BUSCTRL_BITS   _u(0x00000002)
+#define RESETS_RESET_BUSCTRL_MSB    _u(1)
+#define RESETS_RESET_BUSCTRL_LSB    _u(1)
+#define RESETS_RESET_BUSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_ADC
+#define RESETS_RESET_ADC_RESET  _u(0x1)
+#define RESETS_RESET_ADC_BITS   _u(0x00000001)
+#define RESETS_RESET_ADC_MSB    _u(0)
+#define RESETS_RESET_ADC_LSB    _u(0)
+#define RESETS_RESET_ADC_ACCESS "RW"
+// =============================================================================
+// Register    : RESETS_WDSEL
+#define RESETS_WDSEL_OFFSET _u(0x00000004)
+#define RESETS_WDSEL_BITS   _u(0x1fffffff)
+#define RESETS_WDSEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_USBCTRL
+#define RESETS_WDSEL_USBCTRL_RESET  _u(0x0)
+#define RESETS_WDSEL_USBCTRL_BITS   _u(0x10000000)
+#define RESETS_WDSEL_USBCTRL_MSB    _u(28)
+#define RESETS_WDSEL_USBCTRL_LSB    _u(28)
+#define RESETS_WDSEL_USBCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_UART1
+#define RESETS_WDSEL_UART1_RESET  _u(0x0)
+#define RESETS_WDSEL_UART1_BITS   _u(0x08000000)
+#define RESETS_WDSEL_UART1_MSB    _u(27)
+#define RESETS_WDSEL_UART1_LSB    _u(27)
+#define RESETS_WDSEL_UART1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_UART0
+#define RESETS_WDSEL_UART0_RESET  _u(0x0)
+#define RESETS_WDSEL_UART0_BITS   _u(0x04000000)
+#define RESETS_WDSEL_UART0_MSB    _u(26)
+#define RESETS_WDSEL_UART0_LSB    _u(26)
+#define RESETS_WDSEL_UART0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_TRNG
+#define RESETS_WDSEL_TRNG_RESET  _u(0x0)
+#define RESETS_WDSEL_TRNG_BITS   _u(0x02000000)
+#define RESETS_WDSEL_TRNG_MSB    _u(25)
+#define RESETS_WDSEL_TRNG_LSB    _u(25)
+#define RESETS_WDSEL_TRNG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_TIMER1
+#define RESETS_WDSEL_TIMER1_RESET  _u(0x0)
+#define RESETS_WDSEL_TIMER1_BITS   _u(0x01000000)
+#define RESETS_WDSEL_TIMER1_MSB    _u(24)
+#define RESETS_WDSEL_TIMER1_LSB    _u(24)
+#define RESETS_WDSEL_TIMER1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_TIMER0
+#define RESETS_WDSEL_TIMER0_RESET  _u(0x0)
+#define RESETS_WDSEL_TIMER0_BITS   _u(0x00800000)
+#define RESETS_WDSEL_TIMER0_MSB    _u(23)
+#define RESETS_WDSEL_TIMER0_LSB    _u(23)
+#define RESETS_WDSEL_TIMER0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_TBMAN
+#define RESETS_WDSEL_TBMAN_RESET  _u(0x0)
+#define RESETS_WDSEL_TBMAN_BITS   _u(0x00400000)
+#define RESETS_WDSEL_TBMAN_MSB    _u(22)
+#define RESETS_WDSEL_TBMAN_LSB    _u(22)
+#define RESETS_WDSEL_TBMAN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_SYSINFO
+#define RESETS_WDSEL_SYSINFO_RESET  _u(0x0)
+#define RESETS_WDSEL_SYSINFO_BITS   _u(0x00200000)
+#define RESETS_WDSEL_SYSINFO_MSB    _u(21)
+#define RESETS_WDSEL_SYSINFO_LSB    _u(21)
+#define RESETS_WDSEL_SYSINFO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_SYSCFG
+#define RESETS_WDSEL_SYSCFG_RESET  _u(0x0)
+#define RESETS_WDSEL_SYSCFG_BITS   _u(0x00100000)
+#define RESETS_WDSEL_SYSCFG_MSB    _u(20)
+#define RESETS_WDSEL_SYSCFG_LSB    _u(20)
+#define RESETS_WDSEL_SYSCFG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_SPI1
+#define RESETS_WDSEL_SPI1_RESET  _u(0x0)
+#define RESETS_WDSEL_SPI1_BITS   _u(0x00080000)
+#define RESETS_WDSEL_SPI1_MSB    _u(19)
+#define RESETS_WDSEL_SPI1_LSB    _u(19)
+#define RESETS_WDSEL_SPI1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_SPI0
+#define RESETS_WDSEL_SPI0_RESET  _u(0x0)
+#define RESETS_WDSEL_SPI0_BITS   _u(0x00040000)
+#define RESETS_WDSEL_SPI0_MSB    _u(18)
+#define RESETS_WDSEL_SPI0_LSB    _u(18)
+#define RESETS_WDSEL_SPI0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_SHA256
+#define RESETS_WDSEL_SHA256_RESET  _u(0x0)
+#define RESETS_WDSEL_SHA256_BITS   _u(0x00020000)
+#define RESETS_WDSEL_SHA256_MSB    _u(17)
+#define RESETS_WDSEL_SHA256_LSB    _u(17)
+#define RESETS_WDSEL_SHA256_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PWM
+#define RESETS_WDSEL_PWM_RESET  _u(0x0)
+#define RESETS_WDSEL_PWM_BITS   _u(0x00010000)
+#define RESETS_WDSEL_PWM_MSB    _u(16)
+#define RESETS_WDSEL_PWM_LSB    _u(16)
+#define RESETS_WDSEL_PWM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PLL_USB
+#define RESETS_WDSEL_PLL_USB_RESET  _u(0x0)
+#define RESETS_WDSEL_PLL_USB_BITS   _u(0x00008000)
+#define RESETS_WDSEL_PLL_USB_MSB    _u(15)
+#define RESETS_WDSEL_PLL_USB_LSB    _u(15)
+#define RESETS_WDSEL_PLL_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PLL_SYS
+#define RESETS_WDSEL_PLL_SYS_RESET  _u(0x0)
+#define RESETS_WDSEL_PLL_SYS_BITS   _u(0x00004000)
+#define RESETS_WDSEL_PLL_SYS_MSB    _u(14)
+#define RESETS_WDSEL_PLL_SYS_LSB    _u(14)
+#define RESETS_WDSEL_PLL_SYS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PIO2
+#define RESETS_WDSEL_PIO2_RESET  _u(0x0)
+#define RESETS_WDSEL_PIO2_BITS   _u(0x00002000)
+#define RESETS_WDSEL_PIO2_MSB    _u(13)
+#define RESETS_WDSEL_PIO2_LSB    _u(13)
+#define RESETS_WDSEL_PIO2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PIO1
+#define RESETS_WDSEL_PIO1_RESET  _u(0x0)
+#define RESETS_WDSEL_PIO1_BITS   _u(0x00001000)
+#define RESETS_WDSEL_PIO1_MSB    _u(12)
+#define RESETS_WDSEL_PIO1_LSB    _u(12)
+#define RESETS_WDSEL_PIO1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PIO0
+#define RESETS_WDSEL_PIO0_RESET  _u(0x0)
+#define RESETS_WDSEL_PIO0_BITS   _u(0x00000800)
+#define RESETS_WDSEL_PIO0_MSB    _u(11)
+#define RESETS_WDSEL_PIO0_LSB    _u(11)
+#define RESETS_WDSEL_PIO0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PADS_QSPI
+#define RESETS_WDSEL_PADS_QSPI_RESET  _u(0x0)
+#define RESETS_WDSEL_PADS_QSPI_BITS   _u(0x00000400)
+#define RESETS_WDSEL_PADS_QSPI_MSB    _u(10)
+#define RESETS_WDSEL_PADS_QSPI_LSB    _u(10)
+#define RESETS_WDSEL_PADS_QSPI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_PADS_BANK0
+#define RESETS_WDSEL_PADS_BANK0_RESET  _u(0x0)
+#define RESETS_WDSEL_PADS_BANK0_BITS   _u(0x00000200)
+#define RESETS_WDSEL_PADS_BANK0_MSB    _u(9)
+#define RESETS_WDSEL_PADS_BANK0_LSB    _u(9)
+#define RESETS_WDSEL_PADS_BANK0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_JTAG
+#define RESETS_WDSEL_JTAG_RESET  _u(0x0)
+#define RESETS_WDSEL_JTAG_BITS   _u(0x00000100)
+#define RESETS_WDSEL_JTAG_MSB    _u(8)
+#define RESETS_WDSEL_JTAG_LSB    _u(8)
+#define RESETS_WDSEL_JTAG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_IO_QSPI
+#define RESETS_WDSEL_IO_QSPI_RESET  _u(0x0)
+#define RESETS_WDSEL_IO_QSPI_BITS   _u(0x00000080)
+#define RESETS_WDSEL_IO_QSPI_MSB    _u(7)
+#define RESETS_WDSEL_IO_QSPI_LSB    _u(7)
+#define RESETS_WDSEL_IO_QSPI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_IO_BANK0
+#define RESETS_WDSEL_IO_BANK0_RESET  _u(0x0)
+#define RESETS_WDSEL_IO_BANK0_BITS   _u(0x00000040)
+#define RESETS_WDSEL_IO_BANK0_MSB    _u(6)
+#define RESETS_WDSEL_IO_BANK0_LSB    _u(6)
+#define RESETS_WDSEL_IO_BANK0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_I2C1
+#define RESETS_WDSEL_I2C1_RESET  _u(0x0)
+#define RESETS_WDSEL_I2C1_BITS   _u(0x00000020)
+#define RESETS_WDSEL_I2C1_MSB    _u(5)
+#define RESETS_WDSEL_I2C1_LSB    _u(5)
+#define RESETS_WDSEL_I2C1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_I2C0
+#define RESETS_WDSEL_I2C0_RESET  _u(0x0)
+#define RESETS_WDSEL_I2C0_BITS   _u(0x00000010)
+#define RESETS_WDSEL_I2C0_MSB    _u(4)
+#define RESETS_WDSEL_I2C0_LSB    _u(4)
+#define RESETS_WDSEL_I2C0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_HSTX
+#define RESETS_WDSEL_HSTX_RESET  _u(0x0)
+#define RESETS_WDSEL_HSTX_BITS   _u(0x00000008)
+#define RESETS_WDSEL_HSTX_MSB    _u(3)
+#define RESETS_WDSEL_HSTX_LSB    _u(3)
+#define RESETS_WDSEL_HSTX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_DMA
+#define RESETS_WDSEL_DMA_RESET  _u(0x0)
+#define RESETS_WDSEL_DMA_BITS   _u(0x00000004)
+#define RESETS_WDSEL_DMA_MSB    _u(2)
+#define RESETS_WDSEL_DMA_LSB    _u(2)
+#define RESETS_WDSEL_DMA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_BUSCTRL
+#define RESETS_WDSEL_BUSCTRL_RESET  _u(0x0)
+#define RESETS_WDSEL_BUSCTRL_BITS   _u(0x00000002)
+#define RESETS_WDSEL_BUSCTRL_MSB    _u(1)
+#define RESETS_WDSEL_BUSCTRL_LSB    _u(1)
+#define RESETS_WDSEL_BUSCTRL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_WDSEL_ADC
+#define RESETS_WDSEL_ADC_RESET  _u(0x0)
+#define RESETS_WDSEL_ADC_BITS   _u(0x00000001)
+#define RESETS_WDSEL_ADC_MSB    _u(0)
+#define RESETS_WDSEL_ADC_LSB    _u(0)
+#define RESETS_WDSEL_ADC_ACCESS "RW"
+// =============================================================================
+// Register    : RESETS_RESET_DONE
+#define RESETS_RESET_DONE_OFFSET _u(0x00000008)
+#define RESETS_RESET_DONE_BITS   _u(0x1fffffff)
+#define RESETS_RESET_DONE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_USBCTRL
+#define RESETS_RESET_DONE_USBCTRL_RESET  _u(0x0)
+#define RESETS_RESET_DONE_USBCTRL_BITS   _u(0x10000000)
+#define RESETS_RESET_DONE_USBCTRL_MSB    _u(28)
+#define RESETS_RESET_DONE_USBCTRL_LSB    _u(28)
+#define RESETS_RESET_DONE_USBCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_UART1
+#define RESETS_RESET_DONE_UART1_RESET  _u(0x0)
+#define RESETS_RESET_DONE_UART1_BITS   _u(0x08000000)
+#define RESETS_RESET_DONE_UART1_MSB    _u(27)
+#define RESETS_RESET_DONE_UART1_LSB    _u(27)
+#define RESETS_RESET_DONE_UART1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_UART0
+#define RESETS_RESET_DONE_UART0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_UART0_BITS   _u(0x04000000)
+#define RESETS_RESET_DONE_UART0_MSB    _u(26)
+#define RESETS_RESET_DONE_UART0_LSB    _u(26)
+#define RESETS_RESET_DONE_UART0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_TRNG
+#define RESETS_RESET_DONE_TRNG_RESET  _u(0x0)
+#define RESETS_RESET_DONE_TRNG_BITS   _u(0x02000000)
+#define RESETS_RESET_DONE_TRNG_MSB    _u(25)
+#define RESETS_RESET_DONE_TRNG_LSB    _u(25)
+#define RESETS_RESET_DONE_TRNG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_TIMER1
+#define RESETS_RESET_DONE_TIMER1_RESET  _u(0x0)
+#define RESETS_RESET_DONE_TIMER1_BITS   _u(0x01000000)
+#define RESETS_RESET_DONE_TIMER1_MSB    _u(24)
+#define RESETS_RESET_DONE_TIMER1_LSB    _u(24)
+#define RESETS_RESET_DONE_TIMER1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_TIMER0
+#define RESETS_RESET_DONE_TIMER0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_TIMER0_BITS   _u(0x00800000)
+#define RESETS_RESET_DONE_TIMER0_MSB    _u(23)
+#define RESETS_RESET_DONE_TIMER0_LSB    _u(23)
+#define RESETS_RESET_DONE_TIMER0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_TBMAN
+#define RESETS_RESET_DONE_TBMAN_RESET  _u(0x0)
+#define RESETS_RESET_DONE_TBMAN_BITS   _u(0x00400000)
+#define RESETS_RESET_DONE_TBMAN_MSB    _u(22)
+#define RESETS_RESET_DONE_TBMAN_LSB    _u(22)
+#define RESETS_RESET_DONE_TBMAN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_SYSINFO
+#define RESETS_RESET_DONE_SYSINFO_RESET  _u(0x0)
+#define RESETS_RESET_DONE_SYSINFO_BITS   _u(0x00200000)
+#define RESETS_RESET_DONE_SYSINFO_MSB    _u(21)
+#define RESETS_RESET_DONE_SYSINFO_LSB    _u(21)
+#define RESETS_RESET_DONE_SYSINFO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_SYSCFG
+#define RESETS_RESET_DONE_SYSCFG_RESET  _u(0x0)
+#define RESETS_RESET_DONE_SYSCFG_BITS   _u(0x00100000)
+#define RESETS_RESET_DONE_SYSCFG_MSB    _u(20)
+#define RESETS_RESET_DONE_SYSCFG_LSB    _u(20)
+#define RESETS_RESET_DONE_SYSCFG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_SPI1
+#define RESETS_RESET_DONE_SPI1_RESET  _u(0x0)
+#define RESETS_RESET_DONE_SPI1_BITS   _u(0x00080000)
+#define RESETS_RESET_DONE_SPI1_MSB    _u(19)
+#define RESETS_RESET_DONE_SPI1_LSB    _u(19)
+#define RESETS_RESET_DONE_SPI1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_SPI0
+#define RESETS_RESET_DONE_SPI0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_SPI0_BITS   _u(0x00040000)
+#define RESETS_RESET_DONE_SPI0_MSB    _u(18)
+#define RESETS_RESET_DONE_SPI0_LSB    _u(18)
+#define RESETS_RESET_DONE_SPI0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_SHA256
+#define RESETS_RESET_DONE_SHA256_RESET  _u(0x0)
+#define RESETS_RESET_DONE_SHA256_BITS   _u(0x00020000)
+#define RESETS_RESET_DONE_SHA256_MSB    _u(17)
+#define RESETS_RESET_DONE_SHA256_LSB    _u(17)
+#define RESETS_RESET_DONE_SHA256_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PWM
+#define RESETS_RESET_DONE_PWM_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PWM_BITS   _u(0x00010000)
+#define RESETS_RESET_DONE_PWM_MSB    _u(16)
+#define RESETS_RESET_DONE_PWM_LSB    _u(16)
+#define RESETS_RESET_DONE_PWM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PLL_USB
+#define RESETS_RESET_DONE_PLL_USB_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PLL_USB_BITS   _u(0x00008000)
+#define RESETS_RESET_DONE_PLL_USB_MSB    _u(15)
+#define RESETS_RESET_DONE_PLL_USB_LSB    _u(15)
+#define RESETS_RESET_DONE_PLL_USB_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PLL_SYS
+#define RESETS_RESET_DONE_PLL_SYS_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PLL_SYS_BITS   _u(0x00004000)
+#define RESETS_RESET_DONE_PLL_SYS_MSB    _u(14)
+#define RESETS_RESET_DONE_PLL_SYS_LSB    _u(14)
+#define RESETS_RESET_DONE_PLL_SYS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PIO2
+#define RESETS_RESET_DONE_PIO2_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PIO2_BITS   _u(0x00002000)
+#define RESETS_RESET_DONE_PIO2_MSB    _u(13)
+#define RESETS_RESET_DONE_PIO2_LSB    _u(13)
+#define RESETS_RESET_DONE_PIO2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PIO1
+#define RESETS_RESET_DONE_PIO1_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PIO1_BITS   _u(0x00001000)
+#define RESETS_RESET_DONE_PIO1_MSB    _u(12)
+#define RESETS_RESET_DONE_PIO1_LSB    _u(12)
+#define RESETS_RESET_DONE_PIO1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PIO0
+#define RESETS_RESET_DONE_PIO0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PIO0_BITS   _u(0x00000800)
+#define RESETS_RESET_DONE_PIO0_MSB    _u(11)
+#define RESETS_RESET_DONE_PIO0_LSB    _u(11)
+#define RESETS_RESET_DONE_PIO0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PADS_QSPI
+#define RESETS_RESET_DONE_PADS_QSPI_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PADS_QSPI_BITS   _u(0x00000400)
+#define RESETS_RESET_DONE_PADS_QSPI_MSB    _u(10)
+#define RESETS_RESET_DONE_PADS_QSPI_LSB    _u(10)
+#define RESETS_RESET_DONE_PADS_QSPI_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_PADS_BANK0
+#define RESETS_RESET_DONE_PADS_BANK0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_PADS_BANK0_BITS   _u(0x00000200)
+#define RESETS_RESET_DONE_PADS_BANK0_MSB    _u(9)
+#define RESETS_RESET_DONE_PADS_BANK0_LSB    _u(9)
+#define RESETS_RESET_DONE_PADS_BANK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_JTAG
+#define RESETS_RESET_DONE_JTAG_RESET  _u(0x0)
+#define RESETS_RESET_DONE_JTAG_BITS   _u(0x00000100)
+#define RESETS_RESET_DONE_JTAG_MSB    _u(8)
+#define RESETS_RESET_DONE_JTAG_LSB    _u(8)
+#define RESETS_RESET_DONE_JTAG_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_IO_QSPI
+#define RESETS_RESET_DONE_IO_QSPI_RESET  _u(0x0)
+#define RESETS_RESET_DONE_IO_QSPI_BITS   _u(0x00000080)
+#define RESETS_RESET_DONE_IO_QSPI_MSB    _u(7)
+#define RESETS_RESET_DONE_IO_QSPI_LSB    _u(7)
+#define RESETS_RESET_DONE_IO_QSPI_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_IO_BANK0
+#define RESETS_RESET_DONE_IO_BANK0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_IO_BANK0_BITS   _u(0x00000040)
+#define RESETS_RESET_DONE_IO_BANK0_MSB    _u(6)
+#define RESETS_RESET_DONE_IO_BANK0_LSB    _u(6)
+#define RESETS_RESET_DONE_IO_BANK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_I2C1
+#define RESETS_RESET_DONE_I2C1_RESET  _u(0x0)
+#define RESETS_RESET_DONE_I2C1_BITS   _u(0x00000020)
+#define RESETS_RESET_DONE_I2C1_MSB    _u(5)
+#define RESETS_RESET_DONE_I2C1_LSB    _u(5)
+#define RESETS_RESET_DONE_I2C1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_I2C0
+#define RESETS_RESET_DONE_I2C0_RESET  _u(0x0)
+#define RESETS_RESET_DONE_I2C0_BITS   _u(0x00000010)
+#define RESETS_RESET_DONE_I2C0_MSB    _u(4)
+#define RESETS_RESET_DONE_I2C0_LSB    _u(4)
+#define RESETS_RESET_DONE_I2C0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_HSTX
+#define RESETS_RESET_DONE_HSTX_RESET  _u(0x0)
+#define RESETS_RESET_DONE_HSTX_BITS   _u(0x00000008)
+#define RESETS_RESET_DONE_HSTX_MSB    _u(3)
+#define RESETS_RESET_DONE_HSTX_LSB    _u(3)
+#define RESETS_RESET_DONE_HSTX_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_DMA
+#define RESETS_RESET_DONE_DMA_RESET  _u(0x0)
+#define RESETS_RESET_DONE_DMA_BITS   _u(0x00000004)
+#define RESETS_RESET_DONE_DMA_MSB    _u(2)
+#define RESETS_RESET_DONE_DMA_LSB    _u(2)
+#define RESETS_RESET_DONE_DMA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_BUSCTRL
+#define RESETS_RESET_DONE_BUSCTRL_RESET  _u(0x0)
+#define RESETS_RESET_DONE_BUSCTRL_BITS   _u(0x00000002)
+#define RESETS_RESET_DONE_BUSCTRL_MSB    _u(1)
+#define RESETS_RESET_DONE_BUSCTRL_LSB    _u(1)
+#define RESETS_RESET_DONE_BUSCTRL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RESETS_RESET_DONE_ADC
+#define RESETS_RESET_DONE_ADC_RESET  _u(0x0)
+#define RESETS_RESET_DONE_ADC_BITS   _u(0x00000001)
+#define RESETS_RESET_DONE_ADC_MSB    _u(0)
+#define RESETS_RESET_DONE_ADC_LSB    _u(0)
+#define RESETS_RESET_DONE_ADC_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_RESETS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/riscv_dm.h b/lib/pico-sdk/rp2350/hardware/regs/riscv_dm.h
new file mode 100644
index 0000000..bbf64a2
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/riscv_dm.h
@@ -0,0 +1,1025 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : RISCV_DM
+// Version        : 1
+// Bus type       : apb
+// Description    : RISC-V Debug module registers (Hazard3 subset only). Read-
+//                  only information fields (such as dmstatus.version) are
+//                  listed here with the values they have on the RP2350
+//                  instantiation of Hazard3.
+// =============================================================================
+#ifndef _HARDWARE_REGS_RISCV_DM_H
+#define _HARDWARE_REGS_RISCV_DM_H
+// =============================================================================
+// Register    : RISCV_DM_DATA0
+// Description : data0 through data11 are basic read/write registers that may be
+//               read or changed by abstract commands. abstractcs.datacount
+//               indicates how many of them are implemented, starting at data0,
+//               counting up.
+//
+//               Accessing these registers while an abstract command is
+//               executing causes abstractcs.cmderr to be set to 1 (busy) if it
+//               is 0.
+//
+//               Attempts to write them while abstractcs.busy is set does not
+//               change their value.
+//
+//               The values in these registers may not be preserved after an
+//               abstract command is executed. The only guarantees on their
+//               contents are the ones offered by the command in question. If
+//               the command fails, no assumptions can be made about the
+//               contents of these registers.
+//
+//               (Note: Hazard3 implements data0 only.)
+#define RISCV_DM_DATA0_OFFSET _u(0x00000010)
+#define RISCV_DM_DATA0_BITS   _u(0xffffffff)
+#define RISCV_DM_DATA0_RESET  _u(0x00000000)
+#define RISCV_DM_DATA0_MSB    _u(31)
+#define RISCV_DM_DATA0_LSB    _u(0)
+#define RISCV_DM_DATA0_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_DMCONTROL
+// Description : This register controls the overall Debug Module as well as the
+//               currently selected harts, as defined in hasel.
+#define RISCV_DM_DMCONTROL_OFFSET _u(0x00000040)
+#define RISCV_DM_DMCONTROL_BITS   _u(0xf7ffffcf)
+#define RISCV_DM_DMCONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_HALTREQ
+// Description : Writing 0 clears the halt request bit for all currently
+//               selected harts. This may cancel outstanding halt requests for
+//               those harts.
+//
+//               Writing 1 sets the halt request bit for all currently selected
+//               harts. Running harts will halt whenever their halt request bit
+//               is set.
+//
+//               Writes apply to the new value of hartsel and hasel.
+#define RISCV_DM_DMCONTROL_HALTREQ_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_HALTREQ_BITS   _u(0x80000000)
+#define RISCV_DM_DMCONTROL_HALTREQ_MSB    _u(31)
+#define RISCV_DM_DMCONTROL_HALTREQ_LSB    _u(31)
+#define RISCV_DM_DMCONTROL_HALTREQ_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_RESUMEREQ
+// Description : Writing 1 causes the currently selected harts to resume once,
+//               if they are halted when the write occurs. It also clears the
+//               resume ack bit for those harts.
+//
+//               resumereq is ignored if haltreq is set.
+//
+//               Writes apply to the new value of hartsel and hasel.
+#define RISCV_DM_DMCONTROL_RESUMEREQ_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_RESUMEREQ_BITS   _u(0x40000000)
+#define RISCV_DM_DMCONTROL_RESUMEREQ_MSB    _u(30)
+#define RISCV_DM_DMCONTROL_RESUMEREQ_LSB    _u(30)
+#define RISCV_DM_DMCONTROL_RESUMEREQ_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_HARTRESET
+// Description : This optional field writes the reset bit for all the currently
+//               selected harts. To perform a reset the debugger writes 1, and
+//               then writes 0 to deassert the reset signal.
+//
+//               While this bit is 1, the debugger must not change which harts
+//               are selected.
+//
+//               Writes apply to the new value of hartsel and hasel.
+//
+//               (The exact behaviour of this field is implementation-defined:
+//               on RP2350 it (triggers a local reset of the selected core(s)
+//               only.)
+#define RISCV_DM_DMCONTROL_HARTRESET_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_HARTRESET_BITS   _u(0x20000000)
+#define RISCV_DM_DMCONTROL_HARTRESET_MSB    _u(29)
+#define RISCV_DM_DMCONTROL_HARTRESET_LSB    _u(29)
+#define RISCV_DM_DMCONTROL_HARTRESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_ACKHAVERESET
+// Description : 0: No effect.
+//
+//               1: Clears havereset for any selected harts.
+//
+//               Writes apply to the new value of hartsel and hasel.
+#define RISCV_DM_DMCONTROL_ACKHAVERESET_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_ACKHAVERESET_BITS   _u(0x10000000)
+#define RISCV_DM_DMCONTROL_ACKHAVERESET_MSB    _u(28)
+#define RISCV_DM_DMCONTROL_ACKHAVERESET_LSB    _u(28)
+#define RISCV_DM_DMCONTROL_ACKHAVERESET_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_HASEL
+// Description : Selects the definition of currently selected harts.
+//
+//               0: There is a single currently selected hart, that is selected
+//               by hartsel.
+//
+//               1: There may be multiple currently selected harts – the hart
+//               selected by hartsel, plus those selected by the hart array mask
+//               register.
+//
+//               Hazard3 does support the hart array mask.
+#define RISCV_DM_DMCONTROL_HASEL_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_HASEL_BITS   _u(0x04000000)
+#define RISCV_DM_DMCONTROL_HASEL_MSB    _u(26)
+#define RISCV_DM_DMCONTROL_HASEL_LSB    _u(26)
+#define RISCV_DM_DMCONTROL_HASEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_HARTSELLO
+// Description : The low 10 bits of hartsel: the DM-specific index of the hart
+//               to select. This hart is always part of the currently selected
+//               harts.
+//
+//               On RP2350, since there are only two cores (with one hart each),
+//               only the least-significant bit is writable. The others are tied
+//               to 0.
+#define RISCV_DM_DMCONTROL_HARTSELLO_RESET  _u(0x000)
+#define RISCV_DM_DMCONTROL_HARTSELLO_BITS   _u(0x03ff0000)
+#define RISCV_DM_DMCONTROL_HARTSELLO_MSB    _u(25)
+#define RISCV_DM_DMCONTROL_HARTSELLO_LSB    _u(16)
+#define RISCV_DM_DMCONTROL_HARTSELLO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_HARTSELHI
+// Description : The high 10 bits of hartsel: the DM-specific index of the hart
+//               to select. This hart is always part of the currently selected
+//               harts.
+//
+//               On Hazard3 this field is always tied to all-zeroes.
+#define RISCV_DM_DMCONTROL_HARTSELHI_RESET  _u(0x000)
+#define RISCV_DM_DMCONTROL_HARTSELHI_BITS   _u(0x0000ffc0)
+#define RISCV_DM_DMCONTROL_HARTSELHI_MSB    _u(15)
+#define RISCV_DM_DMCONTROL_HARTSELHI_LSB    _u(6)
+#define RISCV_DM_DMCONTROL_HARTSELHI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_SETRESETHALTREQ
+// Description : This optional field writes the halt-on-reset request bit for
+//               all currently selected harts, unless clrresethaltreq is
+//               simultaneously set to 1.
+//
+//               When set to 1, each selected hart will halt upon the next
+//               deassertion of its reset. The halt-on-reset request bit is not
+//               automatically cleared. The debugger must write to
+//               clrresethaltreq to clear it.
+//
+//               Writes apply to the new value of hartsel and hasel.
+#define RISCV_DM_DMCONTROL_SETRESETHALTREQ_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_SETRESETHALTREQ_BITS   _u(0x00000008)
+#define RISCV_DM_DMCONTROL_SETRESETHALTREQ_MSB    _u(3)
+#define RISCV_DM_DMCONTROL_SETRESETHALTREQ_LSB    _u(3)
+#define RISCV_DM_DMCONTROL_SETRESETHALTREQ_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_CLRRESETHALTREQ
+// Description : This optional field clears the halt-on-reset request bit for
+//               all currently selected harts.
+//
+//               Writes apply to the new value of hartsel and hasel.
+#define RISCV_DM_DMCONTROL_CLRRESETHALTREQ_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_CLRRESETHALTREQ_BITS   _u(0x00000004)
+#define RISCV_DM_DMCONTROL_CLRRESETHALTREQ_MSB    _u(2)
+#define RISCV_DM_DMCONTROL_CLRRESETHALTREQ_LSB    _u(2)
+#define RISCV_DM_DMCONTROL_CLRRESETHALTREQ_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_NDMRESET
+// Description : This bit controls the reset signal from the DM to the rest of
+//               the system. The signal should reset every part of the system,
+//               including every hart, except for the DM and any logic required
+//               to access the DM. To perform a system reset the debugger writes
+//               1, and then writes 0 to deassert the reset.
+//
+//               On RP2350 this performs a cold reset, the equivalent of a
+//               watchdog reset with all WDSEL bits set. This includes both
+//               cores and all peripherals.
+#define RISCV_DM_DMCONTROL_NDMRESET_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_NDMRESET_BITS   _u(0x00000002)
+#define RISCV_DM_DMCONTROL_NDMRESET_MSB    _u(1)
+#define RISCV_DM_DMCONTROL_NDMRESET_LSB    _u(1)
+#define RISCV_DM_DMCONTROL_NDMRESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMCONTROL_DMACTIVE
+// Description : This bit serves as a reset signal for the Debug Module itself.
+//
+//               0: The module’s state, including authentication mechanism,
+//               takes its reset values (the dmactive bit is the only bit which
+//               can be written to something other than its reset value).
+//
+//               1: The module functions normally.
+//
+//               No other mechanism should exist that may result in resetting
+//               the Debug Module after power up, with the possible (but not
+//               recommended) exception of a global reset signal that resets the
+//               entire platform.
+//
+//               (On RP2350, the Debug Module is reset by a power-on reset, a
+//               brownout reset, the RUN pin, and a rescue reset.)
+//
+//               A debugger may pulse this bit low to get the Debug Module into
+//               a known state.
+#define RISCV_DM_DMCONTROL_DMACTIVE_RESET  _u(0x0)
+#define RISCV_DM_DMCONTROL_DMACTIVE_BITS   _u(0x00000001)
+#define RISCV_DM_DMCONTROL_DMACTIVE_MSB    _u(0)
+#define RISCV_DM_DMCONTROL_DMACTIVE_LSB    _u(0)
+#define RISCV_DM_DMCONTROL_DMACTIVE_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_DMSTATUS
+// Description : This register reports status for the overall Debug Module as
+//               well as the currently selected harts, as defined in hasel. Its
+//               address will not change in the future, because it contains
+//               version.
+//
+//               This entire register is read-only.
+#define RISCV_DM_DMSTATUS_OFFSET _u(0x00000044)
+#define RISCV_DM_DMSTATUS_BITS   _u(0x004fffff)
+#define RISCV_DM_DMSTATUS_RESET  _u(0x004000a2)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_IMPEBREAK
+// Description : If 1, then there is an implicit ebreak instruction at the non-
+//               existent word immediately after the Program Buffer. This saves
+//               the debugger from having to write the ebreak itself, and allows
+//               the Program Buffer to be one word smaller.
+#define RISCV_DM_DMSTATUS_IMPEBREAK_RESET  _u(0x1)
+#define RISCV_DM_DMSTATUS_IMPEBREAK_BITS   _u(0x00400000)
+#define RISCV_DM_DMSTATUS_IMPEBREAK_MSB    _u(22)
+#define RISCV_DM_DMSTATUS_IMPEBREAK_LSB    _u(22)
+#define RISCV_DM_DMSTATUS_IMPEBREAK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLHAVERESET
+// Description : This field is 1 when all currently selected harts have been
+//               reset and reset has not been acknowledged for any of them.
+#define RISCV_DM_DMSTATUS_ALLHAVERESET_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ALLHAVERESET_BITS   _u(0x00080000)
+#define RISCV_DM_DMSTATUS_ALLHAVERESET_MSB    _u(19)
+#define RISCV_DM_DMSTATUS_ALLHAVERESET_LSB    _u(19)
+#define RISCV_DM_DMSTATUS_ALLHAVERESET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYHAVERESET
+// Description : This field is 1 when at least one currently selected hart has
+//               been reset and reset has not been acknowledged for that hart.
+#define RISCV_DM_DMSTATUS_ANYHAVERESET_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ANYHAVERESET_BITS   _u(0x00040000)
+#define RISCV_DM_DMSTATUS_ANYHAVERESET_MSB    _u(18)
+#define RISCV_DM_DMSTATUS_ANYHAVERESET_LSB    _u(18)
+#define RISCV_DM_DMSTATUS_ANYHAVERESET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLRESUMEACK
+// Description : This field is 1 when all currently selected harts have
+//               acknowledged their last resume request.
+#define RISCV_DM_DMSTATUS_ALLRESUMEACK_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ALLRESUMEACK_BITS   _u(0x00020000)
+#define RISCV_DM_DMSTATUS_ALLRESUMEACK_MSB    _u(17)
+#define RISCV_DM_DMSTATUS_ALLRESUMEACK_LSB    _u(17)
+#define RISCV_DM_DMSTATUS_ALLRESUMEACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYRESUMEACK
+// Description : This field is 1 when any currently selected hart has
+//               acknowledged its last resume request.
+#define RISCV_DM_DMSTATUS_ANYRESUMEACK_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ANYRESUMEACK_BITS   _u(0x00010000)
+#define RISCV_DM_DMSTATUS_ANYRESUMEACK_MSB    _u(16)
+#define RISCV_DM_DMSTATUS_ANYRESUMEACK_LSB    _u(16)
+#define RISCV_DM_DMSTATUS_ANYRESUMEACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLNONEXISTENT
+// Description : This field is 1 when all currently selected harts do not exist
+//               on this platform.
+#define RISCV_DM_DMSTATUS_ALLNONEXISTENT_RESET  "-"
+#define RISCV_DM_DMSTATUS_ALLNONEXISTENT_BITS   _u(0x00008000)
+#define RISCV_DM_DMSTATUS_ALLNONEXISTENT_MSB    _u(15)
+#define RISCV_DM_DMSTATUS_ALLNONEXISTENT_LSB    _u(15)
+#define RISCV_DM_DMSTATUS_ALLNONEXISTENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYNONEXISTENT
+// Description : This field is 1 when any currently selected hart does not exist
+//               in this platform.
+#define RISCV_DM_DMSTATUS_ANYNONEXISTENT_RESET  "-"
+#define RISCV_DM_DMSTATUS_ANYNONEXISTENT_BITS   _u(0x00004000)
+#define RISCV_DM_DMSTATUS_ANYNONEXISTENT_MSB    _u(14)
+#define RISCV_DM_DMSTATUS_ANYNONEXISTENT_LSB    _u(14)
+#define RISCV_DM_DMSTATUS_ANYNONEXISTENT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLUNAVAIL
+// Description : This field is 1 when all currently selected harts are
+//               unavailable.
+#define RISCV_DM_DMSTATUS_ALLUNAVAIL_RESET  "-"
+#define RISCV_DM_DMSTATUS_ALLUNAVAIL_BITS   _u(0x00002000)
+#define RISCV_DM_DMSTATUS_ALLUNAVAIL_MSB    _u(13)
+#define RISCV_DM_DMSTATUS_ALLUNAVAIL_LSB    _u(13)
+#define RISCV_DM_DMSTATUS_ALLUNAVAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYUNAVAIL
+// Description : This field is 1 when any currently selected hart is
+//               unavailable.
+#define RISCV_DM_DMSTATUS_ANYUNAVAIL_RESET  "-"
+#define RISCV_DM_DMSTATUS_ANYUNAVAIL_BITS   _u(0x00001000)
+#define RISCV_DM_DMSTATUS_ANYUNAVAIL_MSB    _u(12)
+#define RISCV_DM_DMSTATUS_ANYUNAVAIL_LSB    _u(12)
+#define RISCV_DM_DMSTATUS_ANYUNAVAIL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLRUNNING
+// Description : This field is 1 when all currently selected harts are running.
+#define RISCV_DM_DMSTATUS_ALLRUNNING_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ALLRUNNING_BITS   _u(0x00000800)
+#define RISCV_DM_DMSTATUS_ALLRUNNING_MSB    _u(11)
+#define RISCV_DM_DMSTATUS_ALLRUNNING_LSB    _u(11)
+#define RISCV_DM_DMSTATUS_ALLRUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYRUNNING
+// Description : This field is 1 when any currently selected hart is running.
+#define RISCV_DM_DMSTATUS_ANYRUNNING_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ANYRUNNING_BITS   _u(0x00000400)
+#define RISCV_DM_DMSTATUS_ANYRUNNING_MSB    _u(10)
+#define RISCV_DM_DMSTATUS_ANYRUNNING_LSB    _u(10)
+#define RISCV_DM_DMSTATUS_ANYRUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ALLHALTED
+// Description : This field is 1 when all currently selected harts are halted.
+#define RISCV_DM_DMSTATUS_ALLHALTED_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ALLHALTED_BITS   _u(0x00000200)
+#define RISCV_DM_DMSTATUS_ALLHALTED_MSB    _u(9)
+#define RISCV_DM_DMSTATUS_ALLHALTED_LSB    _u(9)
+#define RISCV_DM_DMSTATUS_ALLHALTED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_ANYHALTED
+// Description : This field is 1 when any currently selected hart is halted.
+#define RISCV_DM_DMSTATUS_ANYHALTED_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_ANYHALTED_BITS   _u(0x00000100)
+#define RISCV_DM_DMSTATUS_ANYHALTED_MSB    _u(8)
+#define RISCV_DM_DMSTATUS_ANYHALTED_LSB    _u(8)
+#define RISCV_DM_DMSTATUS_ANYHALTED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_AUTHENTICATED
+// Description : 0: Authentication is required before using the DM.
+//
+//               1: The authentication check has passed.
+//
+//               On components that don’t implement authentication, this bit
+//               must be preset as 1. (Note: the version of Hazard3 on RP2350
+//               does not implement authentication.)
+#define RISCV_DM_DMSTATUS_AUTHENTICATED_RESET  _u(0x1)
+#define RISCV_DM_DMSTATUS_AUTHENTICATED_BITS   _u(0x00000080)
+#define RISCV_DM_DMSTATUS_AUTHENTICATED_MSB    _u(7)
+#define RISCV_DM_DMSTATUS_AUTHENTICATED_LSB    _u(7)
+#define RISCV_DM_DMSTATUS_AUTHENTICATED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_AUTHBUSY
+// Description : 0: The authentication module is ready to process the next
+//               read/write to authdata.
+//
+//               1: The authentication module is busy. Accessing authdata
+//               results in unspecified behavior. authbusy only becomes set in
+//               immediate response to an access to authdata.
+#define RISCV_DM_DMSTATUS_AUTHBUSY_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_AUTHBUSY_BITS   _u(0x00000040)
+#define RISCV_DM_DMSTATUS_AUTHBUSY_MSB    _u(6)
+#define RISCV_DM_DMSTATUS_AUTHBUSY_LSB    _u(6)
+#define RISCV_DM_DMSTATUS_AUTHBUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_HASRESETHALTREQ
+// Description : 1 if this Debug Module supports halt-on-reset functionality
+//               controllable by the setresethaltreq and clrresethaltreq bits. 0
+//               otherwise.
+#define RISCV_DM_DMSTATUS_HASRESETHALTREQ_RESET  _u(0x1)
+#define RISCV_DM_DMSTATUS_HASRESETHALTREQ_BITS   _u(0x00000020)
+#define RISCV_DM_DMSTATUS_HASRESETHALTREQ_MSB    _u(5)
+#define RISCV_DM_DMSTATUS_HASRESETHALTREQ_LSB    _u(5)
+#define RISCV_DM_DMSTATUS_HASRESETHALTREQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_CONFSTPTRVALID
+// Description : 0: confstrptr0–confstrptr3 hold information which is not
+//               relevant to the configuration string.
+//
+//               1: confstrptr0–confstrptr3 hold the address of the
+//               configuration string.
+#define RISCV_DM_DMSTATUS_CONFSTPTRVALID_RESET  _u(0x0)
+#define RISCV_DM_DMSTATUS_CONFSTPTRVALID_BITS   _u(0x00000010)
+#define RISCV_DM_DMSTATUS_CONFSTPTRVALID_MSB    _u(4)
+#define RISCV_DM_DMSTATUS_CONFSTPTRVALID_LSB    _u(4)
+#define RISCV_DM_DMSTATUS_CONFSTPTRVALID_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_DMSTATUS_VERSION
+// Description : 0: There is no Debug Module present. 1: There is a Debug Module
+//               and it conforms to version 0.11 of the RISC-V debug
+//               specification.
+//
+//               2: There is a Debug Module and it conforms to version 0.13 of
+//               the RISC-V debug specification.
+//
+//               15: There is a Debug Module but it does not con- form to any
+//               available version of the RISC-V debug spec.
+#define RISCV_DM_DMSTATUS_VERSION_RESET  _u(0x2)
+#define RISCV_DM_DMSTATUS_VERSION_BITS   _u(0x0000000f)
+#define RISCV_DM_DMSTATUS_VERSION_MSB    _u(3)
+#define RISCV_DM_DMSTATUS_VERSION_LSB    _u(0)
+#define RISCV_DM_DMSTATUS_VERSION_ACCESS "RO"
+// =============================================================================
+// Register    : RISCV_DM_HARTINFO
+// Description : This register gives information about the hart currently
+//               selected by hartsel.
+//
+//               This entire register is read-only.
+#define RISCV_DM_HARTINFO_OFFSET _u(0x00000048)
+#define RISCV_DM_HARTINFO_BITS   _u(0x00f1ffff)
+#define RISCV_DM_HARTINFO_RESET  _u(0x00001bff)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HARTINFO_NSCRATCH
+// Description : Number of dscratch registers available for the debugger to use
+//               during program buffer execution, starting from dscratch0. The
+//               debugger can make no assumptions about the contents of these
+//               registers between commands.
+#define RISCV_DM_HARTINFO_NSCRATCH_RESET  _u(0x0)
+#define RISCV_DM_HARTINFO_NSCRATCH_BITS   _u(0x00f00000)
+#define RISCV_DM_HARTINFO_NSCRATCH_MSB    _u(23)
+#define RISCV_DM_HARTINFO_NSCRATCH_LSB    _u(20)
+#define RISCV_DM_HARTINFO_NSCRATCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HARTINFO_DATAACCESS
+// Description : 0: The data registers are shadowed in the hart by CSRs. Each
+//               CSR is DXLEN bits in size, and corresponds to a single
+//               argument.
+//
+//               1: The data registers are shadowed in the hart’s memory map.
+//               Each register takes up 4 bytes in the memory map.
+#define RISCV_DM_HARTINFO_DATAACCESS_RESET  _u(0x0)
+#define RISCV_DM_HARTINFO_DATAACCESS_BITS   _u(0x00010000)
+#define RISCV_DM_HARTINFO_DATAACCESS_MSB    _u(16)
+#define RISCV_DM_HARTINFO_DATAACCESS_LSB    _u(16)
+#define RISCV_DM_HARTINFO_DATAACCESS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HARTINFO_DATASIZE
+// Description : If dataaccess is 0: Number of CSRs dedicated to shadowing the
+//               data registers.
+//
+//               If dataaccess is 1: Number of 32-bit words in the memory map
+//               dedicated to shadowing the data registers.
+#define RISCV_DM_HARTINFO_DATASIZE_RESET  _u(0x1)
+#define RISCV_DM_HARTINFO_DATASIZE_BITS   _u(0x0000f000)
+#define RISCV_DM_HARTINFO_DATASIZE_MSB    _u(15)
+#define RISCV_DM_HARTINFO_DATASIZE_LSB    _u(12)
+#define RISCV_DM_HARTINFO_DATASIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HARTINFO_DATAADDR
+// Description : If dataaccess is 0: The number of the first CSR dedicated to
+//               shadowing the data registers.
+//
+//               If dataaccess is 1: Signed address of RAM where the data
+//               registers are shadowed, to be used to access relative to zero
+//
+//               On Hazard3 this indicates the single data register mapped as
+//               dmdata0. There is actually only a single shared register,
+//               internal to the Debug Module, and mirrored in each core's CSR
+//               space.
+#define RISCV_DM_HARTINFO_DATAADDR_RESET  _u(0xbff)
+#define RISCV_DM_HARTINFO_DATAADDR_BITS   _u(0x00000fff)
+#define RISCV_DM_HARTINFO_DATAADDR_MSB    _u(11)
+#define RISCV_DM_HARTINFO_DATAADDR_LSB    _u(0)
+#define RISCV_DM_HARTINFO_DATAADDR_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_HALTSUM1
+// Description : Each bit in this read-only register indicates whether any of a
+//               group of harts is halted or not. Unavailable/nonexistent harts
+//               are not considered to be halted.
+//
+//               Each bit in haltsum1 is an OR reduction of 32 bits' worth of
+//               haltsum0. On RP2350, only the LSB is implemented.
+#define RISCV_DM_HALTSUM1_OFFSET _u(0x0000004c)
+#define RISCV_DM_HALTSUM1_BITS   _u(0x00000001)
+#define RISCV_DM_HALTSUM1_RESET  _u(0x00000000)
+#define RISCV_DM_HALTSUM1_MSB    _u(0)
+#define RISCV_DM_HALTSUM1_LSB    _u(0)
+#define RISCV_DM_HALTSUM1_ACCESS "RO"
+// =============================================================================
+// Register    : RISCV_DM_HAWINDOWSEL
+// Description : This register selects which of the 32-bit portion of the hart
+//               array mask register is accessible in hawindow.
+#define RISCV_DM_HAWINDOWSEL_OFFSET _u(0x00000050)
+#define RISCV_DM_HAWINDOWSEL_BITS   _u(0x00007fff)
+#define RISCV_DM_HAWINDOWSEL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HAWINDOWSEL_HAWINDOWSEL
+// Description : On Hazard3 this register is entirely hardwired to 0.
+#define RISCV_DM_HAWINDOWSEL_HAWINDOWSEL_RESET  _u(0x0000)
+#define RISCV_DM_HAWINDOWSEL_HAWINDOWSEL_BITS   _u(0x00007fff)
+#define RISCV_DM_HAWINDOWSEL_HAWINDOWSEL_MSB    _u(14)
+#define RISCV_DM_HAWINDOWSEL_HAWINDOWSEL_LSB    _u(0)
+#define RISCV_DM_HAWINDOWSEL_HAWINDOWSEL_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_HAWINDOW
+// Description : This register provides R/W access to a 32-bit portion of the
+//               hart array mask register. The position of the window is
+//               determined by hawindowsel. I.e. bit 0 refers to hart
+//               hawindowsel ∗ 32, while bit 31 refers to hart hawindowsel ∗ 32
+//               + 31.
+//
+//               On RP2350 only the two least-significant bits of this register
+//               are implemented, since there are only two cores. This is still
+//               useful to run/halt/reset both cores exactly simultaneously.
+#define RISCV_DM_HAWINDOW_OFFSET _u(0x00000054)
+#define RISCV_DM_HAWINDOW_BITS   _u(0x00000003)
+#define RISCV_DM_HAWINDOW_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_HAWINDOW_MASKDATA
+#define RISCV_DM_HAWINDOW_MASKDATA_RESET  _u(0x0)
+#define RISCV_DM_HAWINDOW_MASKDATA_BITS   _u(0x00000003)
+#define RISCV_DM_HAWINDOW_MASKDATA_MSB    _u(1)
+#define RISCV_DM_HAWINDOW_MASKDATA_LSB    _u(0)
+#define RISCV_DM_HAWINDOW_MASKDATA_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_ABSTRACTS
+// Description : Abstract Control and Status. Writing this register while an
+//               abstract command is executing causes cmderr to be set to 1
+//               (busy) if it is 0.
+#define RISCV_DM_ABSTRACTS_OFFSET _u(0x00000058)
+#define RISCV_DM_ABSTRACTS_BITS   _u(0x1f00170f)
+#define RISCV_DM_ABSTRACTS_RESET  _u(0x02000001)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTS_PROGBUFSIZE
+// Description : Size of the Program Buffer, in 32-bit words.
+#define RISCV_DM_ABSTRACTS_PROGBUFSIZE_RESET  _u(0x02)
+#define RISCV_DM_ABSTRACTS_PROGBUFSIZE_BITS   _u(0x1f000000)
+#define RISCV_DM_ABSTRACTS_PROGBUFSIZE_MSB    _u(28)
+#define RISCV_DM_ABSTRACTS_PROGBUFSIZE_LSB    _u(24)
+#define RISCV_DM_ABSTRACTS_PROGBUFSIZE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTS_BUSY
+// Description : 1: An abstract command is currently being executed.
+//
+//               This bit is set as soon as command is written, and is not
+//               cleared until that command has completed.
+#define RISCV_DM_ABSTRACTS_BUSY_RESET  _u(0x0)
+#define RISCV_DM_ABSTRACTS_BUSY_BITS   _u(0x00001000)
+#define RISCV_DM_ABSTRACTS_BUSY_MSB    _u(12)
+#define RISCV_DM_ABSTRACTS_BUSY_LSB    _u(12)
+#define RISCV_DM_ABSTRACTS_BUSY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTS_CMDERR
+// Description : Gets set if an abstract command fails. The bits in this field
+//               remain set until they are cleared by writing 1 to them. No
+//               abstract command is started until the value is reset to 0.
+//
+//               This field only contains a valid value if busy is 0.
+//
+//               0 (none): No error.
+//
+//               1 (busy): An abstract command was executing while command,
+//               abstractcs, or abstractauto was written, or when one of the
+//               data or progbuf registers was read or written. This status is
+//               only written if cmderr contains 0.
+//
+//               2 (not supported): The requested command is not supported,
+//               regardless of whether the hart is running or not.
+//
+//               3 (exception): An exception occurred while executing the
+//               command (e.g. while executing the Program Buffer).
+//
+//               4 (halt/resume): The abstract command couldn’t execute because
+//               the hart wasn’t in the required state (running/halted), or
+//               unavailable.
+//
+//               5 (bus): The abstract command failed due to a bus error (e.g.
+//               alignment, access size, or timeout).
+//
+//               7 (other): The command failed for another reason.
+//
+//               Note: Hazard3 does not set values 5 or 7. Load/store
+//               instructions in the program buffer raise an exception when they
+//               encounter a bus fault, setting cmderr=3.
+#define RISCV_DM_ABSTRACTS_CMDERR_RESET  _u(0x0)
+#define RISCV_DM_ABSTRACTS_CMDERR_BITS   _u(0x00000700)
+#define RISCV_DM_ABSTRACTS_CMDERR_MSB    _u(10)
+#define RISCV_DM_ABSTRACTS_CMDERR_LSB    _u(8)
+#define RISCV_DM_ABSTRACTS_CMDERR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTS_DATACOUNT
+// Description : Number of data registers that are implemented as part of the
+//               abstract command interface.
+#define RISCV_DM_ABSTRACTS_DATACOUNT_RESET  _u(0x1)
+#define RISCV_DM_ABSTRACTS_DATACOUNT_BITS   _u(0x0000000f)
+#define RISCV_DM_ABSTRACTS_DATACOUNT_MSB    _u(3)
+#define RISCV_DM_ABSTRACTS_DATACOUNT_LSB    _u(0)
+#define RISCV_DM_ABSTRACTS_DATACOUNT_ACCESS "RO"
+// =============================================================================
+// Register    : RISCV_DM_COMMAND
+// Description : Writes to this register cause the corresponding abstract
+//               command to be executed.
+//
+//               Writing this register while an abstract command is executing
+//               causes cmderr to be set to 1 (busy) if it is 0.
+//
+//               If cmderr is non-zero, writes to this register are ignored.
+#define RISCV_DM_COMMAND_OFFSET _u(0x0000005c)
+#define RISCV_DM_COMMAND_BITS   _u(0xff7fffff)
+#define RISCV_DM_COMMAND_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_CMDTYPE
+// Description : On Hazard3 this field must be 0 (Access Register)
+#define RISCV_DM_COMMAND_CMDTYPE_RESET  _u(0x00)
+#define RISCV_DM_COMMAND_CMDTYPE_BITS   _u(0xff000000)
+#define RISCV_DM_COMMAND_CMDTYPE_MSB    _u(31)
+#define RISCV_DM_COMMAND_CMDTYPE_LSB    _u(24)
+#define RISCV_DM_COMMAND_CMDTYPE_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_AARSIZE
+// Description : On Hazard3 this field must be 2 (32-bit register access)
+#define RISCV_DM_COMMAND_AARSIZE_RESET  _u(0x0)
+#define RISCV_DM_COMMAND_AARSIZE_BITS   _u(0x00700000)
+#define RISCV_DM_COMMAND_AARSIZE_MSB    _u(22)
+#define RISCV_DM_COMMAND_AARSIZE_LSB    _u(20)
+#define RISCV_DM_COMMAND_AARSIZE_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_AARPOSTINCREMENT
+// Description : On Hazard3 this field must be 0 (no post-increment of regno)
+#define RISCV_DM_COMMAND_AARPOSTINCREMENT_RESET  _u(0x0)
+#define RISCV_DM_COMMAND_AARPOSTINCREMENT_BITS   _u(0x00080000)
+#define RISCV_DM_COMMAND_AARPOSTINCREMENT_MSB    _u(19)
+#define RISCV_DM_COMMAND_AARPOSTINCREMENT_LSB    _u(19)
+#define RISCV_DM_COMMAND_AARPOSTINCREMENT_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_POSTEXEC
+// Description : 0: No effect.
+//
+//               1: Execute the program in the Program Buffer exactly once after
+//               performing the transfer, if any.
+#define RISCV_DM_COMMAND_POSTEXEC_RESET  _u(0x0)
+#define RISCV_DM_COMMAND_POSTEXEC_BITS   _u(0x00040000)
+#define RISCV_DM_COMMAND_POSTEXEC_MSB    _u(18)
+#define RISCV_DM_COMMAND_POSTEXEC_LSB    _u(18)
+#define RISCV_DM_COMMAND_POSTEXEC_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_TRANSFER
+// Description : 0: Don’t do the operation specified by write.
+//
+//               1: Do the operation specified by write.
+//
+//               This bit can be used to just execute the Program Buffer without
+//               having to worry about placing valid values into aarsize or
+//               regno.
+#define RISCV_DM_COMMAND_TRANSFER_RESET  _u(0x0)
+#define RISCV_DM_COMMAND_TRANSFER_BITS   _u(0x00020000)
+#define RISCV_DM_COMMAND_TRANSFER_MSB    _u(17)
+#define RISCV_DM_COMMAND_TRANSFER_LSB    _u(17)
+#define RISCV_DM_COMMAND_TRANSFER_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_WRITE
+// Description : When transfer is set:
+//
+//               0: Copy data from the specified register into data0.
+//
+//               1: Copy data from data0 into the specified register.
+#define RISCV_DM_COMMAND_WRITE_RESET  _u(0x0)
+#define RISCV_DM_COMMAND_WRITE_BITS   _u(0x00010000)
+#define RISCV_DM_COMMAND_WRITE_MSB    _u(16)
+#define RISCV_DM_COMMAND_WRITE_LSB    _u(16)
+#define RISCV_DM_COMMAND_WRITE_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_COMMAND_REGNO
+// Description : Number of the register to access.
+//
+//               On Hazard3 this must be in the range 0x1000 through 0x101f
+//               inclusive, referring to GPRs x0 through x31.
+#define RISCV_DM_COMMAND_REGNO_RESET  _u(0x0000)
+#define RISCV_DM_COMMAND_REGNO_BITS   _u(0x0000ffff)
+#define RISCV_DM_COMMAND_REGNO_MSB    _u(15)
+#define RISCV_DM_COMMAND_REGNO_LSB    _u(0)
+#define RISCV_DM_COMMAND_REGNO_ACCESS "WO"
+// =============================================================================
+// Register    : RISCV_DM_ABSTRACTAUTO
+// Description : Abstract Command Autoexec. Writing this register while an
+//               abstract command is executing causes cmderr to be set to 1
+//               (busy) if it is 0.
+#define RISCV_DM_ABSTRACTAUTO_OFFSET _u(0x00000060)
+#define RISCV_DM_ABSTRACTAUTO_BITS   _u(0xffff8fff)
+#define RISCV_DM_ABSTRACTAUTO_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF
+// Description : When a bit in this field is 1, read or write accesses to the
+//               corresponding progbuf word cause the command in command to be
+//               executed again.
+//
+//               Hazard3 implements only the two least-significant bits of this
+//               field (for the two-entry progbuf)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF_RESET  _u(0x00000)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF_BITS   _u(0xffff8000)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF_MSB    _u(31)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF_LSB    _u(15)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXECPROGBUF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA
+// Description : When a bit in this field is 1, read or write accesses to the
+//               corresponding data word cause the command in command to be
+//               executed again.
+//
+//               Hazard3 implements only the least-significant bit of this
+//               field.
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA_RESET  _u(0x000)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA_BITS   _u(0x00000fff)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA_MSB    _u(11)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA_LSB    _u(0)
+#define RISCV_DM_ABSTRACTAUTO_AUTOEXEDDATA_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_NEXTDM
+// Description : If there is more than one DM accessible on this DMI, this
+//               register contains the base address of thenext one in the chain,
+//               or 0 if this is the last one in the chain.
+#define RISCV_DM_NEXTDM_OFFSET _u(0x00000074)
+#define RISCV_DM_NEXTDM_BITS   _u(0xffffffff)
+#define RISCV_DM_NEXTDM_RESET  _u(0x00000000)
+#define RISCV_DM_NEXTDM_MSB    _u(31)
+#define RISCV_DM_NEXTDM_LSB    _u(0)
+#define RISCV_DM_NEXTDM_ACCESS "RO"
+// =============================================================================
+// Register    : RISCV_DM_PROGBUF0
+// Description : progbuf0 through progbuf15 provide read/write access to the
+//               program buffer. abstractcs.progbufsize indicates how many of
+//               them are implemented starting at progbuf0, counting up.
+//
+//               (Hazard3 implements a 2-word program buffer.)
+#define RISCV_DM_PROGBUF0_OFFSET _u(0x00000080)
+#define RISCV_DM_PROGBUF0_BITS   _u(0xffffffff)
+#define RISCV_DM_PROGBUF0_RESET  _u(0x00000000)
+#define RISCV_DM_PROGBUF0_MSB    _u(31)
+#define RISCV_DM_PROGBUF0_LSB    _u(0)
+#define RISCV_DM_PROGBUF0_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_PROGBUF1
+// Description : progbuf0 through progbuf15 provide read/write access to the
+//               program buffer. abstractcs.progbufsize indicates how many of
+//               them are implemented starting at progbuf0, counting up.
+//
+//               (Hazard3 implements a 2-word program buffer.)
+#define RISCV_DM_PROGBUF1_OFFSET _u(0x00000084)
+#define RISCV_DM_PROGBUF1_BITS   _u(0xffffffff)
+#define RISCV_DM_PROGBUF1_RESET  _u(0x00000000)
+#define RISCV_DM_PROGBUF1_MSB    _u(31)
+#define RISCV_DM_PROGBUF1_LSB    _u(0)
+#define RISCV_DM_PROGBUF1_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_SBCS
+// Description : System Bus Access Control and Status
+#define RISCV_DM_SBCS_OFFSET _u(0x000000e0)
+#define RISCV_DM_SBCS_BITS   _u(0xe07fffff)
+#define RISCV_DM_SBCS_RESET  _u(0x20000407)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBVERSION
+// Description : 1: The System Bus interface conforms to version 0.13.2 of the
+//               RISC-V debug spec.
+#define RISCV_DM_SBCS_SBVERSION_RESET  _u(0x1)
+#define RISCV_DM_SBCS_SBVERSION_BITS   _u(0xe0000000)
+#define RISCV_DM_SBCS_SBVERSION_MSB    _u(31)
+#define RISCV_DM_SBCS_SBVERSION_LSB    _u(29)
+#define RISCV_DM_SBCS_SBVERSION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBBUSYERROR
+// Description : Set when the debugger attempts to read data while a read is in
+//               progress, or when the debugger initiates a new access while one
+//               is already in progress (while sbbusy is set). It remains set
+//               until it’s explicitly cleared by the debugger.
+//
+//               While this field is set, no more system bus accesses can be
+//               initiated by the Debug Module.
+#define RISCV_DM_SBCS_SBBUSYERROR_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBBUSYERROR_BITS   _u(0x00400000)
+#define RISCV_DM_SBCS_SBBUSYERROR_MSB    _u(22)
+#define RISCV_DM_SBCS_SBBUSYERROR_LSB    _u(22)
+#define RISCV_DM_SBCS_SBBUSYERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBBUSY
+// Description : When 1, indicates the system bus master is busy. (Whether the
+//               system bus itself is busy is related, but not the same thing.)
+//               This bit goes high immediately when a read or write is
+//               requested for any reason, and does not go low until the access
+//               is fully completed.
+//
+//               Writes to sbcs while sbbusy is high result in undefined
+//               behavior. A debugger must not write to sbcs until it reads
+//               sbbusy as 0.
+#define RISCV_DM_SBCS_SBBUSY_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBBUSY_BITS   _u(0x00200000)
+#define RISCV_DM_SBCS_SBBUSY_MSB    _u(21)
+#define RISCV_DM_SBCS_SBBUSY_LSB    _u(21)
+#define RISCV_DM_SBCS_SBBUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBREADONADDR
+// Description : When 1, every write to sbaddress0 automatically triggers a
+//               system bus read at the new address.
+#define RISCV_DM_SBCS_SBREADONADDR_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBREADONADDR_BITS   _u(0x00100000)
+#define RISCV_DM_SBCS_SBREADONADDR_MSB    _u(20)
+#define RISCV_DM_SBCS_SBREADONADDR_LSB    _u(20)
+#define RISCV_DM_SBCS_SBREADONADDR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS
+// Description : Select the access size to use for system bus accesses.
+//
+//               0: 8-bit
+//
+//               1: 16-bit
+//
+//               2: 32-bit
+//
+//               3: 64-bit
+//
+//               4: 128-bit
+//
+//               If sbaccess has an unsupported value when the DM starts a bus
+//               access, the access is not per formed and sberror is set to 4.
+//               (On Hazard3 the supported values are 8-bit, 16-bit and 32-bit.)
+#define RISCV_DM_SBCS_SBACCESS_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBACCESS_BITS   _u(0x000e0000)
+#define RISCV_DM_SBCS_SBACCESS_MSB    _u(19)
+#define RISCV_DM_SBCS_SBACCESS_LSB    _u(17)
+#define RISCV_DM_SBCS_SBACCESS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBAUTOINCREMENT
+// Description : When 1, sbaddress is incremented by the access size (in bytes)
+//               selected in sbaccess after every system bus access.
+#define RISCV_DM_SBCS_SBAUTOINCREMENT_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBAUTOINCREMENT_BITS   _u(0x00010000)
+#define RISCV_DM_SBCS_SBAUTOINCREMENT_MSB    _u(16)
+#define RISCV_DM_SBCS_SBAUTOINCREMENT_LSB    _u(16)
+#define RISCV_DM_SBCS_SBAUTOINCREMENT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBREADONDATA
+// Description : When 1, every read from sbdata0 automatically triggers a system
+//               bus read at the (possibly auto- incremented) address.
+#define RISCV_DM_SBCS_SBREADONDATA_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBREADONDATA_BITS   _u(0x00008000)
+#define RISCV_DM_SBCS_SBREADONDATA_MSB    _u(15)
+#define RISCV_DM_SBCS_SBREADONDATA_LSB    _u(15)
+#define RISCV_DM_SBCS_SBREADONDATA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBERROR
+// Description : When the Debug Module’s system bus master encounters an error,
+//               this field gets set. The bits in this field remain set until
+//               they are cleared by writing 1 to them. While this field is non-
+//               zero, no more system bus accesses can be initiated by the Debug
+//               Module.
+//
+//               An implementation may report “Other” (7) for any error
+//               condition. (Hazard3 does not use this value for any errors.)
+//
+//               0: There was no bus error.
+//
+//               1: There was a timeout.
+//
+//               2: A bad address was accessed.
+//
+//               3: There was an alignment error.
+//
+//               4: An access of unsupported size was requested.
+//
+//               7: Other.
+//
+//               Hazard3 raises an alignment error for any non-naturally-aligned
+//               bus transfer which would otherwise be a valid transfer.
+#define RISCV_DM_SBCS_SBERROR_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBERROR_BITS   _u(0x00007000)
+#define RISCV_DM_SBCS_SBERROR_MSB    _u(14)
+#define RISCV_DM_SBCS_SBERROR_LSB    _u(12)
+#define RISCV_DM_SBCS_SBERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBASIZE
+// Description : Width of system bus addresses in bits. (0 indicates there is no
+//               bus access support.)
+#define RISCV_DM_SBCS_SBASIZE_RESET  _u(0x20)
+#define RISCV_DM_SBCS_SBASIZE_BITS   _u(0x00000fe0)
+#define RISCV_DM_SBCS_SBASIZE_MSB    _u(11)
+#define RISCV_DM_SBCS_SBASIZE_LSB    _u(5)
+#define RISCV_DM_SBCS_SBASIZE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS128
+// Description : 1 when 128-bit system bus accesses are supported.
+#define RISCV_DM_SBCS_SBACCESS128_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBACCESS128_BITS   _u(0x00000010)
+#define RISCV_DM_SBCS_SBACCESS128_MSB    _u(4)
+#define RISCV_DM_SBCS_SBACCESS128_LSB    _u(4)
+#define RISCV_DM_SBCS_SBACCESS128_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS64
+// Description : 1 when 64-bit system bus accesses are supported.
+#define RISCV_DM_SBCS_SBACCESS64_RESET  _u(0x0)
+#define RISCV_DM_SBCS_SBACCESS64_BITS   _u(0x00000008)
+#define RISCV_DM_SBCS_SBACCESS64_MSB    _u(3)
+#define RISCV_DM_SBCS_SBACCESS64_LSB    _u(3)
+#define RISCV_DM_SBCS_SBACCESS64_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS32
+// Description : 1 when 32-bit system bus accesses are supported.
+#define RISCV_DM_SBCS_SBACCESS32_RESET  _u(0x1)
+#define RISCV_DM_SBCS_SBACCESS32_BITS   _u(0x00000004)
+#define RISCV_DM_SBCS_SBACCESS32_MSB    _u(2)
+#define RISCV_DM_SBCS_SBACCESS32_LSB    _u(2)
+#define RISCV_DM_SBCS_SBACCESS32_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS16
+// Description : 1 when 16-bit system bus accesses are supported.
+#define RISCV_DM_SBCS_SBACCESS16_RESET  _u(0x1)
+#define RISCV_DM_SBCS_SBACCESS16_BITS   _u(0x00000002)
+#define RISCV_DM_SBCS_SBACCESS16_MSB    _u(1)
+#define RISCV_DM_SBCS_SBACCESS16_LSB    _u(1)
+#define RISCV_DM_SBCS_SBACCESS16_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBCS_SBACCESS8
+// Description : 1 when 8-bit system bus accesses are supported.
+#define RISCV_DM_SBCS_SBACCESS8_RESET  _u(0x1)
+#define RISCV_DM_SBCS_SBACCESS8_BITS   _u(0x00000001)
+#define RISCV_DM_SBCS_SBACCESS8_MSB    _u(0)
+#define RISCV_DM_SBCS_SBACCESS8_LSB    _u(0)
+#define RISCV_DM_SBCS_SBACCESS8_ACCESS "RO"
+// =============================================================================
+// Register    : RISCV_DM_SBADDRESS0
+// Description : System Bus Address 31:0
+//
+//               When the system bus master is busy, writes to this register
+//               will set sbbusyerror and don’t do anything else.
+//
+//               If sberror is 0, sbbusyerror is 0, and sbreadonaddr is set then
+//               writes to this register start the following:
+//
+//               1. Set sbbusy.
+//
+//               2. Perform a bus read from the new value of sbaddress.
+//
+//               3. If the read succeeded and sbautoincrement is set, increment
+//               sbaddress.
+//
+//               4. Clear sbbusy.
+#define RISCV_DM_SBADDRESS0_OFFSET _u(0x000000e4)
+#define RISCV_DM_SBADDRESS0_BITS   _u(0xffffffff)
+#define RISCV_DM_SBADDRESS0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBADDRESS0_ADDRESS
+// Description : Accesses bits 31:0 of the physical address in sbaddress.
+#define RISCV_DM_SBADDRESS0_ADDRESS_RESET  _u(0x00000000)
+#define RISCV_DM_SBADDRESS0_ADDRESS_BITS   _u(0xffffffff)
+#define RISCV_DM_SBADDRESS0_ADDRESS_MSB    _u(31)
+#define RISCV_DM_SBADDRESS0_ADDRESS_LSB    _u(0)
+#define RISCV_DM_SBADDRESS0_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_SBDATA0
+// Description : System Bus Data 31:0
+//
+//               Any successful system bus read updates sbdata. If the width of
+//               the read access is less than the width of sbdata, the contents
+//               of the remaining high bits may take on any value.
+//
+//               If sberror or sbbusyerror both aren’t 0 then accesses do
+//               nothing.
+//
+//               If the bus master is busy then accesses set sbbusyerror, and
+//               don’t do anything else. Writes to this register start the
+//               following:
+//
+//               1. Set sbbusy.
+//
+//               2. Perform a bus write of the new value of sbdata to sbaddress.
+//
+//               3. If the write succeeded and sbautoincrement is set, increment
+//               sbaddress.
+//
+//               4. Clear sbbusy.
+//
+//               Reads from this register start the following:
+//
+//               1. “Return” the data.
+//
+//               2. Set sbbusy.
+//
+//               3. If sbreadondata is set, perform a system bus read from the
+//               address contained in sbaddress, placing the result in sbdata.
+//
+//               4. If the read was successful, and sbautoincrement is set,
+//               increment sbaddress.
+//
+//               5. Clear sbbusy.
+#define RISCV_DM_SBDATA0_OFFSET _u(0x000000f0)
+#define RISCV_DM_SBDATA0_BITS   _u(0xffffffff)
+#define RISCV_DM_SBDATA0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RISCV_DM_SBDATA0_DATA
+#define RISCV_DM_SBDATA0_DATA_RESET  _u(0x00000000)
+#define RISCV_DM_SBDATA0_DATA_BITS   _u(0xffffffff)
+#define RISCV_DM_SBDATA0_DATA_MSB    _u(31)
+#define RISCV_DM_SBDATA0_DATA_LSB    _u(0)
+#define RISCV_DM_SBDATA0_DATA_ACCESS "RW"
+// =============================================================================
+// Register    : RISCV_DM_HALTSUM0
+// Description : Each bit in this read-only register indicates whether one
+//               specific hart is halted or not. Unavailable/nonexistent harts
+//               are not considered to be halted.
+//
+//               On RP2350, only the two LSBs of this register are implemented,
+//               one for each core/hart.
+//
+//               This entire register is read-only.
+#define RISCV_DM_HALTSUM0_OFFSET _u(0x00000100)
+#define RISCV_DM_HALTSUM0_BITS   _u(0xffffffff)
+#define RISCV_DM_HALTSUM0_RESET  _u(0x00000000)
+#define RISCV_DM_HALTSUM0_MSB    _u(31)
+#define RISCV_DM_HALTSUM0_LSB    _u(0)
+#define RISCV_DM_HALTSUM0_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_RISCV_DM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/rosc.h b/lib/pico-sdk/rp2350/hardware/regs/rosc.h
new file mode 100644
index 0000000..4865c2e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/rosc.h
@@ -0,0 +1,345 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : ROSC
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_ROSC_H
+#define _HARDWARE_REGS_ROSC_H
+// =============================================================================
+// Register    : ROSC_CTRL
+// Description : Ring Oscillator control
+#define ROSC_CTRL_OFFSET _u(0x00000000)
+#define ROSC_CTRL_BITS   _u(0x00ffffff)
+#define ROSC_CTRL_RESET  _u(0x00000aa0)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_CTRL_ENABLE
+// Description : On power-up this field is initialised to ENABLE
+//               The system clock must be switched to another source before
+//               setting this field to DISABLE otherwise the chip will lock up
+//               The 12-bit code is intended to give some protection against
+//               accidental writes. An invalid setting will enable the
+//               oscillator.
+//               0xd1e -> DISABLE
+//               0xfab -> ENABLE
+#define ROSC_CTRL_ENABLE_RESET  "-"
+#define ROSC_CTRL_ENABLE_BITS   _u(0x00fff000)
+#define ROSC_CTRL_ENABLE_MSB    _u(23)
+#define ROSC_CTRL_ENABLE_LSB    _u(12)
+#define ROSC_CTRL_ENABLE_ACCESS "RW"
+#define ROSC_CTRL_ENABLE_VALUE_DISABLE _u(0xd1e)
+#define ROSC_CTRL_ENABLE_VALUE_ENABLE _u(0xfab)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_CTRL_FREQ_RANGE
+// Description : Controls the number of delay stages in the ROSC ring
+//               LOW uses stages 0 to 7
+//               MEDIUM uses stages 2 to 7
+//               HIGH uses stages 4 to 7
+//               TOOHIGH uses stages 6 to 7 and should not be used because its
+//               frequency exceeds design specifications
+//               The clock output will not glitch when changing the range up one
+//               step at a time
+//               The clock output will glitch when changing the range down
+//               Note: the values here are gray coded which is why HIGH comes
+//               before TOOHIGH
+//               0xfa4 -> LOW
+//               0xfa5 -> MEDIUM
+//               0xfa7 -> HIGH
+//               0xfa6 -> TOOHIGH
+#define ROSC_CTRL_FREQ_RANGE_RESET  _u(0xaa0)
+#define ROSC_CTRL_FREQ_RANGE_BITS   _u(0x00000fff)
+#define ROSC_CTRL_FREQ_RANGE_MSB    _u(11)
+#define ROSC_CTRL_FREQ_RANGE_LSB    _u(0)
+#define ROSC_CTRL_FREQ_RANGE_ACCESS "RW"
+#define ROSC_CTRL_FREQ_RANGE_VALUE_LOW _u(0xfa4)
+#define ROSC_CTRL_FREQ_RANGE_VALUE_MEDIUM _u(0xfa5)
+#define ROSC_CTRL_FREQ_RANGE_VALUE_HIGH _u(0xfa7)
+#define ROSC_CTRL_FREQ_RANGE_VALUE_TOOHIGH _u(0xfa6)
+// =============================================================================
+// Register    : ROSC_FREQA
+// Description : The FREQA & FREQB registers control the frequency by
+//               controlling the drive strength of each stage
+//               The drive strength has 4 levels determined by the number of
+//               bits set
+//               Increasing the number of bits set increases the drive strength
+//               and increases the oscillation frequency
+//               0 bits set is the default drive strength
+//               1 bit set doubles the drive strength
+//               2 bits set triples drive strength
+//               3 bits set quadruples drive strength
+//               For frequency randomisation set both DS0_RANDOM=1 &
+//               DS1_RANDOM=1
+#define ROSC_FREQA_OFFSET _u(0x00000004)
+#define ROSC_FREQA_BITS   _u(0xffff77ff)
+#define ROSC_FREQA_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_PASSWD
+// Description : Set to 0x9696 to apply the settings
+//               Any other value in this field will set all drive strengths to 0
+//               0x9696 -> PASS
+#define ROSC_FREQA_PASSWD_RESET  _u(0x0000)
+#define ROSC_FREQA_PASSWD_BITS   _u(0xffff0000)
+#define ROSC_FREQA_PASSWD_MSB    _u(31)
+#define ROSC_FREQA_PASSWD_LSB    _u(16)
+#define ROSC_FREQA_PASSWD_ACCESS "RW"
+#define ROSC_FREQA_PASSWD_VALUE_PASS _u(0x9696)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS3
+// Description : Stage 3 drive strength
+#define ROSC_FREQA_DS3_RESET  _u(0x0)
+#define ROSC_FREQA_DS3_BITS   _u(0x00007000)
+#define ROSC_FREQA_DS3_MSB    _u(14)
+#define ROSC_FREQA_DS3_LSB    _u(12)
+#define ROSC_FREQA_DS3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS2
+// Description : Stage 2 drive strength
+#define ROSC_FREQA_DS2_RESET  _u(0x0)
+#define ROSC_FREQA_DS2_BITS   _u(0x00000700)
+#define ROSC_FREQA_DS2_MSB    _u(10)
+#define ROSC_FREQA_DS2_LSB    _u(8)
+#define ROSC_FREQA_DS2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS1_RANDOM
+// Description : Randomises the stage 1 drive strength
+#define ROSC_FREQA_DS1_RANDOM_RESET  _u(0x0)
+#define ROSC_FREQA_DS1_RANDOM_BITS   _u(0x00000080)
+#define ROSC_FREQA_DS1_RANDOM_MSB    _u(7)
+#define ROSC_FREQA_DS1_RANDOM_LSB    _u(7)
+#define ROSC_FREQA_DS1_RANDOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS1
+// Description : Stage 1 drive strength
+#define ROSC_FREQA_DS1_RESET  _u(0x0)
+#define ROSC_FREQA_DS1_BITS   _u(0x00000070)
+#define ROSC_FREQA_DS1_MSB    _u(6)
+#define ROSC_FREQA_DS1_LSB    _u(4)
+#define ROSC_FREQA_DS1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS0_RANDOM
+// Description : Randomises the stage 0 drive strength
+#define ROSC_FREQA_DS0_RANDOM_RESET  _u(0x0)
+#define ROSC_FREQA_DS0_RANDOM_BITS   _u(0x00000008)
+#define ROSC_FREQA_DS0_RANDOM_MSB    _u(3)
+#define ROSC_FREQA_DS0_RANDOM_LSB    _u(3)
+#define ROSC_FREQA_DS0_RANDOM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQA_DS0
+// Description : Stage 0 drive strength
+#define ROSC_FREQA_DS0_RESET  _u(0x0)
+#define ROSC_FREQA_DS0_BITS   _u(0x00000007)
+#define ROSC_FREQA_DS0_MSB    _u(2)
+#define ROSC_FREQA_DS0_LSB    _u(0)
+#define ROSC_FREQA_DS0_ACCESS "RW"
+// =============================================================================
+// Register    : ROSC_FREQB
+// Description : For a detailed description see freqa register
+#define ROSC_FREQB_OFFSET _u(0x00000008)
+#define ROSC_FREQB_BITS   _u(0xffff7777)
+#define ROSC_FREQB_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQB_PASSWD
+// Description : Set to 0x9696 to apply the settings
+//               Any other value in this field will set all drive strengths to 0
+//               0x9696 -> PASS
+#define ROSC_FREQB_PASSWD_RESET  _u(0x0000)
+#define ROSC_FREQB_PASSWD_BITS   _u(0xffff0000)
+#define ROSC_FREQB_PASSWD_MSB    _u(31)
+#define ROSC_FREQB_PASSWD_LSB    _u(16)
+#define ROSC_FREQB_PASSWD_ACCESS "RW"
+#define ROSC_FREQB_PASSWD_VALUE_PASS _u(0x9696)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQB_DS7
+// Description : Stage 7 drive strength
+#define ROSC_FREQB_DS7_RESET  _u(0x0)
+#define ROSC_FREQB_DS7_BITS   _u(0x00007000)
+#define ROSC_FREQB_DS7_MSB    _u(14)
+#define ROSC_FREQB_DS7_LSB    _u(12)
+#define ROSC_FREQB_DS7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQB_DS6
+// Description : Stage 6 drive strength
+#define ROSC_FREQB_DS6_RESET  _u(0x0)
+#define ROSC_FREQB_DS6_BITS   _u(0x00000700)
+#define ROSC_FREQB_DS6_MSB    _u(10)
+#define ROSC_FREQB_DS6_LSB    _u(8)
+#define ROSC_FREQB_DS6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQB_DS5
+// Description : Stage 5 drive strength
+#define ROSC_FREQB_DS5_RESET  _u(0x0)
+#define ROSC_FREQB_DS5_BITS   _u(0x00000070)
+#define ROSC_FREQB_DS5_MSB    _u(6)
+#define ROSC_FREQB_DS5_LSB    _u(4)
+#define ROSC_FREQB_DS5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_FREQB_DS4
+// Description : Stage 4 drive strength
+#define ROSC_FREQB_DS4_RESET  _u(0x0)
+#define ROSC_FREQB_DS4_BITS   _u(0x00000007)
+#define ROSC_FREQB_DS4_MSB    _u(2)
+#define ROSC_FREQB_DS4_LSB    _u(0)
+#define ROSC_FREQB_DS4_ACCESS "RW"
+// =============================================================================
+// Register    : ROSC_RANDOM
+// Description : Loads a value to the LFSR randomiser
+#define ROSC_RANDOM_OFFSET _u(0x0000000c)
+#define ROSC_RANDOM_BITS   _u(0xffffffff)
+#define ROSC_RANDOM_RESET  _u(0x3f04b16d)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_RANDOM_SEED
+#define ROSC_RANDOM_SEED_RESET  _u(0x3f04b16d)
+#define ROSC_RANDOM_SEED_BITS   _u(0xffffffff)
+#define ROSC_RANDOM_SEED_MSB    _u(31)
+#define ROSC_RANDOM_SEED_LSB    _u(0)
+#define ROSC_RANDOM_SEED_ACCESS "RW"
+// =============================================================================
+// Register    : ROSC_DORMANT
+// Description : Ring Oscillator pause control
+//               This is used to save power by pausing the ROSC
+//               On power-up this field is initialised to WAKE
+//               An invalid write will also select WAKE
+//               Warning: setup the irq before selecting dormant mode
+//               0x636f6d61 -> dormant
+//               0x77616b65 -> WAKE
+#define ROSC_DORMANT_OFFSET _u(0x00000010)
+#define ROSC_DORMANT_BITS   _u(0xffffffff)
+#define ROSC_DORMANT_RESET  "-"
+#define ROSC_DORMANT_MSB    _u(31)
+#define ROSC_DORMANT_LSB    _u(0)
+#define ROSC_DORMANT_ACCESS "RW"
+#define ROSC_DORMANT_VALUE_DORMANT _u(0x636f6d61)
+#define ROSC_DORMANT_VALUE_WAKE _u(0x77616b65)
+// =============================================================================
+// Register    : ROSC_DIV
+// Description : Controls the output divider
+//               set to 0xaa00 + div where
+//               div = 0 divides by 128
+//               div = 1-127 divides by div
+//               any other value sets div=128
+//               this register resets to div=32
+//               0xaa00 -> PASS
+#define ROSC_DIV_OFFSET _u(0x00000014)
+#define ROSC_DIV_BITS   _u(0x0000ffff)
+#define ROSC_DIV_RESET  "-"
+#define ROSC_DIV_MSB    _u(15)
+#define ROSC_DIV_LSB    _u(0)
+#define ROSC_DIV_ACCESS "RW"
+#define ROSC_DIV_VALUE_PASS _u(0xaa00)
+// =============================================================================
+// Register    : ROSC_PHASE
+// Description : Controls the phase shifted output
+#define ROSC_PHASE_OFFSET _u(0x00000018)
+#define ROSC_PHASE_BITS   _u(0x00000fff)
+#define ROSC_PHASE_RESET  _u(0x00000008)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_PHASE_PASSWD
+// Description : set to 0xaa
+//               any other value enables the output with shift=0
+#define ROSC_PHASE_PASSWD_RESET  _u(0x00)
+#define ROSC_PHASE_PASSWD_BITS   _u(0x00000ff0)
+#define ROSC_PHASE_PASSWD_MSB    _u(11)
+#define ROSC_PHASE_PASSWD_LSB    _u(4)
+#define ROSC_PHASE_PASSWD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_PHASE_ENABLE
+// Description : enable the phase-shifted output
+//               this can be changed on-the-fly
+#define ROSC_PHASE_ENABLE_RESET  _u(0x1)
+#define ROSC_PHASE_ENABLE_BITS   _u(0x00000008)
+#define ROSC_PHASE_ENABLE_MSB    _u(3)
+#define ROSC_PHASE_ENABLE_LSB    _u(3)
+#define ROSC_PHASE_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_PHASE_FLIP
+// Description : invert the phase-shifted output
+//               this is ignored when div=1
+#define ROSC_PHASE_FLIP_RESET  _u(0x0)
+#define ROSC_PHASE_FLIP_BITS   _u(0x00000004)
+#define ROSC_PHASE_FLIP_MSB    _u(2)
+#define ROSC_PHASE_FLIP_LSB    _u(2)
+#define ROSC_PHASE_FLIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_PHASE_SHIFT
+// Description : phase shift the phase-shifted output by SHIFT input clocks
+//               this can be changed on-the-fly
+//               must be set to 0 before setting div=1
+#define ROSC_PHASE_SHIFT_RESET  _u(0x0)
+#define ROSC_PHASE_SHIFT_BITS   _u(0x00000003)
+#define ROSC_PHASE_SHIFT_MSB    _u(1)
+#define ROSC_PHASE_SHIFT_LSB    _u(0)
+#define ROSC_PHASE_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : ROSC_STATUS
+// Description : Ring Oscillator Status
+#define ROSC_STATUS_OFFSET _u(0x0000001c)
+#define ROSC_STATUS_BITS   _u(0x81011000)
+#define ROSC_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : ROSC_STATUS_STABLE
+// Description : Oscillator is running and stable
+#define ROSC_STATUS_STABLE_RESET  _u(0x0)
+#define ROSC_STATUS_STABLE_BITS   _u(0x80000000)
+#define ROSC_STATUS_STABLE_MSB    _u(31)
+#define ROSC_STATUS_STABLE_LSB    _u(31)
+#define ROSC_STATUS_STABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_STATUS_BADWRITE
+// Description : An invalid value has been written to CTRL_ENABLE or
+//               CTRL_FREQ_RANGE or FREQA or FREQB or DIV or PHASE or DORMANT
+#define ROSC_STATUS_BADWRITE_RESET  _u(0x0)
+#define ROSC_STATUS_BADWRITE_BITS   _u(0x01000000)
+#define ROSC_STATUS_BADWRITE_MSB    _u(24)
+#define ROSC_STATUS_BADWRITE_LSB    _u(24)
+#define ROSC_STATUS_BADWRITE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_STATUS_DIV_RUNNING
+// Description : post-divider is running
+//               this resets to 0 but transitions to 1 during chip startup
+#define ROSC_STATUS_DIV_RUNNING_RESET  "-"
+#define ROSC_STATUS_DIV_RUNNING_BITS   _u(0x00010000)
+#define ROSC_STATUS_DIV_RUNNING_MSB    _u(16)
+#define ROSC_STATUS_DIV_RUNNING_LSB    _u(16)
+#define ROSC_STATUS_DIV_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : ROSC_STATUS_ENABLED
+// Description : Oscillator is enabled but not necessarily running and stable
+//               this resets to 0 but transitions to 1 during chip startup
+#define ROSC_STATUS_ENABLED_RESET  "-"
+#define ROSC_STATUS_ENABLED_BITS   _u(0x00001000)
+#define ROSC_STATUS_ENABLED_MSB    _u(12)
+#define ROSC_STATUS_ENABLED_LSB    _u(12)
+#define ROSC_STATUS_ENABLED_ACCESS "RO"
+// =============================================================================
+// Register    : ROSC_RANDOMBIT
+// Description : This just reads the state of the oscillator output so
+//               randomness is compromised if the ring oscillator is stopped or
+//               run at a harmonic of the bus frequency
+#define ROSC_RANDOMBIT_OFFSET _u(0x00000020)
+#define ROSC_RANDOMBIT_BITS   _u(0x00000001)
+#define ROSC_RANDOMBIT_RESET  _u(0x00000001)
+#define ROSC_RANDOMBIT_MSB    _u(0)
+#define ROSC_RANDOMBIT_LSB    _u(0)
+#define ROSC_RANDOMBIT_ACCESS "RO"
+// =============================================================================
+// Register    : ROSC_COUNT
+// Description : A down counter running at the ROSC frequency which counts to
+//               zero and stops.
+//               To start the counter write a non-zero value.
+//               Can be used for short software pauses when setting up time
+//               sensitive hardware.
+#define ROSC_COUNT_OFFSET _u(0x00000024)
+#define ROSC_COUNT_BITS   _u(0x0000ffff)
+#define ROSC_COUNT_RESET  _u(0x00000000)
+#define ROSC_COUNT_MSB    _u(15)
+#define ROSC_COUNT_LSB    _u(0)
+#define ROSC_COUNT_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_ROSC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/rp_ap.h b/lib/pico-sdk/rp2350/hardware/regs/rp_ap.h
new file mode 100644
index 0000000..ff45438
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/rp_ap.h
@@ -0,0 +1,729 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : RP_AP
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_RP_AP_H
+#define _HARDWARE_REGS_RP_AP_H
+// =============================================================================
+// Register    : RP_AP_CTRL
+// Description : This register is primarily used for DFT but can also be used to
+//               overcome some power up problems. However, it should not be used
+//               to force power up of domains. Use DBG_POW_OVRD for that.
+#define RP_AP_CTRL_OFFSET _u(0x00000000)
+#define RP_AP_CTRL_BITS   _u(0xc000007f)
+#define RP_AP_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_RESCUE_RESTART
+// Description : Allows debug of boot problems by restarting the chip with
+//               minimal boot code execution. Write to 1 to put the chip in
+//               reset then write to 0 to restart the chip with the rescue flag
+//               set. The rescue flag is in the POWMAN_CHIP_RESET register and
+//               is read by boot code. The rescue flag is cleared by writing 0
+//               to POWMAN_CHIP_RESET_RESCUE_FLAG or by resetting the chip by
+//               any means other than RESCUE_RESTART.
+#define RP_AP_CTRL_RESCUE_RESTART_RESET  _u(0x0)
+#define RP_AP_CTRL_RESCUE_RESTART_BITS   _u(0x80000000)
+#define RP_AP_CTRL_RESCUE_RESTART_MSB    _u(31)
+#define RP_AP_CTRL_RESCUE_RESTART_LSB    _u(31)
+#define RP_AP_CTRL_RESCUE_RESTART_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_SPARE
+// Description : Unused
+#define RP_AP_CTRL_SPARE_RESET  _u(0x0)
+#define RP_AP_CTRL_SPARE_BITS   _u(0x40000000)
+#define RP_AP_CTRL_SPARE_MSB    _u(30)
+#define RP_AP_CTRL_SPARE_LSB    _u(30)
+#define RP_AP_CTRL_SPARE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_DBG_FRCE_GPIO_LPCK
+// Description : Allows chip start-up when the Low Power Oscillator (LPOSC) is
+//               inoperative or malfunctioning and also allows the initial power
+//               sequencing rate to be adjusted. Write to 1 to force the LPOSC
+//               output to be driven from a GPIO (gpio20 on 80-pin package,
+//               gpio34 on the 60-pin package). If the LPOSC is inoperative or
+//               malfunctioning it may also be necessary to set the
+//               LPOSC_STABLE_FRCE bit in this register. The user must provide a
+//               clock on the GPIO. For normal operation use a clock running at
+//               around 32kHz. Adjusting the frequency will speed up or slow
+//               down the initial power-up sequence.
+#define RP_AP_CTRL_DBG_FRCE_GPIO_LPCK_RESET  _u(0x0)
+#define RP_AP_CTRL_DBG_FRCE_GPIO_LPCK_BITS   _u(0x00000040)
+#define RP_AP_CTRL_DBG_FRCE_GPIO_LPCK_MSB    _u(6)
+#define RP_AP_CTRL_DBG_FRCE_GPIO_LPCK_LSB    _u(6)
+#define RP_AP_CTRL_DBG_FRCE_GPIO_LPCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_LPOSC_STABLE_FRCE
+// Description : Allows the chip to start-up even though the Low Power
+//               Oscillator (LPOSC) is failing to set its stable flag. Initial
+//               power sequencing is clocked by LPOSC at around 32kHz but does
+//               not start until the LPOSC declares itself to be stable. If the
+//               LPOSC is otherwise working correctly the chip will boot when
+//               this bit is set. If the LPOSC is not working then
+//               DBG_FRCE_GPIO_LPCK must be set and an external clock provided.
+#define RP_AP_CTRL_LPOSC_STABLE_FRCE_RESET  _u(0x0)
+#define RP_AP_CTRL_LPOSC_STABLE_FRCE_BITS   _u(0x00000020)
+#define RP_AP_CTRL_LPOSC_STABLE_FRCE_MSB    _u(5)
+#define RP_AP_CTRL_LPOSC_STABLE_FRCE_LSB    _u(5)
+#define RP_AP_CTRL_LPOSC_STABLE_FRCE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_POWMAN_DFT_ISO_OFF
+// Description : Holds the isolation gates between power domains in the open
+//               state. This is intended to hold the gates open for DFT and
+//               power manager debug. It is not intended to force the isolation
+//               gates open. Use the overrides in DBG_POW_OVRD to force the
+//               isolation gates open or closed.
+#define RP_AP_CTRL_POWMAN_DFT_ISO_OFF_RESET  _u(0x0)
+#define RP_AP_CTRL_POWMAN_DFT_ISO_OFF_BITS   _u(0x00000010)
+#define RP_AP_CTRL_POWMAN_DFT_ISO_OFF_MSB    _u(4)
+#define RP_AP_CTRL_POWMAN_DFT_ISO_OFF_LSB    _u(4)
+#define RP_AP_CTRL_POWMAN_DFT_ISO_OFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_POWMAN_DFT_PWRON
+// Description : Holds the power switches on for all domains. This is intended
+//               to keep the power on for DFT and debug, rather than for
+//               switching the power on. The power switches are not sequenced
+//               and the sudden demand for current could cause the always-on
+//               power domain to brown out. This register is in the always-on
+//               domain therefore chaos could ensue. It is recommended to use
+//               the DBG_POW_OVRD controls instead.
+#define RP_AP_CTRL_POWMAN_DFT_PWRON_RESET  _u(0x0)
+#define RP_AP_CTRL_POWMAN_DFT_PWRON_BITS   _u(0x00000008)
+#define RP_AP_CTRL_POWMAN_DFT_PWRON_MSB    _u(3)
+#define RP_AP_CTRL_POWMAN_DFT_PWRON_LSB    _u(3)
+#define RP_AP_CTRL_POWMAN_DFT_PWRON_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_POWMAN_DBGMODE
+// Description : This prevents the power manager from powering down and
+//               resetting the switched-core power domain. It is intended for
+//               DFT and for debugging the power manager after the chip has
+//               booted. It cannot be used to force initial power on because it
+//               simultaneously deasserts the reset.
+#define RP_AP_CTRL_POWMAN_DBGMODE_RESET  _u(0x0)
+#define RP_AP_CTRL_POWMAN_DBGMODE_BITS   _u(0x00000004)
+#define RP_AP_CTRL_POWMAN_DBGMODE_MSB    _u(2)
+#define RP_AP_CTRL_POWMAN_DBGMODE_LSB    _u(2)
+#define RP_AP_CTRL_POWMAN_DBGMODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_JTAG_FUNCSEL
+// Description : Multiplexes the JTAG ports onto GPIO0-3
+#define RP_AP_CTRL_JTAG_FUNCSEL_RESET  _u(0x0)
+#define RP_AP_CTRL_JTAG_FUNCSEL_BITS   _u(0x00000002)
+#define RP_AP_CTRL_JTAG_FUNCSEL_MSB    _u(1)
+#define RP_AP_CTRL_JTAG_FUNCSEL_LSB    _u(1)
+#define RP_AP_CTRL_JTAG_FUNCSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_CTRL_JTAG_TRSTN
+// Description : Resets the JTAG module. Active low.
+#define RP_AP_CTRL_JTAG_TRSTN_RESET  _u(0x0)
+#define RP_AP_CTRL_JTAG_TRSTN_BITS   _u(0x00000001)
+#define RP_AP_CTRL_JTAG_TRSTN_MSB    _u(0)
+#define RP_AP_CTRL_JTAG_TRSTN_LSB    _u(0)
+#define RP_AP_CTRL_JTAG_TRSTN_ACCESS "RW"
+// =============================================================================
+// Register    : RP_AP_DBGKEY
+// Description : Serial key load interface (write-only)
+#define RP_AP_DBGKEY_OFFSET _u(0x00000004)
+#define RP_AP_DBGKEY_BITS   _u(0x00000007)
+#define RP_AP_DBGKEY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBGKEY_RESET
+// Description : Reset (before sending a new key)
+#define RP_AP_DBGKEY_RESET_RESET  _u(0x0)
+#define RP_AP_DBGKEY_RESET_BITS   _u(0x00000004)
+#define RP_AP_DBGKEY_RESET_MSB    _u(2)
+#define RP_AP_DBGKEY_RESET_LSB    _u(2)
+#define RP_AP_DBGKEY_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBGKEY_PUSH
+#define RP_AP_DBGKEY_PUSH_RESET  _u(0x0)
+#define RP_AP_DBGKEY_PUSH_BITS   _u(0x00000002)
+#define RP_AP_DBGKEY_PUSH_MSB    _u(1)
+#define RP_AP_DBGKEY_PUSH_LSB    _u(1)
+#define RP_AP_DBGKEY_PUSH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBGKEY_DATA
+#define RP_AP_DBGKEY_DATA_RESET  _u(0x0)
+#define RP_AP_DBGKEY_DATA_BITS   _u(0x00000001)
+#define RP_AP_DBGKEY_DATA_MSB    _u(0)
+#define RP_AP_DBGKEY_DATA_LSB    _u(0)
+#define RP_AP_DBGKEY_DATA_ACCESS "RW"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_STATE_SWCORE
+// Description : This register indicates the state of the power sequencer for
+//               the switched-core domain.
+//               The sequencer timing is managed by the POWMAN_SEQ_* registers.
+//               See the header file for those registers for more information on
+//               the timing.
+//               Power up of the domain commences by clearing bit 0 (IS_PD) then
+//               bits 1-8 are set in sequence. Bit 8 (IS_PU) indicates the
+//               sequence is complete.
+//               Power down of the domain commences by clearing bit 8 (IS_PU)
+//               then bits 7-1 are cleared in sequence. Bit 0 (IS_PU) is then
+//               set to indicate the sequence is complete.
+//               Bits 9-11 describe the states of the power manager clocks which
+//               change as clock generators in the switched-core become
+//               available following switched-core power up.
+//               This bus can be sent to GPIO for debug. See
+//               DBG_POW_OUTPUT_TO_GPIO in the DBG_POW_OVRD register.
+#define RP_AP_DBG_POW_STATE_SWCORE_OFFSET _u(0x00000008)
+#define RP_AP_DBG_POW_STATE_SWCORE_BITS   _u(0x00000fff)
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK
+// Description : Indicates the source of the power manager clock. On switched-
+//               core power up the clock switches from the LPOSC to clk_ref and
+//               this flag will be set. clk_ref will be running from the ROSC
+//               initially but will switch to XOSC when it comes available. On
+//               switched-core power down the clock switches to LPOSC and this
+//               flag will be cleared.
+#define RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK_BITS   _u(0x00000800)
+#define RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK_MSB    _u(11)
+#define RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK_LSB    _u(11)
+#define RP_AP_DBG_POW_STATE_SWCORE_USING_FAST_POWCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK
+// Description : Indicates the switched-core power sequencer is waiting for the
+//               power manager clock to update. On switched-core power up the
+//               clock switches from the LPOSC to clk_ref. clk_ref will be
+//               running from the ROSC initially but will switch to XOSC when it
+//               comes available. On switched-core power down the clock switches
+//               to LPOSC.
+//               If the switched-core power up sequence stalls with this flag
+//               active then it means clk_ref is not running which indicates a
+//               problem with the ROSC. If that happens then set
+//               DBG_POW_RESTART_FROM_XOSC in the DBG_POW_OVRD register to avoid
+//               using the ROSC.
+//               If the switched-core power down sequence stalls with this flag
+//               active then it means LPOSC is not running. The solution is to
+//               not stop LPOSC when the switched-core power domain is powered.
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK_BITS   _u(0x00000400)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK_MSB    _u(10)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK_LSB    _u(10)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_POWCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK
+// Description : Indicates that the switched-core power sequencer is waiting for
+//               the AON-Timer to update. On switched-core power-up there is
+//               nothing to be done. The AON-Timer continues to run from the
+//               LPOSC so this flag will not be set. Software decides whether to
+//               switch the AON-Timer clock to XOSC (via clk_ref). On switched-
+//               core power-down the sequencer will switch the AON-Timer back to
+//               LPOSC if software switched it to XOSC. During the switchover
+//               the WAITING_TIMCK flag will be set. If the switched-core power
+//               down sequence stalls with this flag active then the only
+//               recourse is to reset the chip and change software to not select
+//               XOSC as the AON-Timer source.
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK_BITS   _u(0x00000200)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK_MSB    _u(9)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK_LSB    _u(9)
+#define RP_AP_DBG_POW_STATE_SWCORE_WAITING_TIMCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_IS_PU
+// Description : Indicates the power somain is fully powered up.
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PU_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PU_BITS   _u(0x00000100)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PU_MSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PU_LSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PU_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ
+// Description : Indicates the state of the reset to the power domain.
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ_BITS   _u(0x00000080)
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ_MSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ_LSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SWCORE_RESET_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK
+// Description : Indicates the state of the enable to the power domain.
+#define RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK_BITS   _u(0x00000040)
+#define RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK_MSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK_LSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SWCORE_ENAB_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ
+// Description : Indicates the state of the isolation control to the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ_BITS   _u(0x00000020)
+#define RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ_MSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ_LSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SWCORE_ISOLATE_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK
+// Description : Indicates the state of the large power switches for the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK_BITS   _u(0x00000010)
+#define RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK_MSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK_LSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SWCORE_LARGE_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2
+// Description : The small switches are split into 3 chains. In the power up
+//               sequence they are switched on separately to allow management of
+//               the VDD rise time. In the power down sequence they switch off
+//               simultaneously with the large power switches.
+//               This bit indicates the state of the last element in small power
+//               switch chain 2.
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2_BITS   _u(0x00000008)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2_MSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2_LSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 1.
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1_BITS   _u(0x00000004)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1_MSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1_LSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 0.
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0_BITS   _u(0x00000002)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0_MSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0_LSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SWCORE_SMALL_ACK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SWCORE_IS_PD
+// Description : Indicates the power somain is fully powered down.
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PD_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PD_BITS   _u(0x00000001)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PD_MSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PD_LSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SWCORE_IS_PD_ACCESS "RO"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_STATE_XIP
+// Description : This register indicates the state of the power sequencer for
+//               the XIP domain.
+//               The sequencer timing is managed by the POWMAN_SEQ_* registers.
+//               See the header file for those registers for more information on
+//               the timing.
+//               Power up of the domain commences by clearing bit 0 (IS_PD) then
+//               bits 1-8 are set in sequence. Bit 8 (IS_PU) indicates the
+//               sequence is complete.
+//               Power down of the domain commences by clearing bit 8 (IS_PU)
+//               then bits 7-1 are cleared in sequence. Bit 0 (IS_PU) is then
+//               set to indicate the sequence is complete.
+#define RP_AP_DBG_POW_STATE_XIP_OFFSET _u(0x0000000c)
+#define RP_AP_DBG_POW_STATE_XIP_BITS   _u(0x000001ff)
+#define RP_AP_DBG_POW_STATE_XIP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_IS_PU
+// Description : Indicates the power somain is fully powered up.
+#define RP_AP_DBG_POW_STATE_XIP_IS_PU_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PU_BITS   _u(0x00000100)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PU_MSB    _u(8)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PU_LSB    _u(8)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PU_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ
+// Description : Indicates the state of the reset to the power domain.
+#define RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ_BITS   _u(0x00000080)
+#define RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ_MSB    _u(7)
+#define RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ_LSB    _u(7)
+#define RP_AP_DBG_POW_STATE_XIP_RESET_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_ENAB_ACK
+// Description : Indicates the state of the enable to the power domain.
+#define RP_AP_DBG_POW_STATE_XIP_ENAB_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_ENAB_ACK_BITS   _u(0x00000040)
+#define RP_AP_DBG_POW_STATE_XIP_ENAB_ACK_MSB    _u(6)
+#define RP_AP_DBG_POW_STATE_XIP_ENAB_ACK_LSB    _u(6)
+#define RP_AP_DBG_POW_STATE_XIP_ENAB_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ
+// Description : Indicates the state of the isolation control to the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ_BITS   _u(0x00000020)
+#define RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ_MSB    _u(5)
+#define RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ_LSB    _u(5)
+#define RP_AP_DBG_POW_STATE_XIP_ISOLATE_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_LARGE_ACK
+// Description : Indicates the state of the large power switches for the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_XIP_LARGE_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_LARGE_ACK_BITS   _u(0x00000010)
+#define RP_AP_DBG_POW_STATE_XIP_LARGE_ACK_MSB    _u(4)
+#define RP_AP_DBG_POW_STATE_XIP_LARGE_ACK_LSB    _u(4)
+#define RP_AP_DBG_POW_STATE_XIP_LARGE_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2
+// Description : The small switches are split into 3 chains. In the power up
+//               sequence they are switched on separately to allow management of
+//               the VDD rise time. In the power down sequence they switch off
+//               simultaneously with the large power switches.
+//               This bit indicates the state of the last element in small power
+//               switch chain 2.
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2_BITS   _u(0x00000008)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2_MSB    _u(3)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2_LSB    _u(3)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 1.
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1_BITS   _u(0x00000004)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1_MSB    _u(2)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1_LSB    _u(2)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 0.
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0_BITS   _u(0x00000002)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0_MSB    _u(1)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0_LSB    _u(1)
+#define RP_AP_DBG_POW_STATE_XIP_SMALL_ACK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_XIP_IS_PD
+// Description : Indicates the power somain is fully powered down.
+#define RP_AP_DBG_POW_STATE_XIP_IS_PD_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PD_BITS   _u(0x00000001)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PD_MSB    _u(0)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PD_LSB    _u(0)
+#define RP_AP_DBG_POW_STATE_XIP_IS_PD_ACCESS "RO"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_STATE_SRAM0
+// Description : This register indicates the state of the power sequencer for
+//               the SRAM0 domain.
+//               The sequencer timing is managed by the POWMAN_SEQ_* registers.
+//               See the header file for those registers for more information on
+//               the timing.
+//               Power up of the domain commences by clearing bit 0 (IS_PD) then
+//               bits 1-8 are set in sequence. Bit 8 (IS_PU) indicates the
+//               sequence is complete.
+//               Power down of the domain commences by clearing bit 8 (IS_PU)
+//               then bits 7-1 are cleared in sequence. Bit 0 (IS_PU) is then
+//               set to indicate the sequence is complete.
+#define RP_AP_DBG_POW_STATE_SRAM0_OFFSET _u(0x00000010)
+#define RP_AP_DBG_POW_STATE_SRAM0_BITS   _u(0x000001ff)
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_IS_PU
+// Description : Indicates the power somain is fully powered up.
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PU_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PU_BITS   _u(0x00000100)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PU_MSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PU_LSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PU_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ
+// Description : Indicates the state of the reset to the power domain.
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ_BITS   _u(0x00000080)
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ_MSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ_LSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SRAM0_RESET_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK
+// Description : Indicates the state of the enable to the power domain.
+#define RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK_BITS   _u(0x00000040)
+#define RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK_MSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK_LSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SRAM0_ENAB_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ
+// Description : Indicates the state of the isolation control to the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ_BITS   _u(0x00000020)
+#define RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ_MSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ_LSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SRAM0_ISOLATE_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK
+// Description : Indicates the state of the large power switches for the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK_BITS   _u(0x00000010)
+#define RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK_MSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK_LSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SRAM0_LARGE_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2
+// Description : The small switches are split into 3 chains. In the power up
+//               sequence they are switched on separately to allow management of
+//               the VDD rise time. In the power down sequence they switch off
+//               simultaneously with the large power switches.
+//               This bit indicates the state of the last element in small power
+//               switch chain 2.
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2_BITS   _u(0x00000008)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2_MSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2_LSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 1.
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1_BITS   _u(0x00000004)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1_MSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1_LSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 0.
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0_BITS   _u(0x00000002)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0_MSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0_LSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SRAM0_SMALL_ACK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM0_IS_PD
+// Description : Indicates the power somain is fully powered down.
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PD_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PD_BITS   _u(0x00000001)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PD_MSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PD_LSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SRAM0_IS_PD_ACCESS "RO"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_STATE_SRAM1
+// Description : This register indicates the state of the power sequencer for
+//               the SRAM1 domain.
+//               The sequencer timing is managed by the POWMAN_SEQ_* registers.
+//               See the header file for those registers for more information on
+//               the timing.
+//               Power up of the domain commences by clearing bit 0 (IS_PD) then
+//               bits 1-8 are set in sequence. Bit 8 (IS_PU) indicates the
+//               sequence is complete.
+//               Power down of the domain commences by clearing bit 8 (IS_PU)
+//               then bits 7-1 are cleared in sequence. Bit 0 (IS_PU) is then
+//               set to indicate the sequence is complete.
+#define RP_AP_DBG_POW_STATE_SRAM1_OFFSET _u(0x00000014)
+#define RP_AP_DBG_POW_STATE_SRAM1_BITS   _u(0x000001ff)
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_IS_PU
+// Description : Indicates the power somain is fully powered up.
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PU_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PU_BITS   _u(0x00000100)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PU_MSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PU_LSB    _u(8)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PU_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ
+// Description : Indicates the state of the reset to the power domain.
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ_BITS   _u(0x00000080)
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ_MSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ_LSB    _u(7)
+#define RP_AP_DBG_POW_STATE_SRAM1_RESET_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK
+// Description : Indicates the state of the enable to the power domain.
+#define RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK_BITS   _u(0x00000040)
+#define RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK_MSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK_LSB    _u(6)
+#define RP_AP_DBG_POW_STATE_SRAM1_ENAB_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ
+// Description : Indicates the state of the isolation control to the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ_BITS   _u(0x00000020)
+#define RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ_MSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ_LSB    _u(5)
+#define RP_AP_DBG_POW_STATE_SRAM1_ISOLATE_FROM_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK
+// Description : Indicates the state of the large power switches for the power
+//               domain.
+#define RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK_BITS   _u(0x00000010)
+#define RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK_MSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK_LSB    _u(4)
+#define RP_AP_DBG_POW_STATE_SRAM1_LARGE_ACK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2
+// Description : The small switches are split into 3 chains. In the power up
+//               sequence they are switched on separately to allow management of
+//               the VDD rise time. In the power down sequence they switch off
+//               simultaneously with the large power switches.
+//               This bit indicates the state of the last element in small power
+//               switch chain 2.
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2_BITS   _u(0x00000008)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2_MSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2_LSB    _u(3)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 1.
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1_BITS   _u(0x00000004)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1_MSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1_LSB    _u(2)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0
+// Description : This bit indicates the state of the last element in small power
+//               switch chain 0.
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0_BITS   _u(0x00000002)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0_MSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0_LSB    _u(1)
+#define RP_AP_DBG_POW_STATE_SRAM1_SMALL_ACK0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_STATE_SRAM1_IS_PD
+// Description : Indicates the power somain is fully powered down.
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PD_RESET  _u(0x0)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PD_BITS   _u(0x00000001)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PD_MSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PD_LSB    _u(0)
+#define RP_AP_DBG_POW_STATE_SRAM1_IS_PD_ACCESS "RO"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_OVRD
+// Description : This register allows external control of the power sequencer
+//               outputs for all the switched power domains. If any of the power
+//               sequencers stall at any stage then force power up operation of
+//               all domains by running this sequence:
+//               - set DBG_POW_OVRD = 0x3b to force small power switches on,
+//               large power switches off, resets on and isolation on
+//               - allow time for the domain power supplies to reach full rail
+//               - set DBG_POW_OVRD = 0x3b to force large power switches on
+//               - set DBG_POW_OVRD = 0x37 to remove isolation
+//               - set DBG_POW_OVRD = 0x17 to remove resets
+#define RP_AP_DBG_POW_OVRD_OFFSET _u(0x00000018)
+#define RP_AP_DBG_POW_OVRD_BITS   _u(0x0000007f)
+#define RP_AP_DBG_POW_OVRD_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC
+// Description : By default the system begins boot as soon as a clock is
+//               available from the ROSC, then it switches to the XOSC when it
+//               is available. This is done because the XOSC takes several ms to
+//               start up. If there is a problem with the ROSC then the default
+//               behaviour can be changed to not use the ROSC and wait for XOSC.
+//               However, this requires a mask change to modify the reset value
+//               of the Power Manager START_FROM_XOSC register. To allow
+//               experimentation the default can be temporarily changed by
+//               setting this register bit to 1. After setting this bit the core
+//               must be reset by a Coresight dprst or a rescue reset (see
+//               RESCUE_RESTART in the RP_AP_CTRL register above). A power-on
+//               reset, brown-out reset or RUN pin reset will reset this control
+//               and revert to the default behaviour.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC_BITS   _u(0x00000040)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC_MSB    _u(6)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC_LSB    _u(6)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESTART_FROM_XOSC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_RESET
+// Description : When DBG_POW_OVRD_RESET=1 this register bit controls the resets
+//               for all domains. 1 = reset. 0 = not reset.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESET_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESET_BITS   _u(0x00000020)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESET_MSB    _u(5)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESET_LSB    _u(5)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET
+// Description : Enables DBG_POW_RESET to control the resets for the power
+//               manager and the switched-core. Essentially that is everythjing
+//               except the Coresight 2-wire interface and the RP_AP registers.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET_BITS   _u(0x00000010)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET_MSB    _u(4)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET_LSB    _u(4)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_ISO
+// Description : When DBG_POW_OVRD_ISO=1 this register bit controls the
+//               isolation gates for all domains. 1 = isolated. 0 = not
+//               isolated.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_ISO_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_ISO_BITS   _u(0x00000008)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_ISO_MSB    _u(3)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_ISO_LSB    _u(3)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO
+// Description : Enables DBG_POW_ISO to control the isolation gates between
+//               domains.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO_BITS   _u(0x00000004)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO_MSB    _u(2)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO_LSB    _u(2)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ
+// Description : Turn on the large power switches for all domains. This should
+//               not be done until sufficient time has been allowed for the
+//               small switches to bring the supplies up. Switching the large
+//               switches on too soon risks browning out the always-on domain
+//               and corrupting these very registers.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ_BITS   _u(0x00000002)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ_MSB    _u(1)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ_LSB    _u(1)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_LARGE_REQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ
+// Description : Turn on the small power switches for all domains. This switches
+//               on chain 0 for each domain and switches off chains 2 & 3 and
+//               the large power switch chain. This will bring the power up for
+//               all domains without browning out the always-on power domain.
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ_RESET  _u(0x0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ_BITS   _u(0x00000001)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ_MSB    _u(0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ_LSB    _u(0)
+#define RP_AP_DBG_POW_OVRD_DBG_POW_OVRD_SMALL_REQ_ACCESS "RW"
+// =============================================================================
+// Register    : RP_AP_DBG_POW_OUTPUT_TO_GPIO
+// Description : Send some, or all, bits of DBG_POW_STATE_SWCORE to gpios.
+//               Bit 0  sends bit 0  of DBG_POW_STATE_SWCORE to GPIO 34
+//               Bit 1  sends bit 1  of DBG_POW_STATE_SWCORE to GPIO 35
+//               Bit 2  sends bit 2  of DBG_POW_STATE_SWCORE to GPIO 36
+//               .
+//               .
+//               Bit 11 sends bit 11 of DBG_POW_STATE_SWCORE to GPIO 45
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_OFFSET _u(0x0000001c)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_BITS   _u(0x00000fff)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE_RESET  _u(0x000)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE_BITS   _u(0x00000fff)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE_MSB    _u(11)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE_LSB    _u(0)
+#define RP_AP_DBG_POW_OUTPUT_TO_GPIO_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : RP_AP_IDR
+// Description : Standard Coresight ID Register
+#define RP_AP_IDR_OFFSET _u(0x00000dfc)
+#define RP_AP_IDR_BITS   _u(0xffffffff)
+#define RP_AP_IDR_RESET  "-"
+#define RP_AP_IDR_MSB    _u(31)
+#define RP_AP_IDR_LSB    _u(0)
+#define RP_AP_IDR_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_RP_AP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/rvcsr.h b/lib/pico-sdk/rp2350/hardware/regs/rvcsr.h
new file mode 100644
index 0000000..f5ff378
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/rvcsr.h
@@ -0,0 +1,3154 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : RVCSR
+// Version        : 1
+// Bus type       : apb
+// Description    : CSR listing for Hazard3
+// =============================================================================
+#ifndef _HARDWARE_REGS_RVCSR_H
+#define _HARDWARE_REGS_RVCSR_H
+// =============================================================================
+// Register    : RVCSR_MSTATUS
+// Description : Machine status register
+#define RVCSR_MSTATUS_OFFSET _u(0x00000300)
+#define RVCSR_MSTATUS_BITS   _u(0x00221888)
+#define RVCSR_MSTATUS_RESET  _u(0x00001800)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSTATUS_TW
+// Description : Timeout wait. When 1, attempting to execute a WFI instruction
+//               in U-mode will instantly cause an illegal instruction
+//               exception.
+#define RVCSR_MSTATUS_TW_RESET  _u(0x0)
+#define RVCSR_MSTATUS_TW_BITS   _u(0x00200000)
+#define RVCSR_MSTATUS_TW_MSB    _u(21)
+#define RVCSR_MSTATUS_TW_LSB    _u(21)
+#define RVCSR_MSTATUS_TW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSTATUS_MPRV
+// Description : Modify privilege. If 1, loads and stores behave as though the
+//               current privilege level were `mpp`. This includes physical
+//               memory protection checks, and the privilege level asserted on
+//               the system bus alongside the load/store address.
+#define RVCSR_MSTATUS_MPRV_RESET  _u(0x0)
+#define RVCSR_MSTATUS_MPRV_BITS   _u(0x00020000)
+#define RVCSR_MSTATUS_MPRV_MSB    _u(17)
+#define RVCSR_MSTATUS_MPRV_LSB    _u(17)
+#define RVCSR_MSTATUS_MPRV_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSTATUS_MPP
+// Description : Previous privilege level. Can store the values 3 (M-mode) or 0
+//               (U-mode). If another value is written, hardware rounds to the
+//               nearest supported mode.
+#define RVCSR_MSTATUS_MPP_RESET  _u(0x3)
+#define RVCSR_MSTATUS_MPP_BITS   _u(0x00001800)
+#define RVCSR_MSTATUS_MPP_MSB    _u(12)
+#define RVCSR_MSTATUS_MPP_LSB    _u(11)
+#define RVCSR_MSTATUS_MPP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSTATUS_MPIE
+// Description : Previous interrupt enable. Readable and writable. Is set to the
+//               current value of `mstatus.mie` on trap entry. Is set to 1 on
+//               trap return.
+#define RVCSR_MSTATUS_MPIE_RESET  _u(0x0)
+#define RVCSR_MSTATUS_MPIE_BITS   _u(0x00000080)
+#define RVCSR_MSTATUS_MPIE_MSB    _u(7)
+#define RVCSR_MSTATUS_MPIE_LSB    _u(7)
+#define RVCSR_MSTATUS_MPIE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSTATUS_MIE
+// Description : Interrupt enable. Readable and writable. Is set to 0 on trap
+//               entry. Is set to the current value of `mstatus.mpie` on trap
+//               return.
+#define RVCSR_MSTATUS_MIE_RESET  _u(0x0)
+#define RVCSR_MSTATUS_MIE_BITS   _u(0x00000008)
+#define RVCSR_MSTATUS_MIE_MSB    _u(3)
+#define RVCSR_MSTATUS_MIE_LSB    _u(3)
+#define RVCSR_MSTATUS_MIE_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MISA
+// Description : Summary of ISA extension support
+//
+//               On RP2350, Hazard3's full `-march` string is:
+//               `rv32ima_zicsr_zifencei_zba_zbb_zbs_zbkb_zca_zcb_zcmp`
+//
+//               Note Zca is equivalent to the C extension in this case; all
+//               instructions from the RISC-V C extension relevant to a 32-bit
+//               non-floating-point processor are supported. On older toolchains
+//               which do not support the Zc extensions, the appropriate
+//               `-march` string is: `rv32imac_zicsr_zifencei_zba_zbb_zbs_zbkb`
+//
+//               In addition the following custom extensions are configured:
+//               Xh3bm, Xh3power, Xh3irq, Xh3pmpm
+#define RVCSR_MISA_OFFSET _u(0x00000301)
+#define RVCSR_MISA_BITS   _u(0xc0901107)
+#define RVCSR_MISA_RESET  _u(0x40901105)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_MXL
+// Description : Value of 0x1 indicates this is a 32-bit processor.
+#define RVCSR_MISA_MXL_RESET  _u(0x1)
+#define RVCSR_MISA_MXL_BITS   _u(0xc0000000)
+#define RVCSR_MISA_MXL_MSB    _u(31)
+#define RVCSR_MISA_MXL_LSB    _u(30)
+#define RVCSR_MISA_MXL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_X
+// Description : Value of 1 indicates nonstandard extensions are present. (Xh3b
+//               bit manipulation, and custom sleep and interrupt control CSRs)
+#define RVCSR_MISA_X_RESET  _u(0x1)
+#define RVCSR_MISA_X_BITS   _u(0x00800000)
+#define RVCSR_MISA_X_MSB    _u(23)
+#define RVCSR_MISA_X_LSB    _u(23)
+#define RVCSR_MISA_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_U
+// Description : Value of 1 indicates U-mode is implemented.
+#define RVCSR_MISA_U_RESET  _u(0x1)
+#define RVCSR_MISA_U_BITS   _u(0x00100000)
+#define RVCSR_MISA_U_MSB    _u(20)
+#define RVCSR_MISA_U_LSB    _u(20)
+#define RVCSR_MISA_U_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_M
+// Description : Value of 1 indicates the M extension (integer multiply/divide)
+//               is implemented.
+#define RVCSR_MISA_M_RESET  _u(0x1)
+#define RVCSR_MISA_M_BITS   _u(0x00001000)
+#define RVCSR_MISA_M_MSB    _u(12)
+#define RVCSR_MISA_M_LSB    _u(12)
+#define RVCSR_MISA_M_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_I
+// Description : Value of 1 indicates the RVI base ISA is implemented (as
+//               opposed to RVE)
+#define RVCSR_MISA_I_RESET  _u(0x1)
+#define RVCSR_MISA_I_BITS   _u(0x00000100)
+#define RVCSR_MISA_I_MSB    _u(8)
+#define RVCSR_MISA_I_LSB    _u(8)
+#define RVCSR_MISA_I_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_C
+// Description : Value of 1 indicates the C extension (compressed instructions)
+//               is implemented.
+#define RVCSR_MISA_C_RESET  _u(0x1)
+#define RVCSR_MISA_C_BITS   _u(0x00000004)
+#define RVCSR_MISA_C_MSB    _u(2)
+#define RVCSR_MISA_C_LSB    _u(2)
+#define RVCSR_MISA_C_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_B
+// Description : Value of 1 indicates the B extension (bit manipulation) is
+//               implemented. B is the combination of Zba, Zbb and Zbs.
+//
+//               Hazard3 implements all of these extensions, but the definition
+//               of B as ZbaZbbZbs did not exist at the point this version of
+//               Hazard3 was taped out. This bit was reserved-0 at that point.
+//               Therefore this bit reads as 0.
+#define RVCSR_MISA_B_RESET  _u(0x0)
+#define RVCSR_MISA_B_BITS   _u(0x00000002)
+#define RVCSR_MISA_B_MSB    _u(1)
+#define RVCSR_MISA_B_LSB    _u(1)
+#define RVCSR_MISA_B_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MISA_A
+// Description : Value of 1 indicates the A extension (atomics) is implemented.
+#define RVCSR_MISA_A_RESET  _u(0x1)
+#define RVCSR_MISA_A_BITS   _u(0x00000001)
+#define RVCSR_MISA_A_MSB    _u(0)
+#define RVCSR_MISA_A_LSB    _u(0)
+#define RVCSR_MISA_A_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MEDELEG
+// Description : Machine exception delegation register. Not implemented, as no
+//               S-mode support.
+#define RVCSR_MEDELEG_OFFSET _u(0x00000302)
+#define RVCSR_MEDELEG_BITS   _u(0xffffffff)
+#define RVCSR_MEDELEG_RESET  "-"
+#define RVCSR_MEDELEG_MSB    _u(31)
+#define RVCSR_MEDELEG_LSB    _u(0)
+#define RVCSR_MEDELEG_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MIDELEG
+// Description : Machine interrupt delegation register. Not implemented, as no
+//               S-mode support.
+#define RVCSR_MIDELEG_OFFSET _u(0x00000303)
+#define RVCSR_MIDELEG_BITS   _u(0xffffffff)
+#define RVCSR_MIDELEG_RESET  "-"
+#define RVCSR_MIDELEG_MSB    _u(31)
+#define RVCSR_MIDELEG_LSB    _u(0)
+#define RVCSR_MIDELEG_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MIE
+// Description : Machine interrupt enable register
+#define RVCSR_MIE_OFFSET _u(0x00000304)
+#define RVCSR_MIE_BITS   _u(0x00000888)
+#define RVCSR_MIE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIE_MEIE
+// Description : External interrupt enable. The processor transfers to the
+//               external interrupt vector when `mie.meie`, `mip.meip` and
+//               `mstatus.mie` are all 1.
+//
+//               Hazard3 has internal registers to individually filter external
+//               interrupts (see `meiea`), but this standard control can be used
+//               to mask all external interrupts at once.
+#define RVCSR_MIE_MEIE_RESET  _u(0x0)
+#define RVCSR_MIE_MEIE_BITS   _u(0x00000800)
+#define RVCSR_MIE_MEIE_MSB    _u(11)
+#define RVCSR_MIE_MEIE_LSB    _u(11)
+#define RVCSR_MIE_MEIE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIE_MTIE
+// Description : Timer interrupt enable. The processor transfers to the timer
+//               interrupt vector when `mie.mtie`, `mip.mtip` and `mstatus.mie`
+//               are all 1, unless a software or external interrupt request is
+//               also valid at this time.
+#define RVCSR_MIE_MTIE_RESET  _u(0x0)
+#define RVCSR_MIE_MTIE_BITS   _u(0x00000080)
+#define RVCSR_MIE_MTIE_MSB    _u(7)
+#define RVCSR_MIE_MTIE_LSB    _u(7)
+#define RVCSR_MIE_MTIE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIE_MSIE
+// Description : Software interrupt enable. The processor transfers to the
+//               software interrupt vector `mie.msie`, `mip.msip` and
+//               `mstatus.mie` are all 1, unless an external interrupt request
+//               is also valid at this time.
+#define RVCSR_MIE_MSIE_RESET  _u(0x0)
+#define RVCSR_MIE_MSIE_BITS   _u(0x00000008)
+#define RVCSR_MIE_MSIE_MSB    _u(3)
+#define RVCSR_MIE_MSIE_LSB    _u(3)
+#define RVCSR_MIE_MSIE_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MTVEC
+// Description : Machine trap handler base address.
+#define RVCSR_MTVEC_OFFSET _u(0x00000305)
+#define RVCSR_MTVEC_BITS   _u(0xffffffff)
+#define RVCSR_MTVEC_RESET  _u(0x00007ffc)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MTVEC_BASE
+// Description : The upper 30 bits of the trap vector address (2 LSBs are
+//               implicitly 0). Must be 64-byte-aligned if vectoring is enabled.
+//               Otherwise, must be 4-byte-aligned.
+#define RVCSR_MTVEC_BASE_RESET  _u(0x00001fff)
+#define RVCSR_MTVEC_BASE_BITS   _u(0xfffffffc)
+#define RVCSR_MTVEC_BASE_MSB    _u(31)
+#define RVCSR_MTVEC_BASE_LSB    _u(2)
+#define RVCSR_MTVEC_BASE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MTVEC_MODE
+// Description : If 0 (direct mode), all traps set pc to the trap vector base.
+//               If 1 (vectored), exceptions set pc to the trap vector base, and
+//               interrupts set pc to 4 times the interrupt cause (3=soft IRQ,
+//               7=timer IRQ, 11=external IRQ).
+//
+//               The upper bit is hardwired to zero, so attempting to set mode
+//               to 2 or 3 will result in a value of 0 or 1 respectively.
+//               0x0 -> Direct entry to mtvec
+//               0x1 -> Vectored entry to a 16-entry jump table starting at mtvec
+#define RVCSR_MTVEC_MODE_RESET  _u(0x0)
+#define RVCSR_MTVEC_MODE_BITS   _u(0x00000003)
+#define RVCSR_MTVEC_MODE_MSB    _u(1)
+#define RVCSR_MTVEC_MODE_LSB    _u(0)
+#define RVCSR_MTVEC_MODE_ACCESS "RW"
+#define RVCSR_MTVEC_MODE_VALUE_DIRECT _u(0x0)
+#define RVCSR_MTVEC_MODE_VALUE_VECTORED _u(0x1)
+// =============================================================================
+// Register    : RVCSR_MCOUNTEREN
+// Description : Counter enable. Control access to counters from U-mode. Not to
+//               be confused with mcountinhibit.
+#define RVCSR_MCOUNTEREN_OFFSET _u(0x00000306)
+#define RVCSR_MCOUNTEREN_BITS   _u(0x00000007)
+#define RVCSR_MCOUNTEREN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCOUNTEREN_IR
+// Description : If 1, U-mode is permitted to access the `instret`/`instreth`
+//               instruction retire counter CSRs. Otherwise, U-mode accesses to
+//               these CSRs will trap.
+#define RVCSR_MCOUNTEREN_IR_RESET  _u(0x0)
+#define RVCSR_MCOUNTEREN_IR_BITS   _u(0x00000004)
+#define RVCSR_MCOUNTEREN_IR_MSB    _u(2)
+#define RVCSR_MCOUNTEREN_IR_LSB    _u(2)
+#define RVCSR_MCOUNTEREN_IR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCOUNTEREN_TM
+// Description : No hardware effect, as the `time`/`timeh` CSRs are not
+//               implemented. However, this field still exists, as M-mode
+//               software can use it to track whether it should emulate U-mode
+//               attempts to access those CSRs.
+#define RVCSR_MCOUNTEREN_TM_RESET  _u(0x0)
+#define RVCSR_MCOUNTEREN_TM_BITS   _u(0x00000002)
+#define RVCSR_MCOUNTEREN_TM_MSB    _u(1)
+#define RVCSR_MCOUNTEREN_TM_LSB    _u(1)
+#define RVCSR_MCOUNTEREN_TM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCOUNTEREN_CY
+// Description : If 1, U-mode is permitted to access the `cycle`/`cycleh` cycle
+//               counter CSRs. Otherwise, U-mode accesses to these CSRs will
+//               trap.
+#define RVCSR_MCOUNTEREN_CY_RESET  _u(0x0)
+#define RVCSR_MCOUNTEREN_CY_BITS   _u(0x00000001)
+#define RVCSR_MCOUNTEREN_CY_MSB    _u(0)
+#define RVCSR_MCOUNTEREN_CY_LSB    _u(0)
+#define RVCSR_MCOUNTEREN_CY_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MENVCFG
+// Description : Machine environment configuration register, low half
+#define RVCSR_MENVCFG_OFFSET _u(0x0000030a)
+#define RVCSR_MENVCFG_BITS   _u(0x00000001)
+#define RVCSR_MENVCFG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MENVCFG_FIOM
+// Description : When set, fence instructions in modes less privileged than
+//               M-mode which specify that IO memory accesses are ordered will
+//               also cause ordering of main memory accesses.
+//
+//               FIOM is hardwired to zero on Hazard3, because S-mode is not
+//               supported, and because fence instructions execute as NOPs (with
+//               the exception of `fence.i`)
+#define RVCSR_MENVCFG_FIOM_RESET  _u(0x0)
+#define RVCSR_MENVCFG_FIOM_BITS   _u(0x00000001)
+#define RVCSR_MENVCFG_FIOM_MSB    _u(0)
+#define RVCSR_MENVCFG_FIOM_LSB    _u(0)
+#define RVCSR_MENVCFG_FIOM_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MSTATUSH
+// Description : High half of mstatus, hardwired to 0.
+#define RVCSR_MSTATUSH_OFFSET _u(0x00000310)
+#define RVCSR_MSTATUSH_BITS   _u(0xffffffff)
+#define RVCSR_MSTATUSH_RESET  _u(0x00000000)
+#define RVCSR_MSTATUSH_MSB    _u(31)
+#define RVCSR_MSTATUSH_LSB    _u(0)
+#define RVCSR_MSTATUSH_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MENVCFGH
+// Description : Machine environment configuration register, high half
+//
+//               This register is fully reserved, as Hazard3 does not implement
+//               the relevant extensions. It is implemented as hardwired-0.
+#define RVCSR_MENVCFGH_OFFSET _u(0x0000031a)
+#define RVCSR_MENVCFGH_BITS   _u(0x00000000)
+#define RVCSR_MENVCFGH_RESET  _u(0x00000000)
+#define RVCSR_MENVCFGH_MSB    _u(31)
+#define RVCSR_MENVCFGH_LSB    _u(0)
+#define RVCSR_MENVCFGH_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MCOUNTINHIBIT
+// Description : Count inhibit register for `mcycle`/`minstret`
+#define RVCSR_MCOUNTINHIBIT_OFFSET _u(0x00000320)
+#define RVCSR_MCOUNTINHIBIT_BITS   _u(0x00000005)
+#define RVCSR_MCOUNTINHIBIT_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCOUNTINHIBIT_IR
+// Description : Inhibit counting of the `minstret` and `minstreth` registers.
+//               Set by default to save power.
+#define RVCSR_MCOUNTINHIBIT_IR_RESET  _u(0x1)
+#define RVCSR_MCOUNTINHIBIT_IR_BITS   _u(0x00000004)
+#define RVCSR_MCOUNTINHIBIT_IR_MSB    _u(2)
+#define RVCSR_MCOUNTINHIBIT_IR_LSB    _u(2)
+#define RVCSR_MCOUNTINHIBIT_IR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCOUNTINHIBIT_CY
+// Description : Inhibit counting of the `mcycle` and `mcycleh` registers. Set
+//               by default to save power.
+#define RVCSR_MCOUNTINHIBIT_CY_RESET  _u(0x1)
+#define RVCSR_MCOUNTINHIBIT_CY_BITS   _u(0x00000001)
+#define RVCSR_MCOUNTINHIBIT_CY_MSB    _u(0)
+#define RVCSR_MCOUNTINHIBIT_CY_LSB    _u(0)
+#define RVCSR_MCOUNTINHIBIT_CY_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT3
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT3_OFFSET _u(0x00000323)
+#define RVCSR_MHPMEVENT3_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT3_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT3_MSB    _u(31)
+#define RVCSR_MHPMEVENT3_LSB    _u(0)
+#define RVCSR_MHPMEVENT3_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT4
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT4_OFFSET _u(0x00000324)
+#define RVCSR_MHPMEVENT4_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT4_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT4_MSB    _u(31)
+#define RVCSR_MHPMEVENT4_LSB    _u(0)
+#define RVCSR_MHPMEVENT4_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT5
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT5_OFFSET _u(0x00000325)
+#define RVCSR_MHPMEVENT5_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT5_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT5_MSB    _u(31)
+#define RVCSR_MHPMEVENT5_LSB    _u(0)
+#define RVCSR_MHPMEVENT5_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT6
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT6_OFFSET _u(0x00000326)
+#define RVCSR_MHPMEVENT6_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT6_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT6_MSB    _u(31)
+#define RVCSR_MHPMEVENT6_LSB    _u(0)
+#define RVCSR_MHPMEVENT6_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT7
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT7_OFFSET _u(0x00000327)
+#define RVCSR_MHPMEVENT7_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT7_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT7_MSB    _u(31)
+#define RVCSR_MHPMEVENT7_LSB    _u(0)
+#define RVCSR_MHPMEVENT7_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT8
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT8_OFFSET _u(0x00000328)
+#define RVCSR_MHPMEVENT8_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT8_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT8_MSB    _u(31)
+#define RVCSR_MHPMEVENT8_LSB    _u(0)
+#define RVCSR_MHPMEVENT8_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT9
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT9_OFFSET _u(0x00000329)
+#define RVCSR_MHPMEVENT9_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT9_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT9_MSB    _u(31)
+#define RVCSR_MHPMEVENT9_LSB    _u(0)
+#define RVCSR_MHPMEVENT9_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT10
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT10_OFFSET _u(0x0000032a)
+#define RVCSR_MHPMEVENT10_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT10_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT10_MSB    _u(31)
+#define RVCSR_MHPMEVENT10_LSB    _u(0)
+#define RVCSR_MHPMEVENT10_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT11
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT11_OFFSET _u(0x0000032b)
+#define RVCSR_MHPMEVENT11_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT11_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT11_MSB    _u(31)
+#define RVCSR_MHPMEVENT11_LSB    _u(0)
+#define RVCSR_MHPMEVENT11_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT12
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT12_OFFSET _u(0x0000032c)
+#define RVCSR_MHPMEVENT12_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT12_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT12_MSB    _u(31)
+#define RVCSR_MHPMEVENT12_LSB    _u(0)
+#define RVCSR_MHPMEVENT12_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT13
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT13_OFFSET _u(0x0000032d)
+#define RVCSR_MHPMEVENT13_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT13_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT13_MSB    _u(31)
+#define RVCSR_MHPMEVENT13_LSB    _u(0)
+#define RVCSR_MHPMEVENT13_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT14
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT14_OFFSET _u(0x0000032e)
+#define RVCSR_MHPMEVENT14_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT14_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT14_MSB    _u(31)
+#define RVCSR_MHPMEVENT14_LSB    _u(0)
+#define RVCSR_MHPMEVENT14_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT15
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT15_OFFSET _u(0x0000032f)
+#define RVCSR_MHPMEVENT15_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT15_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT15_MSB    _u(31)
+#define RVCSR_MHPMEVENT15_LSB    _u(0)
+#define RVCSR_MHPMEVENT15_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT16
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT16_OFFSET _u(0x00000330)
+#define RVCSR_MHPMEVENT16_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT16_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT16_MSB    _u(31)
+#define RVCSR_MHPMEVENT16_LSB    _u(0)
+#define RVCSR_MHPMEVENT16_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT17
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT17_OFFSET _u(0x00000331)
+#define RVCSR_MHPMEVENT17_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT17_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT17_MSB    _u(31)
+#define RVCSR_MHPMEVENT17_LSB    _u(0)
+#define RVCSR_MHPMEVENT17_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT18
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT18_OFFSET _u(0x00000332)
+#define RVCSR_MHPMEVENT18_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT18_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT18_MSB    _u(31)
+#define RVCSR_MHPMEVENT18_LSB    _u(0)
+#define RVCSR_MHPMEVENT18_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT19
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT19_OFFSET _u(0x00000333)
+#define RVCSR_MHPMEVENT19_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT19_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT19_MSB    _u(31)
+#define RVCSR_MHPMEVENT19_LSB    _u(0)
+#define RVCSR_MHPMEVENT19_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT20
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT20_OFFSET _u(0x00000334)
+#define RVCSR_MHPMEVENT20_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT20_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT20_MSB    _u(31)
+#define RVCSR_MHPMEVENT20_LSB    _u(0)
+#define RVCSR_MHPMEVENT20_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT21
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT21_OFFSET _u(0x00000335)
+#define RVCSR_MHPMEVENT21_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT21_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT21_MSB    _u(31)
+#define RVCSR_MHPMEVENT21_LSB    _u(0)
+#define RVCSR_MHPMEVENT21_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT22
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT22_OFFSET _u(0x00000336)
+#define RVCSR_MHPMEVENT22_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT22_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT22_MSB    _u(31)
+#define RVCSR_MHPMEVENT22_LSB    _u(0)
+#define RVCSR_MHPMEVENT22_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT23
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT23_OFFSET _u(0x00000337)
+#define RVCSR_MHPMEVENT23_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT23_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT23_MSB    _u(31)
+#define RVCSR_MHPMEVENT23_LSB    _u(0)
+#define RVCSR_MHPMEVENT23_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT24
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT24_OFFSET _u(0x00000338)
+#define RVCSR_MHPMEVENT24_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT24_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT24_MSB    _u(31)
+#define RVCSR_MHPMEVENT24_LSB    _u(0)
+#define RVCSR_MHPMEVENT24_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT25
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT25_OFFSET _u(0x00000339)
+#define RVCSR_MHPMEVENT25_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT25_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT25_MSB    _u(31)
+#define RVCSR_MHPMEVENT25_LSB    _u(0)
+#define RVCSR_MHPMEVENT25_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT26
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT26_OFFSET _u(0x0000033a)
+#define RVCSR_MHPMEVENT26_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT26_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT26_MSB    _u(31)
+#define RVCSR_MHPMEVENT26_LSB    _u(0)
+#define RVCSR_MHPMEVENT26_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT27
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT27_OFFSET _u(0x0000033b)
+#define RVCSR_MHPMEVENT27_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT27_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT27_MSB    _u(31)
+#define RVCSR_MHPMEVENT27_LSB    _u(0)
+#define RVCSR_MHPMEVENT27_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT28
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT28_OFFSET _u(0x0000033c)
+#define RVCSR_MHPMEVENT28_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT28_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT28_MSB    _u(31)
+#define RVCSR_MHPMEVENT28_LSB    _u(0)
+#define RVCSR_MHPMEVENT28_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT29
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT29_OFFSET _u(0x0000033d)
+#define RVCSR_MHPMEVENT29_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT29_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT29_MSB    _u(31)
+#define RVCSR_MHPMEVENT29_LSB    _u(0)
+#define RVCSR_MHPMEVENT29_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT30
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT30_OFFSET _u(0x0000033e)
+#define RVCSR_MHPMEVENT30_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT30_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT30_MSB    _u(31)
+#define RVCSR_MHPMEVENT30_LSB    _u(0)
+#define RVCSR_MHPMEVENT30_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMEVENT31
+// Description : Extended performance event selector, hardwired to 0.
+#define RVCSR_MHPMEVENT31_OFFSET _u(0x0000033f)
+#define RVCSR_MHPMEVENT31_BITS   _u(0xffffffff)
+#define RVCSR_MHPMEVENT31_RESET  _u(0x00000000)
+#define RVCSR_MHPMEVENT31_MSB    _u(31)
+#define RVCSR_MHPMEVENT31_LSB    _u(0)
+#define RVCSR_MHPMEVENT31_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MSCRATCH
+// Description : Scratch register for machine trap handlers.
+//
+//               32-bit read/write register with no specific hardware function.
+//               Software may use this to do a fast save/restore of a core
+//               register in a trap handler.
+#define RVCSR_MSCRATCH_OFFSET _u(0x00000340)
+#define RVCSR_MSCRATCH_BITS   _u(0xffffffff)
+#define RVCSR_MSCRATCH_RESET  _u(0x00000000)
+#define RVCSR_MSCRATCH_MSB    _u(31)
+#define RVCSR_MSCRATCH_LSB    _u(0)
+#define RVCSR_MSCRATCH_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MEPC
+// Description : Machine exception program counter.
+//
+//               When entering a trap, the current value of the program counter
+//               is recorded here. When executing an `mret`, the processor jumps
+//               to `mepc`. Can also be read and written by software.
+#define RVCSR_MEPC_OFFSET _u(0x00000341)
+#define RVCSR_MEPC_BITS   _u(0xfffffffc)
+#define RVCSR_MEPC_RESET  _u(0x00000000)
+#define RVCSR_MEPC_MSB    _u(31)
+#define RVCSR_MEPC_LSB    _u(2)
+#define RVCSR_MEPC_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MCAUSE
+// Description : Machine trap cause. Set when entering a trap to indicate the
+//               reason for the trap. Readable and writable by software.
+#define RVCSR_MCAUSE_OFFSET _u(0x00000342)
+#define RVCSR_MCAUSE_BITS   _u(0x8000000f)
+#define RVCSR_MCAUSE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCAUSE_INTERRUPT
+// Description : If 1, the trap was caused by an interrupt. If 0, it was caused
+//               by an exception.
+#define RVCSR_MCAUSE_INTERRUPT_RESET  _u(0x0)
+#define RVCSR_MCAUSE_INTERRUPT_BITS   _u(0x80000000)
+#define RVCSR_MCAUSE_INTERRUPT_MSB    _u(31)
+#define RVCSR_MCAUSE_INTERRUPT_LSB    _u(31)
+#define RVCSR_MCAUSE_INTERRUPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MCAUSE_CODE
+// Description : If `interrupt` is set, `code` indicates the index of the bit in
+//               mip that caused the trap (3=soft IRQ, 7=timer IRQ, 11=external
+//               IRQ). Otherwise, `code` is set according to the cause of the
+//               exception.
+//               0x0 -> Instruction fetch was misaligned. Will never fire on RP2350, since the C extension is enabled.
+//               0x1 -> Instruction access fault. Instruction fetch failed a PMP check, or encountered a downstream bus fault, and then passed the point of no speculation.
+//               0x2 -> Illegal instruction was executed (including illegal CSR accesses)
+//               0x3 -> Breakpoint. An ebreak instruction was executed when the relevant dcsr.ebreak bit was clear.
+//               0x4 -> Load address misaligned. Hazard3 requires natural alignment of all accesses.
+//               0x5 -> Load access fault. A load failed a PMP check, or encountered a downstream bus error.
+//               0x6 -> Store/AMO address misaligned. Hazard3 requires natural alignment of all accesses.
+//               0x7 -> Store/AMO access fault. A store/AMO failed a PMP check, or encountered a downstream bus error. Also set if an AMO is attempted on a region that does not support atomics (on RP2350, anything but SRAM).
+//               0x8 -> Environment call from U-mode.
+//               0xb -> Environment call from M-mode.
+#define RVCSR_MCAUSE_CODE_RESET  _u(0x0)
+#define RVCSR_MCAUSE_CODE_BITS   _u(0x0000000f)
+#define RVCSR_MCAUSE_CODE_MSB    _u(3)
+#define RVCSR_MCAUSE_CODE_LSB    _u(0)
+#define RVCSR_MCAUSE_CODE_ACCESS "RW"
+#define RVCSR_MCAUSE_CODE_VALUE_INSTR_ALIGN _u(0x0)
+#define RVCSR_MCAUSE_CODE_VALUE_INSTR_FAULT _u(0x1)
+#define RVCSR_MCAUSE_CODE_VALUE_ILLEGAL_INSTR _u(0x2)
+#define RVCSR_MCAUSE_CODE_VALUE_BREAKPOINT _u(0x3)
+#define RVCSR_MCAUSE_CODE_VALUE_LOAD_ALIGN _u(0x4)
+#define RVCSR_MCAUSE_CODE_VALUE_LOAD_FAULT _u(0x5)
+#define RVCSR_MCAUSE_CODE_VALUE_STORE_ALIGN _u(0x6)
+#define RVCSR_MCAUSE_CODE_VALUE_STORE_FAULT _u(0x7)
+#define RVCSR_MCAUSE_CODE_VALUE_U_ECALL _u(0x8)
+#define RVCSR_MCAUSE_CODE_VALUE_M_ECALL _u(0xb)
+// =============================================================================
+// Register    : RVCSR_MTVAL
+// Description : Machine bad address or instruction. Hardwired to zero.
+#define RVCSR_MTVAL_OFFSET _u(0x00000343)
+#define RVCSR_MTVAL_BITS   _u(0xffffffff)
+#define RVCSR_MTVAL_RESET  _u(0x00000000)
+#define RVCSR_MTVAL_MSB    _u(31)
+#define RVCSR_MTVAL_LSB    _u(0)
+#define RVCSR_MTVAL_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MIP
+// Description : Machine interrupt pending
+#define RVCSR_MIP_OFFSET _u(0x00000344)
+#define RVCSR_MIP_BITS   _u(0x00000888)
+#define RVCSR_MIP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIP_MEIP
+// Description : External interrupt pending. The processor transfers to the
+//               external interrupt vector when `mie.meie`, `mip.meip` and
+//               `mstatus.mie` are all 1.
+//
+//               Hazard3 has internal registers to individually filter which
+//               external IRQs appear in `meip`. When `meip` is 1, this
+//               indicates there is at least one external interrupt which is
+//               asserted (hence pending in `mieipa`), enabled in `meiea`, and
+//               of priority greater than or equal to the current preemption
+//               level in `meicontext.preempt`.
+#define RVCSR_MIP_MEIP_RESET  _u(0x0)
+#define RVCSR_MIP_MEIP_BITS   _u(0x00000800)
+#define RVCSR_MIP_MEIP_MSB    _u(11)
+#define RVCSR_MIP_MEIP_LSB    _u(11)
+#define RVCSR_MIP_MEIP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIP_MTIP
+// Description : Timer interrupt pending. The processor transfers to the timer
+//               interrupt vector when `mie.mtie`, `mip.mtip` and `mstatus.mie`
+//               are all 1, unless a software or external interrupt request is
+//               also valid at this time.
+#define RVCSR_MIP_MTIP_RESET  _u(0x0)
+#define RVCSR_MIP_MTIP_BITS   _u(0x00000080)
+#define RVCSR_MIP_MTIP_MSB    _u(7)
+#define RVCSR_MIP_MTIP_LSB    _u(7)
+#define RVCSR_MIP_MTIP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MIP_MSIP
+// Description : Software interrupt pending. The processor transfers to the
+//               software interrupt vector `mie.msie`, `mip.msip` and
+//               `mstatus.mie` are all 1, unless an external interrupt request
+//               is also valid at this time.
+#define RVCSR_MIP_MSIP_RESET  _u(0x0)
+#define RVCSR_MIP_MSIP_BITS   _u(0x00000008)
+#define RVCSR_MIP_MSIP_MSB    _u(3)
+#define RVCSR_MIP_MSIP_LSB    _u(3)
+#define RVCSR_MIP_MSIP_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPCFG0
+// Description : Physical memory protection configuration for regions 0 through
+//               3
+#define RVCSR_PMPCFG0_OFFSET _u(0x000003a0)
+#define RVCSR_PMPCFG0_BITS   _u(0x9f9f9f9f)
+#define RVCSR_PMPCFG0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R3_L
+// Description : Lock region 3, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG0_R3_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R3_L_BITS   _u(0x80000000)
+#define RVCSR_PMPCFG0_R3_L_MSB    _u(31)
+#define RVCSR_PMPCFG0_R3_L_LSB    _u(31)
+#define RVCSR_PMPCFG0_R3_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R3_A
+// Description : Address matching type for region 3. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG0_R3_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R3_A_BITS   _u(0x18000000)
+#define RVCSR_PMPCFG0_R3_A_MSB    _u(28)
+#define RVCSR_PMPCFG0_R3_A_LSB    _u(27)
+#define RVCSR_PMPCFG0_R3_A_ACCESS "RW"
+#define RVCSR_PMPCFG0_R3_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG0_R3_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG0_R3_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R3_R
+// Description : Read permission for region 3. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R3_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R3_R_BITS   _u(0x04000000)
+#define RVCSR_PMPCFG0_R3_R_MSB    _u(26)
+#define RVCSR_PMPCFG0_R3_R_LSB    _u(26)
+#define RVCSR_PMPCFG0_R3_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R3_W
+// Description : Write permission for region 3
+#define RVCSR_PMPCFG0_R3_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R3_W_BITS   _u(0x02000000)
+#define RVCSR_PMPCFG0_R3_W_MSB    _u(25)
+#define RVCSR_PMPCFG0_R3_W_LSB    _u(25)
+#define RVCSR_PMPCFG0_R3_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R3_X
+// Description : Execute permission for region 3. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R3_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R3_X_BITS   _u(0x01000000)
+#define RVCSR_PMPCFG0_R3_X_MSB    _u(24)
+#define RVCSR_PMPCFG0_R3_X_LSB    _u(24)
+#define RVCSR_PMPCFG0_R3_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R2_L
+// Description : Lock region 2, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG0_R2_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R2_L_BITS   _u(0x00800000)
+#define RVCSR_PMPCFG0_R2_L_MSB    _u(23)
+#define RVCSR_PMPCFG0_R2_L_LSB    _u(23)
+#define RVCSR_PMPCFG0_R2_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R2_A
+// Description : Address matching type for region 2. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG0_R2_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R2_A_BITS   _u(0x00180000)
+#define RVCSR_PMPCFG0_R2_A_MSB    _u(20)
+#define RVCSR_PMPCFG0_R2_A_LSB    _u(19)
+#define RVCSR_PMPCFG0_R2_A_ACCESS "RW"
+#define RVCSR_PMPCFG0_R2_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG0_R2_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG0_R2_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R2_R
+// Description : Read permission for region 2. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R2_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R2_R_BITS   _u(0x00040000)
+#define RVCSR_PMPCFG0_R2_R_MSB    _u(18)
+#define RVCSR_PMPCFG0_R2_R_LSB    _u(18)
+#define RVCSR_PMPCFG0_R2_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R2_W
+// Description : Write permission for region 2
+#define RVCSR_PMPCFG0_R2_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R2_W_BITS   _u(0x00020000)
+#define RVCSR_PMPCFG0_R2_W_MSB    _u(17)
+#define RVCSR_PMPCFG0_R2_W_LSB    _u(17)
+#define RVCSR_PMPCFG0_R2_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R2_X
+// Description : Execute permission for region 2. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R2_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R2_X_BITS   _u(0x00010000)
+#define RVCSR_PMPCFG0_R2_X_MSB    _u(16)
+#define RVCSR_PMPCFG0_R2_X_LSB    _u(16)
+#define RVCSR_PMPCFG0_R2_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R1_L
+// Description : Lock region 1, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG0_R1_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R1_L_BITS   _u(0x00008000)
+#define RVCSR_PMPCFG0_R1_L_MSB    _u(15)
+#define RVCSR_PMPCFG0_R1_L_LSB    _u(15)
+#define RVCSR_PMPCFG0_R1_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R1_A
+// Description : Address matching type for region 1. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG0_R1_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R1_A_BITS   _u(0x00001800)
+#define RVCSR_PMPCFG0_R1_A_MSB    _u(12)
+#define RVCSR_PMPCFG0_R1_A_LSB    _u(11)
+#define RVCSR_PMPCFG0_R1_A_ACCESS "RW"
+#define RVCSR_PMPCFG0_R1_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG0_R1_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG0_R1_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R1_R
+// Description : Read permission for region 1. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R1_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R1_R_BITS   _u(0x00000400)
+#define RVCSR_PMPCFG0_R1_R_MSB    _u(10)
+#define RVCSR_PMPCFG0_R1_R_LSB    _u(10)
+#define RVCSR_PMPCFG0_R1_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R1_W
+// Description : Write permission for region 1
+#define RVCSR_PMPCFG0_R1_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R1_W_BITS   _u(0x00000200)
+#define RVCSR_PMPCFG0_R1_W_MSB    _u(9)
+#define RVCSR_PMPCFG0_R1_W_LSB    _u(9)
+#define RVCSR_PMPCFG0_R1_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R1_X
+// Description : Execute permission for region 1. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R1_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R1_X_BITS   _u(0x00000100)
+#define RVCSR_PMPCFG0_R1_X_MSB    _u(8)
+#define RVCSR_PMPCFG0_R1_X_LSB    _u(8)
+#define RVCSR_PMPCFG0_R1_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R0_L
+// Description : Lock region 0, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG0_R0_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R0_L_BITS   _u(0x00000080)
+#define RVCSR_PMPCFG0_R0_L_MSB    _u(7)
+#define RVCSR_PMPCFG0_R0_L_LSB    _u(7)
+#define RVCSR_PMPCFG0_R0_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R0_A
+// Description : Address matching type for region 0. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG0_R0_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R0_A_BITS   _u(0x00000018)
+#define RVCSR_PMPCFG0_R0_A_MSB    _u(4)
+#define RVCSR_PMPCFG0_R0_A_LSB    _u(3)
+#define RVCSR_PMPCFG0_R0_A_ACCESS "RW"
+#define RVCSR_PMPCFG0_R0_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG0_R0_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG0_R0_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R0_R
+// Description : Read permission for region 0. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R0_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R0_R_BITS   _u(0x00000004)
+#define RVCSR_PMPCFG0_R0_R_MSB    _u(2)
+#define RVCSR_PMPCFG0_R0_R_LSB    _u(2)
+#define RVCSR_PMPCFG0_R0_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R0_W
+// Description : Write permission for region 0
+#define RVCSR_PMPCFG0_R0_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R0_W_BITS   _u(0x00000002)
+#define RVCSR_PMPCFG0_R0_W_MSB    _u(1)
+#define RVCSR_PMPCFG0_R0_W_LSB    _u(1)
+#define RVCSR_PMPCFG0_R0_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG0_R0_X
+// Description : Execute permission for region 0. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG0_R0_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG0_R0_X_BITS   _u(0x00000001)
+#define RVCSR_PMPCFG0_R0_X_MSB    _u(0)
+#define RVCSR_PMPCFG0_R0_X_LSB    _u(0)
+#define RVCSR_PMPCFG0_R0_X_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPCFG1
+// Description : Physical memory protection configuration for regions 4 through
+//               7
+#define RVCSR_PMPCFG1_OFFSET _u(0x000003a1)
+#define RVCSR_PMPCFG1_BITS   _u(0x9f9f9f9f)
+#define RVCSR_PMPCFG1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R7_L
+// Description : Lock region 7, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG1_R7_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R7_L_BITS   _u(0x80000000)
+#define RVCSR_PMPCFG1_R7_L_MSB    _u(31)
+#define RVCSR_PMPCFG1_R7_L_LSB    _u(31)
+#define RVCSR_PMPCFG1_R7_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R7_A
+// Description : Address matching type for region 7. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG1_R7_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R7_A_BITS   _u(0x18000000)
+#define RVCSR_PMPCFG1_R7_A_MSB    _u(28)
+#define RVCSR_PMPCFG1_R7_A_LSB    _u(27)
+#define RVCSR_PMPCFG1_R7_A_ACCESS "RW"
+#define RVCSR_PMPCFG1_R7_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG1_R7_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG1_R7_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R7_R
+// Description : Read permission for region 7. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R7_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R7_R_BITS   _u(0x04000000)
+#define RVCSR_PMPCFG1_R7_R_MSB    _u(26)
+#define RVCSR_PMPCFG1_R7_R_LSB    _u(26)
+#define RVCSR_PMPCFG1_R7_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R7_W
+// Description : Write permission for region 7
+#define RVCSR_PMPCFG1_R7_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R7_W_BITS   _u(0x02000000)
+#define RVCSR_PMPCFG1_R7_W_MSB    _u(25)
+#define RVCSR_PMPCFG1_R7_W_LSB    _u(25)
+#define RVCSR_PMPCFG1_R7_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R7_X
+// Description : Execute permission for region 7. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R7_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R7_X_BITS   _u(0x01000000)
+#define RVCSR_PMPCFG1_R7_X_MSB    _u(24)
+#define RVCSR_PMPCFG1_R7_X_LSB    _u(24)
+#define RVCSR_PMPCFG1_R7_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R6_L
+// Description : Lock region 6, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG1_R6_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R6_L_BITS   _u(0x00800000)
+#define RVCSR_PMPCFG1_R6_L_MSB    _u(23)
+#define RVCSR_PMPCFG1_R6_L_LSB    _u(23)
+#define RVCSR_PMPCFG1_R6_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R6_A
+// Description : Address matching type for region 6. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG1_R6_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R6_A_BITS   _u(0x00180000)
+#define RVCSR_PMPCFG1_R6_A_MSB    _u(20)
+#define RVCSR_PMPCFG1_R6_A_LSB    _u(19)
+#define RVCSR_PMPCFG1_R6_A_ACCESS "RW"
+#define RVCSR_PMPCFG1_R6_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG1_R6_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG1_R6_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R6_R
+// Description : Read permission for region 6. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R6_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R6_R_BITS   _u(0x00040000)
+#define RVCSR_PMPCFG1_R6_R_MSB    _u(18)
+#define RVCSR_PMPCFG1_R6_R_LSB    _u(18)
+#define RVCSR_PMPCFG1_R6_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R6_W
+// Description : Write permission for region 6
+#define RVCSR_PMPCFG1_R6_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R6_W_BITS   _u(0x00020000)
+#define RVCSR_PMPCFG1_R6_W_MSB    _u(17)
+#define RVCSR_PMPCFG1_R6_W_LSB    _u(17)
+#define RVCSR_PMPCFG1_R6_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R6_X
+// Description : Execute permission for region 6. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R6_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R6_X_BITS   _u(0x00010000)
+#define RVCSR_PMPCFG1_R6_X_MSB    _u(16)
+#define RVCSR_PMPCFG1_R6_X_LSB    _u(16)
+#define RVCSR_PMPCFG1_R6_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R5_L
+// Description : Lock region 5, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG1_R5_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R5_L_BITS   _u(0x00008000)
+#define RVCSR_PMPCFG1_R5_L_MSB    _u(15)
+#define RVCSR_PMPCFG1_R5_L_LSB    _u(15)
+#define RVCSR_PMPCFG1_R5_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R5_A
+// Description : Address matching type for region 5. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG1_R5_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R5_A_BITS   _u(0x00001800)
+#define RVCSR_PMPCFG1_R5_A_MSB    _u(12)
+#define RVCSR_PMPCFG1_R5_A_LSB    _u(11)
+#define RVCSR_PMPCFG1_R5_A_ACCESS "RW"
+#define RVCSR_PMPCFG1_R5_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG1_R5_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG1_R5_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R5_R
+// Description : Read permission for region 5. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R5_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R5_R_BITS   _u(0x00000400)
+#define RVCSR_PMPCFG1_R5_R_MSB    _u(10)
+#define RVCSR_PMPCFG1_R5_R_LSB    _u(10)
+#define RVCSR_PMPCFG1_R5_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R5_W
+// Description : Write permission for region 5
+#define RVCSR_PMPCFG1_R5_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R5_W_BITS   _u(0x00000200)
+#define RVCSR_PMPCFG1_R5_W_MSB    _u(9)
+#define RVCSR_PMPCFG1_R5_W_LSB    _u(9)
+#define RVCSR_PMPCFG1_R5_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R5_X
+// Description : Execute permission for region 5. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R5_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R5_X_BITS   _u(0x00000100)
+#define RVCSR_PMPCFG1_R5_X_MSB    _u(8)
+#define RVCSR_PMPCFG1_R5_X_LSB    _u(8)
+#define RVCSR_PMPCFG1_R5_X_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R4_L
+// Description : Lock region 4, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG1_R4_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R4_L_BITS   _u(0x00000080)
+#define RVCSR_PMPCFG1_R4_L_MSB    _u(7)
+#define RVCSR_PMPCFG1_R4_L_LSB    _u(7)
+#define RVCSR_PMPCFG1_R4_L_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R4_A
+// Description : Address matching type for region 4. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG1_R4_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R4_A_BITS   _u(0x00000018)
+#define RVCSR_PMPCFG1_R4_A_MSB    _u(4)
+#define RVCSR_PMPCFG1_R4_A_LSB    _u(3)
+#define RVCSR_PMPCFG1_R4_A_ACCESS "RW"
+#define RVCSR_PMPCFG1_R4_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG1_R4_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG1_R4_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R4_R
+// Description : Read permission for region 4. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R4_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R4_R_BITS   _u(0x00000004)
+#define RVCSR_PMPCFG1_R4_R_MSB    _u(2)
+#define RVCSR_PMPCFG1_R4_R_LSB    _u(2)
+#define RVCSR_PMPCFG1_R4_R_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R4_W
+// Description : Write permission for region 4
+#define RVCSR_PMPCFG1_R4_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R4_W_BITS   _u(0x00000002)
+#define RVCSR_PMPCFG1_R4_W_MSB    _u(1)
+#define RVCSR_PMPCFG1_R4_W_LSB    _u(1)
+#define RVCSR_PMPCFG1_R4_W_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG1_R4_X
+// Description : Execute permission for region 4. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG1_R4_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG1_R4_X_BITS   _u(0x00000001)
+#define RVCSR_PMPCFG1_R4_X_MSB    _u(0)
+#define RVCSR_PMPCFG1_R4_X_LSB    _u(0)
+#define RVCSR_PMPCFG1_R4_X_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPCFG2
+// Description : Physical memory protection configuration for regions 8 through
+//               11
+#define RVCSR_PMPCFG2_OFFSET _u(0x000003a2)
+#define RVCSR_PMPCFG2_BITS   _u(0x9f9f9f9f)
+#define RVCSR_PMPCFG2_RESET  _u(0x001f1f1f)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R11_L
+// Description : Lock region 11, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG2_R11_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R11_L_BITS   _u(0x80000000)
+#define RVCSR_PMPCFG2_R11_L_MSB    _u(31)
+#define RVCSR_PMPCFG2_R11_L_LSB    _u(31)
+#define RVCSR_PMPCFG2_R11_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R11_A
+// Description : Address matching type for region 11. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG2_R11_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R11_A_BITS   _u(0x18000000)
+#define RVCSR_PMPCFG2_R11_A_MSB    _u(28)
+#define RVCSR_PMPCFG2_R11_A_LSB    _u(27)
+#define RVCSR_PMPCFG2_R11_A_ACCESS "RO"
+#define RVCSR_PMPCFG2_R11_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG2_R11_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG2_R11_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R11_R
+// Description : Read permission for region 11. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R11_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R11_R_BITS   _u(0x04000000)
+#define RVCSR_PMPCFG2_R11_R_MSB    _u(26)
+#define RVCSR_PMPCFG2_R11_R_LSB    _u(26)
+#define RVCSR_PMPCFG2_R11_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R11_W
+// Description : Write permission for region 11
+#define RVCSR_PMPCFG2_R11_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R11_W_BITS   _u(0x02000000)
+#define RVCSR_PMPCFG2_R11_W_MSB    _u(25)
+#define RVCSR_PMPCFG2_R11_W_LSB    _u(25)
+#define RVCSR_PMPCFG2_R11_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R11_X
+// Description : Execute permission for region 11. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R11_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R11_X_BITS   _u(0x01000000)
+#define RVCSR_PMPCFG2_R11_X_MSB    _u(24)
+#define RVCSR_PMPCFG2_R11_X_LSB    _u(24)
+#define RVCSR_PMPCFG2_R11_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R10_L
+// Description : Lock region 10, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG2_R10_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R10_L_BITS   _u(0x00800000)
+#define RVCSR_PMPCFG2_R10_L_MSB    _u(23)
+#define RVCSR_PMPCFG2_R10_L_LSB    _u(23)
+#define RVCSR_PMPCFG2_R10_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R10_A
+// Description : Address matching type for region 10. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG2_R10_A_RESET  _u(0x3)
+#define RVCSR_PMPCFG2_R10_A_BITS   _u(0x00180000)
+#define RVCSR_PMPCFG2_R10_A_MSB    _u(20)
+#define RVCSR_PMPCFG2_R10_A_LSB    _u(19)
+#define RVCSR_PMPCFG2_R10_A_ACCESS "RO"
+#define RVCSR_PMPCFG2_R10_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG2_R10_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG2_R10_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R10_R
+// Description : Read permission for region 10. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R10_R_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R10_R_BITS   _u(0x00040000)
+#define RVCSR_PMPCFG2_R10_R_MSB    _u(18)
+#define RVCSR_PMPCFG2_R10_R_LSB    _u(18)
+#define RVCSR_PMPCFG2_R10_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R10_W
+// Description : Write permission for region 10
+#define RVCSR_PMPCFG2_R10_W_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R10_W_BITS   _u(0x00020000)
+#define RVCSR_PMPCFG2_R10_W_MSB    _u(17)
+#define RVCSR_PMPCFG2_R10_W_LSB    _u(17)
+#define RVCSR_PMPCFG2_R10_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R10_X
+// Description : Execute permission for region 10. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R10_X_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R10_X_BITS   _u(0x00010000)
+#define RVCSR_PMPCFG2_R10_X_MSB    _u(16)
+#define RVCSR_PMPCFG2_R10_X_LSB    _u(16)
+#define RVCSR_PMPCFG2_R10_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R9_L
+// Description : Lock region 9, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG2_R9_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R9_L_BITS   _u(0x00008000)
+#define RVCSR_PMPCFG2_R9_L_MSB    _u(15)
+#define RVCSR_PMPCFG2_R9_L_LSB    _u(15)
+#define RVCSR_PMPCFG2_R9_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R9_A
+// Description : Address matching type for region 9. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG2_R9_A_RESET  _u(0x3)
+#define RVCSR_PMPCFG2_R9_A_BITS   _u(0x00001800)
+#define RVCSR_PMPCFG2_R9_A_MSB    _u(12)
+#define RVCSR_PMPCFG2_R9_A_LSB    _u(11)
+#define RVCSR_PMPCFG2_R9_A_ACCESS "RO"
+#define RVCSR_PMPCFG2_R9_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG2_R9_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG2_R9_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R9_R
+// Description : Read permission for region 9. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R9_R_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R9_R_BITS   _u(0x00000400)
+#define RVCSR_PMPCFG2_R9_R_MSB    _u(10)
+#define RVCSR_PMPCFG2_R9_R_LSB    _u(10)
+#define RVCSR_PMPCFG2_R9_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R9_W
+// Description : Write permission for region 9
+#define RVCSR_PMPCFG2_R9_W_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R9_W_BITS   _u(0x00000200)
+#define RVCSR_PMPCFG2_R9_W_MSB    _u(9)
+#define RVCSR_PMPCFG2_R9_W_LSB    _u(9)
+#define RVCSR_PMPCFG2_R9_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R9_X
+// Description : Execute permission for region 9. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R9_X_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R9_X_BITS   _u(0x00000100)
+#define RVCSR_PMPCFG2_R9_X_MSB    _u(8)
+#define RVCSR_PMPCFG2_R9_X_LSB    _u(8)
+#define RVCSR_PMPCFG2_R9_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R8_L
+// Description : Lock region 8, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG2_R8_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG2_R8_L_BITS   _u(0x00000080)
+#define RVCSR_PMPCFG2_R8_L_MSB    _u(7)
+#define RVCSR_PMPCFG2_R8_L_LSB    _u(7)
+#define RVCSR_PMPCFG2_R8_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R8_A
+// Description : Address matching type for region 8. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG2_R8_A_RESET  _u(0x3)
+#define RVCSR_PMPCFG2_R8_A_BITS   _u(0x00000018)
+#define RVCSR_PMPCFG2_R8_A_MSB    _u(4)
+#define RVCSR_PMPCFG2_R8_A_LSB    _u(3)
+#define RVCSR_PMPCFG2_R8_A_ACCESS "RO"
+#define RVCSR_PMPCFG2_R8_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG2_R8_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG2_R8_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R8_R
+// Description : Read permission for region 8. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R8_R_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R8_R_BITS   _u(0x00000004)
+#define RVCSR_PMPCFG2_R8_R_MSB    _u(2)
+#define RVCSR_PMPCFG2_R8_R_LSB    _u(2)
+#define RVCSR_PMPCFG2_R8_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R8_W
+// Description : Write permission for region 8
+#define RVCSR_PMPCFG2_R8_W_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R8_W_BITS   _u(0x00000002)
+#define RVCSR_PMPCFG2_R8_W_MSB    _u(1)
+#define RVCSR_PMPCFG2_R8_W_LSB    _u(1)
+#define RVCSR_PMPCFG2_R8_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG2_R8_X
+// Description : Execute permission for region 8. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG2_R8_X_RESET  _u(0x1)
+#define RVCSR_PMPCFG2_R8_X_BITS   _u(0x00000001)
+#define RVCSR_PMPCFG2_R8_X_MSB    _u(0)
+#define RVCSR_PMPCFG2_R8_X_LSB    _u(0)
+#define RVCSR_PMPCFG2_R8_X_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPCFG3
+// Description : Physical memory protection configuration for regions 12 through
+//               15
+#define RVCSR_PMPCFG3_OFFSET _u(0x000003a3)
+#define RVCSR_PMPCFG3_BITS   _u(0x9f9f9f9f)
+#define RVCSR_PMPCFG3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R15_L
+// Description : Lock region 15, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG3_R15_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R15_L_BITS   _u(0x80000000)
+#define RVCSR_PMPCFG3_R15_L_MSB    _u(31)
+#define RVCSR_PMPCFG3_R15_L_LSB    _u(31)
+#define RVCSR_PMPCFG3_R15_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R15_A
+// Description : Address matching type for region 15. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG3_R15_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R15_A_BITS   _u(0x18000000)
+#define RVCSR_PMPCFG3_R15_A_MSB    _u(28)
+#define RVCSR_PMPCFG3_R15_A_LSB    _u(27)
+#define RVCSR_PMPCFG3_R15_A_ACCESS "RO"
+#define RVCSR_PMPCFG3_R15_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG3_R15_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG3_R15_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R15_R
+// Description : Read permission for region 15. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R15_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R15_R_BITS   _u(0x04000000)
+#define RVCSR_PMPCFG3_R15_R_MSB    _u(26)
+#define RVCSR_PMPCFG3_R15_R_LSB    _u(26)
+#define RVCSR_PMPCFG3_R15_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R15_W
+// Description : Write permission for region 15
+#define RVCSR_PMPCFG3_R15_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R15_W_BITS   _u(0x02000000)
+#define RVCSR_PMPCFG3_R15_W_MSB    _u(25)
+#define RVCSR_PMPCFG3_R15_W_LSB    _u(25)
+#define RVCSR_PMPCFG3_R15_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R15_X
+// Description : Execute permission for region 15. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R15_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R15_X_BITS   _u(0x01000000)
+#define RVCSR_PMPCFG3_R15_X_MSB    _u(24)
+#define RVCSR_PMPCFG3_R15_X_LSB    _u(24)
+#define RVCSR_PMPCFG3_R15_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R14_L
+// Description : Lock region 14, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG3_R14_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R14_L_BITS   _u(0x00800000)
+#define RVCSR_PMPCFG3_R14_L_MSB    _u(23)
+#define RVCSR_PMPCFG3_R14_L_LSB    _u(23)
+#define RVCSR_PMPCFG3_R14_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R14_A
+// Description : Address matching type for region 14. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG3_R14_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R14_A_BITS   _u(0x00180000)
+#define RVCSR_PMPCFG3_R14_A_MSB    _u(20)
+#define RVCSR_PMPCFG3_R14_A_LSB    _u(19)
+#define RVCSR_PMPCFG3_R14_A_ACCESS "RO"
+#define RVCSR_PMPCFG3_R14_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG3_R14_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG3_R14_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R14_R
+// Description : Read permission for region 14. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R14_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R14_R_BITS   _u(0x00040000)
+#define RVCSR_PMPCFG3_R14_R_MSB    _u(18)
+#define RVCSR_PMPCFG3_R14_R_LSB    _u(18)
+#define RVCSR_PMPCFG3_R14_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R14_W
+// Description : Write permission for region 14
+#define RVCSR_PMPCFG3_R14_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R14_W_BITS   _u(0x00020000)
+#define RVCSR_PMPCFG3_R14_W_MSB    _u(17)
+#define RVCSR_PMPCFG3_R14_W_LSB    _u(17)
+#define RVCSR_PMPCFG3_R14_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R14_X
+// Description : Execute permission for region 14. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R14_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R14_X_BITS   _u(0x00010000)
+#define RVCSR_PMPCFG3_R14_X_MSB    _u(16)
+#define RVCSR_PMPCFG3_R14_X_LSB    _u(16)
+#define RVCSR_PMPCFG3_R14_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R13_L
+// Description : Lock region 13, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG3_R13_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R13_L_BITS   _u(0x00008000)
+#define RVCSR_PMPCFG3_R13_L_MSB    _u(15)
+#define RVCSR_PMPCFG3_R13_L_LSB    _u(15)
+#define RVCSR_PMPCFG3_R13_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R13_A
+// Description : Address matching type for region 13. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG3_R13_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R13_A_BITS   _u(0x00001800)
+#define RVCSR_PMPCFG3_R13_A_MSB    _u(12)
+#define RVCSR_PMPCFG3_R13_A_LSB    _u(11)
+#define RVCSR_PMPCFG3_R13_A_ACCESS "RO"
+#define RVCSR_PMPCFG3_R13_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG3_R13_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG3_R13_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R13_R
+// Description : Read permission for region 13. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R13_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R13_R_BITS   _u(0x00000400)
+#define RVCSR_PMPCFG3_R13_R_MSB    _u(10)
+#define RVCSR_PMPCFG3_R13_R_LSB    _u(10)
+#define RVCSR_PMPCFG3_R13_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R13_W
+// Description : Write permission for region 13
+#define RVCSR_PMPCFG3_R13_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R13_W_BITS   _u(0x00000200)
+#define RVCSR_PMPCFG3_R13_W_MSB    _u(9)
+#define RVCSR_PMPCFG3_R13_W_LSB    _u(9)
+#define RVCSR_PMPCFG3_R13_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R13_X
+// Description : Execute permission for region 13. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R13_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R13_X_BITS   _u(0x00000100)
+#define RVCSR_PMPCFG3_R13_X_MSB    _u(8)
+#define RVCSR_PMPCFG3_R13_X_LSB    _u(8)
+#define RVCSR_PMPCFG3_R13_X_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R12_L
+// Description : Lock region 12, and apply it to M-mode as well as U-mode.
+#define RVCSR_PMPCFG3_R12_L_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R12_L_BITS   _u(0x00000080)
+#define RVCSR_PMPCFG3_R12_L_MSB    _u(7)
+#define RVCSR_PMPCFG3_R12_L_LSB    _u(7)
+#define RVCSR_PMPCFG3_R12_L_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R12_A
+// Description : Address matching type for region 12. Writing an unsupported
+//               value (TOR) will set the region to OFF.
+//               0x0 -> Disable region
+//               0x2 -> Naturally aligned 4-byte
+//               0x3 -> Naturally aligned power-of-two (8 bytes to 4 GiB)
+#define RVCSR_PMPCFG3_R12_A_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R12_A_BITS   _u(0x00000018)
+#define RVCSR_PMPCFG3_R12_A_MSB    _u(4)
+#define RVCSR_PMPCFG3_R12_A_LSB    _u(3)
+#define RVCSR_PMPCFG3_R12_A_ACCESS "RO"
+#define RVCSR_PMPCFG3_R12_A_VALUE_OFF _u(0x0)
+#define RVCSR_PMPCFG3_R12_A_VALUE_NA4 _u(0x2)
+#define RVCSR_PMPCFG3_R12_A_VALUE_NAPOT _u(0x3)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R12_R
+// Description : Read permission for region 12. Note R and X are transposed from
+//               the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R12_R_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R12_R_BITS   _u(0x00000004)
+#define RVCSR_PMPCFG3_R12_R_MSB    _u(2)
+#define RVCSR_PMPCFG3_R12_R_LSB    _u(2)
+#define RVCSR_PMPCFG3_R12_R_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R12_W
+// Description : Write permission for region 12
+#define RVCSR_PMPCFG3_R12_W_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R12_W_BITS   _u(0x00000002)
+#define RVCSR_PMPCFG3_R12_W_MSB    _u(1)
+#define RVCSR_PMPCFG3_R12_W_LSB    _u(1)
+#define RVCSR_PMPCFG3_R12_W_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_PMPCFG3_R12_X
+// Description : Execute permission for region 12. Note R and X are transposed
+//               from the standard bit order due to erratum RP2350-E6.
+#define RVCSR_PMPCFG3_R12_X_RESET  _u(0x0)
+#define RVCSR_PMPCFG3_R12_X_BITS   _u(0x00000001)
+#define RVCSR_PMPCFG3_R12_X_MSB    _u(0)
+#define RVCSR_PMPCFG3_R12_X_LSB    _u(0)
+#define RVCSR_PMPCFG3_R12_X_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR0
+// Description : Physical memory protection address for region 0. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR0_OFFSET _u(0x000003b0)
+#define RVCSR_PMPADDR0_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR0_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR0_MSB    _u(29)
+#define RVCSR_PMPADDR0_LSB    _u(0)
+#define RVCSR_PMPADDR0_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR1
+// Description : Physical memory protection address for region 1. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR1_OFFSET _u(0x000003b1)
+#define RVCSR_PMPADDR1_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR1_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR1_MSB    _u(29)
+#define RVCSR_PMPADDR1_LSB    _u(0)
+#define RVCSR_PMPADDR1_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR2
+// Description : Physical memory protection address for region 2. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR2_OFFSET _u(0x000003b2)
+#define RVCSR_PMPADDR2_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR2_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR2_MSB    _u(29)
+#define RVCSR_PMPADDR2_LSB    _u(0)
+#define RVCSR_PMPADDR2_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR3
+// Description : Physical memory protection address for region 3. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR3_OFFSET _u(0x000003b3)
+#define RVCSR_PMPADDR3_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR3_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR3_MSB    _u(29)
+#define RVCSR_PMPADDR3_LSB    _u(0)
+#define RVCSR_PMPADDR3_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR4
+// Description : Physical memory protection address for region 4. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR4_OFFSET _u(0x000003b4)
+#define RVCSR_PMPADDR4_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR4_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR4_MSB    _u(29)
+#define RVCSR_PMPADDR4_LSB    _u(0)
+#define RVCSR_PMPADDR4_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR5
+// Description : Physical memory protection address for region 5. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR5_OFFSET _u(0x000003b5)
+#define RVCSR_PMPADDR5_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR5_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR5_MSB    _u(29)
+#define RVCSR_PMPADDR5_LSB    _u(0)
+#define RVCSR_PMPADDR5_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR6
+// Description : Physical memory protection address for region 6. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR6_OFFSET _u(0x000003b6)
+#define RVCSR_PMPADDR6_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR6_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR6_MSB    _u(29)
+#define RVCSR_PMPADDR6_LSB    _u(0)
+#define RVCSR_PMPADDR6_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR7
+// Description : Physical memory protection address for region 7. Note all PMP
+//               addresses are in units of four bytes.
+#define RVCSR_PMPADDR7_OFFSET _u(0x000003b7)
+#define RVCSR_PMPADDR7_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR7_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR7_MSB    _u(29)
+#define RVCSR_PMPADDR7_LSB    _u(0)
+#define RVCSR_PMPADDR7_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_PMPADDR8
+// Description : Physical memory protection address for region 8. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to the address range `0x00000000` through
+//               `0x0fffffff`, which contains the boot ROM. This range is made
+//               accessible to User mode by default. User mode access to this
+//               range can be disabled using one of the dynamically configurable
+//               PMP regions, or using the permission registers in ACCESSCTRL.
+#define RVCSR_PMPADDR8_OFFSET _u(0x000003b8)
+#define RVCSR_PMPADDR8_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR8_RESET  _u(0x01ffffff)
+#define RVCSR_PMPADDR8_MSB    _u(29)
+#define RVCSR_PMPADDR8_LSB    _u(0)
+#define RVCSR_PMPADDR8_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR9
+// Description : Physical memory protection address for region 9. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to the address range `0x40000000` through
+//               `0x5fffffff`, which contains the system peripherals. This range
+//               is made accessible to User mode by default. User mode access to
+//               this range can be disabled using one of the dynamically
+//               configurable PMP regions, or using the permission registers in
+//               ACCESSCTRL.
+#define RVCSR_PMPADDR9_OFFSET _u(0x000003b9)
+#define RVCSR_PMPADDR9_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR9_RESET  _u(0x13ffffff)
+#define RVCSR_PMPADDR9_MSB    _u(29)
+#define RVCSR_PMPADDR9_LSB    _u(0)
+#define RVCSR_PMPADDR9_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR10
+// Description : Physical memory protection address for region 10. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to the address range `0xd0000000` through
+//               `0xdfffffff`, which contains the core-local peripherals (SIO).
+//               This range is made accessible to User mode by default. User
+//               mode access to this range can be disabled using one of the
+//               dynamically configurable PMP regions, or using the permission
+//               registers in ACCESSCTRL.
+#define RVCSR_PMPADDR10_OFFSET _u(0x000003ba)
+#define RVCSR_PMPADDR10_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR10_RESET  _u(0x35ffffff)
+#define RVCSR_PMPADDR10_MSB    _u(29)
+#define RVCSR_PMPADDR10_LSB    _u(0)
+#define RVCSR_PMPADDR10_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR11
+// Description : Physical memory protection address for region 11. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to all-zeroes. This region is not implemented.
+#define RVCSR_PMPADDR11_OFFSET _u(0x000003bb)
+#define RVCSR_PMPADDR11_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR11_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR11_MSB    _u(29)
+#define RVCSR_PMPADDR11_LSB    _u(0)
+#define RVCSR_PMPADDR11_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR12
+// Description : Physical memory protection address for region 12. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to all-zeroes. This region is not implemented.
+#define RVCSR_PMPADDR12_OFFSET _u(0x000003bc)
+#define RVCSR_PMPADDR12_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR12_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR12_MSB    _u(29)
+#define RVCSR_PMPADDR12_LSB    _u(0)
+#define RVCSR_PMPADDR12_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR13
+// Description : Physical memory protection address for region 13. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to all-zeroes. This region is not implemented.
+#define RVCSR_PMPADDR13_OFFSET _u(0x000003bd)
+#define RVCSR_PMPADDR13_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR13_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR13_MSB    _u(29)
+#define RVCSR_PMPADDR13_LSB    _u(0)
+#define RVCSR_PMPADDR13_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR14
+// Description : Physical memory protection address for region 14. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to all-zeroes. This region is not implemented.
+#define RVCSR_PMPADDR14_OFFSET _u(0x000003be)
+#define RVCSR_PMPADDR14_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR14_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR14_MSB    _u(29)
+#define RVCSR_PMPADDR14_LSB    _u(0)
+#define RVCSR_PMPADDR14_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPADDR15
+// Description : Physical memory protection address for region 15. Note all PMP
+//               addresses are in units of four bytes.
+//
+//               Hardwired to all-zeroes. This region is not implemented.
+#define RVCSR_PMPADDR15_OFFSET _u(0x000003bf)
+#define RVCSR_PMPADDR15_BITS   _u(0x3fffffff)
+#define RVCSR_PMPADDR15_RESET  _u(0x00000000)
+#define RVCSR_PMPADDR15_MSB    _u(29)
+#define RVCSR_PMPADDR15_LSB    _u(0)
+#define RVCSR_PMPADDR15_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_TSELECT
+// Description : Select trigger to be configured via `tdata1`/`tdata2`
+//
+//               On RP2350, four instruction address triggers are implemented,
+//               so only the two LSBs of this register are writable.
+#define RVCSR_TSELECT_OFFSET _u(0x000007a0)
+#define RVCSR_TSELECT_BITS   _u(0x00000003)
+#define RVCSR_TSELECT_RESET  _u(0x00000000)
+#define RVCSR_TSELECT_MSB    _u(1)
+#define RVCSR_TSELECT_LSB    _u(0)
+#define RVCSR_TSELECT_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_TDATA1
+// Description : Trigger configuration data 1
+//
+//               Hazard 3 only supports address/data match triggers (type=2) so
+//               this register description includes the `mcontrol` fields for
+//               this type.
+//
+//               More precisely, Hazard3 only supports exact instruction address
+//               match triggers (hardware breakpoints) so many of this
+//               register's fields are hardwired.
+#define RVCSR_TDATA1_OFFSET _u(0x000007a1)
+#define RVCSR_TDATA1_BITS   _u(0xffffffcf)
+#define RVCSR_TDATA1_RESET  _u(0x20000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_TYPE
+// Description : Trigger type. Hardwired to type=2, meaning an address/data
+//               match trigger
+#define RVCSR_TDATA1_TYPE_RESET  _u(0x2)
+#define RVCSR_TDATA1_TYPE_BITS   _u(0xf0000000)
+#define RVCSR_TDATA1_TYPE_MSB    _u(31)
+#define RVCSR_TDATA1_TYPE_LSB    _u(28)
+#define RVCSR_TDATA1_TYPE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_DMODE
+// Description : If 0, both Debug and M-mode can write the `tdata` registers at
+//               the selected `tselect`.
+//
+//               If 1, only Debug Mode can write the `tdata` registers at the
+//               selected `tselect`. Writes from other modes are ignored.
+//
+//               This bit is only writable from Debug Mode
+#define RVCSR_TDATA1_DMODE_RESET  _u(0x0)
+#define RVCSR_TDATA1_DMODE_BITS   _u(0x08000000)
+#define RVCSR_TDATA1_DMODE_MSB    _u(27)
+#define RVCSR_TDATA1_DMODE_LSB    _u(27)
+#define RVCSR_TDATA1_DMODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_MASKMAX
+// Description : Value of 0 indicates only exact address matches are supported
+#define RVCSR_TDATA1_MASKMAX_RESET  _u(0x00)
+#define RVCSR_TDATA1_MASKMAX_BITS   _u(0x07e00000)
+#define RVCSR_TDATA1_MASKMAX_MSB    _u(26)
+#define RVCSR_TDATA1_MASKMAX_LSB    _u(21)
+#define RVCSR_TDATA1_MASKMAX_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_HIT
+// Description : Trigger hit flag. Not implemented, hardwired to 0.
+#define RVCSR_TDATA1_HIT_RESET  _u(0x0)
+#define RVCSR_TDATA1_HIT_BITS   _u(0x00100000)
+#define RVCSR_TDATA1_HIT_MSB    _u(20)
+#define RVCSR_TDATA1_HIT_LSB    _u(20)
+#define RVCSR_TDATA1_HIT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_SELECT
+// Description : Hardwired value of 0 indicates that only address matches are
+//               supported, not data matches
+#define RVCSR_TDATA1_SELECT_RESET  _u(0x0)
+#define RVCSR_TDATA1_SELECT_BITS   _u(0x00080000)
+#define RVCSR_TDATA1_SELECT_MSB    _u(19)
+#define RVCSR_TDATA1_SELECT_LSB    _u(19)
+#define RVCSR_TDATA1_SELECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_TIMING
+// Description : Hardwired value of 0 indicates that trigger fires before the
+//               triggering instruction executes, not afterward
+#define RVCSR_TDATA1_TIMING_RESET  _u(0x0)
+#define RVCSR_TDATA1_TIMING_BITS   _u(0x00040000)
+#define RVCSR_TDATA1_TIMING_MSB    _u(18)
+#define RVCSR_TDATA1_TIMING_LSB    _u(18)
+#define RVCSR_TDATA1_TIMING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_SIZELO
+// Description : Hardwired value of 0 indicates that access size matching is not
+//               supported
+#define RVCSR_TDATA1_SIZELO_RESET  _u(0x0)
+#define RVCSR_TDATA1_SIZELO_BITS   _u(0x00030000)
+#define RVCSR_TDATA1_SIZELO_MSB    _u(17)
+#define RVCSR_TDATA1_SIZELO_LSB    _u(16)
+#define RVCSR_TDATA1_SIZELO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_ACTION
+// Description : Select action to be taken when the trigger fires.
+//               0x0 -> Raise a breakpoint exception, which can be handled by the M-mode exception handler
+//               0x1 -> Enter debug mode. This action is only selectable when `tdata1.dmode` is 1.
+#define RVCSR_TDATA1_ACTION_RESET  _u(0x0)
+#define RVCSR_TDATA1_ACTION_BITS   _u(0x0000f000)
+#define RVCSR_TDATA1_ACTION_MSB    _u(15)
+#define RVCSR_TDATA1_ACTION_LSB    _u(12)
+#define RVCSR_TDATA1_ACTION_ACCESS "RW"
+#define RVCSR_TDATA1_ACTION_VALUE_EBREAK _u(0x0)
+#define RVCSR_TDATA1_ACTION_VALUE_DEBUG _u(0x1)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_CHAIN
+// Description : Hardwired to 0 to indicate trigger chaining is not supported.
+#define RVCSR_TDATA1_CHAIN_RESET  _u(0x0)
+#define RVCSR_TDATA1_CHAIN_BITS   _u(0x00000800)
+#define RVCSR_TDATA1_CHAIN_MSB    _u(11)
+#define RVCSR_TDATA1_CHAIN_LSB    _u(11)
+#define RVCSR_TDATA1_CHAIN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_MATCH
+// Description : Hardwired to 0 to indicate match is always on the full address
+//               specified by `tdata2`
+#define RVCSR_TDATA1_MATCH_RESET  _u(0x0)
+#define RVCSR_TDATA1_MATCH_BITS   _u(0x00000780)
+#define RVCSR_TDATA1_MATCH_MSB    _u(10)
+#define RVCSR_TDATA1_MATCH_LSB    _u(7)
+#define RVCSR_TDATA1_MATCH_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_M
+// Description : When set, enable this trigger in M-mode
+#define RVCSR_TDATA1_M_RESET  _u(0x0)
+#define RVCSR_TDATA1_M_BITS   _u(0x00000040)
+#define RVCSR_TDATA1_M_MSB    _u(6)
+#define RVCSR_TDATA1_M_LSB    _u(6)
+#define RVCSR_TDATA1_M_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_U
+// Description : When set, enable this trigger in U-mode
+#define RVCSR_TDATA1_U_RESET  _u(0x0)
+#define RVCSR_TDATA1_U_BITS   _u(0x00000008)
+#define RVCSR_TDATA1_U_MSB    _u(3)
+#define RVCSR_TDATA1_U_LSB    _u(3)
+#define RVCSR_TDATA1_U_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_EXECUTE
+// Description : When set, the trigger fires on the address of an instruction
+//               that is executed.
+#define RVCSR_TDATA1_EXECUTE_RESET  _u(0x0)
+#define RVCSR_TDATA1_EXECUTE_BITS   _u(0x00000004)
+#define RVCSR_TDATA1_EXECUTE_MSB    _u(2)
+#define RVCSR_TDATA1_EXECUTE_LSB    _u(2)
+#define RVCSR_TDATA1_EXECUTE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_STORE
+// Description : Hardwired to 0 to indicate store address/data triggers are not
+//               supported
+#define RVCSR_TDATA1_STORE_RESET  _u(0x0)
+#define RVCSR_TDATA1_STORE_BITS   _u(0x00000002)
+#define RVCSR_TDATA1_STORE_MSB    _u(1)
+#define RVCSR_TDATA1_STORE_LSB    _u(1)
+#define RVCSR_TDATA1_STORE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_TDATA1_LOAD
+// Description : Hardwired to 0 to indicate load address/data triggers are not
+//               supported
+#define RVCSR_TDATA1_LOAD_RESET  _u(0x0)
+#define RVCSR_TDATA1_LOAD_BITS   _u(0x00000001)
+#define RVCSR_TDATA1_LOAD_MSB    _u(0)
+#define RVCSR_TDATA1_LOAD_LSB    _u(0)
+#define RVCSR_TDATA1_LOAD_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_TDATA2
+// Description : Trigger configuration data 2
+//
+//               Contains the address for instruction address triggers (hardware
+//               breakpoints)
+#define RVCSR_TDATA2_OFFSET _u(0x000007a2)
+#define RVCSR_TDATA2_BITS   _u(0xffffffff)
+#define RVCSR_TDATA2_RESET  _u(0x00000000)
+#define RVCSR_TDATA2_MSB    _u(31)
+#define RVCSR_TDATA2_LSB    _u(0)
+#define RVCSR_TDATA2_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_DCSR
+// Description : Debug control and status register. Access outside of Debug Mode
+//               will cause an illegal instruction exception.
+#define RVCSR_DCSR_OFFSET _u(0x000007b0)
+#define RVCSR_DCSR_BITS   _u(0xf0009fc7)
+#define RVCSR_DCSR_RESET  _u(0x40000603)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_XDEBUGVER
+// Description : Hardwired to 4: external debug support as per RISC-V 0.13.2
+//               debug specification.
+#define RVCSR_DCSR_XDEBUGVER_RESET  _u(0x4)
+#define RVCSR_DCSR_XDEBUGVER_BITS   _u(0xf0000000)
+#define RVCSR_DCSR_XDEBUGVER_MSB    _u(31)
+#define RVCSR_DCSR_XDEBUGVER_LSB    _u(28)
+#define RVCSR_DCSR_XDEBUGVER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_EBREAKM
+// Description : When 1, `ebreak` instructions executed in M-mode will break to
+//               Debug Mode instead of trapping
+#define RVCSR_DCSR_EBREAKM_RESET  _u(0x0)
+#define RVCSR_DCSR_EBREAKM_BITS   _u(0x00008000)
+#define RVCSR_DCSR_EBREAKM_MSB    _u(15)
+#define RVCSR_DCSR_EBREAKM_LSB    _u(15)
+#define RVCSR_DCSR_EBREAKM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_EBREAKU
+// Description : When 1, `ebreak` instructions executed in U-mode will break to
+//               Debug Mode instead of trapping.
+#define RVCSR_DCSR_EBREAKU_RESET  _u(0x0)
+#define RVCSR_DCSR_EBREAKU_BITS   _u(0x00001000)
+#define RVCSR_DCSR_EBREAKU_MSB    _u(12)
+#define RVCSR_DCSR_EBREAKU_LSB    _u(12)
+#define RVCSR_DCSR_EBREAKU_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_STEPIE
+// Description : Hardwired to 0: no interrupts are taken during hardware single-
+//               stepping.
+#define RVCSR_DCSR_STEPIE_RESET  _u(0x0)
+#define RVCSR_DCSR_STEPIE_BITS   _u(0x00000800)
+#define RVCSR_DCSR_STEPIE_MSB    _u(11)
+#define RVCSR_DCSR_STEPIE_LSB    _u(11)
+#define RVCSR_DCSR_STEPIE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_STOPCOUNT
+// Description : Hardwired to 1: `mcycle`/`mcycleh` and `minstret`/`minstreth`
+//               do not increment in Debug Mode.
+#define RVCSR_DCSR_STOPCOUNT_RESET  _u(0x1)
+#define RVCSR_DCSR_STOPCOUNT_BITS   _u(0x00000400)
+#define RVCSR_DCSR_STOPCOUNT_MSB    _u(10)
+#define RVCSR_DCSR_STOPCOUNT_LSB    _u(10)
+#define RVCSR_DCSR_STOPCOUNT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_STOPTIME
+// Description : Hardwired to 1: core-local timers don't increment in debug
+//               mode. External timers (e.g. hart-shared) may be configured to
+//               ignore this.
+#define RVCSR_DCSR_STOPTIME_RESET  _u(0x1)
+#define RVCSR_DCSR_STOPTIME_BITS   _u(0x00000200)
+#define RVCSR_DCSR_STOPTIME_MSB    _u(9)
+#define RVCSR_DCSR_STOPTIME_LSB    _u(9)
+#define RVCSR_DCSR_STOPTIME_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_CAUSE
+// Description : Set by hardware when entering debug mode.
+//               0x1 -> An ebreak instruction was executed when the relevant `dcsr.ebreakx` bit was set.
+//               0x2 -> The trigger module caused a breakpoint exception.
+//               0x3 -> Processor entered Debug Mode due to a halt request, or a reset-halt request present when the core reset was released.
+//               0x4 -> Processor entered Debug Mode after executing one instruction with single-stepping enabled.
+#define RVCSR_DCSR_CAUSE_RESET  _u(0x0)
+#define RVCSR_DCSR_CAUSE_BITS   _u(0x000001c0)
+#define RVCSR_DCSR_CAUSE_MSB    _u(8)
+#define RVCSR_DCSR_CAUSE_LSB    _u(6)
+#define RVCSR_DCSR_CAUSE_ACCESS "RO"
+#define RVCSR_DCSR_CAUSE_VALUE_EBREAK _u(0x1)
+#define RVCSR_DCSR_CAUSE_VALUE_TRIGGER _u(0x2)
+#define RVCSR_DCSR_CAUSE_VALUE_HALTREQ _u(0x3)
+#define RVCSR_DCSR_CAUSE_VALUE_STEP _u(0x4)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_STEP
+// Description : When 1, re-enter Debug Mode after each instruction executed in
+//               M-mode or U-mode.
+#define RVCSR_DCSR_STEP_RESET  _u(0x0)
+#define RVCSR_DCSR_STEP_BITS   _u(0x00000004)
+#define RVCSR_DCSR_STEP_MSB    _u(2)
+#define RVCSR_DCSR_STEP_LSB    _u(2)
+#define RVCSR_DCSR_STEP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_DCSR_PRV
+// Description : Read the privilege mode the core was in when entering Debug
+//               Mode, and set the privilege mode the core will execute in when
+//               returning from Debug Mode.
+#define RVCSR_DCSR_PRV_RESET  _u(0x3)
+#define RVCSR_DCSR_PRV_BITS   _u(0x00000003)
+#define RVCSR_DCSR_PRV_MSB    _u(1)
+#define RVCSR_DCSR_PRV_LSB    _u(0)
+#define RVCSR_DCSR_PRV_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_DPC
+// Description : Debug program counter. When entering Debug Mode, `dpc` samples
+//               the current program counter, e.g. the address of an `ebreak`
+//               which caused Debug Mode entry. When leaving debug mode, the
+//               processor jumps to `dpc`. The host may read/write this register
+//               whilst in Debug Mode.
+#define RVCSR_DPC_OFFSET _u(0x000007b1)
+#define RVCSR_DPC_BITS   _u(0xfffffffe)
+#define RVCSR_DPC_RESET  _u(0x00000000)
+#define RVCSR_DPC_MSB    _u(31)
+#define RVCSR_DPC_LSB    _u(1)
+#define RVCSR_DPC_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MCYCLE
+// Description : Machine-mode cycle counter, low half
+//               Counts up once per cycle, when `mcountinhibit.cy` is 0.
+//               Disabled by default to save power.
+#define RVCSR_MCYCLE_OFFSET _u(0x00000b00)
+#define RVCSR_MCYCLE_BITS   _u(0xffffffff)
+#define RVCSR_MCYCLE_RESET  _u(0x00000000)
+#define RVCSR_MCYCLE_MSB    _u(31)
+#define RVCSR_MCYCLE_LSB    _u(0)
+#define RVCSR_MCYCLE_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MINSTRET
+// Description : Machine-mode instruction retire counter, low half
+//               Counts up once per instruction, when `mcountinhibit.ir` is 0.
+//               Disabled by default to save power.
+#define RVCSR_MINSTRET_OFFSET _u(0x00000b02)
+#define RVCSR_MINSTRET_BITS   _u(0xffffffff)
+#define RVCSR_MINSTRET_RESET  _u(0x00000000)
+#define RVCSR_MINSTRET_MSB    _u(31)
+#define RVCSR_MINSTRET_LSB    _u(0)
+#define RVCSR_MINSTRET_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER3
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER3_OFFSET _u(0x00000b03)
+#define RVCSR_MHPMCOUNTER3_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER3_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER3_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER3_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER3_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER4
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER4_OFFSET _u(0x00000b04)
+#define RVCSR_MHPMCOUNTER4_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER4_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER4_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER4_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER4_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER5
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER5_OFFSET _u(0x00000b05)
+#define RVCSR_MHPMCOUNTER5_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER5_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER5_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER5_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER5_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER6
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER6_OFFSET _u(0x00000b06)
+#define RVCSR_MHPMCOUNTER6_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER6_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER6_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER6_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER6_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER7
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER7_OFFSET _u(0x00000b07)
+#define RVCSR_MHPMCOUNTER7_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER7_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER7_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER7_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER7_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER8
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER8_OFFSET _u(0x00000b08)
+#define RVCSR_MHPMCOUNTER8_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER8_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER8_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER8_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER8_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER9
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER9_OFFSET _u(0x00000b09)
+#define RVCSR_MHPMCOUNTER9_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER9_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER9_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER9_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER9_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER10
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER10_OFFSET _u(0x00000b0a)
+#define RVCSR_MHPMCOUNTER10_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER10_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER10_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER10_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER10_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER11
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER11_OFFSET _u(0x00000b0b)
+#define RVCSR_MHPMCOUNTER11_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER11_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER11_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER11_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER11_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER12
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER12_OFFSET _u(0x00000b0c)
+#define RVCSR_MHPMCOUNTER12_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER12_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER12_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER12_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER12_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER13
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER13_OFFSET _u(0x00000b0d)
+#define RVCSR_MHPMCOUNTER13_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER13_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER13_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER13_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER13_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER14
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER14_OFFSET _u(0x00000b0e)
+#define RVCSR_MHPMCOUNTER14_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER14_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER14_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER14_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER14_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER15
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER15_OFFSET _u(0x00000b0f)
+#define RVCSR_MHPMCOUNTER15_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER15_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER15_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER15_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER15_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER16
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER16_OFFSET _u(0x00000b10)
+#define RVCSR_MHPMCOUNTER16_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER16_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER16_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER16_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER16_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER17
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER17_OFFSET _u(0x00000b11)
+#define RVCSR_MHPMCOUNTER17_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER17_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER17_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER17_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER17_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER18
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER18_OFFSET _u(0x00000b12)
+#define RVCSR_MHPMCOUNTER18_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER18_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER18_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER18_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER18_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER19
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER19_OFFSET _u(0x00000b13)
+#define RVCSR_MHPMCOUNTER19_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER19_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER19_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER19_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER19_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER20
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER20_OFFSET _u(0x00000b14)
+#define RVCSR_MHPMCOUNTER20_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER20_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER20_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER20_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER20_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER21
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER21_OFFSET _u(0x00000b15)
+#define RVCSR_MHPMCOUNTER21_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER21_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER21_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER21_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER21_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER22
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER22_OFFSET _u(0x00000b16)
+#define RVCSR_MHPMCOUNTER22_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER22_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER22_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER22_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER22_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER23
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER23_OFFSET _u(0x00000b17)
+#define RVCSR_MHPMCOUNTER23_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER23_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER23_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER23_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER23_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER24
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER24_OFFSET _u(0x00000b18)
+#define RVCSR_MHPMCOUNTER24_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER24_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER24_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER24_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER24_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER25
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER25_OFFSET _u(0x00000b19)
+#define RVCSR_MHPMCOUNTER25_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER25_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER25_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER25_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER25_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER26
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER26_OFFSET _u(0x00000b1a)
+#define RVCSR_MHPMCOUNTER26_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER26_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER26_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER26_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER26_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER27
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER27_OFFSET _u(0x00000b1b)
+#define RVCSR_MHPMCOUNTER27_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER27_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER27_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER27_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER27_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER28
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER28_OFFSET _u(0x00000b1c)
+#define RVCSR_MHPMCOUNTER28_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER28_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER28_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER28_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER28_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER29
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER29_OFFSET _u(0x00000b1d)
+#define RVCSR_MHPMCOUNTER29_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER29_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER29_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER29_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER29_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER30
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER30_OFFSET _u(0x00000b1e)
+#define RVCSR_MHPMCOUNTER30_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER30_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER30_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER30_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER30_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER31
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER31_OFFSET _u(0x00000b1f)
+#define RVCSR_MHPMCOUNTER31_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER31_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER31_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER31_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER31_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MCYCLEH
+// Description : Machine-mode cycle counter, high half
+//               Counts up once per 1 << 32 cycles, when `mcountinhibit.cy` is
+//               0. Disabled by default to save power.
+#define RVCSR_MCYCLEH_OFFSET _u(0x00000b80)
+#define RVCSR_MCYCLEH_BITS   _u(0xffffffff)
+#define RVCSR_MCYCLEH_RESET  _u(0x00000000)
+#define RVCSR_MCYCLEH_MSB    _u(31)
+#define RVCSR_MCYCLEH_LSB    _u(0)
+#define RVCSR_MCYCLEH_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MINSTRETH
+// Description : Machine-mode instruction retire counter, low half
+//               Counts up once per 1 << 32 instructions, when
+//               `mcountinhibit.ir` is 0. Disabled by default to save power.
+#define RVCSR_MINSTRETH_OFFSET _u(0x00000b82)
+#define RVCSR_MINSTRETH_BITS   _u(0xffffffff)
+#define RVCSR_MINSTRETH_RESET  _u(0x00000000)
+#define RVCSR_MINSTRETH_MSB    _u(31)
+#define RVCSR_MINSTRETH_LSB    _u(0)
+#define RVCSR_MINSTRETH_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER3H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER3H_OFFSET _u(0x00000b83)
+#define RVCSR_MHPMCOUNTER3H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER3H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER3H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER3H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER3H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER4H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER4H_OFFSET _u(0x00000b84)
+#define RVCSR_MHPMCOUNTER4H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER4H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER4H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER4H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER4H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER5H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER5H_OFFSET _u(0x00000b85)
+#define RVCSR_MHPMCOUNTER5H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER5H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER5H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER5H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER5H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER6H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER6H_OFFSET _u(0x00000b86)
+#define RVCSR_MHPMCOUNTER6H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER6H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER6H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER6H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER6H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER7H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER7H_OFFSET _u(0x00000b87)
+#define RVCSR_MHPMCOUNTER7H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER7H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER7H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER7H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER7H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER8H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER8H_OFFSET _u(0x00000b88)
+#define RVCSR_MHPMCOUNTER8H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER8H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER8H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER8H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER8H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER9H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER9H_OFFSET _u(0x00000b89)
+#define RVCSR_MHPMCOUNTER9H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER9H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER9H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER9H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER9H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER10H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER10H_OFFSET _u(0x00000b8a)
+#define RVCSR_MHPMCOUNTER10H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER10H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER10H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER10H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER10H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER11H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER11H_OFFSET _u(0x00000b8b)
+#define RVCSR_MHPMCOUNTER11H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER11H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER11H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER11H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER11H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER12H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER12H_OFFSET _u(0x00000b8c)
+#define RVCSR_MHPMCOUNTER12H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER12H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER12H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER12H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER12H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER13H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER13H_OFFSET _u(0x00000b8d)
+#define RVCSR_MHPMCOUNTER13H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER13H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER13H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER13H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER13H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER14H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER14H_OFFSET _u(0x00000b8e)
+#define RVCSR_MHPMCOUNTER14H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER14H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER14H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER14H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER14H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER15H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER15H_OFFSET _u(0x00000b8f)
+#define RVCSR_MHPMCOUNTER15H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER15H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER15H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER15H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER15H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER16H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER16H_OFFSET _u(0x00000b90)
+#define RVCSR_MHPMCOUNTER16H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER16H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER16H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER16H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER16H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER17H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER17H_OFFSET _u(0x00000b91)
+#define RVCSR_MHPMCOUNTER17H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER17H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER17H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER17H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER17H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER18H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER18H_OFFSET _u(0x00000b92)
+#define RVCSR_MHPMCOUNTER18H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER18H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER18H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER18H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER18H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER19H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER19H_OFFSET _u(0x00000b93)
+#define RVCSR_MHPMCOUNTER19H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER19H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER19H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER19H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER19H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER20H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER20H_OFFSET _u(0x00000b94)
+#define RVCSR_MHPMCOUNTER20H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER20H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER20H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER20H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER20H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER21H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER21H_OFFSET _u(0x00000b95)
+#define RVCSR_MHPMCOUNTER21H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER21H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER21H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER21H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER21H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER22H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER22H_OFFSET _u(0x00000b96)
+#define RVCSR_MHPMCOUNTER22H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER22H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER22H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER22H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER22H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER23H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER23H_OFFSET _u(0x00000b97)
+#define RVCSR_MHPMCOUNTER23H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER23H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER23H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER23H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER23H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER24H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER24H_OFFSET _u(0x00000b98)
+#define RVCSR_MHPMCOUNTER24H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER24H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER24H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER24H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER24H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER25H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER25H_OFFSET _u(0x00000b99)
+#define RVCSR_MHPMCOUNTER25H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER25H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER25H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER25H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER25H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER26H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER26H_OFFSET _u(0x00000b9a)
+#define RVCSR_MHPMCOUNTER26H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER26H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER26H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER26H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER26H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER27H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER27H_OFFSET _u(0x00000b9b)
+#define RVCSR_MHPMCOUNTER27H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER27H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER27H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER27H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER27H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER28H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER28H_OFFSET _u(0x00000b9c)
+#define RVCSR_MHPMCOUNTER28H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER28H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER28H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER28H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER28H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER29H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER29H_OFFSET _u(0x00000b9d)
+#define RVCSR_MHPMCOUNTER29H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER29H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER29H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER29H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER29H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER30H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER30H_OFFSET _u(0x00000b9e)
+#define RVCSR_MHPMCOUNTER30H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER30H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER30H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER30H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER30H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHPMCOUNTER31H
+// Description : Extended performance counter, hardwired to 0.
+#define RVCSR_MHPMCOUNTER31H_OFFSET _u(0x00000b9f)
+#define RVCSR_MHPMCOUNTER31H_BITS   _u(0xffffffff)
+#define RVCSR_MHPMCOUNTER31H_RESET  _u(0x00000000)
+#define RVCSR_MHPMCOUNTER31H_MSB    _u(31)
+#define RVCSR_MHPMCOUNTER31H_LSB    _u(0)
+#define RVCSR_MHPMCOUNTER31H_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_PMPCFGM0
+// Description : PMP M-mode configuration. One bit per PMP region. Setting a bit
+//               makes the corresponding region apply to M-mode (like the
+//               `pmpcfg.L` bit) but does not lock the region.
+//
+//               PMP is useful for non-security-related purposes, such as stack
+//               guarding and peripheral emulation. This extension allows M-mode
+//               to freely use any currently unlocked regions for its own
+//               purposes, without the inconvenience of having to lock them.
+//
+//               Note that this does not grant any new capabilities to M-mode,
+//               since in the base standard it is already possible to apply
+//               unlocked regions to M-mode by locking them. In general, PMP
+//               regions should be locked in ascending region number order so
+//               they can't be subsequently overridden by currently unlocked
+//               regions.
+//
+//               Note also that this is not the same as the rule locking bypass
+//               bit in the ePMP extension, which does not permit locked and
+//               unlocked M-mode regions to coexist.
+//
+//               This is a Hazard3 custom CSR.
+#define RVCSR_PMPCFGM0_OFFSET _u(0x00000bd0)
+#define RVCSR_PMPCFGM0_BITS   _u(0x0000ffff)
+#define RVCSR_PMPCFGM0_RESET  _u(0x00000000)
+#define RVCSR_PMPCFGM0_MSB    _u(15)
+#define RVCSR_PMPCFGM0_LSB    _u(0)
+#define RVCSR_PMPCFGM0_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MEIEA
+// Description : External interrupt enable array.
+//
+//               The array contains a read-write bit for each external interrupt
+//               request: a `1` bit indicates that interrupt is currently
+//               enabled. At reset, all external interrupts are disabled.
+//
+//               If enabled, an external interrupt can cause assertion of the
+//               standard RISC-V machine external interrupt pending flag
+//               (`mip.meip`), and therefore cause the processor to enter the
+//               external interrupt vector. See `meipa`.
+//
+//               There are up to 512 external interrupts. The upper half of this
+//               register contains a 16-bit window into the full 512-bit vector.
+//               The window is indexed by the 5 LSBs of the write data.
+#define RVCSR_MEIEA_OFFSET _u(0x00000be0)
+#define RVCSR_MEIEA_BITS   _u(0xffff001f)
+#define RVCSR_MEIEA_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIEA_WINDOW
+// Description : 16-bit read/write window into the external interrupt enable
+//               array
+#define RVCSR_MEIEA_WINDOW_RESET  _u(0x0000)
+#define RVCSR_MEIEA_WINDOW_BITS   _u(0xffff0000)
+#define RVCSR_MEIEA_WINDOW_MSB    _u(31)
+#define RVCSR_MEIEA_WINDOW_LSB    _u(16)
+#define RVCSR_MEIEA_WINDOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIEA_INDEX
+// Description : Write-only self-clearing field (no value is stored) used to
+//               control which window of the array appears in `window`.
+#define RVCSR_MEIEA_INDEX_RESET  _u(0x00)
+#define RVCSR_MEIEA_INDEX_BITS   _u(0x0000001f)
+#define RVCSR_MEIEA_INDEX_MSB    _u(4)
+#define RVCSR_MEIEA_INDEX_LSB    _u(0)
+#define RVCSR_MEIEA_INDEX_ACCESS "WO"
+// =============================================================================
+// Register    : RVCSR_MEIPA
+// Description : External interrupt pending array
+//
+//               Contains a read-only bit for each external interrupt request.
+//               Similarly to `meiea`, this register is a window into an array
+//               of up to 512 external interrupt flags. The status appears in
+//               the upper 16 bits of the value read from `meipa`, and the lower
+//               5 bits of the value _written_ by the same CSR instruction (or 0
+//               if no write takes place) select a 16-bit window of the full
+//               interrupt pending array.
+//
+//               A `1` bit indicates that interrupt is currently asserted. IRQs
+//               are assumed to be level-sensitive, and the relevant `meipa` bit
+//               is cleared by servicing the requestor so that it deasserts its
+//               interrupt request.
+//
+//               When any interrupt of sufficient priority is both set in
+//               `meipa` and enabled in `meiea`, the standard RISC-V external
+//               interrupt pending bit `mip.meip` is asserted. In other words,
+//               `meipa` is filtered by `meiea` to generate the standard
+//               `mip.meip` flag.
+#define RVCSR_MEIPA_OFFSET _u(0x00000be1)
+#define RVCSR_MEIPA_BITS   _u(0xffff001f)
+#define RVCSR_MEIPA_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIPA_WINDOW
+// Description : 16-bit read-only window into the external interrupt pending
+//               array
+#define RVCSR_MEIPA_WINDOW_RESET  "-"
+#define RVCSR_MEIPA_WINDOW_BITS   _u(0xffff0000)
+#define RVCSR_MEIPA_WINDOW_MSB    _u(31)
+#define RVCSR_MEIPA_WINDOW_LSB    _u(16)
+#define RVCSR_MEIPA_WINDOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIPA_INDEX
+// Description : Write-only, self-clearing field (no value is stored) used to
+//               control which window of the array appears in `window`.
+#define RVCSR_MEIPA_INDEX_RESET  _u(0x00)
+#define RVCSR_MEIPA_INDEX_BITS   _u(0x0000001f)
+#define RVCSR_MEIPA_INDEX_MSB    _u(4)
+#define RVCSR_MEIPA_INDEX_LSB    _u(0)
+#define RVCSR_MEIPA_INDEX_ACCESS "WO"
+// =============================================================================
+// Register    : RVCSR_MEIFA
+// Description : External interrupt force array
+//
+//               Contains a read-write bit for every interrupt request. Writing
+//               a 1 to a bit in the interrupt force array causes the
+//               corresponding bit to become pending in `meipa`. Software can
+//               use this feature to manually trigger a particular interrupt.
+//
+//               There are no restrictions on using `meifa` inside of an
+//               interrupt. The more useful case here is to schedule some lower-
+//               priority handler from within a high-priority interrupt, so that
+//               it will execute before the core returns to the foreground code.
+//               Implementers may wish to reserve some external IRQs with their
+//               external inputs tied to 0 for this purpose.
+//
+//               Bits can be cleared by software, and are cleared automatically
+//               by hardware upon a read of `meinext` which returns the
+//               corresponding IRQ number in `meinext.irq` with `mienext.noirq`
+//               clear (no matter whether `meinext.update` is written).
+//
+//               `meifa` implements the same array window indexing scheme as
+//               `meiea` and `meipa`.
+#define RVCSR_MEIFA_OFFSET _u(0x00000be2)
+#define RVCSR_MEIFA_BITS   _u(0xffff001f)
+#define RVCSR_MEIFA_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIFA_WINDOW
+// Description : 16-bit read/write window into the external interrupt force
+//               array
+#define RVCSR_MEIFA_WINDOW_RESET  _u(0x0000)
+#define RVCSR_MEIFA_WINDOW_BITS   _u(0xffff0000)
+#define RVCSR_MEIFA_WINDOW_MSB    _u(31)
+#define RVCSR_MEIFA_WINDOW_LSB    _u(16)
+#define RVCSR_MEIFA_WINDOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIFA_INDEX
+// Description : Write-only, self-clearing field (no value is stored) used to
+//               control which window of the array appears in `window`.
+#define RVCSR_MEIFA_INDEX_RESET  _u(0x00)
+#define RVCSR_MEIFA_INDEX_BITS   _u(0x0000001f)
+#define RVCSR_MEIFA_INDEX_MSB    _u(4)
+#define RVCSR_MEIFA_INDEX_LSB    _u(0)
+#define RVCSR_MEIFA_INDEX_ACCESS "WO"
+// =============================================================================
+// Register    : RVCSR_MEIPRA
+// Description : External interrupt priority array
+//
+//               Each interrupt has an (up to) 4-bit priority value associated
+//               with it, and each access to this register reads and/or writes a
+//               16-bit window containing four such priority values. When less
+//               than 16 priority levels are available, the LSBs of the priority
+//               fields are hardwired to 0.
+//
+//               When an interrupt's priority is lower than the current
+//               preemption priority `meicontext.preempt`, it is treated as not
+//               being pending for the purposes of `mip.meip`. The pending bit
+//               in `meipa` will still assert, but the machine external
+//               interrupt pending bit `mip.meip` will not, so the processor
+//               will ignore this interrupt. See `meicontext`.
+#define RVCSR_MEIPRA_OFFSET _u(0x00000be3)
+#define RVCSR_MEIPRA_BITS   _u(0xffff001f)
+#define RVCSR_MEIPRA_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIPRA_WINDOW
+// Description : 16-bit read/write window into the external interrupt priority
+//               array, containing four 4-bit priority values.
+#define RVCSR_MEIPRA_WINDOW_RESET  _u(0x0000)
+#define RVCSR_MEIPRA_WINDOW_BITS   _u(0xffff0000)
+#define RVCSR_MEIPRA_WINDOW_MSB    _u(31)
+#define RVCSR_MEIPRA_WINDOW_LSB    _u(16)
+#define RVCSR_MEIPRA_WINDOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEIPRA_INDEX
+// Description : Write-only, self-clearing field (no value is stored) used to
+//               control which window of the array appears in `window`.
+#define RVCSR_MEIPRA_INDEX_RESET  _u(0x00)
+#define RVCSR_MEIPRA_INDEX_BITS   _u(0x0000001f)
+#define RVCSR_MEIPRA_INDEX_MSB    _u(4)
+#define RVCSR_MEIPRA_INDEX_LSB    _u(0)
+#define RVCSR_MEIPRA_INDEX_ACCESS "WO"
+// =============================================================================
+// Register    : RVCSR_MEINEXT
+// Description : Get next external interrupt
+//
+//               Contains the index of the highest-priority external interrupt
+//               which is both asserted in `meipa` and enabled in `meiea`, left-
+//               shifted by 2 so that it can be used to index an array of 32-bit
+//               function pointers. If there is no such interrupt, the MSB is
+//               set.
+//
+//               When multiple interrupts of the same priority are both pending
+//               and enabled, the lowest-numbered wins. Interrupts with priority
+//               less than `meicontext.ppreempt` -- the _previous_ preemption
+//               priority -- are treated as though they are not pending. This is
+//               to ensure that a preempting interrupt frame does not service
+//               interrupts which may be in progress in the frame that was
+//               preempted.
+#define RVCSR_MEINEXT_OFFSET _u(0x00000be4)
+#define RVCSR_MEINEXT_BITS   _u(0x800007fd)
+#define RVCSR_MEINEXT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEINEXT_NOIRQ
+// Description : Set when there is no external interrupt which is enabled,
+//               pending, and has priority greater than or equal to
+//               `meicontext.ppreempt`. Can be efficiently tested with a `bltz`
+//               or `bgez` instruction.
+#define RVCSR_MEINEXT_NOIRQ_RESET  _u(0x0)
+#define RVCSR_MEINEXT_NOIRQ_BITS   _u(0x80000000)
+#define RVCSR_MEINEXT_NOIRQ_MSB    _u(31)
+#define RVCSR_MEINEXT_NOIRQ_LSB    _u(31)
+#define RVCSR_MEINEXT_NOIRQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEINEXT_IRQ
+// Description : Index of the highest-priority active external interrupt. Zero
+//               when no external interrupts with sufficient priority are both
+//               pending and enabled.
+#define RVCSR_MEINEXT_IRQ_RESET  _u(0x000)
+#define RVCSR_MEINEXT_IRQ_BITS   _u(0x000007fc)
+#define RVCSR_MEINEXT_IRQ_MSB    _u(10)
+#define RVCSR_MEINEXT_IRQ_LSB    _u(2)
+#define RVCSR_MEINEXT_IRQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEINEXT_UPDATE
+// Description : Writing 1 (self-clearing) causes hardware to update
+//               `meicontext` according to the IRQ number and preemption
+//               priority of the interrupt indicated in `noirq`/`irq`. This
+//               should be done in a single atomic operation, i.e. `csrrsi a0,
+//               meinext, 0x1`.
+#define RVCSR_MEINEXT_UPDATE_RESET  _u(0x0)
+#define RVCSR_MEINEXT_UPDATE_BITS   _u(0x00000001)
+#define RVCSR_MEINEXT_UPDATE_MSB    _u(0)
+#define RVCSR_MEINEXT_UPDATE_LSB    _u(0)
+#define RVCSR_MEINEXT_UPDATE_ACCESS "SC"
+// =============================================================================
+// Register    : RVCSR_MEICONTEXT
+// Description : External interrupt context register
+//
+//               Configures the priority level for interrupt preemption, and
+//               helps software track which interrupt it is currently in. The
+//               latter is useful when a common interrupt service routine
+//               handles interrupt requests from multiple instances of the same
+//               peripheral.
+//
+//               A three-level stack of preemption priorities is maintained in
+//               the `preempt`, `ppreempt` and `pppreempt` fields. The priority
+//               stack is saved when hardware enters the external interrupt
+//               vector, and restored by an `mret` instruction if
+//               `meicontext.mreteirq` is set.
+//
+//               The top entry of the priority stack, `preempt`, is used by
+//               hardware to ensure that only higher-priority interrupts can
+//               preempt the current interrupt. The next entry, `ppreempt`, is
+//               used to avoid servicing interrupts which may already be in
+//               progress in a frame that was preempted. The third entry,
+//               `pppreempt`, has no hardware effect, but ensures that `preempt`
+//               and `ppreempt` can be correctly saved/restored across arbitrary
+//               levels of preemption.
+#define RVCSR_MEICONTEXT_OFFSET _u(0x00000be5)
+#define RVCSR_MEICONTEXT_BITS   _u(0xff1f9fff)
+#define RVCSR_MEICONTEXT_RESET  _u(0x00008000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_PPPREEMPT
+// Description : Previous `ppreempt`. Set to `ppreempt` on priority save, set to
+//               zero on priority restore.  Has no hardware effect, but ensures
+//               that when `meicontext` is saved/restored correctly, `preempt`
+//               and `ppreempt` stack correctly through arbitrarily many
+//               preemption frames.
+#define RVCSR_MEICONTEXT_PPPREEMPT_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_PPPREEMPT_BITS   _u(0xf0000000)
+#define RVCSR_MEICONTEXT_PPPREEMPT_MSB    _u(31)
+#define RVCSR_MEICONTEXT_PPPREEMPT_LSB    _u(28)
+#define RVCSR_MEICONTEXT_PPPREEMPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_PPREEMPT
+// Description : Previous `preempt`. Set to `preempt` on priority save, restored
+//               to to `pppreempt` on priority restore.
+//
+//               IRQs of lower priority than `ppreempt` are not visible in
+//               `meinext`, so that a preemptee is not re-taken in the
+//               preempting frame.
+#define RVCSR_MEICONTEXT_PPREEMPT_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_PPREEMPT_BITS   _u(0x0f000000)
+#define RVCSR_MEICONTEXT_PPREEMPT_MSB    _u(27)
+#define RVCSR_MEICONTEXT_PPREEMPT_LSB    _u(24)
+#define RVCSR_MEICONTEXT_PPREEMPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_PREEMPT
+// Description : Minimum interrupt priority to preempt the current interrupt.
+//               Interrupts with lower priority than `preempt` do not cause the
+//               core to transfer to an interrupt handler. Updated by hardware
+//               when when `meinext.update` is written, or when hardware enters
+//               the external interrupt vector.
+//
+//               If an interrupt is present in `meinext` when this field is
+//               updated, then `preempt` is set to one level greater than that
+//               interrupt's priority. Otherwise, `ppreempt` is set to one level
+//               greater than the maximum interrupt priority, disabling
+//               preemption.
+#define RVCSR_MEICONTEXT_PREEMPT_RESET  _u(0x00)
+#define RVCSR_MEICONTEXT_PREEMPT_BITS   _u(0x001f0000)
+#define RVCSR_MEICONTEXT_PREEMPT_MSB    _u(20)
+#define RVCSR_MEICONTEXT_PREEMPT_LSB    _u(16)
+#define RVCSR_MEICONTEXT_PREEMPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_NOIRQ
+// Description : Not in interrupt (read/write). Set to 1 at reset. Set to
+//               `meinext.noirq` when `meinext.update` is written. No hardware
+//               effect.
+#define RVCSR_MEICONTEXT_NOIRQ_RESET  _u(0x1)
+#define RVCSR_MEICONTEXT_NOIRQ_BITS   _u(0x00008000)
+#define RVCSR_MEICONTEXT_NOIRQ_MSB    _u(15)
+#define RVCSR_MEICONTEXT_NOIRQ_LSB    _u(15)
+#define RVCSR_MEICONTEXT_NOIRQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_IRQ
+// Description : Current IRQ number (read/write). Set to `meinext.irq` when
+//               `meinext.update` is written. No hardware effect.
+#define RVCSR_MEICONTEXT_IRQ_RESET  _u(0x000)
+#define RVCSR_MEICONTEXT_IRQ_BITS   _u(0x00001ff0)
+#define RVCSR_MEICONTEXT_IRQ_MSB    _u(12)
+#define RVCSR_MEICONTEXT_IRQ_LSB    _u(4)
+#define RVCSR_MEICONTEXT_IRQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_MTIESAVE
+// Description : Reads as the current value of `mie.mtie`, if `clearts` is set
+//               by the same CSR access instruction. Otherwise reads as 0.
+//               Writes are ORed into `mie.mtie`.
+#define RVCSR_MEICONTEXT_MTIESAVE_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_MTIESAVE_BITS   _u(0x00000008)
+#define RVCSR_MEICONTEXT_MTIESAVE_MSB    _u(3)
+#define RVCSR_MEICONTEXT_MTIESAVE_LSB    _u(3)
+#define RVCSR_MEICONTEXT_MTIESAVE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_MSIESAVE
+// Description : Reads as the current value of `mie.msie`, if `clearts` is set
+//               by the same CSR access instruction. Otherwise reads as 0.
+//               Writes are ORed into `mie.msie`.
+#define RVCSR_MEICONTEXT_MSIESAVE_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_MSIESAVE_BITS   _u(0x00000004)
+#define RVCSR_MEICONTEXT_MSIESAVE_MSB    _u(2)
+#define RVCSR_MEICONTEXT_MSIESAVE_LSB    _u(2)
+#define RVCSR_MEICONTEXT_MSIESAVE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_CLEARTS
+// Description : Write-1 self-clearing field. Writing 1 will clear `mie.mtie`
+//               and `mie.msie`, and present their prior values in the
+//               `mtiesave` and `msiesave` of this register. This makes it safe
+//               to re-enable IRQs (via `mstatus.mie`) without the possibility
+//               of being preempted by the standard timer and soft interrupt
+//               handlers, which may not be aware of Hazard3's interrupt
+//               hardware.
+//
+//               The clear due to `clearts` takes precedence over the set due to
+//               `mtiesave`/`msiesave`, although it would be unusual for
+//               software to write both on the same cycle.
+#define RVCSR_MEICONTEXT_CLEARTS_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_CLEARTS_BITS   _u(0x00000002)
+#define RVCSR_MEICONTEXT_CLEARTS_MSB    _u(1)
+#define RVCSR_MEICONTEXT_CLEARTS_LSB    _u(1)
+#define RVCSR_MEICONTEXT_CLEARTS_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MEICONTEXT_MRETEIRQ
+// Description : If 1, enable restore of the preemption priority stack on
+//               `mret`. This bit is set on entering the external interrupt
+//               vector, cleared by `mret`, and cleared upon taking any trap
+//               other than an external interrupt.
+//
+//               Provided `meicontext` is saved on entry to the external
+//               interrupt vector (before enabling preemption), is restored
+//               before exiting, and the standard software/timer IRQs are
+//               prevented from preempting (e.g. by using `clearts`), this flag
+//               allows the hardware to safely manage the preemption priority
+//               stack even when an external interrupt handler may take
+//               exceptions.
+#define RVCSR_MEICONTEXT_MRETEIRQ_RESET  _u(0x0)
+#define RVCSR_MEICONTEXT_MRETEIRQ_BITS   _u(0x00000001)
+#define RVCSR_MEICONTEXT_MRETEIRQ_MSB    _u(0)
+#define RVCSR_MEICONTEXT_MRETEIRQ_LSB    _u(0)
+#define RVCSR_MEICONTEXT_MRETEIRQ_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_MSLEEP
+// Description : M-mode sleep control register
+#define RVCSR_MSLEEP_OFFSET _u(0x00000bf0)
+#define RVCSR_MSLEEP_BITS   _u(0x00000007)
+#define RVCSR_MSLEEP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSLEEP_SLEEPONBLOCK
+// Description : Enter the deep sleep state configured by
+//               msleep.deepsleep/msleep.powerdown on a `h3.block` instruction,
+//               as well as a standard `wfi`. If this bit is clear, a `h3.block`
+//               is always implemented as a simple pipeline stall.
+#define RVCSR_MSLEEP_SLEEPONBLOCK_RESET  _u(0x0)
+#define RVCSR_MSLEEP_SLEEPONBLOCK_BITS   _u(0x00000004)
+#define RVCSR_MSLEEP_SLEEPONBLOCK_MSB    _u(2)
+#define RVCSR_MSLEEP_SLEEPONBLOCK_LSB    _u(2)
+#define RVCSR_MSLEEP_SLEEPONBLOCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSLEEP_POWERDOWN
+// Description : Release the external power request when going to sleep. The
+//               function of this is platform-defined -- it may do nothing, it
+//               may do something simple like clock-gating the fabric, or it may
+//               be tied to some complex system-level power controller.
+//
+//               When waking, the processor reasserts its external power-up
+//               request, and will not fetch any instructions until the request
+//               is acknowledged. This may add considerable latency to the
+//               wakeup.
+#define RVCSR_MSLEEP_POWERDOWN_RESET  _u(0x0)
+#define RVCSR_MSLEEP_POWERDOWN_BITS   _u(0x00000002)
+#define RVCSR_MSLEEP_POWERDOWN_MSB    _u(1)
+#define RVCSR_MSLEEP_POWERDOWN_LSB    _u(1)
+#define RVCSR_MSLEEP_POWERDOWN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MSLEEP_DEEPSLEEP
+// Description : Deassert the processor clock enable when entering the sleep
+//               state. If a clock gate is instantiated, this allows most of the
+//               processor (everything except the power state machine and the
+//               interrupt and halt input registers) to be clock gated whilst
+//               asleep, which may reduce the sleep current. This adds one cycle
+//               to the wakeup latency.
+#define RVCSR_MSLEEP_DEEPSLEEP_RESET  _u(0x0)
+#define RVCSR_MSLEEP_DEEPSLEEP_BITS   _u(0x00000001)
+#define RVCSR_MSLEEP_DEEPSLEEP_MSB    _u(0)
+#define RVCSR_MSLEEP_DEEPSLEEP_LSB    _u(0)
+#define RVCSR_MSLEEP_DEEPSLEEP_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_DMDATA0
+// Description : The Debug Module's DATA0 register is mapped into Hazard3's CSR
+//               space so that the Debug Module can exchange data with the core
+//               by executing CSR access instructions (this is used to implement
+//               the Abstract Access Register command). Only accessible in Debug
+//               Mode.
+#define RVCSR_DMDATA0_OFFSET _u(0x00000bff)
+#define RVCSR_DMDATA0_BITS   _u(0xffffffff)
+#define RVCSR_DMDATA0_RESET  _u(0x00000000)
+#define RVCSR_DMDATA0_MSB    _u(31)
+#define RVCSR_DMDATA0_LSB    _u(0)
+#define RVCSR_DMDATA0_ACCESS "RW"
+// =============================================================================
+// Register    : RVCSR_CYCLE
+// Description : Read-only U-mode alias of mcycle, accessible when
+//               `mcounteren.cy` is set
+#define RVCSR_CYCLE_OFFSET _u(0x00000c00)
+#define RVCSR_CYCLE_BITS   _u(0xffffffff)
+#define RVCSR_CYCLE_RESET  _u(0x00000000)
+#define RVCSR_CYCLE_MSB    _u(31)
+#define RVCSR_CYCLE_LSB    _u(0)
+#define RVCSR_CYCLE_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_INSTRET
+// Description : Read-only U-mode alias of minstret, accessible when
+//               `mcounteren.ir` is set
+#define RVCSR_INSTRET_OFFSET _u(0x00000c02)
+#define RVCSR_INSTRET_BITS   _u(0xffffffff)
+#define RVCSR_INSTRET_RESET  _u(0x00000000)
+#define RVCSR_INSTRET_MSB    _u(31)
+#define RVCSR_INSTRET_LSB    _u(0)
+#define RVCSR_INSTRET_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_CYCLEH
+// Description : Read-only U-mode alias of mcycleh, accessible when
+//               `mcounteren.cy` is set
+#define RVCSR_CYCLEH_OFFSET _u(0x00000c80)
+#define RVCSR_CYCLEH_BITS   _u(0xffffffff)
+#define RVCSR_CYCLEH_RESET  _u(0x00000000)
+#define RVCSR_CYCLEH_MSB    _u(31)
+#define RVCSR_CYCLEH_LSB    _u(0)
+#define RVCSR_CYCLEH_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_INSTRETH
+// Description : Read-only U-mode alias of minstreth, accessible when
+//               `mcounteren.ir` is set
+#define RVCSR_INSTRETH_OFFSET _u(0x00000c82)
+#define RVCSR_INSTRETH_BITS   _u(0xffffffff)
+#define RVCSR_INSTRETH_RESET  _u(0x00000000)
+#define RVCSR_INSTRETH_MSB    _u(31)
+#define RVCSR_INSTRETH_LSB    _u(0)
+#define RVCSR_INSTRETH_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MVENDORID
+// Description : Vendor ID
+#define RVCSR_MVENDORID_OFFSET _u(0x00000f11)
+#define RVCSR_MVENDORID_BITS   _u(0xffffffff)
+#define RVCSR_MVENDORID_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MVENDORID_BANK
+#define RVCSR_MVENDORID_BANK_RESET  "-"
+#define RVCSR_MVENDORID_BANK_BITS   _u(0xffffff80)
+#define RVCSR_MVENDORID_BANK_MSB    _u(31)
+#define RVCSR_MVENDORID_BANK_LSB    _u(7)
+#define RVCSR_MVENDORID_BANK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : RVCSR_MVENDORID_OFFSET
+#define RVCSR_MVENDORID_OFFSET_RESET  "-"
+#define RVCSR_MVENDORID_OFFSET_BITS   _u(0x0000007f)
+#define RVCSR_MVENDORID_OFFSET_MSB    _u(6)
+#define RVCSR_MVENDORID_OFFSET_LSB    _u(0)
+#define RVCSR_MVENDORID_OFFSET_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MARCHID
+// Description : Architecture ID (Hazard3)
+#define RVCSR_MARCHID_OFFSET _u(0x00000f12)
+#define RVCSR_MARCHID_BITS   _u(0xffffffff)
+#define RVCSR_MARCHID_RESET  _u(0x0000001b)
+#define RVCSR_MARCHID_MSB    _u(31)
+#define RVCSR_MARCHID_LSB    _u(0)
+#define RVCSR_MARCHID_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MIMPID
+// Description : Implementation ID
+#define RVCSR_MIMPID_OFFSET _u(0x00000f13)
+#define RVCSR_MIMPID_BITS   _u(0xffffffff)
+#define RVCSR_MIMPID_RESET  "-"
+#define RVCSR_MIMPID_MSB    _u(31)
+#define RVCSR_MIMPID_LSB    _u(0)
+#define RVCSR_MIMPID_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MHARTID
+// Description : Hardware thread ID
+//               On RP2350, core 0 has a hart ID of 0, and core 1 has a hart ID
+//               of 1.
+#define RVCSR_MHARTID_OFFSET _u(0x00000f14)
+#define RVCSR_MHARTID_BITS   _u(0xffffffff)
+#define RVCSR_MHARTID_RESET  "-"
+#define RVCSR_MHARTID_MSB    _u(31)
+#define RVCSR_MHARTID_LSB    _u(0)
+#define RVCSR_MHARTID_ACCESS "RO"
+// =============================================================================
+// Register    : RVCSR_MCONFIGPTR
+// Description : Pointer to configuration data structure (hardwired to 0)
+#define RVCSR_MCONFIGPTR_OFFSET _u(0x00000f15)
+#define RVCSR_MCONFIGPTR_BITS   _u(0xffffffff)
+#define RVCSR_MCONFIGPTR_RESET  _u(0x00000000)
+#define RVCSR_MCONFIGPTR_MSB    _u(31)
+#define RVCSR_MCONFIGPTR_LSB    _u(0)
+#define RVCSR_MCONFIGPTR_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_RVCSR_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/sha256.h b/lib/pico-sdk/rp2350/hardware/regs/sha256.h
new file mode 100644
index 0000000..112963c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/sha256.h
@@ -0,0 +1,228 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : SHA256
+// Version        : 1
+// Bus type       : apb
+// Description    : SHA-256 hash function implementation
+// =============================================================================
+#ifndef _HARDWARE_REGS_SHA256_H
+#define _HARDWARE_REGS_SHA256_H
+// =============================================================================
+// Register    : SHA256_CSR
+// Description : Control and status register
+#define SHA256_CSR_OFFSET _u(0x00000000)
+#define SHA256_CSR_BITS   _u(0x00001317)
+#define SHA256_CSR_RESET  _u(0x00001206)
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_BSWAP
+// Description : Enable byte swapping of 32-bit values at the point they are
+//               committed to the SHA message scheduler.
+//
+//               This block's bus interface assembles byte/halfword data into
+//               message words in little-endian order, so that DMAing the same
+//               buffer with different transfer sizes always gives the same
+//               result on a little-endian system like RP2350.
+//
+//               However, when marshalling bytes into blocks, SHA expects that
+//               the first byte is the *most significant* in each message word.
+//               To resolve this, once the bus interface has accumulated 32 bits
+//               of data (either a word write, two halfword writes in little-
+//               endian order, or four byte writes in little-endian order) the
+//               final value can be byte-swapped before passing to the actual
+//               SHA core.
+//
+//               This feature is enabled by default because using the SHA core
+//               to checksum byte buffers is expected to be more common than
+//               having preformatted SHA message words lying around.
+#define SHA256_CSR_BSWAP_RESET  _u(0x1)
+#define SHA256_CSR_BSWAP_BITS   _u(0x00001000)
+#define SHA256_CSR_BSWAP_MSB    _u(12)
+#define SHA256_CSR_BSWAP_LSB    _u(12)
+#define SHA256_CSR_BSWAP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_DMA_SIZE
+// Description : Configure DREQ logic for the correct DMA data size. Must be
+//               configured before the DMA channel is triggered.
+//
+//               The SHA-256 core's DREQ logic requests one entire block of data
+//               at once, since there is no FIFO, and data goes straight into
+//               the core's message schedule and digest hardware. Therefore,
+//               when transferring data with DMA, CSR_DMA_SIZE must be
+//               configured in advance so that the correct number of transfers
+//               can be requested per block.
+//               0x0 -> 8bit
+//               0x1 -> 16bit
+//               0x2 -> 32bit
+#define SHA256_CSR_DMA_SIZE_RESET  _u(0x2)
+#define SHA256_CSR_DMA_SIZE_BITS   _u(0x00000300)
+#define SHA256_CSR_DMA_SIZE_MSB    _u(9)
+#define SHA256_CSR_DMA_SIZE_LSB    _u(8)
+#define SHA256_CSR_DMA_SIZE_ACCESS "RW"
+#define SHA256_CSR_DMA_SIZE_VALUE_8BIT _u(0x0)
+#define SHA256_CSR_DMA_SIZE_VALUE_16BIT _u(0x1)
+#define SHA256_CSR_DMA_SIZE_VALUE_32BIT _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_ERR_WDATA_NOT_RDY
+// Description : Set when a write occurs whilst the SHA-256 core is not ready
+//               for data (WDATA_RDY is low). Write one to clear.
+#define SHA256_CSR_ERR_WDATA_NOT_RDY_RESET  _u(0x0)
+#define SHA256_CSR_ERR_WDATA_NOT_RDY_BITS   _u(0x00000010)
+#define SHA256_CSR_ERR_WDATA_NOT_RDY_MSB    _u(4)
+#define SHA256_CSR_ERR_WDATA_NOT_RDY_LSB    _u(4)
+#define SHA256_CSR_ERR_WDATA_NOT_RDY_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_SUM_VLD
+// Description : If 1, the SHA-256 checksum presented in registers SUM0 through
+//               SUM7 is currently valid.
+//
+//               Goes low when WDATA is first written, then returns high once 16
+//               words have been written and the digest of the current 512-bit
+//               block has subsequently completed.
+#define SHA256_CSR_SUM_VLD_RESET  _u(0x1)
+#define SHA256_CSR_SUM_VLD_BITS   _u(0x00000004)
+#define SHA256_CSR_SUM_VLD_MSB    _u(2)
+#define SHA256_CSR_SUM_VLD_LSB    _u(2)
+#define SHA256_CSR_SUM_VLD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_WDATA_RDY
+// Description : If 1, the SHA-256 core is ready to accept more data through the
+//               WDATA register.
+//
+//               After writing 16 words, this flag will go low for 57 cycles
+//               whilst the core completes its digest.
+#define SHA256_CSR_WDATA_RDY_RESET  _u(0x1)
+#define SHA256_CSR_WDATA_RDY_BITS   _u(0x00000002)
+#define SHA256_CSR_WDATA_RDY_MSB    _u(1)
+#define SHA256_CSR_WDATA_RDY_LSB    _u(1)
+#define SHA256_CSR_WDATA_RDY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SHA256_CSR_START
+// Description : Write 1 to prepare the SHA-256 core for a new checksum.
+//
+//               The SUMx registers are initialised to the proper values
+//               (fractional bits of square roots of first 8 primes) and
+//               internal counters are cleared. This immediately forces
+//               WDATA_RDY and SUM_VLD high.
+//
+//               START must be written before initiating a DMA transfer to the
+//               SHA-256 core, because the core will always request 16 transfers
+//               at a time (1 512-bit block). Additionally, the DMA channel
+//               should be configured for a multiple of 16 32-bit transfers.
+#define SHA256_CSR_START_RESET  _u(0x0)
+#define SHA256_CSR_START_BITS   _u(0x00000001)
+#define SHA256_CSR_START_MSB    _u(0)
+#define SHA256_CSR_START_LSB    _u(0)
+#define SHA256_CSR_START_ACCESS "SC"
+// =============================================================================
+// Register    : SHA256_WDATA
+// Description : Write data register
+//               After pulsing START and writing 16 words of data to this
+//               register, WDATA_RDY will go low and the SHA-256 core will
+//               complete the digest of the current 512-bit block.
+//
+//               Software is responsible for ensuring the data is correctly
+//               padded and terminated to a whole number of 512-bit blocks.
+//
+//               After this, WDATA_RDY will return high, and more data can be
+//               written (if any).
+//
+//               This register supports word, halfword and byte writes, so that
+//               DMA from non-word-aligned buffers can be supported. The total
+//               amount of data per block remains the same (16 words, 32
+//               halfwords or 64 bytes) and byte/halfword transfers must not be
+//               mixed within a block.
+#define SHA256_WDATA_OFFSET _u(0x00000004)
+#define SHA256_WDATA_BITS   _u(0xffffffff)
+#define SHA256_WDATA_RESET  _u(0x00000000)
+#define SHA256_WDATA_MSB    _u(31)
+#define SHA256_WDATA_LSB    _u(0)
+#define SHA256_WDATA_ACCESS "WF"
+// =============================================================================
+// Register    : SHA256_SUM0
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM0_OFFSET _u(0x00000008)
+#define SHA256_SUM0_BITS   _u(0xffffffff)
+#define SHA256_SUM0_RESET  _u(0x00000000)
+#define SHA256_SUM0_MSB    _u(31)
+#define SHA256_SUM0_LSB    _u(0)
+#define SHA256_SUM0_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM1
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM1_OFFSET _u(0x0000000c)
+#define SHA256_SUM1_BITS   _u(0xffffffff)
+#define SHA256_SUM1_RESET  _u(0x00000000)
+#define SHA256_SUM1_MSB    _u(31)
+#define SHA256_SUM1_LSB    _u(0)
+#define SHA256_SUM1_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM2
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM2_OFFSET _u(0x00000010)
+#define SHA256_SUM2_BITS   _u(0xffffffff)
+#define SHA256_SUM2_RESET  _u(0x00000000)
+#define SHA256_SUM2_MSB    _u(31)
+#define SHA256_SUM2_LSB    _u(0)
+#define SHA256_SUM2_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM3
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM3_OFFSET _u(0x00000014)
+#define SHA256_SUM3_BITS   _u(0xffffffff)
+#define SHA256_SUM3_RESET  _u(0x00000000)
+#define SHA256_SUM3_MSB    _u(31)
+#define SHA256_SUM3_LSB    _u(0)
+#define SHA256_SUM3_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM4
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM4_OFFSET _u(0x00000018)
+#define SHA256_SUM4_BITS   _u(0xffffffff)
+#define SHA256_SUM4_RESET  _u(0x00000000)
+#define SHA256_SUM4_MSB    _u(31)
+#define SHA256_SUM4_LSB    _u(0)
+#define SHA256_SUM4_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM5
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM5_OFFSET _u(0x0000001c)
+#define SHA256_SUM5_BITS   _u(0xffffffff)
+#define SHA256_SUM5_RESET  _u(0x00000000)
+#define SHA256_SUM5_MSB    _u(31)
+#define SHA256_SUM5_LSB    _u(0)
+#define SHA256_SUM5_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM6
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM6_OFFSET _u(0x00000020)
+#define SHA256_SUM6_BITS   _u(0xffffffff)
+#define SHA256_SUM6_RESET  _u(0x00000000)
+#define SHA256_SUM6_MSB    _u(31)
+#define SHA256_SUM6_LSB    _u(0)
+#define SHA256_SUM6_ACCESS "RO"
+// =============================================================================
+// Register    : SHA256_SUM7
+// Description : 256-bit checksum result. Contents are undefined when
+//               CSR_SUM_VLD is 0.
+#define SHA256_SUM7_OFFSET _u(0x00000024)
+#define SHA256_SUM7_BITS   _u(0xffffffff)
+#define SHA256_SUM7_RESET  _u(0x00000000)
+#define SHA256_SUM7_MSB    _u(31)
+#define SHA256_SUM7_LSB    _u(0)
+#define SHA256_SUM7_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_SHA256_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/sio.h b/lib/pico-sdk/rp2350/hardware/regs/sio.h
new file mode 100644
index 0000000..c4cb290
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/sio.h
@@ -0,0 +1,2461 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : SIO
+// Version        : 1
+// Bus type       : apb
+// Description    : Single-cycle IO block
+//                  Provides core-local and inter-core hardware for the two
+//                  processors, with single-cycle access.
+// =============================================================================
+#ifndef _HARDWARE_REGS_SIO_H
+#define _HARDWARE_REGS_SIO_H
+// =============================================================================
+// Register    : SIO_CPUID
+// Description : Processor core identifier
+//               Value is 0 when read from processor core 0, and 1 when read
+//               from processor core 1.
+#define SIO_CPUID_OFFSET _u(0x00000000)
+#define SIO_CPUID_BITS   _u(0xffffffff)
+#define SIO_CPUID_RESET  "-"
+#define SIO_CPUID_MSB    _u(31)
+#define SIO_CPUID_LSB    _u(0)
+#define SIO_CPUID_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_GPIO_IN
+// Description : Input value for GPIO0...31.
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               appear as zero.
+#define SIO_GPIO_IN_OFFSET _u(0x00000004)
+#define SIO_GPIO_IN_BITS   _u(0xffffffff)
+#define SIO_GPIO_IN_RESET  _u(0x00000000)
+#define SIO_GPIO_IN_MSB    _u(31)
+#define SIO_GPIO_IN_LSB    _u(0)
+#define SIO_GPIO_IN_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_IN
+// Description : Input value on GPIO32...47, QSPI IOs and USB pins
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               appear as zero.
+#define SIO_GPIO_HI_IN_OFFSET _u(0x00000008)
+#define SIO_GPIO_HI_IN_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_IN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_QSPI_SD
+// Description : Input value on QSPI SD0 (MOSI), SD1 (MISO), SD2 and SD3 pins
+#define SIO_GPIO_HI_IN_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_IN_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_IN_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_IN_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_IN_QSPI_SD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_QSPI_CSN
+// Description : Input value on QSPI CSn pin
+#define SIO_GPIO_HI_IN_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_IN_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_IN_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_IN_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_IN_QSPI_CSN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_QSPI_SCK
+// Description : Input value on QSPI SCK pin
+#define SIO_GPIO_HI_IN_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_IN_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_IN_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_IN_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_IN_QSPI_SCK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_USB_DM
+// Description : Input value on USB D- pin
+#define SIO_GPIO_HI_IN_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_IN_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_IN_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_IN_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_IN_USB_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_USB_DP
+// Description : Input value on USB D+ pin
+#define SIO_GPIO_HI_IN_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_IN_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_IN_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_IN_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_IN_USB_DP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_IN_GPIO
+// Description : Input value on GPIO32...47
+#define SIO_GPIO_HI_IN_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_IN_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_IN_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_IN_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_IN_GPIO_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_GPIO_OUT
+// Description : GPIO0...31 output value
+//               Set output level (1/0 -> high/low) for GPIO0...31. Reading back
+//               gives the last value written, NOT the input value from the
+//               pins.
+//
+//               If core 0 and core 1 both write to GPIO_OUT simultaneously (or
+//               to a SET/CLR/XOR alias), the result is as though the write from
+//               core 0 took place first, and the write from core 1 was then
+//               applied to that intermediate result.
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               ignore writes, and their output status reads back as zero. This
+//               is also true for SET/CLR/XOR aliases of this register.
+#define SIO_GPIO_OUT_OFFSET _u(0x00000010)
+#define SIO_GPIO_OUT_BITS   _u(0xffffffff)
+#define SIO_GPIO_OUT_RESET  _u(0x00000000)
+#define SIO_GPIO_OUT_MSB    _u(31)
+#define SIO_GPIO_OUT_LSB    _u(0)
+#define SIO_GPIO_OUT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OUT
+// Description : Output value for GPIO32...47, QSPI IOs and USB pins.
+//
+//               Write to set output level (1/0 -> high/low). Reading back gives
+//               the last value written, NOT the input value from the pins. If
+//               core 0 and core 1 both write to GPIO_HI_OUT simultaneously (or
+//               to a SET/CLR/XOR alias), the result is as though the write from
+//               core 0 took place first, and the write from core 1 was then
+//               applied to that intermediate result.
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               ignore writes, and their output status reads back as zero. This
+//               is also true for SET/CLR/XOR aliases of this register.
+#define SIO_GPIO_HI_OUT_OFFSET _u(0x00000014)
+#define SIO_GPIO_HI_OUT_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OUT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_QSPI_SD
+// Description : Output value for QSPI SD0 (MOSI), SD1 (MISO), SD2 and SD3 pins
+#define SIO_GPIO_HI_OUT_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OUT_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OUT_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OUT_QSPI_SD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_QSPI_CSN
+// Description : Output value for QSPI CSn pin
+#define SIO_GPIO_HI_OUT_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OUT_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OUT_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OUT_QSPI_CSN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_QSPI_SCK
+// Description : Output value for QSPI SCK pin
+#define SIO_GPIO_HI_OUT_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OUT_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OUT_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OUT_QSPI_SCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_USB_DM
+// Description : Output value for USB D- pin
+#define SIO_GPIO_HI_OUT_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OUT_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OUT_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OUT_USB_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_USB_DP
+// Description : Output value for USB D+ pin
+#define SIO_GPIO_HI_OUT_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OUT_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OUT_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OUT_USB_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_GPIO
+// Description : Output value for GPIO32...47
+#define SIO_GPIO_HI_OUT_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OUT_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OUT_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OUT_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OUT_GPIO_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_GPIO_OUT_SET
+// Description : GPIO0...31 output value set
+//               Perform an atomic bit-set on GPIO_OUT, i.e. `GPIO_OUT |= wdata`
+#define SIO_GPIO_OUT_SET_OFFSET _u(0x00000018)
+#define SIO_GPIO_OUT_SET_BITS   _u(0xffffffff)
+#define SIO_GPIO_OUT_SET_RESET  _u(0x00000000)
+#define SIO_GPIO_OUT_SET_MSB    _u(31)
+#define SIO_GPIO_OUT_SET_LSB    _u(0)
+#define SIO_GPIO_OUT_SET_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OUT_SET
+// Description : Output value set for GPIO32..47, QSPI IOs and USB pins.
+//               Perform an atomic bit-set on GPIO_HI_OUT, i.e. `GPIO_HI_OUT |=
+//               wdata`
+#define SIO_GPIO_HI_OUT_SET_OFFSET _u(0x0000001c)
+#define SIO_GPIO_HI_OUT_SET_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OUT_SET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_QSPI_SD
+#define SIO_GPIO_HI_OUT_SET_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_QSPI_CSN
+#define SIO_GPIO_HI_OUT_SET_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_SET_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OUT_SET_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OUT_SET_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OUT_SET_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_QSPI_SCK
+#define SIO_GPIO_HI_OUT_SET_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OUT_SET_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_USB_DM
+#define SIO_GPIO_HI_OUT_SET_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_SET_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OUT_SET_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OUT_SET_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OUT_SET_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_USB_DP
+#define SIO_GPIO_HI_OUT_SET_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_SET_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OUT_SET_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OUT_SET_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OUT_SET_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_SET_GPIO
+#define SIO_GPIO_HI_OUT_SET_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OUT_SET_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OUT_SET_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OUT_SET_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OUT_SET_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_OUT_CLR
+// Description : GPIO0...31 output value clear
+//               Perform an atomic bit-clear on GPIO_OUT, i.e. `GPIO_OUT &=
+//               ~wdata`
+#define SIO_GPIO_OUT_CLR_OFFSET _u(0x00000020)
+#define SIO_GPIO_OUT_CLR_BITS   _u(0xffffffff)
+#define SIO_GPIO_OUT_CLR_RESET  _u(0x00000000)
+#define SIO_GPIO_OUT_CLR_MSB    _u(31)
+#define SIO_GPIO_OUT_CLR_LSB    _u(0)
+#define SIO_GPIO_OUT_CLR_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OUT_CLR
+// Description : Output value clear for GPIO32..47, QSPI IOs and USB pins.
+//               Perform an atomic bit-clear on GPIO_HI_OUT, i.e. `GPIO_HI_OUT
+//               &= ~wdata`
+#define SIO_GPIO_HI_OUT_CLR_OFFSET _u(0x00000024)
+#define SIO_GPIO_HI_OUT_CLR_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OUT_CLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_QSPI_SD
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_QSPI_CSN
+#define SIO_GPIO_HI_OUT_CLR_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_QSPI_SCK
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OUT_CLR_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_USB_DM
+#define SIO_GPIO_HI_OUT_CLR_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_CLR_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OUT_CLR_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OUT_CLR_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OUT_CLR_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_USB_DP
+#define SIO_GPIO_HI_OUT_CLR_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_CLR_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OUT_CLR_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OUT_CLR_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OUT_CLR_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_CLR_GPIO
+#define SIO_GPIO_HI_OUT_CLR_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OUT_CLR_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OUT_CLR_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OUT_CLR_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OUT_CLR_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_OUT_XOR
+// Description : GPIO0...31 output value XOR
+//               Perform an atomic bitwise XOR on GPIO_OUT, i.e. `GPIO_OUT ^=
+//               wdata`
+#define SIO_GPIO_OUT_XOR_OFFSET _u(0x00000028)
+#define SIO_GPIO_OUT_XOR_BITS   _u(0xffffffff)
+#define SIO_GPIO_OUT_XOR_RESET  _u(0x00000000)
+#define SIO_GPIO_OUT_XOR_MSB    _u(31)
+#define SIO_GPIO_OUT_XOR_LSB    _u(0)
+#define SIO_GPIO_OUT_XOR_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OUT_XOR
+// Description : Output value XOR for GPIO32..47, QSPI IOs and USB pins.
+//               Perform an atomic bitwise XOR on GPIO_HI_OUT, i.e. `GPIO_HI_OUT
+//               ^= wdata`
+#define SIO_GPIO_HI_OUT_XOR_OFFSET _u(0x0000002c)
+#define SIO_GPIO_HI_OUT_XOR_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OUT_XOR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_QSPI_SD
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_QSPI_CSN
+#define SIO_GPIO_HI_OUT_XOR_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_QSPI_SCK
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OUT_XOR_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_USB_DM
+#define SIO_GPIO_HI_OUT_XOR_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_XOR_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OUT_XOR_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OUT_XOR_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OUT_XOR_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_USB_DP
+#define SIO_GPIO_HI_OUT_XOR_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OUT_XOR_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OUT_XOR_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OUT_XOR_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OUT_XOR_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OUT_XOR_GPIO
+#define SIO_GPIO_HI_OUT_XOR_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OUT_XOR_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OUT_XOR_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OUT_XOR_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OUT_XOR_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_OE
+// Description : GPIO0...31 output enable
+//               Set output enable (1/0 -> output/input) for GPIO0...31. Reading
+//               back gives the last value written.
+//
+//               If core 0 and core 1 both write to GPIO_OE simultaneously (or
+//               to a SET/CLR/XOR alias), the result is as though the write from
+//               core 0 took place first, and the write from core 1 was then
+//               applied to that intermediate result.
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               ignore writes, and their output status reads back as zero. This
+//               is also true for SET/CLR/XOR aliases of this register.
+#define SIO_GPIO_OE_OFFSET _u(0x00000030)
+#define SIO_GPIO_OE_BITS   _u(0xffffffff)
+#define SIO_GPIO_OE_RESET  _u(0x00000000)
+#define SIO_GPIO_OE_MSB    _u(31)
+#define SIO_GPIO_OE_LSB    _u(0)
+#define SIO_GPIO_OE_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OE
+// Description : Output enable value for GPIO32...47, QSPI IOs and USB pins.
+//
+//               Write output enable (1/0 -> output/input). Reading back gives
+//               the last value written. If core 0 and core 1 both write to
+//               GPIO_HI_OE simultaneously (or to a SET/CLR/XOR alias), the
+//               result is as though the write from core 0 took place first, and
+//               the write from core 1 was then applied to that intermediate
+//               result.
+//
+//               In the Non-secure SIO, Secure-only GPIOs (as per ACCESSCTRL)
+//               ignore writes, and their output status reads back as zero. This
+//               is also true for SET/CLR/XOR aliases of this register.
+#define SIO_GPIO_HI_OE_OFFSET _u(0x00000034)
+#define SIO_GPIO_HI_OE_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_QSPI_SD
+// Description : Output enable value for QSPI SD0 (MOSI), SD1 (MISO), SD2 and
+//               SD3 pins
+#define SIO_GPIO_HI_OE_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OE_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OE_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OE_QSPI_SD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_QSPI_CSN
+// Description : Output enable value for QSPI CSn pin
+#define SIO_GPIO_HI_OE_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OE_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OE_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OE_QSPI_CSN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_QSPI_SCK
+// Description : Output enable value for QSPI SCK pin
+#define SIO_GPIO_HI_OE_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OE_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OE_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OE_QSPI_SCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_USB_DM
+// Description : Output enable value for USB D- pin
+#define SIO_GPIO_HI_OE_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OE_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OE_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OE_USB_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_USB_DP
+// Description : Output enable value for USB D+ pin
+#define SIO_GPIO_HI_OE_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OE_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OE_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OE_USB_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_GPIO
+// Description : Output enable value for GPIO32...47
+#define SIO_GPIO_HI_OE_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OE_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OE_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OE_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OE_GPIO_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_GPIO_OE_SET
+// Description : GPIO0...31 output enable set
+//               Perform an atomic bit-set on GPIO_OE, i.e. `GPIO_OE |= wdata`
+#define SIO_GPIO_OE_SET_OFFSET _u(0x00000038)
+#define SIO_GPIO_OE_SET_BITS   _u(0xffffffff)
+#define SIO_GPIO_OE_SET_RESET  _u(0x00000000)
+#define SIO_GPIO_OE_SET_MSB    _u(31)
+#define SIO_GPIO_OE_SET_LSB    _u(0)
+#define SIO_GPIO_OE_SET_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OE_SET
+// Description : Output enable set for GPIO32...47, QSPI IOs and USB pins.
+//               Perform an atomic bit-set on GPIO_HI_OE, i.e. `GPIO_HI_OE |=
+//               wdata`
+#define SIO_GPIO_HI_OE_SET_OFFSET _u(0x0000003c)
+#define SIO_GPIO_HI_OE_SET_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OE_SET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_QSPI_SD
+#define SIO_GPIO_HI_OE_SET_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_SET_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OE_SET_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OE_SET_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OE_SET_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_QSPI_CSN
+#define SIO_GPIO_HI_OE_SET_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_SET_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OE_SET_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OE_SET_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OE_SET_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_QSPI_SCK
+#define SIO_GPIO_HI_OE_SET_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_SET_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OE_SET_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OE_SET_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OE_SET_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_USB_DM
+#define SIO_GPIO_HI_OE_SET_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_SET_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OE_SET_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OE_SET_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OE_SET_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_USB_DP
+#define SIO_GPIO_HI_OE_SET_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_SET_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OE_SET_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OE_SET_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OE_SET_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_SET_GPIO
+#define SIO_GPIO_HI_OE_SET_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OE_SET_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OE_SET_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OE_SET_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OE_SET_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_OE_CLR
+// Description : GPIO0...31 output enable clear
+//               Perform an atomic bit-clear on GPIO_OE, i.e. `GPIO_OE &=
+//               ~wdata`
+#define SIO_GPIO_OE_CLR_OFFSET _u(0x00000040)
+#define SIO_GPIO_OE_CLR_BITS   _u(0xffffffff)
+#define SIO_GPIO_OE_CLR_RESET  _u(0x00000000)
+#define SIO_GPIO_OE_CLR_MSB    _u(31)
+#define SIO_GPIO_OE_CLR_LSB    _u(0)
+#define SIO_GPIO_OE_CLR_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OE_CLR
+// Description : Output enable clear for GPIO32...47, QSPI IOs and USB pins.
+//               Perform an atomic bit-clear on GPIO_HI_OE, i.e. `GPIO_HI_OE &=
+//               ~wdata`
+#define SIO_GPIO_HI_OE_CLR_OFFSET _u(0x00000044)
+#define SIO_GPIO_HI_OE_CLR_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OE_CLR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_QSPI_SD
+#define SIO_GPIO_HI_OE_CLR_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_QSPI_CSN
+#define SIO_GPIO_HI_OE_CLR_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_CLR_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OE_CLR_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OE_CLR_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OE_CLR_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_QSPI_SCK
+#define SIO_GPIO_HI_OE_CLR_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OE_CLR_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_USB_DM
+#define SIO_GPIO_HI_OE_CLR_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_CLR_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OE_CLR_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OE_CLR_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OE_CLR_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_USB_DP
+#define SIO_GPIO_HI_OE_CLR_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_CLR_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OE_CLR_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OE_CLR_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OE_CLR_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_CLR_GPIO
+#define SIO_GPIO_HI_OE_CLR_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OE_CLR_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OE_CLR_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OE_CLR_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OE_CLR_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_OE_XOR
+// Description : GPIO0...31 output enable XOR
+//               Perform an atomic bitwise XOR on GPIO_OE, i.e. `GPIO_OE ^=
+//               wdata`
+#define SIO_GPIO_OE_XOR_OFFSET _u(0x00000048)
+#define SIO_GPIO_OE_XOR_BITS   _u(0xffffffff)
+#define SIO_GPIO_OE_XOR_RESET  _u(0x00000000)
+#define SIO_GPIO_OE_XOR_MSB    _u(31)
+#define SIO_GPIO_OE_XOR_LSB    _u(0)
+#define SIO_GPIO_OE_XOR_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_GPIO_HI_OE_XOR
+// Description : Output enable XOR for GPIO32...47, QSPI IOs and USB pins.
+//               Perform an atomic bitwise XOR on GPIO_HI_OE, i.e. `GPIO_HI_OE
+//               ^= wdata`
+#define SIO_GPIO_HI_OE_XOR_OFFSET _u(0x0000004c)
+#define SIO_GPIO_HI_OE_XOR_BITS   _u(0xff00ffff)
+#define SIO_GPIO_HI_OE_XOR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_QSPI_SD
+#define SIO_GPIO_HI_OE_XOR_QSPI_SD_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SD_BITS   _u(0xf0000000)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SD_MSB    _u(31)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SD_LSB    _u(28)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SD_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_QSPI_CSN
+#define SIO_GPIO_HI_OE_XOR_QSPI_CSN_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_XOR_QSPI_CSN_BITS   _u(0x08000000)
+#define SIO_GPIO_HI_OE_XOR_QSPI_CSN_MSB    _u(27)
+#define SIO_GPIO_HI_OE_XOR_QSPI_CSN_LSB    _u(27)
+#define SIO_GPIO_HI_OE_XOR_QSPI_CSN_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_QSPI_SCK
+#define SIO_GPIO_HI_OE_XOR_QSPI_SCK_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SCK_BITS   _u(0x04000000)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SCK_MSB    _u(26)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SCK_LSB    _u(26)
+#define SIO_GPIO_HI_OE_XOR_QSPI_SCK_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_USB_DM
+#define SIO_GPIO_HI_OE_XOR_USB_DM_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_XOR_USB_DM_BITS   _u(0x02000000)
+#define SIO_GPIO_HI_OE_XOR_USB_DM_MSB    _u(25)
+#define SIO_GPIO_HI_OE_XOR_USB_DM_LSB    _u(25)
+#define SIO_GPIO_HI_OE_XOR_USB_DM_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_USB_DP
+#define SIO_GPIO_HI_OE_XOR_USB_DP_RESET  _u(0x0)
+#define SIO_GPIO_HI_OE_XOR_USB_DP_BITS   _u(0x01000000)
+#define SIO_GPIO_HI_OE_XOR_USB_DP_MSB    _u(24)
+#define SIO_GPIO_HI_OE_XOR_USB_DP_LSB    _u(24)
+#define SIO_GPIO_HI_OE_XOR_USB_DP_ACCESS "WO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_GPIO_HI_OE_XOR_GPIO
+#define SIO_GPIO_HI_OE_XOR_GPIO_RESET  _u(0x0000)
+#define SIO_GPIO_HI_OE_XOR_GPIO_BITS   _u(0x0000ffff)
+#define SIO_GPIO_HI_OE_XOR_GPIO_MSB    _u(15)
+#define SIO_GPIO_HI_OE_XOR_GPIO_LSB    _u(0)
+#define SIO_GPIO_HI_OE_XOR_GPIO_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_FIFO_ST
+// Description : Status register for inter-core FIFOs (mailboxes).
+//               There is one FIFO in the core 0 -> core 1 direction, and one
+//               core 1 -> core 0. Both are 32 bits wide and 8 words deep.
+//               Core 0 can see the read side of the 1->0 FIFO (RX), and the
+//               write side of 0->1 FIFO (TX).
+//               Core 1 can see the read side of the 0->1 FIFO (RX), and the
+//               write side of 1->0 FIFO (TX).
+//               The SIO IRQ for each core is the logical OR of the VLD, WOF and
+//               ROE fields of its FIFO_ST register.
+#define SIO_FIFO_ST_OFFSET _u(0x00000050)
+#define SIO_FIFO_ST_BITS   _u(0x0000000f)
+#define SIO_FIFO_ST_RESET  _u(0x00000002)
+// -----------------------------------------------------------------------------
+// Field       : SIO_FIFO_ST_ROE
+// Description : Sticky flag indicating the RX FIFO was read when empty. This
+//               read was ignored by the FIFO.
+#define SIO_FIFO_ST_ROE_RESET  _u(0x0)
+#define SIO_FIFO_ST_ROE_BITS   _u(0x00000008)
+#define SIO_FIFO_ST_ROE_MSB    _u(3)
+#define SIO_FIFO_ST_ROE_LSB    _u(3)
+#define SIO_FIFO_ST_ROE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : SIO_FIFO_ST_WOF
+// Description : Sticky flag indicating the TX FIFO was written when full. This
+//               write was ignored by the FIFO.
+#define SIO_FIFO_ST_WOF_RESET  _u(0x0)
+#define SIO_FIFO_ST_WOF_BITS   _u(0x00000004)
+#define SIO_FIFO_ST_WOF_MSB    _u(2)
+#define SIO_FIFO_ST_WOF_LSB    _u(2)
+#define SIO_FIFO_ST_WOF_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : SIO_FIFO_ST_RDY
+// Description : Value is 1 if this core's TX FIFO is not full (i.e. if FIFO_WR
+//               is ready for more data)
+#define SIO_FIFO_ST_RDY_RESET  _u(0x1)
+#define SIO_FIFO_ST_RDY_BITS   _u(0x00000002)
+#define SIO_FIFO_ST_RDY_MSB    _u(1)
+#define SIO_FIFO_ST_RDY_LSB    _u(1)
+#define SIO_FIFO_ST_RDY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_FIFO_ST_VLD
+// Description : Value is 1 if this core's RX FIFO is not empty (i.e. if FIFO_RD
+//               is valid)
+#define SIO_FIFO_ST_VLD_RESET  _u(0x0)
+#define SIO_FIFO_ST_VLD_BITS   _u(0x00000001)
+#define SIO_FIFO_ST_VLD_MSB    _u(0)
+#define SIO_FIFO_ST_VLD_LSB    _u(0)
+#define SIO_FIFO_ST_VLD_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_FIFO_WR
+// Description : Write access to this core's TX FIFO
+#define SIO_FIFO_WR_OFFSET _u(0x00000054)
+#define SIO_FIFO_WR_BITS   _u(0xffffffff)
+#define SIO_FIFO_WR_RESET  _u(0x00000000)
+#define SIO_FIFO_WR_MSB    _u(31)
+#define SIO_FIFO_WR_LSB    _u(0)
+#define SIO_FIFO_WR_ACCESS "WF"
+// =============================================================================
+// Register    : SIO_FIFO_RD
+// Description : Read access to this core's RX FIFO
+#define SIO_FIFO_RD_OFFSET _u(0x00000058)
+#define SIO_FIFO_RD_BITS   _u(0xffffffff)
+#define SIO_FIFO_RD_RESET  "-"
+#define SIO_FIFO_RD_MSB    _u(31)
+#define SIO_FIFO_RD_LSB    _u(0)
+#define SIO_FIFO_RD_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_SPINLOCK_ST
+// Description : Spinlock state
+//               A bitmap containing the state of all 32 spinlocks (1=locked).
+//               Mainly intended for debugging.
+#define SIO_SPINLOCK_ST_OFFSET _u(0x0000005c)
+#define SIO_SPINLOCK_ST_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK_ST_RESET  _u(0x00000000)
+#define SIO_SPINLOCK_ST_MSB    _u(31)
+#define SIO_SPINLOCK_ST_LSB    _u(0)
+#define SIO_SPINLOCK_ST_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_ACCUM0
+// Description : Read/write access to accumulator 0
+#define SIO_INTERP0_ACCUM0_OFFSET _u(0x00000080)
+#define SIO_INTERP0_ACCUM0_BITS   _u(0xffffffff)
+#define SIO_INTERP0_ACCUM0_RESET  _u(0x00000000)
+#define SIO_INTERP0_ACCUM0_MSB    _u(31)
+#define SIO_INTERP0_ACCUM0_LSB    _u(0)
+#define SIO_INTERP0_ACCUM0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_ACCUM1
+// Description : Read/write access to accumulator 1
+#define SIO_INTERP0_ACCUM1_OFFSET _u(0x00000084)
+#define SIO_INTERP0_ACCUM1_BITS   _u(0xffffffff)
+#define SIO_INTERP0_ACCUM1_RESET  _u(0x00000000)
+#define SIO_INTERP0_ACCUM1_MSB    _u(31)
+#define SIO_INTERP0_ACCUM1_LSB    _u(0)
+#define SIO_INTERP0_ACCUM1_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_BASE0
+// Description : Read/write access to BASE0 register.
+#define SIO_INTERP0_BASE0_OFFSET _u(0x00000088)
+#define SIO_INTERP0_BASE0_BITS   _u(0xffffffff)
+#define SIO_INTERP0_BASE0_RESET  _u(0x00000000)
+#define SIO_INTERP0_BASE0_MSB    _u(31)
+#define SIO_INTERP0_BASE0_LSB    _u(0)
+#define SIO_INTERP0_BASE0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_BASE1
+// Description : Read/write access to BASE1 register.
+#define SIO_INTERP0_BASE1_OFFSET _u(0x0000008c)
+#define SIO_INTERP0_BASE1_BITS   _u(0xffffffff)
+#define SIO_INTERP0_BASE1_RESET  _u(0x00000000)
+#define SIO_INTERP0_BASE1_MSB    _u(31)
+#define SIO_INTERP0_BASE1_LSB    _u(0)
+#define SIO_INTERP0_BASE1_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_BASE2
+// Description : Read/write access to BASE2 register.
+#define SIO_INTERP0_BASE2_OFFSET _u(0x00000090)
+#define SIO_INTERP0_BASE2_BITS   _u(0xffffffff)
+#define SIO_INTERP0_BASE2_RESET  _u(0x00000000)
+#define SIO_INTERP0_BASE2_MSB    _u(31)
+#define SIO_INTERP0_BASE2_LSB    _u(0)
+#define SIO_INTERP0_BASE2_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_POP_LANE0
+// Description : Read LANE0 result, and simultaneously write lane results to
+//               both accumulators (POP).
+#define SIO_INTERP0_POP_LANE0_OFFSET _u(0x00000094)
+#define SIO_INTERP0_POP_LANE0_BITS   _u(0xffffffff)
+#define SIO_INTERP0_POP_LANE0_RESET  _u(0x00000000)
+#define SIO_INTERP0_POP_LANE0_MSB    _u(31)
+#define SIO_INTERP0_POP_LANE0_LSB    _u(0)
+#define SIO_INTERP0_POP_LANE0_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_POP_LANE1
+// Description : Read LANE1 result, and simultaneously write lane results to
+//               both accumulators (POP).
+#define SIO_INTERP0_POP_LANE1_OFFSET _u(0x00000098)
+#define SIO_INTERP0_POP_LANE1_BITS   _u(0xffffffff)
+#define SIO_INTERP0_POP_LANE1_RESET  _u(0x00000000)
+#define SIO_INTERP0_POP_LANE1_MSB    _u(31)
+#define SIO_INTERP0_POP_LANE1_LSB    _u(0)
+#define SIO_INTERP0_POP_LANE1_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_POP_FULL
+// Description : Read FULL result, and simultaneously write lane results to both
+//               accumulators (POP).
+#define SIO_INTERP0_POP_FULL_OFFSET _u(0x0000009c)
+#define SIO_INTERP0_POP_FULL_BITS   _u(0xffffffff)
+#define SIO_INTERP0_POP_FULL_RESET  _u(0x00000000)
+#define SIO_INTERP0_POP_FULL_MSB    _u(31)
+#define SIO_INTERP0_POP_FULL_LSB    _u(0)
+#define SIO_INTERP0_POP_FULL_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_PEEK_LANE0
+// Description : Read LANE0 result, without altering any internal state (PEEK).
+#define SIO_INTERP0_PEEK_LANE0_OFFSET _u(0x000000a0)
+#define SIO_INTERP0_PEEK_LANE0_BITS   _u(0xffffffff)
+#define SIO_INTERP0_PEEK_LANE0_RESET  _u(0x00000000)
+#define SIO_INTERP0_PEEK_LANE0_MSB    _u(31)
+#define SIO_INTERP0_PEEK_LANE0_LSB    _u(0)
+#define SIO_INTERP0_PEEK_LANE0_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_PEEK_LANE1
+// Description : Read LANE1 result, without altering any internal state (PEEK).
+#define SIO_INTERP0_PEEK_LANE1_OFFSET _u(0x000000a4)
+#define SIO_INTERP0_PEEK_LANE1_BITS   _u(0xffffffff)
+#define SIO_INTERP0_PEEK_LANE1_RESET  _u(0x00000000)
+#define SIO_INTERP0_PEEK_LANE1_MSB    _u(31)
+#define SIO_INTERP0_PEEK_LANE1_LSB    _u(0)
+#define SIO_INTERP0_PEEK_LANE1_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_PEEK_FULL
+// Description : Read FULL result, without altering any internal state (PEEK).
+#define SIO_INTERP0_PEEK_FULL_OFFSET _u(0x000000a8)
+#define SIO_INTERP0_PEEK_FULL_BITS   _u(0xffffffff)
+#define SIO_INTERP0_PEEK_FULL_RESET  _u(0x00000000)
+#define SIO_INTERP0_PEEK_FULL_MSB    _u(31)
+#define SIO_INTERP0_PEEK_FULL_LSB    _u(0)
+#define SIO_INTERP0_PEEK_FULL_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP0_CTRL_LANE0
+// Description : Control register for lane 0
+#define SIO_INTERP0_CTRL_LANE0_OFFSET _u(0x000000ac)
+#define SIO_INTERP0_CTRL_LANE0_BITS   _u(0x03bfffff)
+#define SIO_INTERP0_CTRL_LANE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_OVERF
+// Description : Set if either OVERF0 or OVERF1 is set.
+#define SIO_INTERP0_CTRL_LANE0_OVERF_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_OVERF_BITS   _u(0x02000000)
+#define SIO_INTERP0_CTRL_LANE0_OVERF_MSB    _u(25)
+#define SIO_INTERP0_CTRL_LANE0_OVERF_LSB    _u(25)
+#define SIO_INTERP0_CTRL_LANE0_OVERF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_OVERF1
+// Description : Indicates if any masked-off MSBs in ACCUM1 are set.
+#define SIO_INTERP0_CTRL_LANE0_OVERF1_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_OVERF1_BITS   _u(0x01000000)
+#define SIO_INTERP0_CTRL_LANE0_OVERF1_MSB    _u(24)
+#define SIO_INTERP0_CTRL_LANE0_OVERF1_LSB    _u(24)
+#define SIO_INTERP0_CTRL_LANE0_OVERF1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_OVERF0
+// Description : Indicates if any masked-off MSBs in ACCUM0 are set.
+#define SIO_INTERP0_CTRL_LANE0_OVERF0_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_OVERF0_BITS   _u(0x00800000)
+#define SIO_INTERP0_CTRL_LANE0_OVERF0_MSB    _u(23)
+#define SIO_INTERP0_CTRL_LANE0_OVERF0_LSB    _u(23)
+#define SIO_INTERP0_CTRL_LANE0_OVERF0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_BLEND
+// Description : Only present on INTERP0 on each core. If BLEND mode is enabled:
+//               - LANE1 result is a linear interpolation between BASE0 and
+//               BASE1, controlled
+//               by the 8 LSBs of lane 1 shift and mask value (a fractional
+//               number between
+//               0 and 255/256ths)
+//               - LANE0 result does not have BASE0 added (yields only the 8
+//               LSBs of lane 1 shift+mask value)
+//               - FULL result does not have lane 1 shift+mask value added
+//               (BASE2 + lane 0 shift+mask)
+//               LANE1 SIGNED flag controls whether the interpolation is signed
+//               or unsigned.
+#define SIO_INTERP0_CTRL_LANE0_BLEND_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_BLEND_BITS   _u(0x00200000)
+#define SIO_INTERP0_CTRL_LANE0_BLEND_MSB    _u(21)
+#define SIO_INTERP0_CTRL_LANE0_BLEND_LSB    _u(21)
+#define SIO_INTERP0_CTRL_LANE0_BLEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_FORCE_MSB
+// Description : ORed into bits 29:28 of the lane result presented to the
+//               processor on the bus.
+//               No effect on the internal 32-bit datapath. Handy for using a
+//               lane to generate sequence
+//               of pointers into flash or SRAM.
+#define SIO_INTERP0_CTRL_LANE0_FORCE_MSB_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_FORCE_MSB_BITS   _u(0x00180000)
+#define SIO_INTERP0_CTRL_LANE0_FORCE_MSB_MSB    _u(20)
+#define SIO_INTERP0_CTRL_LANE0_FORCE_MSB_LSB    _u(19)
+#define SIO_INTERP0_CTRL_LANE0_FORCE_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_ADD_RAW
+// Description : If 1, mask + shift is bypassed for LANE0 result. This does not
+//               affect FULL result.
+#define SIO_INTERP0_CTRL_LANE0_ADD_RAW_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_ADD_RAW_BITS   _u(0x00040000)
+#define SIO_INTERP0_CTRL_LANE0_ADD_RAW_MSB    _u(18)
+#define SIO_INTERP0_CTRL_LANE0_ADD_RAW_LSB    _u(18)
+#define SIO_INTERP0_CTRL_LANE0_ADD_RAW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_CROSS_RESULT
+// Description : If 1, feed the opposite lane's result into this lane's
+//               accumulator on POP.
+#define SIO_INTERP0_CTRL_LANE0_CROSS_RESULT_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_RESULT_BITS   _u(0x00020000)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_RESULT_MSB    _u(17)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_RESULT_LSB    _u(17)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_RESULT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_CROSS_INPUT
+// Description : If 1, feed the opposite lane's accumulator into this lane's
+//               shift + mask hardware.
+//               Takes effect even if ADD_RAW is set (the CROSS_INPUT mux is
+//               before the shift+mask bypass)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_INPUT_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_INPUT_BITS   _u(0x00010000)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_INPUT_MSB    _u(16)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_INPUT_LSB    _u(16)
+#define SIO_INTERP0_CTRL_LANE0_CROSS_INPUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_SIGNED
+// Description : If SIGNED is set, the shifted and masked accumulator value is
+//               sign-extended to 32 bits
+//               before adding to BASE0, and LANE0 PEEK/POP appear extended to
+//               32 bits when read by processor.
+#define SIO_INTERP0_CTRL_LANE0_SIGNED_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE0_SIGNED_BITS   _u(0x00008000)
+#define SIO_INTERP0_CTRL_LANE0_SIGNED_MSB    _u(15)
+#define SIO_INTERP0_CTRL_LANE0_SIGNED_LSB    _u(15)
+#define SIO_INTERP0_CTRL_LANE0_SIGNED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_MASK_MSB
+// Description : The most-significant bit allowed to pass by the mask
+//               (inclusive)
+//               Setting MSB < LSB may cause chip to turn inside-out
+#define SIO_INTERP0_CTRL_LANE0_MASK_MSB_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE0_MASK_MSB_BITS   _u(0x00007c00)
+#define SIO_INTERP0_CTRL_LANE0_MASK_MSB_MSB    _u(14)
+#define SIO_INTERP0_CTRL_LANE0_MASK_MSB_LSB    _u(10)
+#define SIO_INTERP0_CTRL_LANE0_MASK_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_MASK_LSB
+// Description : The least-significant bit allowed to pass by the mask
+//               (inclusive)
+#define SIO_INTERP0_CTRL_LANE0_MASK_LSB_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE0_MASK_LSB_BITS   _u(0x000003e0)
+#define SIO_INTERP0_CTRL_LANE0_MASK_LSB_MSB    _u(9)
+#define SIO_INTERP0_CTRL_LANE0_MASK_LSB_LSB    _u(5)
+#define SIO_INTERP0_CTRL_LANE0_MASK_LSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE0_SHIFT
+// Description : Right-rotate applied to accumulator before masking. By
+//               appropriately configuring the masks, left and right shifts can
+//               be synthesised.
+#define SIO_INTERP0_CTRL_LANE0_SHIFT_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE0_SHIFT_BITS   _u(0x0000001f)
+#define SIO_INTERP0_CTRL_LANE0_SHIFT_MSB    _u(4)
+#define SIO_INTERP0_CTRL_LANE0_SHIFT_LSB    _u(0)
+#define SIO_INTERP0_CTRL_LANE0_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_CTRL_LANE1
+// Description : Control register for lane 1
+#define SIO_INTERP0_CTRL_LANE1_OFFSET _u(0x000000b0)
+#define SIO_INTERP0_CTRL_LANE1_BITS   _u(0x001fffff)
+#define SIO_INTERP0_CTRL_LANE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_FORCE_MSB
+// Description : ORed into bits 29:28 of the lane result presented to the
+//               processor on the bus.
+//               No effect on the internal 32-bit datapath. Handy for using a
+//               lane to generate sequence
+//               of pointers into flash or SRAM.
+#define SIO_INTERP0_CTRL_LANE1_FORCE_MSB_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE1_FORCE_MSB_BITS   _u(0x00180000)
+#define SIO_INTERP0_CTRL_LANE1_FORCE_MSB_MSB    _u(20)
+#define SIO_INTERP0_CTRL_LANE1_FORCE_MSB_LSB    _u(19)
+#define SIO_INTERP0_CTRL_LANE1_FORCE_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_ADD_RAW
+// Description : If 1, mask + shift is bypassed for LANE1 result. This does not
+//               affect FULL result.
+#define SIO_INTERP0_CTRL_LANE1_ADD_RAW_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE1_ADD_RAW_BITS   _u(0x00040000)
+#define SIO_INTERP0_CTRL_LANE1_ADD_RAW_MSB    _u(18)
+#define SIO_INTERP0_CTRL_LANE1_ADD_RAW_LSB    _u(18)
+#define SIO_INTERP0_CTRL_LANE1_ADD_RAW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_CROSS_RESULT
+// Description : If 1, feed the opposite lane's result into this lane's
+//               accumulator on POP.
+#define SIO_INTERP0_CTRL_LANE1_CROSS_RESULT_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_RESULT_BITS   _u(0x00020000)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_RESULT_MSB    _u(17)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_RESULT_LSB    _u(17)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_RESULT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_CROSS_INPUT
+// Description : If 1, feed the opposite lane's accumulator into this lane's
+//               shift + mask hardware.
+//               Takes effect even if ADD_RAW is set (the CROSS_INPUT mux is
+//               before the shift+mask bypass)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_INPUT_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_INPUT_BITS   _u(0x00010000)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_INPUT_MSB    _u(16)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_INPUT_LSB    _u(16)
+#define SIO_INTERP0_CTRL_LANE1_CROSS_INPUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_SIGNED
+// Description : If SIGNED is set, the shifted and masked accumulator value is
+//               sign-extended to 32 bits
+//               before adding to BASE1, and LANE1 PEEK/POP appear extended to
+//               32 bits when read by processor.
+#define SIO_INTERP0_CTRL_LANE1_SIGNED_RESET  _u(0x0)
+#define SIO_INTERP0_CTRL_LANE1_SIGNED_BITS   _u(0x00008000)
+#define SIO_INTERP0_CTRL_LANE1_SIGNED_MSB    _u(15)
+#define SIO_INTERP0_CTRL_LANE1_SIGNED_LSB    _u(15)
+#define SIO_INTERP0_CTRL_LANE1_SIGNED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_MASK_MSB
+// Description : The most-significant bit allowed to pass by the mask
+//               (inclusive)
+//               Setting MSB < LSB may cause chip to turn inside-out
+#define SIO_INTERP0_CTRL_LANE1_MASK_MSB_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE1_MASK_MSB_BITS   _u(0x00007c00)
+#define SIO_INTERP0_CTRL_LANE1_MASK_MSB_MSB    _u(14)
+#define SIO_INTERP0_CTRL_LANE1_MASK_MSB_LSB    _u(10)
+#define SIO_INTERP0_CTRL_LANE1_MASK_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_MASK_LSB
+// Description : The least-significant bit allowed to pass by the mask
+//               (inclusive)
+#define SIO_INTERP0_CTRL_LANE1_MASK_LSB_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE1_MASK_LSB_BITS   _u(0x000003e0)
+#define SIO_INTERP0_CTRL_LANE1_MASK_LSB_MSB    _u(9)
+#define SIO_INTERP0_CTRL_LANE1_MASK_LSB_LSB    _u(5)
+#define SIO_INTERP0_CTRL_LANE1_MASK_LSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP0_CTRL_LANE1_SHIFT
+// Description : Right-rotate applied to accumulator before masking. By
+//               appropriately configuring the masks, left and right shifts can
+//               be synthesised.
+#define SIO_INTERP0_CTRL_LANE1_SHIFT_RESET  _u(0x00)
+#define SIO_INTERP0_CTRL_LANE1_SHIFT_BITS   _u(0x0000001f)
+#define SIO_INTERP0_CTRL_LANE1_SHIFT_MSB    _u(4)
+#define SIO_INTERP0_CTRL_LANE1_SHIFT_LSB    _u(0)
+#define SIO_INTERP0_CTRL_LANE1_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_ACCUM0_ADD
+// Description : Values written here are atomically added to ACCUM0
+//               Reading yields lane 0's raw shift and mask value (BASE0 not
+//               added).
+#define SIO_INTERP0_ACCUM0_ADD_OFFSET _u(0x000000b4)
+#define SIO_INTERP0_ACCUM0_ADD_BITS   _u(0x00ffffff)
+#define SIO_INTERP0_ACCUM0_ADD_RESET  _u(0x00000000)
+#define SIO_INTERP0_ACCUM0_ADD_MSB    _u(23)
+#define SIO_INTERP0_ACCUM0_ADD_LSB    _u(0)
+#define SIO_INTERP0_ACCUM0_ADD_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_ACCUM1_ADD
+// Description : Values written here are atomically added to ACCUM1
+//               Reading yields lane 1's raw shift and mask value (BASE1 not
+//               added).
+#define SIO_INTERP0_ACCUM1_ADD_OFFSET _u(0x000000b8)
+#define SIO_INTERP0_ACCUM1_ADD_BITS   _u(0x00ffffff)
+#define SIO_INTERP0_ACCUM1_ADD_RESET  _u(0x00000000)
+#define SIO_INTERP0_ACCUM1_ADD_MSB    _u(23)
+#define SIO_INTERP0_ACCUM1_ADD_LSB    _u(0)
+#define SIO_INTERP0_ACCUM1_ADD_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP0_BASE_1AND0
+// Description : On write, the lower 16 bits go to BASE0, upper bits to BASE1
+//               simultaneously.
+//               Each half is sign-extended to 32 bits if that lane's SIGNED
+//               flag is set.
+#define SIO_INTERP0_BASE_1AND0_OFFSET _u(0x000000bc)
+#define SIO_INTERP0_BASE_1AND0_BITS   _u(0xffffffff)
+#define SIO_INTERP0_BASE_1AND0_RESET  _u(0x00000000)
+#define SIO_INTERP0_BASE_1AND0_MSB    _u(31)
+#define SIO_INTERP0_BASE_1AND0_LSB    _u(0)
+#define SIO_INTERP0_BASE_1AND0_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_INTERP1_ACCUM0
+// Description : Read/write access to accumulator 0
+#define SIO_INTERP1_ACCUM0_OFFSET _u(0x000000c0)
+#define SIO_INTERP1_ACCUM0_BITS   _u(0xffffffff)
+#define SIO_INTERP1_ACCUM0_RESET  _u(0x00000000)
+#define SIO_INTERP1_ACCUM0_MSB    _u(31)
+#define SIO_INTERP1_ACCUM0_LSB    _u(0)
+#define SIO_INTERP1_ACCUM0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_ACCUM1
+// Description : Read/write access to accumulator 1
+#define SIO_INTERP1_ACCUM1_OFFSET _u(0x000000c4)
+#define SIO_INTERP1_ACCUM1_BITS   _u(0xffffffff)
+#define SIO_INTERP1_ACCUM1_RESET  _u(0x00000000)
+#define SIO_INTERP1_ACCUM1_MSB    _u(31)
+#define SIO_INTERP1_ACCUM1_LSB    _u(0)
+#define SIO_INTERP1_ACCUM1_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_BASE0
+// Description : Read/write access to BASE0 register.
+#define SIO_INTERP1_BASE0_OFFSET _u(0x000000c8)
+#define SIO_INTERP1_BASE0_BITS   _u(0xffffffff)
+#define SIO_INTERP1_BASE0_RESET  _u(0x00000000)
+#define SIO_INTERP1_BASE0_MSB    _u(31)
+#define SIO_INTERP1_BASE0_LSB    _u(0)
+#define SIO_INTERP1_BASE0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_BASE1
+// Description : Read/write access to BASE1 register.
+#define SIO_INTERP1_BASE1_OFFSET _u(0x000000cc)
+#define SIO_INTERP1_BASE1_BITS   _u(0xffffffff)
+#define SIO_INTERP1_BASE1_RESET  _u(0x00000000)
+#define SIO_INTERP1_BASE1_MSB    _u(31)
+#define SIO_INTERP1_BASE1_LSB    _u(0)
+#define SIO_INTERP1_BASE1_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_BASE2
+// Description : Read/write access to BASE2 register.
+#define SIO_INTERP1_BASE2_OFFSET _u(0x000000d0)
+#define SIO_INTERP1_BASE2_BITS   _u(0xffffffff)
+#define SIO_INTERP1_BASE2_RESET  _u(0x00000000)
+#define SIO_INTERP1_BASE2_MSB    _u(31)
+#define SIO_INTERP1_BASE2_LSB    _u(0)
+#define SIO_INTERP1_BASE2_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_POP_LANE0
+// Description : Read LANE0 result, and simultaneously write lane results to
+//               both accumulators (POP).
+#define SIO_INTERP1_POP_LANE0_OFFSET _u(0x000000d4)
+#define SIO_INTERP1_POP_LANE0_BITS   _u(0xffffffff)
+#define SIO_INTERP1_POP_LANE0_RESET  _u(0x00000000)
+#define SIO_INTERP1_POP_LANE0_MSB    _u(31)
+#define SIO_INTERP1_POP_LANE0_LSB    _u(0)
+#define SIO_INTERP1_POP_LANE0_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_POP_LANE1
+// Description : Read LANE1 result, and simultaneously write lane results to
+//               both accumulators (POP).
+#define SIO_INTERP1_POP_LANE1_OFFSET _u(0x000000d8)
+#define SIO_INTERP1_POP_LANE1_BITS   _u(0xffffffff)
+#define SIO_INTERP1_POP_LANE1_RESET  _u(0x00000000)
+#define SIO_INTERP1_POP_LANE1_MSB    _u(31)
+#define SIO_INTERP1_POP_LANE1_LSB    _u(0)
+#define SIO_INTERP1_POP_LANE1_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_POP_FULL
+// Description : Read FULL result, and simultaneously write lane results to both
+//               accumulators (POP).
+#define SIO_INTERP1_POP_FULL_OFFSET _u(0x000000dc)
+#define SIO_INTERP1_POP_FULL_BITS   _u(0xffffffff)
+#define SIO_INTERP1_POP_FULL_RESET  _u(0x00000000)
+#define SIO_INTERP1_POP_FULL_MSB    _u(31)
+#define SIO_INTERP1_POP_FULL_LSB    _u(0)
+#define SIO_INTERP1_POP_FULL_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_PEEK_LANE0
+// Description : Read LANE0 result, without altering any internal state (PEEK).
+#define SIO_INTERP1_PEEK_LANE0_OFFSET _u(0x000000e0)
+#define SIO_INTERP1_PEEK_LANE0_BITS   _u(0xffffffff)
+#define SIO_INTERP1_PEEK_LANE0_RESET  _u(0x00000000)
+#define SIO_INTERP1_PEEK_LANE0_MSB    _u(31)
+#define SIO_INTERP1_PEEK_LANE0_LSB    _u(0)
+#define SIO_INTERP1_PEEK_LANE0_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_PEEK_LANE1
+// Description : Read LANE1 result, without altering any internal state (PEEK).
+#define SIO_INTERP1_PEEK_LANE1_OFFSET _u(0x000000e4)
+#define SIO_INTERP1_PEEK_LANE1_BITS   _u(0xffffffff)
+#define SIO_INTERP1_PEEK_LANE1_RESET  _u(0x00000000)
+#define SIO_INTERP1_PEEK_LANE1_MSB    _u(31)
+#define SIO_INTERP1_PEEK_LANE1_LSB    _u(0)
+#define SIO_INTERP1_PEEK_LANE1_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_PEEK_FULL
+// Description : Read FULL result, without altering any internal state (PEEK).
+#define SIO_INTERP1_PEEK_FULL_OFFSET _u(0x000000e8)
+#define SIO_INTERP1_PEEK_FULL_BITS   _u(0xffffffff)
+#define SIO_INTERP1_PEEK_FULL_RESET  _u(0x00000000)
+#define SIO_INTERP1_PEEK_FULL_MSB    _u(31)
+#define SIO_INTERP1_PEEK_FULL_LSB    _u(0)
+#define SIO_INTERP1_PEEK_FULL_ACCESS "RO"
+// =============================================================================
+// Register    : SIO_INTERP1_CTRL_LANE0
+// Description : Control register for lane 0
+#define SIO_INTERP1_CTRL_LANE0_OFFSET _u(0x000000ec)
+#define SIO_INTERP1_CTRL_LANE0_BITS   _u(0x03dfffff)
+#define SIO_INTERP1_CTRL_LANE0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_OVERF
+// Description : Set if either OVERF0 or OVERF1 is set.
+#define SIO_INTERP1_CTRL_LANE0_OVERF_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_OVERF_BITS   _u(0x02000000)
+#define SIO_INTERP1_CTRL_LANE0_OVERF_MSB    _u(25)
+#define SIO_INTERP1_CTRL_LANE0_OVERF_LSB    _u(25)
+#define SIO_INTERP1_CTRL_LANE0_OVERF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_OVERF1
+// Description : Indicates if any masked-off MSBs in ACCUM1 are set.
+#define SIO_INTERP1_CTRL_LANE0_OVERF1_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_OVERF1_BITS   _u(0x01000000)
+#define SIO_INTERP1_CTRL_LANE0_OVERF1_MSB    _u(24)
+#define SIO_INTERP1_CTRL_LANE0_OVERF1_LSB    _u(24)
+#define SIO_INTERP1_CTRL_LANE0_OVERF1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_OVERF0
+// Description : Indicates if any masked-off MSBs in ACCUM0 are set.
+#define SIO_INTERP1_CTRL_LANE0_OVERF0_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_OVERF0_BITS   _u(0x00800000)
+#define SIO_INTERP1_CTRL_LANE0_OVERF0_MSB    _u(23)
+#define SIO_INTERP1_CTRL_LANE0_OVERF0_LSB    _u(23)
+#define SIO_INTERP1_CTRL_LANE0_OVERF0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_CLAMP
+// Description : Only present on INTERP1 on each core. If CLAMP mode is enabled:
+//               - LANE0 result is shifted and masked ACCUM0, clamped by a lower
+//               bound of
+//               BASE0 and an upper bound of BASE1.
+//               - Signedness of these comparisons is determined by
+//               LANE0_CTRL_SIGNED
+#define SIO_INTERP1_CTRL_LANE0_CLAMP_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_CLAMP_BITS   _u(0x00400000)
+#define SIO_INTERP1_CTRL_LANE0_CLAMP_MSB    _u(22)
+#define SIO_INTERP1_CTRL_LANE0_CLAMP_LSB    _u(22)
+#define SIO_INTERP1_CTRL_LANE0_CLAMP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_FORCE_MSB
+// Description : ORed into bits 29:28 of the lane result presented to the
+//               processor on the bus.
+//               No effect on the internal 32-bit datapath. Handy for using a
+//               lane to generate sequence
+//               of pointers into flash or SRAM.
+#define SIO_INTERP1_CTRL_LANE0_FORCE_MSB_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_FORCE_MSB_BITS   _u(0x00180000)
+#define SIO_INTERP1_CTRL_LANE0_FORCE_MSB_MSB    _u(20)
+#define SIO_INTERP1_CTRL_LANE0_FORCE_MSB_LSB    _u(19)
+#define SIO_INTERP1_CTRL_LANE0_FORCE_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_ADD_RAW
+// Description : If 1, mask + shift is bypassed for LANE0 result. This does not
+//               affect FULL result.
+#define SIO_INTERP1_CTRL_LANE0_ADD_RAW_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_ADD_RAW_BITS   _u(0x00040000)
+#define SIO_INTERP1_CTRL_LANE0_ADD_RAW_MSB    _u(18)
+#define SIO_INTERP1_CTRL_LANE0_ADD_RAW_LSB    _u(18)
+#define SIO_INTERP1_CTRL_LANE0_ADD_RAW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_CROSS_RESULT
+// Description : If 1, feed the opposite lane's result into this lane's
+//               accumulator on POP.
+#define SIO_INTERP1_CTRL_LANE0_CROSS_RESULT_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_RESULT_BITS   _u(0x00020000)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_RESULT_MSB    _u(17)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_RESULT_LSB    _u(17)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_RESULT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_CROSS_INPUT
+// Description : If 1, feed the opposite lane's accumulator into this lane's
+//               shift + mask hardware.
+//               Takes effect even if ADD_RAW is set (the CROSS_INPUT mux is
+//               before the shift+mask bypass)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_INPUT_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_INPUT_BITS   _u(0x00010000)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_INPUT_MSB    _u(16)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_INPUT_LSB    _u(16)
+#define SIO_INTERP1_CTRL_LANE0_CROSS_INPUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_SIGNED
+// Description : If SIGNED is set, the shifted and masked accumulator value is
+//               sign-extended to 32 bits
+//               before adding to BASE0, and LANE0 PEEK/POP appear extended to
+//               32 bits when read by processor.
+#define SIO_INTERP1_CTRL_LANE0_SIGNED_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE0_SIGNED_BITS   _u(0x00008000)
+#define SIO_INTERP1_CTRL_LANE0_SIGNED_MSB    _u(15)
+#define SIO_INTERP1_CTRL_LANE0_SIGNED_LSB    _u(15)
+#define SIO_INTERP1_CTRL_LANE0_SIGNED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_MASK_MSB
+// Description : The most-significant bit allowed to pass by the mask
+//               (inclusive)
+//               Setting MSB < LSB may cause chip to turn inside-out
+#define SIO_INTERP1_CTRL_LANE0_MASK_MSB_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE0_MASK_MSB_BITS   _u(0x00007c00)
+#define SIO_INTERP1_CTRL_LANE0_MASK_MSB_MSB    _u(14)
+#define SIO_INTERP1_CTRL_LANE0_MASK_MSB_LSB    _u(10)
+#define SIO_INTERP1_CTRL_LANE0_MASK_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_MASK_LSB
+// Description : The least-significant bit allowed to pass by the mask
+//               (inclusive)
+#define SIO_INTERP1_CTRL_LANE0_MASK_LSB_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE0_MASK_LSB_BITS   _u(0x000003e0)
+#define SIO_INTERP1_CTRL_LANE0_MASK_LSB_MSB    _u(9)
+#define SIO_INTERP1_CTRL_LANE0_MASK_LSB_LSB    _u(5)
+#define SIO_INTERP1_CTRL_LANE0_MASK_LSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE0_SHIFT
+// Description : Right-rotate applied to accumulator before masking. By
+//               appropriately configuring the masks, left and right shifts can
+//               be synthesised.
+#define SIO_INTERP1_CTRL_LANE0_SHIFT_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE0_SHIFT_BITS   _u(0x0000001f)
+#define SIO_INTERP1_CTRL_LANE0_SHIFT_MSB    _u(4)
+#define SIO_INTERP1_CTRL_LANE0_SHIFT_LSB    _u(0)
+#define SIO_INTERP1_CTRL_LANE0_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_CTRL_LANE1
+// Description : Control register for lane 1
+#define SIO_INTERP1_CTRL_LANE1_OFFSET _u(0x000000f0)
+#define SIO_INTERP1_CTRL_LANE1_BITS   _u(0x001fffff)
+#define SIO_INTERP1_CTRL_LANE1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_FORCE_MSB
+// Description : ORed into bits 29:28 of the lane result presented to the
+//               processor on the bus.
+//               No effect on the internal 32-bit datapath. Handy for using a
+//               lane to generate sequence
+//               of pointers into flash or SRAM.
+#define SIO_INTERP1_CTRL_LANE1_FORCE_MSB_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE1_FORCE_MSB_BITS   _u(0x00180000)
+#define SIO_INTERP1_CTRL_LANE1_FORCE_MSB_MSB    _u(20)
+#define SIO_INTERP1_CTRL_LANE1_FORCE_MSB_LSB    _u(19)
+#define SIO_INTERP1_CTRL_LANE1_FORCE_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_ADD_RAW
+// Description : If 1, mask + shift is bypassed for LANE1 result. This does not
+//               affect FULL result.
+#define SIO_INTERP1_CTRL_LANE1_ADD_RAW_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE1_ADD_RAW_BITS   _u(0x00040000)
+#define SIO_INTERP1_CTRL_LANE1_ADD_RAW_MSB    _u(18)
+#define SIO_INTERP1_CTRL_LANE1_ADD_RAW_LSB    _u(18)
+#define SIO_INTERP1_CTRL_LANE1_ADD_RAW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_CROSS_RESULT
+// Description : If 1, feed the opposite lane's result into this lane's
+//               accumulator on POP.
+#define SIO_INTERP1_CTRL_LANE1_CROSS_RESULT_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_RESULT_BITS   _u(0x00020000)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_RESULT_MSB    _u(17)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_RESULT_LSB    _u(17)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_RESULT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_CROSS_INPUT
+// Description : If 1, feed the opposite lane's accumulator into this lane's
+//               shift + mask hardware.
+//               Takes effect even if ADD_RAW is set (the CROSS_INPUT mux is
+//               before the shift+mask bypass)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_INPUT_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_INPUT_BITS   _u(0x00010000)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_INPUT_MSB    _u(16)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_INPUT_LSB    _u(16)
+#define SIO_INTERP1_CTRL_LANE1_CROSS_INPUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_SIGNED
+// Description : If SIGNED is set, the shifted and masked accumulator value is
+//               sign-extended to 32 bits
+//               before adding to BASE1, and LANE1 PEEK/POP appear extended to
+//               32 bits when read by processor.
+#define SIO_INTERP1_CTRL_LANE1_SIGNED_RESET  _u(0x0)
+#define SIO_INTERP1_CTRL_LANE1_SIGNED_BITS   _u(0x00008000)
+#define SIO_INTERP1_CTRL_LANE1_SIGNED_MSB    _u(15)
+#define SIO_INTERP1_CTRL_LANE1_SIGNED_LSB    _u(15)
+#define SIO_INTERP1_CTRL_LANE1_SIGNED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_MASK_MSB
+// Description : The most-significant bit allowed to pass by the mask
+//               (inclusive)
+//               Setting MSB < LSB may cause chip to turn inside-out
+#define SIO_INTERP1_CTRL_LANE1_MASK_MSB_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE1_MASK_MSB_BITS   _u(0x00007c00)
+#define SIO_INTERP1_CTRL_LANE1_MASK_MSB_MSB    _u(14)
+#define SIO_INTERP1_CTRL_LANE1_MASK_MSB_LSB    _u(10)
+#define SIO_INTERP1_CTRL_LANE1_MASK_MSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_MASK_LSB
+// Description : The least-significant bit allowed to pass by the mask
+//               (inclusive)
+#define SIO_INTERP1_CTRL_LANE1_MASK_LSB_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE1_MASK_LSB_BITS   _u(0x000003e0)
+#define SIO_INTERP1_CTRL_LANE1_MASK_LSB_MSB    _u(9)
+#define SIO_INTERP1_CTRL_LANE1_MASK_LSB_LSB    _u(5)
+#define SIO_INTERP1_CTRL_LANE1_MASK_LSB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_INTERP1_CTRL_LANE1_SHIFT
+// Description : Right-rotate applied to accumulator before masking. By
+//               appropriately configuring the masks, left and right shifts can
+//               be synthesised.
+#define SIO_INTERP1_CTRL_LANE1_SHIFT_RESET  _u(0x00)
+#define SIO_INTERP1_CTRL_LANE1_SHIFT_BITS   _u(0x0000001f)
+#define SIO_INTERP1_CTRL_LANE1_SHIFT_MSB    _u(4)
+#define SIO_INTERP1_CTRL_LANE1_SHIFT_LSB    _u(0)
+#define SIO_INTERP1_CTRL_LANE1_SHIFT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_ACCUM0_ADD
+// Description : Values written here are atomically added to ACCUM0
+//               Reading yields lane 0's raw shift and mask value (BASE0 not
+//               added).
+#define SIO_INTERP1_ACCUM0_ADD_OFFSET _u(0x000000f4)
+#define SIO_INTERP1_ACCUM0_ADD_BITS   _u(0x00ffffff)
+#define SIO_INTERP1_ACCUM0_ADD_RESET  _u(0x00000000)
+#define SIO_INTERP1_ACCUM0_ADD_MSB    _u(23)
+#define SIO_INTERP1_ACCUM0_ADD_LSB    _u(0)
+#define SIO_INTERP1_ACCUM0_ADD_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_ACCUM1_ADD
+// Description : Values written here are atomically added to ACCUM1
+//               Reading yields lane 1's raw shift and mask value (BASE1 not
+//               added).
+#define SIO_INTERP1_ACCUM1_ADD_OFFSET _u(0x000000f8)
+#define SIO_INTERP1_ACCUM1_ADD_BITS   _u(0x00ffffff)
+#define SIO_INTERP1_ACCUM1_ADD_RESET  _u(0x00000000)
+#define SIO_INTERP1_ACCUM1_ADD_MSB    _u(23)
+#define SIO_INTERP1_ACCUM1_ADD_LSB    _u(0)
+#define SIO_INTERP1_ACCUM1_ADD_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_INTERP1_BASE_1AND0
+// Description : On write, the lower 16 bits go to BASE0, upper bits to BASE1
+//               simultaneously.
+//               Each half is sign-extended to 32 bits if that lane's SIGNED
+//               flag is set.
+#define SIO_INTERP1_BASE_1AND0_OFFSET _u(0x000000fc)
+#define SIO_INTERP1_BASE_1AND0_BITS   _u(0xffffffff)
+#define SIO_INTERP1_BASE_1AND0_RESET  _u(0x00000000)
+#define SIO_INTERP1_BASE_1AND0_MSB    _u(31)
+#define SIO_INTERP1_BASE_1AND0_LSB    _u(0)
+#define SIO_INTERP1_BASE_1AND0_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_SPINLOCK0
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK0_OFFSET _u(0x00000100)
+#define SIO_SPINLOCK0_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK0_RESET  _u(0x00000000)
+#define SIO_SPINLOCK0_MSB    _u(31)
+#define SIO_SPINLOCK0_LSB    _u(0)
+#define SIO_SPINLOCK0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK1
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK1_OFFSET _u(0x00000104)
+#define SIO_SPINLOCK1_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK1_RESET  _u(0x00000000)
+#define SIO_SPINLOCK1_MSB    _u(31)
+#define SIO_SPINLOCK1_LSB    _u(0)
+#define SIO_SPINLOCK1_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK2
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK2_OFFSET _u(0x00000108)
+#define SIO_SPINLOCK2_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK2_RESET  _u(0x00000000)
+#define SIO_SPINLOCK2_MSB    _u(31)
+#define SIO_SPINLOCK2_LSB    _u(0)
+#define SIO_SPINLOCK2_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK3
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK3_OFFSET _u(0x0000010c)
+#define SIO_SPINLOCK3_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK3_RESET  _u(0x00000000)
+#define SIO_SPINLOCK3_MSB    _u(31)
+#define SIO_SPINLOCK3_LSB    _u(0)
+#define SIO_SPINLOCK3_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK4
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK4_OFFSET _u(0x00000110)
+#define SIO_SPINLOCK4_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK4_RESET  _u(0x00000000)
+#define SIO_SPINLOCK4_MSB    _u(31)
+#define SIO_SPINLOCK4_LSB    _u(0)
+#define SIO_SPINLOCK4_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK5
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK5_OFFSET _u(0x00000114)
+#define SIO_SPINLOCK5_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK5_RESET  _u(0x00000000)
+#define SIO_SPINLOCK5_MSB    _u(31)
+#define SIO_SPINLOCK5_LSB    _u(0)
+#define SIO_SPINLOCK5_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK6
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK6_OFFSET _u(0x00000118)
+#define SIO_SPINLOCK6_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK6_RESET  _u(0x00000000)
+#define SIO_SPINLOCK6_MSB    _u(31)
+#define SIO_SPINLOCK6_LSB    _u(0)
+#define SIO_SPINLOCK6_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK7
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK7_OFFSET _u(0x0000011c)
+#define SIO_SPINLOCK7_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK7_RESET  _u(0x00000000)
+#define SIO_SPINLOCK7_MSB    _u(31)
+#define SIO_SPINLOCK7_LSB    _u(0)
+#define SIO_SPINLOCK7_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK8
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK8_OFFSET _u(0x00000120)
+#define SIO_SPINLOCK8_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK8_RESET  _u(0x00000000)
+#define SIO_SPINLOCK8_MSB    _u(31)
+#define SIO_SPINLOCK8_LSB    _u(0)
+#define SIO_SPINLOCK8_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK9
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK9_OFFSET _u(0x00000124)
+#define SIO_SPINLOCK9_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK9_RESET  _u(0x00000000)
+#define SIO_SPINLOCK9_MSB    _u(31)
+#define SIO_SPINLOCK9_LSB    _u(0)
+#define SIO_SPINLOCK9_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK10
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK10_OFFSET _u(0x00000128)
+#define SIO_SPINLOCK10_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK10_RESET  _u(0x00000000)
+#define SIO_SPINLOCK10_MSB    _u(31)
+#define SIO_SPINLOCK10_LSB    _u(0)
+#define SIO_SPINLOCK10_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK11
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK11_OFFSET _u(0x0000012c)
+#define SIO_SPINLOCK11_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK11_RESET  _u(0x00000000)
+#define SIO_SPINLOCK11_MSB    _u(31)
+#define SIO_SPINLOCK11_LSB    _u(0)
+#define SIO_SPINLOCK11_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK12
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK12_OFFSET _u(0x00000130)
+#define SIO_SPINLOCK12_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK12_RESET  _u(0x00000000)
+#define SIO_SPINLOCK12_MSB    _u(31)
+#define SIO_SPINLOCK12_LSB    _u(0)
+#define SIO_SPINLOCK12_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK13
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK13_OFFSET _u(0x00000134)
+#define SIO_SPINLOCK13_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK13_RESET  _u(0x00000000)
+#define SIO_SPINLOCK13_MSB    _u(31)
+#define SIO_SPINLOCK13_LSB    _u(0)
+#define SIO_SPINLOCK13_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK14
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK14_OFFSET _u(0x00000138)
+#define SIO_SPINLOCK14_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK14_RESET  _u(0x00000000)
+#define SIO_SPINLOCK14_MSB    _u(31)
+#define SIO_SPINLOCK14_LSB    _u(0)
+#define SIO_SPINLOCK14_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK15
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK15_OFFSET _u(0x0000013c)
+#define SIO_SPINLOCK15_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK15_RESET  _u(0x00000000)
+#define SIO_SPINLOCK15_MSB    _u(31)
+#define SIO_SPINLOCK15_LSB    _u(0)
+#define SIO_SPINLOCK15_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK16
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK16_OFFSET _u(0x00000140)
+#define SIO_SPINLOCK16_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK16_RESET  _u(0x00000000)
+#define SIO_SPINLOCK16_MSB    _u(31)
+#define SIO_SPINLOCK16_LSB    _u(0)
+#define SIO_SPINLOCK16_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK17
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK17_OFFSET _u(0x00000144)
+#define SIO_SPINLOCK17_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK17_RESET  _u(0x00000000)
+#define SIO_SPINLOCK17_MSB    _u(31)
+#define SIO_SPINLOCK17_LSB    _u(0)
+#define SIO_SPINLOCK17_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK18
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK18_OFFSET _u(0x00000148)
+#define SIO_SPINLOCK18_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK18_RESET  _u(0x00000000)
+#define SIO_SPINLOCK18_MSB    _u(31)
+#define SIO_SPINLOCK18_LSB    _u(0)
+#define SIO_SPINLOCK18_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK19
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK19_OFFSET _u(0x0000014c)
+#define SIO_SPINLOCK19_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK19_RESET  _u(0x00000000)
+#define SIO_SPINLOCK19_MSB    _u(31)
+#define SIO_SPINLOCK19_LSB    _u(0)
+#define SIO_SPINLOCK19_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK20
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK20_OFFSET _u(0x00000150)
+#define SIO_SPINLOCK20_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK20_RESET  _u(0x00000000)
+#define SIO_SPINLOCK20_MSB    _u(31)
+#define SIO_SPINLOCK20_LSB    _u(0)
+#define SIO_SPINLOCK20_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK21
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK21_OFFSET _u(0x00000154)
+#define SIO_SPINLOCK21_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK21_RESET  _u(0x00000000)
+#define SIO_SPINLOCK21_MSB    _u(31)
+#define SIO_SPINLOCK21_LSB    _u(0)
+#define SIO_SPINLOCK21_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK22
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK22_OFFSET _u(0x00000158)
+#define SIO_SPINLOCK22_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK22_RESET  _u(0x00000000)
+#define SIO_SPINLOCK22_MSB    _u(31)
+#define SIO_SPINLOCK22_LSB    _u(0)
+#define SIO_SPINLOCK22_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK23
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK23_OFFSET _u(0x0000015c)
+#define SIO_SPINLOCK23_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK23_RESET  _u(0x00000000)
+#define SIO_SPINLOCK23_MSB    _u(31)
+#define SIO_SPINLOCK23_LSB    _u(0)
+#define SIO_SPINLOCK23_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK24
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK24_OFFSET _u(0x00000160)
+#define SIO_SPINLOCK24_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK24_RESET  _u(0x00000000)
+#define SIO_SPINLOCK24_MSB    _u(31)
+#define SIO_SPINLOCK24_LSB    _u(0)
+#define SIO_SPINLOCK24_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK25
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK25_OFFSET _u(0x00000164)
+#define SIO_SPINLOCK25_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK25_RESET  _u(0x00000000)
+#define SIO_SPINLOCK25_MSB    _u(31)
+#define SIO_SPINLOCK25_LSB    _u(0)
+#define SIO_SPINLOCK25_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK26
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK26_OFFSET _u(0x00000168)
+#define SIO_SPINLOCK26_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK26_RESET  _u(0x00000000)
+#define SIO_SPINLOCK26_MSB    _u(31)
+#define SIO_SPINLOCK26_LSB    _u(0)
+#define SIO_SPINLOCK26_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK27
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK27_OFFSET _u(0x0000016c)
+#define SIO_SPINLOCK27_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK27_RESET  _u(0x00000000)
+#define SIO_SPINLOCK27_MSB    _u(31)
+#define SIO_SPINLOCK27_LSB    _u(0)
+#define SIO_SPINLOCK27_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK28
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK28_OFFSET _u(0x00000170)
+#define SIO_SPINLOCK28_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK28_RESET  _u(0x00000000)
+#define SIO_SPINLOCK28_MSB    _u(31)
+#define SIO_SPINLOCK28_LSB    _u(0)
+#define SIO_SPINLOCK28_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK29
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK29_OFFSET _u(0x00000174)
+#define SIO_SPINLOCK29_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK29_RESET  _u(0x00000000)
+#define SIO_SPINLOCK29_MSB    _u(31)
+#define SIO_SPINLOCK29_LSB    _u(0)
+#define SIO_SPINLOCK29_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK30
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK30_OFFSET _u(0x00000178)
+#define SIO_SPINLOCK30_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK30_RESET  _u(0x00000000)
+#define SIO_SPINLOCK30_MSB    _u(31)
+#define SIO_SPINLOCK30_LSB    _u(0)
+#define SIO_SPINLOCK30_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_SPINLOCK31
+// Description : Reading from a spinlock address will:
+//               - Return 0 if lock is already locked
+//               - Otherwise return nonzero, and simultaneously claim the lock
+//
+//               Writing (any value) releases the lock.
+//               If core 0 and core 1 attempt to claim the same lock
+//               simultaneously, core 0 wins.
+//               The value returned on success is 0x1 << lock number.
+#define SIO_SPINLOCK31_OFFSET _u(0x0000017c)
+#define SIO_SPINLOCK31_BITS   _u(0xffffffff)
+#define SIO_SPINLOCK31_RESET  _u(0x00000000)
+#define SIO_SPINLOCK31_MSB    _u(31)
+#define SIO_SPINLOCK31_LSB    _u(0)
+#define SIO_SPINLOCK31_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_DOORBELL_OUT_SET
+// Description : Trigger a doorbell interrupt on the opposite core.
+//
+//               Write 1 to a bit to set the corresponding bit in DOORBELL_IN on
+//               the opposite core. This raises the opposite core's doorbell
+//               interrupt.
+//
+//               Read to get the status of the doorbells currently asserted on
+//               the opposite core. This is equivalent to that core reading its
+//               own DOORBELL_IN status.
+#define SIO_DOORBELL_OUT_SET_OFFSET _u(0x00000180)
+#define SIO_DOORBELL_OUT_SET_BITS   _u(0x000000ff)
+#define SIO_DOORBELL_OUT_SET_RESET  _u(0x00000000)
+#define SIO_DOORBELL_OUT_SET_MSB    _u(7)
+#define SIO_DOORBELL_OUT_SET_LSB    _u(0)
+#define SIO_DOORBELL_OUT_SET_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_DOORBELL_OUT_CLR
+// Description : Clear doorbells which have been posted to the opposite core.
+//               This register is intended for debugging and initialisation
+//               purposes.
+//
+//               Writing 1 to a bit in DOORBELL_OUT_CLR clears the corresponding
+//               bit in DOORBELL_IN on the opposite core. Clearing all bits will
+//               cause that core's doorbell interrupt to deassert. Since the
+//               usual order of events is for software to send events using
+//               DOORBELL_OUT_SET, and acknowledge incoming events by writing to
+//               DOORBELL_IN_CLR, this register should be used with caution to
+//               avoid race conditions.
+//
+//               Reading returns the status of the doorbells currently asserted
+//               on the other core, i.e. is equivalent to that core reading its
+//               own DOORBELL_IN status.
+#define SIO_DOORBELL_OUT_CLR_OFFSET _u(0x00000184)
+#define SIO_DOORBELL_OUT_CLR_BITS   _u(0x000000ff)
+#define SIO_DOORBELL_OUT_CLR_RESET  _u(0x00000000)
+#define SIO_DOORBELL_OUT_CLR_MSB    _u(7)
+#define SIO_DOORBELL_OUT_CLR_LSB    _u(0)
+#define SIO_DOORBELL_OUT_CLR_ACCESS "WC"
+// =============================================================================
+// Register    : SIO_DOORBELL_IN_SET
+// Description : Write 1s to trigger doorbell interrupts on this core. Read to
+//               get status of doorbells currently asserted on this core.
+#define SIO_DOORBELL_IN_SET_OFFSET _u(0x00000188)
+#define SIO_DOORBELL_IN_SET_BITS   _u(0x000000ff)
+#define SIO_DOORBELL_IN_SET_RESET  _u(0x00000000)
+#define SIO_DOORBELL_IN_SET_MSB    _u(7)
+#define SIO_DOORBELL_IN_SET_LSB    _u(0)
+#define SIO_DOORBELL_IN_SET_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_DOORBELL_IN_CLR
+// Description : Check and acknowledge doorbells posted to this core. This
+//               core's doorbell interrupt is asserted when any bit in this
+//               register is 1.
+//
+//               Write 1 to each bit to clear that bit. The doorbell interrupt
+//               deasserts once all bits are cleared. Read to get status of
+//               doorbells currently asserted on this core.
+#define SIO_DOORBELL_IN_CLR_OFFSET _u(0x0000018c)
+#define SIO_DOORBELL_IN_CLR_BITS   _u(0x000000ff)
+#define SIO_DOORBELL_IN_CLR_RESET  _u(0x00000000)
+#define SIO_DOORBELL_IN_CLR_MSB    _u(7)
+#define SIO_DOORBELL_IN_CLR_LSB    _u(0)
+#define SIO_DOORBELL_IN_CLR_ACCESS "WC"
+// =============================================================================
+// Register    : SIO_PERI_NONSEC
+// Description : Detach certain core-local peripherals from Secure SIO, and
+//               attach them to Non-secure SIO, so that Non-secure software can
+//               use them. Attempting to access one of these peripherals from
+//               the Secure SIO when it is attached to the Non-secure SIO, or
+//               vice versa, will generate a bus error.
+//
+//               This register is per-core, and is only present on the Secure
+//               SIO.
+//
+//               Most SIO hardware is duplicated across the Secure and Non-
+//               secure SIO, so is not listed in this register.
+#define SIO_PERI_NONSEC_OFFSET _u(0x00000190)
+#define SIO_PERI_NONSEC_BITS   _u(0x00000023)
+#define SIO_PERI_NONSEC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_PERI_NONSEC_TMDS
+// Description : IF 1, detach TMDS encoder (of this core) from the Secure SIO,
+//               and attach to the Non-secure SIO.
+#define SIO_PERI_NONSEC_TMDS_RESET  _u(0x0)
+#define SIO_PERI_NONSEC_TMDS_BITS   _u(0x00000020)
+#define SIO_PERI_NONSEC_TMDS_MSB    _u(5)
+#define SIO_PERI_NONSEC_TMDS_LSB    _u(5)
+#define SIO_PERI_NONSEC_TMDS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_PERI_NONSEC_INTERP1
+// Description : If 1, detach interpolator 1 (of this core) from the Secure SIO,
+//               and attach to the Non-secure SIO.
+#define SIO_PERI_NONSEC_INTERP1_RESET  _u(0x0)
+#define SIO_PERI_NONSEC_INTERP1_BITS   _u(0x00000002)
+#define SIO_PERI_NONSEC_INTERP1_MSB    _u(1)
+#define SIO_PERI_NONSEC_INTERP1_LSB    _u(1)
+#define SIO_PERI_NONSEC_INTERP1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_PERI_NONSEC_INTERP0
+// Description : If 1, detach interpolator 0 (of this core) from the Secure SIO,
+//               and attach to the Non-secure SIO.
+#define SIO_PERI_NONSEC_INTERP0_RESET  _u(0x0)
+#define SIO_PERI_NONSEC_INTERP0_BITS   _u(0x00000001)
+#define SIO_PERI_NONSEC_INTERP0_MSB    _u(0)
+#define SIO_PERI_NONSEC_INTERP0_LSB    _u(0)
+#define SIO_PERI_NONSEC_INTERP0_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_RISCV_SOFTIRQ
+// Description : Control the assertion of the standard software interrupt
+//               (MIP.MSIP) on the RISC-V cores.
+//
+//               Unlike the RISC-V timer, this interrupt is not routed to a
+//               normal system-level interrupt line, so can not be used by the
+//               Arm cores.
+//
+//               It is safe for both cores to write to this register on the same
+//               cycle. The set/clear effect is accumulated across both cores,
+//               and then applied. If a flag is both set and cleared on the same
+//               cycle, only the set takes effect.
+#define SIO_RISCV_SOFTIRQ_OFFSET _u(0x000001a0)
+#define SIO_RISCV_SOFTIRQ_BITS   _u(0x00000303)
+#define SIO_RISCV_SOFTIRQ_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_RISCV_SOFTIRQ_CORE1_CLR
+// Description : Write 1 to atomically clear the core 1 software interrupt flag.
+//               Read to get the status of this flag.
+#define SIO_RISCV_SOFTIRQ_CORE1_CLR_RESET  _u(0x0)
+#define SIO_RISCV_SOFTIRQ_CORE1_CLR_BITS   _u(0x00000200)
+#define SIO_RISCV_SOFTIRQ_CORE1_CLR_MSB    _u(9)
+#define SIO_RISCV_SOFTIRQ_CORE1_CLR_LSB    _u(9)
+#define SIO_RISCV_SOFTIRQ_CORE1_CLR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_RISCV_SOFTIRQ_CORE0_CLR
+// Description : Write 1 to atomically clear the core 0 software interrupt flag.
+//               Read to get the status of this flag.
+#define SIO_RISCV_SOFTIRQ_CORE0_CLR_RESET  _u(0x0)
+#define SIO_RISCV_SOFTIRQ_CORE0_CLR_BITS   _u(0x00000100)
+#define SIO_RISCV_SOFTIRQ_CORE0_CLR_MSB    _u(8)
+#define SIO_RISCV_SOFTIRQ_CORE0_CLR_LSB    _u(8)
+#define SIO_RISCV_SOFTIRQ_CORE0_CLR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_RISCV_SOFTIRQ_CORE1_SET
+// Description : Write 1 to atomically set the core 1 software interrupt flag.
+//               Read to get the status of this flag.
+#define SIO_RISCV_SOFTIRQ_CORE1_SET_RESET  _u(0x0)
+#define SIO_RISCV_SOFTIRQ_CORE1_SET_BITS   _u(0x00000002)
+#define SIO_RISCV_SOFTIRQ_CORE1_SET_MSB    _u(1)
+#define SIO_RISCV_SOFTIRQ_CORE1_SET_LSB    _u(1)
+#define SIO_RISCV_SOFTIRQ_CORE1_SET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_RISCV_SOFTIRQ_CORE0_SET
+// Description : Write 1 to atomically set the core 0 software interrupt flag.
+//               Read to get the status of this flag.
+#define SIO_RISCV_SOFTIRQ_CORE0_SET_RESET  _u(0x0)
+#define SIO_RISCV_SOFTIRQ_CORE0_SET_BITS   _u(0x00000001)
+#define SIO_RISCV_SOFTIRQ_CORE0_SET_MSB    _u(0)
+#define SIO_RISCV_SOFTIRQ_CORE0_SET_LSB    _u(0)
+#define SIO_RISCV_SOFTIRQ_CORE0_SET_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_MTIME_CTRL
+// Description : Control register for the RISC-V 64-bit Machine-mode timer. This
+//               timer is only present in the Secure SIO, so is only accessible
+//               to an Arm core in Secure mode or a RISC-V core in Machine mode.
+//
+//               Note whilst this timer follows the RISC-V privileged
+//               specification, it is equally usable by the Arm cores. The
+//               interrupts are routed to normal system-level interrupt lines as
+//               well as to the MIP.MTIP inputs on the RISC-V cores.
+#define SIO_MTIME_CTRL_OFFSET _u(0x000001a4)
+#define SIO_MTIME_CTRL_BITS   _u(0x0000000f)
+#define SIO_MTIME_CTRL_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : SIO_MTIME_CTRL_DBGPAUSE_CORE1
+// Description : If 1, the timer pauses when core 1 is in the debug halt state.
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE1_RESET  _u(0x1)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE1_BITS   _u(0x00000008)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE1_MSB    _u(3)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE1_LSB    _u(3)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_MTIME_CTRL_DBGPAUSE_CORE0
+// Description : If 1, the timer pauses when core 0 is in the debug halt state.
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE0_RESET  _u(0x1)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE0_BITS   _u(0x00000004)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE0_MSB    _u(2)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE0_LSB    _u(2)
+#define SIO_MTIME_CTRL_DBGPAUSE_CORE0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_MTIME_CTRL_FULLSPEED
+// Description : If 1, increment the timer every cycle (i.e. run directly from
+//               the system clock), rather than incrementing on the system-level
+//               timer tick input.
+#define SIO_MTIME_CTRL_FULLSPEED_RESET  _u(0x0)
+#define SIO_MTIME_CTRL_FULLSPEED_BITS   _u(0x00000002)
+#define SIO_MTIME_CTRL_FULLSPEED_MSB    _u(1)
+#define SIO_MTIME_CTRL_FULLSPEED_LSB    _u(1)
+#define SIO_MTIME_CTRL_FULLSPEED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_MTIME_CTRL_EN
+// Description : Timer enable bit. When 0, the timer will not increment
+//               automatically.
+#define SIO_MTIME_CTRL_EN_RESET  _u(0x1)
+#define SIO_MTIME_CTRL_EN_BITS   _u(0x00000001)
+#define SIO_MTIME_CTRL_EN_MSB    _u(0)
+#define SIO_MTIME_CTRL_EN_LSB    _u(0)
+#define SIO_MTIME_CTRL_EN_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_MTIME
+// Description : Read/write access to the high half of RISC-V Machine-mode
+//               timer. This register is shared between both cores. If both
+//               cores write on the same cycle, core 1 takes precedence.
+#define SIO_MTIME_OFFSET _u(0x000001b0)
+#define SIO_MTIME_BITS   _u(0xffffffff)
+#define SIO_MTIME_RESET  _u(0x00000000)
+#define SIO_MTIME_MSB    _u(31)
+#define SIO_MTIME_LSB    _u(0)
+#define SIO_MTIME_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_MTIMEH
+// Description : Read/write access to the high half of RISC-V Machine-mode
+//               timer. This register is shared between both cores. If both
+//               cores write on the same cycle, core 1 takes precedence.
+#define SIO_MTIMEH_OFFSET _u(0x000001b4)
+#define SIO_MTIMEH_BITS   _u(0xffffffff)
+#define SIO_MTIMEH_RESET  _u(0x00000000)
+#define SIO_MTIMEH_MSB    _u(31)
+#define SIO_MTIMEH_LSB    _u(0)
+#define SIO_MTIMEH_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_MTIMECMP
+// Description : Low half of RISC-V Machine-mode timer comparator. This register
+//               is core-local, i.e., each core gets a copy of this register,
+//               with the comparison result routed to its own interrupt line.
+//
+//               The timer interrupt is asserted whenever MTIME is greater than
+//               or equal to MTIMECMP. This comparison is unsigned, and
+//               performed on the full 64-bit values.
+#define SIO_MTIMECMP_OFFSET _u(0x000001b8)
+#define SIO_MTIMECMP_BITS   _u(0xffffffff)
+#define SIO_MTIMECMP_RESET  _u(0xffffffff)
+#define SIO_MTIMECMP_MSB    _u(31)
+#define SIO_MTIMECMP_LSB    _u(0)
+#define SIO_MTIMECMP_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_MTIMECMPH
+// Description : High half of RISC-V Machine-mode timer comparator. This
+//               register is core-local.
+//
+//               The timer interrupt is asserted whenever MTIME is greater than
+//               or equal to MTIMECMP. This comparison is unsigned, and
+//               performed on the full 64-bit values.
+#define SIO_MTIMECMPH_OFFSET _u(0x000001bc)
+#define SIO_MTIMECMPH_BITS   _u(0xffffffff)
+#define SIO_MTIMECMPH_RESET  _u(0xffffffff)
+#define SIO_MTIMECMPH_MSB    _u(31)
+#define SIO_MTIMECMPH_LSB    _u(0)
+#define SIO_MTIMECMPH_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_TMDS_CTRL
+// Description : Control register for TMDS encoder.
+#define SIO_TMDS_CTRL_OFFSET _u(0x000001c0)
+#define SIO_TMDS_CTRL_BITS   _u(0x1f9fffff)
+#define SIO_TMDS_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_CLEAR_BALANCE
+// Description : Clear the running DC balance state of the TMDS encoders. This
+//               bit should be written once at the beginning of each scanline.
+#define SIO_TMDS_CTRL_CLEAR_BALANCE_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_CLEAR_BALANCE_BITS   _u(0x10000000)
+#define SIO_TMDS_CTRL_CLEAR_BALANCE_MSB    _u(28)
+#define SIO_TMDS_CTRL_CLEAR_BALANCE_LSB    _u(28)
+#define SIO_TMDS_CTRL_CLEAR_BALANCE_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_PIX2_NOSHIFT
+// Description : When encoding two pixels's worth of symbols in one cycle (a
+//               read of a PEEK/POP_DOUBLE register), the second encoder sees a
+//               shifted version of the colour data register.
+//
+//               This control disables that shift, so that both encoder layers
+//               see the same pixel data. This is used for pixel doubling.
+#define SIO_TMDS_CTRL_PIX2_NOSHIFT_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_PIX2_NOSHIFT_BITS   _u(0x08000000)
+#define SIO_TMDS_CTRL_PIX2_NOSHIFT_MSB    _u(27)
+#define SIO_TMDS_CTRL_PIX2_NOSHIFT_LSB    _u(27)
+#define SIO_TMDS_CTRL_PIX2_NOSHIFT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_PIX_SHIFT
+// Description : Shift applied to the colour data register with each read of a
+//               POP alias register.
+//
+//               Reading from the POP_SINGLE register, or reading from the
+//               POP_DOUBLE register with PIX2_NOSHIFT set (for pixel doubling),
+//               shifts by the indicated amount.
+//
+//               Reading from a POP_DOUBLE register when PIX2_NOSHIFT is clear
+//               will shift by double the indicated amount. (Shift by 32 means
+//               no shift.)
+//               0x0 -> Do not shift the colour data register.
+//               0x1 -> Shift the colour data register by 1 bit
+//               0x2 -> Shift the colour data register by 2 bits
+//               0x3 -> Shift the colour data register by 4 bits
+//               0x4 -> Shift the colour data register by 8 bits
+//               0x5 -> Shift the colour data register by 16 bits
+#define SIO_TMDS_CTRL_PIX_SHIFT_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_PIX_SHIFT_BITS   _u(0x07000000)
+#define SIO_TMDS_CTRL_PIX_SHIFT_MSB    _u(26)
+#define SIO_TMDS_CTRL_PIX_SHIFT_LSB    _u(24)
+#define SIO_TMDS_CTRL_PIX_SHIFT_ACCESS "RW"
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_0 _u(0x0)
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_1 _u(0x1)
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_2 _u(0x2)
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_4 _u(0x3)
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_8 _u(0x4)
+#define SIO_TMDS_CTRL_PIX_SHIFT_VALUE_16 _u(0x5)
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_INTERLEAVE
+// Description : Enable lane interleaving for reads of PEEK_SINGLE/POP_SINGLE.
+//
+//               When interleaving is disabled, each of the 3 symbols appears as
+//               a contiguous 10-bit field, with lane 0 being the least-
+//               significant and starting at bit 0 of the register.
+//
+//               When interleaving is enabled, the symbols are packed into 5
+//               chunks of 3 lanes times 2 bits (30 bits total). Each chunk
+//               contains two bits of a TMDS symbol per lane, with lane 0 being
+//               the least significant.
+#define SIO_TMDS_CTRL_INTERLEAVE_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_INTERLEAVE_BITS   _u(0x00800000)
+#define SIO_TMDS_CTRL_INTERLEAVE_MSB    _u(23)
+#define SIO_TMDS_CTRL_INTERLEAVE_LSB    _u(23)
+#define SIO_TMDS_CTRL_INTERLEAVE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L2_NBITS
+// Description : Number of valid colour MSBs for lane 2 (1-8 bits, encoded as 0
+//               through 7). Remaining LSBs are masked to 0 after the rotate.
+#define SIO_TMDS_CTRL_L2_NBITS_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L2_NBITS_BITS   _u(0x001c0000)
+#define SIO_TMDS_CTRL_L2_NBITS_MSB    _u(20)
+#define SIO_TMDS_CTRL_L2_NBITS_LSB    _u(18)
+#define SIO_TMDS_CTRL_L2_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L1_NBITS
+// Description : Number of valid colour MSBs for lane 1 (1-8 bits, encoded as 0
+//               through 7). Remaining LSBs are masked to 0 after the rotate.
+#define SIO_TMDS_CTRL_L1_NBITS_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L1_NBITS_BITS   _u(0x00038000)
+#define SIO_TMDS_CTRL_L1_NBITS_MSB    _u(17)
+#define SIO_TMDS_CTRL_L1_NBITS_LSB    _u(15)
+#define SIO_TMDS_CTRL_L1_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L0_NBITS
+// Description : Number of valid colour MSBs for lane 0 (1-8 bits, encoded as 0
+//               through 7). Remaining LSBs are masked to 0 after the rotate.
+#define SIO_TMDS_CTRL_L0_NBITS_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L0_NBITS_BITS   _u(0x00007000)
+#define SIO_TMDS_CTRL_L0_NBITS_MSB    _u(14)
+#define SIO_TMDS_CTRL_L0_NBITS_LSB    _u(12)
+#define SIO_TMDS_CTRL_L0_NBITS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L2_ROT
+// Description : Right-rotate the 16 LSBs of the colour accumulator by 0-15
+//               bits, in order to get the MSB of the lane 2 (red) colour data
+//               aligned with the MSB of the 8-bit encoder input.
+//
+//               For example, for RGB565 (red most significant), red is bits
+//               15:11, so should be right-rotated by 8 bits to align with bits
+//               7:3 of the encoder input.
+#define SIO_TMDS_CTRL_L2_ROT_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L2_ROT_BITS   _u(0x00000f00)
+#define SIO_TMDS_CTRL_L2_ROT_MSB    _u(11)
+#define SIO_TMDS_CTRL_L2_ROT_LSB    _u(8)
+#define SIO_TMDS_CTRL_L2_ROT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L1_ROT
+// Description : Right-rotate the 16 LSBs of the colour accumulator by 0-15
+//               bits, in order to get the MSB of the lane 1 (green) colour data
+//               aligned with the MSB of the 8-bit encoder input.
+//
+//               For example, for RGB565, green is bits 10:5, so should be
+//               right-rotated by 3 bits to align with bits 7:2 of the encoder
+//               input.
+#define SIO_TMDS_CTRL_L1_ROT_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L1_ROT_BITS   _u(0x000000f0)
+#define SIO_TMDS_CTRL_L1_ROT_MSB    _u(7)
+#define SIO_TMDS_CTRL_L1_ROT_LSB    _u(4)
+#define SIO_TMDS_CTRL_L1_ROT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SIO_TMDS_CTRL_L0_ROT
+// Description : Right-rotate the 16 LSBs of the colour accumulator by 0-15
+//               bits, in order to get the MSB of the lane 0 (blue) colour data
+//               aligned with the MSB of the 8-bit encoder input.
+//
+//               For example, for RGB565 (red most significant), blue is bits
+//               4:0, so should be right-rotated by 13 to align with bits 7:3 of
+//               the encoder input.
+#define SIO_TMDS_CTRL_L0_ROT_RESET  _u(0x0)
+#define SIO_TMDS_CTRL_L0_ROT_BITS   _u(0x0000000f)
+#define SIO_TMDS_CTRL_L0_ROT_MSB    _u(3)
+#define SIO_TMDS_CTRL_L0_ROT_LSB    _u(0)
+#define SIO_TMDS_CTRL_L0_ROT_ACCESS "RW"
+// =============================================================================
+// Register    : SIO_TMDS_WDATA
+// Description : Write-only access to the TMDS colour data register.
+#define SIO_TMDS_WDATA_OFFSET _u(0x000001c4)
+#define SIO_TMDS_WDATA_BITS   _u(0xffffffff)
+#define SIO_TMDS_WDATA_RESET  _u(0x00000000)
+#define SIO_TMDS_WDATA_MSB    _u(31)
+#define SIO_TMDS_WDATA_LSB    _u(0)
+#define SIO_TMDS_WDATA_ACCESS "WO"
+// =============================================================================
+// Register    : SIO_TMDS_PEEK_SINGLE
+// Description : Get the encoding of one pixel's worth of colour data, packed
+//               into a 32-bit value (3x10-bit symbols).
+//
+//               The PEEK alias does not shift the colour register when read,
+//               but still advances the running DC balance state of each
+//               encoder. This is useful for pixel doubling.
+#define SIO_TMDS_PEEK_SINGLE_OFFSET _u(0x000001c8)
+#define SIO_TMDS_PEEK_SINGLE_BITS   _u(0xffffffff)
+#define SIO_TMDS_PEEK_SINGLE_RESET  _u(0x00000000)
+#define SIO_TMDS_PEEK_SINGLE_MSB    _u(31)
+#define SIO_TMDS_PEEK_SINGLE_LSB    _u(0)
+#define SIO_TMDS_PEEK_SINGLE_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_POP_SINGLE
+// Description : Get the encoding of one pixel's worth of colour data, packed
+//               into a 32-bit value. The packing is 5 chunks of 3 lanes times 2
+//               bits (30 bits total). Each chunk contains two bits of a TMDS
+//               symbol per lane. This format is intended for shifting out with
+//               the HSTX peripheral on RP2350.
+//
+//               The POP alias shifts the colour register when read, as well as
+//               advancing the running DC balance state of each encoder.
+#define SIO_TMDS_POP_SINGLE_OFFSET _u(0x000001cc)
+#define SIO_TMDS_POP_SINGLE_BITS   _u(0xffffffff)
+#define SIO_TMDS_POP_SINGLE_RESET  _u(0x00000000)
+#define SIO_TMDS_POP_SINGLE_MSB    _u(31)
+#define SIO_TMDS_POP_SINGLE_LSB    _u(0)
+#define SIO_TMDS_POP_SINGLE_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_PEEK_DOUBLE_L0
+// Description : Get lane 0 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The PEEK alias does not shift the colour register when read,
+//               but still advances the lane 0 DC balance state. This is useful
+//               if all 3 lanes' worth of encode are to be read at once, rather
+//               than processing the entire scanline for one lane before moving
+//               to the next lane.
+#define SIO_TMDS_PEEK_DOUBLE_L0_OFFSET _u(0x000001d0)
+#define SIO_TMDS_PEEK_DOUBLE_L0_BITS   _u(0xffffffff)
+#define SIO_TMDS_PEEK_DOUBLE_L0_RESET  _u(0x00000000)
+#define SIO_TMDS_PEEK_DOUBLE_L0_MSB    _u(31)
+#define SIO_TMDS_PEEK_DOUBLE_L0_LSB    _u(0)
+#define SIO_TMDS_PEEK_DOUBLE_L0_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_POP_DOUBLE_L0
+// Description : Get lane 0 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The POP alias shifts the colour register when read, according
+//               to the values of PIX_SHIFT and PIX2_NOSHIFT.
+#define SIO_TMDS_POP_DOUBLE_L0_OFFSET _u(0x000001d4)
+#define SIO_TMDS_POP_DOUBLE_L0_BITS   _u(0xffffffff)
+#define SIO_TMDS_POP_DOUBLE_L0_RESET  _u(0x00000000)
+#define SIO_TMDS_POP_DOUBLE_L0_MSB    _u(31)
+#define SIO_TMDS_POP_DOUBLE_L0_LSB    _u(0)
+#define SIO_TMDS_POP_DOUBLE_L0_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_PEEK_DOUBLE_L1
+// Description : Get lane 1 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The PEEK alias does not shift the colour register when read,
+//               but still advances the lane 1 DC balance state. This is useful
+//               if all 3 lanes' worth of encode are to be read at once, rather
+//               than processing the entire scanline for one lane before moving
+//               to the next lane.
+#define SIO_TMDS_PEEK_DOUBLE_L1_OFFSET _u(0x000001d8)
+#define SIO_TMDS_PEEK_DOUBLE_L1_BITS   _u(0xffffffff)
+#define SIO_TMDS_PEEK_DOUBLE_L1_RESET  _u(0x00000000)
+#define SIO_TMDS_PEEK_DOUBLE_L1_MSB    _u(31)
+#define SIO_TMDS_PEEK_DOUBLE_L1_LSB    _u(0)
+#define SIO_TMDS_PEEK_DOUBLE_L1_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_POP_DOUBLE_L1
+// Description : Get lane 1 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The POP alias shifts the colour register when read, according
+//               to the values of PIX_SHIFT and PIX2_NOSHIFT.
+#define SIO_TMDS_POP_DOUBLE_L1_OFFSET _u(0x000001dc)
+#define SIO_TMDS_POP_DOUBLE_L1_BITS   _u(0xffffffff)
+#define SIO_TMDS_POP_DOUBLE_L1_RESET  _u(0x00000000)
+#define SIO_TMDS_POP_DOUBLE_L1_MSB    _u(31)
+#define SIO_TMDS_POP_DOUBLE_L1_LSB    _u(0)
+#define SIO_TMDS_POP_DOUBLE_L1_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_PEEK_DOUBLE_L2
+// Description : Get lane 2 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The PEEK alias does not shift the colour register when read,
+//               but still advances the lane 2 DC balance state. This is useful
+//               if all 3 lanes' worth of encode are to be read at once, rather
+//               than processing the entire scanline for one lane before moving
+//               to the next lane.
+#define SIO_TMDS_PEEK_DOUBLE_L2_OFFSET _u(0x000001e0)
+#define SIO_TMDS_PEEK_DOUBLE_L2_BITS   _u(0xffffffff)
+#define SIO_TMDS_PEEK_DOUBLE_L2_RESET  _u(0x00000000)
+#define SIO_TMDS_PEEK_DOUBLE_L2_MSB    _u(31)
+#define SIO_TMDS_PEEK_DOUBLE_L2_LSB    _u(0)
+#define SIO_TMDS_PEEK_DOUBLE_L2_ACCESS "RF"
+// =============================================================================
+// Register    : SIO_TMDS_POP_DOUBLE_L2
+// Description : Get lane 2 of the encoding of two pixels' worth of colour data.
+//               Two 10-bit TMDS symbols are packed at the bottom of a 32-bit
+//               word.
+//
+//               The POP alias shifts the colour register when read, according
+//               to the values of PIX_SHIFT and PIX2_NOSHIFT.
+#define SIO_TMDS_POP_DOUBLE_L2_OFFSET _u(0x000001e4)
+#define SIO_TMDS_POP_DOUBLE_L2_BITS   _u(0xffffffff)
+#define SIO_TMDS_POP_DOUBLE_L2_RESET  _u(0x00000000)
+#define SIO_TMDS_POP_DOUBLE_L2_MSB    _u(31)
+#define SIO_TMDS_POP_DOUBLE_L2_LSB    _u(0)
+#define SIO_TMDS_POP_DOUBLE_L2_ACCESS "RF"
+// =============================================================================
+#endif // _HARDWARE_REGS_SIO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/spi.h b/lib/pico-sdk/rp2350/hardware/regs/spi.h
new file mode 100644
index 0000000..d9d3b14
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/spi.h
@@ -0,0 +1,523 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : SPI
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_SPI_H
+#define _HARDWARE_REGS_SPI_H
+// =============================================================================
+// Register    : SPI_SSPCR0
+// Description : Control register 0, SSPCR0 on page 3-4
+#define SPI_SSPCR0_OFFSET _u(0x00000000)
+#define SPI_SSPCR0_BITS   _u(0x0000ffff)
+#define SPI_SSPCR0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR0_SCR
+// Description : Serial clock rate. The value SCR is used to generate the
+//               transmit and receive bit rate of the PrimeCell SSP. The bit
+//               rate is: F SSPCLK CPSDVSR x (1+SCR) where CPSDVSR is an even
+//               value from 2-254, programmed through the SSPCPSR register and
+//               SCR is a value from 0-255.
+#define SPI_SSPCR0_SCR_RESET  _u(0x00)
+#define SPI_SSPCR0_SCR_BITS   _u(0x0000ff00)
+#define SPI_SSPCR0_SCR_MSB    _u(15)
+#define SPI_SSPCR0_SCR_LSB    _u(8)
+#define SPI_SSPCR0_SCR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR0_SPH
+// Description : SSPCLKOUT phase, applicable to Motorola SPI frame format only.
+//               See Motorola SPI frame format on page 2-10.
+#define SPI_SSPCR0_SPH_RESET  _u(0x0)
+#define SPI_SSPCR0_SPH_BITS   _u(0x00000080)
+#define SPI_SSPCR0_SPH_MSB    _u(7)
+#define SPI_SSPCR0_SPH_LSB    _u(7)
+#define SPI_SSPCR0_SPH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR0_SPO
+// Description : SSPCLKOUT polarity, applicable to Motorola SPI frame format
+//               only. See Motorola SPI frame format on page 2-10.
+#define SPI_SSPCR0_SPO_RESET  _u(0x0)
+#define SPI_SSPCR0_SPO_BITS   _u(0x00000040)
+#define SPI_SSPCR0_SPO_MSB    _u(6)
+#define SPI_SSPCR0_SPO_LSB    _u(6)
+#define SPI_SSPCR0_SPO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR0_FRF
+// Description : Frame format: 00 Motorola SPI frame format. 01 TI synchronous
+//               serial frame format. 10 National Microwire frame format. 11
+//               Reserved, undefined operation.
+#define SPI_SSPCR0_FRF_RESET  _u(0x0)
+#define SPI_SSPCR0_FRF_BITS   _u(0x00000030)
+#define SPI_SSPCR0_FRF_MSB    _u(5)
+#define SPI_SSPCR0_FRF_LSB    _u(4)
+#define SPI_SSPCR0_FRF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR0_DSS
+// Description : Data Size Select: 0000 Reserved, undefined operation. 0001
+//               Reserved, undefined operation. 0010 Reserved, undefined
+//               operation. 0011 4-bit data. 0100 5-bit data. 0101 6-bit data.
+//               0110 7-bit data. 0111 8-bit data. 1000 9-bit data. 1001 10-bit
+//               data. 1010 11-bit data. 1011 12-bit data. 1100 13-bit data.
+//               1101 14-bit data. 1110 15-bit data. 1111 16-bit data.
+#define SPI_SSPCR0_DSS_RESET  _u(0x0)
+#define SPI_SSPCR0_DSS_BITS   _u(0x0000000f)
+#define SPI_SSPCR0_DSS_MSB    _u(3)
+#define SPI_SSPCR0_DSS_LSB    _u(0)
+#define SPI_SSPCR0_DSS_ACCESS "RW"
+// =============================================================================
+// Register    : SPI_SSPCR1
+// Description : Control register 1, SSPCR1 on page 3-5
+#define SPI_SSPCR1_OFFSET _u(0x00000004)
+#define SPI_SSPCR1_BITS   _u(0x0000000f)
+#define SPI_SSPCR1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR1_SOD
+// Description : Slave-mode output disable. This bit is relevant only in the
+//               slave mode, MS=1. In multiple-slave systems, it is possible for
+//               an PrimeCell SSP master to broadcast a message to all slaves in
+//               the system while ensuring that only one slave drives data onto
+//               its serial output line. In such systems the RXD lines from
+//               multiple slaves could be tied together. To operate in such
+//               systems, the SOD bit can be set if the PrimeCell SSP slave is
+//               not supposed to drive the SSPTXD line: 0 SSP can drive the
+//               SSPTXD output in slave mode. 1 SSP must not drive the SSPTXD
+//               output in slave mode.
+#define SPI_SSPCR1_SOD_RESET  _u(0x0)
+#define SPI_SSPCR1_SOD_BITS   _u(0x00000008)
+#define SPI_SSPCR1_SOD_MSB    _u(3)
+#define SPI_SSPCR1_SOD_LSB    _u(3)
+#define SPI_SSPCR1_SOD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR1_MS
+// Description : Master or slave mode select. This bit can be modified only when
+//               the PrimeCell SSP is disabled, SSE=0: 0 Device configured as
+//               master, default. 1 Device configured as slave.
+#define SPI_SSPCR1_MS_RESET  _u(0x0)
+#define SPI_SSPCR1_MS_BITS   _u(0x00000004)
+#define SPI_SSPCR1_MS_MSB    _u(2)
+#define SPI_SSPCR1_MS_LSB    _u(2)
+#define SPI_SSPCR1_MS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR1_SSE
+// Description : Synchronous serial port enable: 0 SSP operation disabled. 1 SSP
+//               operation enabled.
+#define SPI_SSPCR1_SSE_RESET  _u(0x0)
+#define SPI_SSPCR1_SSE_BITS   _u(0x00000002)
+#define SPI_SSPCR1_SSE_MSB    _u(1)
+#define SPI_SSPCR1_SSE_LSB    _u(1)
+#define SPI_SSPCR1_SSE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCR1_LBM
+// Description : Loop back mode: 0 Normal serial port operation enabled. 1
+//               Output of transmit serial shifter is connected to input of
+//               receive serial shifter internally.
+#define SPI_SSPCR1_LBM_RESET  _u(0x0)
+#define SPI_SSPCR1_LBM_BITS   _u(0x00000001)
+#define SPI_SSPCR1_LBM_MSB    _u(0)
+#define SPI_SSPCR1_LBM_LSB    _u(0)
+#define SPI_SSPCR1_LBM_ACCESS "RW"
+// =============================================================================
+// Register    : SPI_SSPDR
+// Description : Data register, SSPDR on page 3-6
+#define SPI_SSPDR_OFFSET _u(0x00000008)
+#define SPI_SSPDR_BITS   _u(0x0000ffff)
+#define SPI_SSPDR_RESET  "-"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPDR_DATA
+// Description : Transmit/Receive FIFO: Read Receive FIFO. Write Transmit FIFO.
+//               You must right-justify data when the PrimeCell SSP is
+//               programmed for a data size that is less than 16 bits. Unused
+//               bits at the top are ignored by transmit logic. The receive
+//               logic automatically right-justifies.
+#define SPI_SSPDR_DATA_RESET  "-"
+#define SPI_SSPDR_DATA_BITS   _u(0x0000ffff)
+#define SPI_SSPDR_DATA_MSB    _u(15)
+#define SPI_SSPDR_DATA_LSB    _u(0)
+#define SPI_SSPDR_DATA_ACCESS "RWF"
+// =============================================================================
+// Register    : SPI_SSPSR
+// Description : Status register, SSPSR on page 3-7
+#define SPI_SSPSR_OFFSET _u(0x0000000c)
+#define SPI_SSPSR_BITS   _u(0x0000001f)
+#define SPI_SSPSR_RESET  _u(0x00000003)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPSR_BSY
+// Description : PrimeCell SSP busy flag, RO: 0 SSP is idle. 1 SSP is currently
+//               transmitting and/or receiving a frame or the transmit FIFO is
+//               not empty.
+#define SPI_SSPSR_BSY_RESET  _u(0x0)
+#define SPI_SSPSR_BSY_BITS   _u(0x00000010)
+#define SPI_SSPSR_BSY_MSB    _u(4)
+#define SPI_SSPSR_BSY_LSB    _u(4)
+#define SPI_SSPSR_BSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPSR_RFF
+// Description : Receive FIFO full, RO: 0 Receive FIFO is not full. 1 Receive
+//               FIFO is full.
+#define SPI_SSPSR_RFF_RESET  _u(0x0)
+#define SPI_SSPSR_RFF_BITS   _u(0x00000008)
+#define SPI_SSPSR_RFF_MSB    _u(3)
+#define SPI_SSPSR_RFF_LSB    _u(3)
+#define SPI_SSPSR_RFF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPSR_RNE
+// Description : Receive FIFO not empty, RO: 0 Receive FIFO is empty. 1 Receive
+//               FIFO is not empty.
+#define SPI_SSPSR_RNE_RESET  _u(0x0)
+#define SPI_SSPSR_RNE_BITS   _u(0x00000004)
+#define SPI_SSPSR_RNE_MSB    _u(2)
+#define SPI_SSPSR_RNE_LSB    _u(2)
+#define SPI_SSPSR_RNE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPSR_TNF
+// Description : Transmit FIFO not full, RO: 0 Transmit FIFO is full. 1 Transmit
+//               FIFO is not full.
+#define SPI_SSPSR_TNF_RESET  _u(0x1)
+#define SPI_SSPSR_TNF_BITS   _u(0x00000002)
+#define SPI_SSPSR_TNF_MSB    _u(1)
+#define SPI_SSPSR_TNF_LSB    _u(1)
+#define SPI_SSPSR_TNF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPSR_TFE
+// Description : Transmit FIFO empty, RO: 0 Transmit FIFO is not empty. 1
+//               Transmit FIFO is empty.
+#define SPI_SSPSR_TFE_RESET  _u(0x1)
+#define SPI_SSPSR_TFE_BITS   _u(0x00000001)
+#define SPI_SSPSR_TFE_MSB    _u(0)
+#define SPI_SSPSR_TFE_LSB    _u(0)
+#define SPI_SSPSR_TFE_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPCPSR
+// Description : Clock prescale register, SSPCPSR on page 3-8
+#define SPI_SSPCPSR_OFFSET _u(0x00000010)
+#define SPI_SSPCPSR_BITS   _u(0x000000ff)
+#define SPI_SSPCPSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPCPSR_CPSDVSR
+// Description : Clock prescale divisor. Must be an even number from 2-254,
+//               depending on the frequency of SSPCLK. The least significant bit
+//               always returns zero on reads.
+#define SPI_SSPCPSR_CPSDVSR_RESET  _u(0x00)
+#define SPI_SSPCPSR_CPSDVSR_BITS   _u(0x000000ff)
+#define SPI_SSPCPSR_CPSDVSR_MSB    _u(7)
+#define SPI_SSPCPSR_CPSDVSR_LSB    _u(0)
+#define SPI_SSPCPSR_CPSDVSR_ACCESS "RW"
+// =============================================================================
+// Register    : SPI_SSPIMSC
+// Description : Interrupt mask set or clear register, SSPIMSC on page 3-9
+#define SPI_SSPIMSC_OFFSET _u(0x00000014)
+#define SPI_SSPIMSC_BITS   _u(0x0000000f)
+#define SPI_SSPIMSC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPIMSC_TXIM
+// Description : Transmit FIFO interrupt mask: 0 Transmit FIFO half empty or
+//               less condition interrupt is masked. 1 Transmit FIFO half empty
+//               or less condition interrupt is not masked.
+#define SPI_SSPIMSC_TXIM_RESET  _u(0x0)
+#define SPI_SSPIMSC_TXIM_BITS   _u(0x00000008)
+#define SPI_SSPIMSC_TXIM_MSB    _u(3)
+#define SPI_SSPIMSC_TXIM_LSB    _u(3)
+#define SPI_SSPIMSC_TXIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPIMSC_RXIM
+// Description : Receive FIFO interrupt mask: 0 Receive FIFO half full or less
+//               condition interrupt is masked. 1 Receive FIFO half full or less
+//               condition interrupt is not masked.
+#define SPI_SSPIMSC_RXIM_RESET  _u(0x0)
+#define SPI_SSPIMSC_RXIM_BITS   _u(0x00000004)
+#define SPI_SSPIMSC_RXIM_MSB    _u(2)
+#define SPI_SSPIMSC_RXIM_LSB    _u(2)
+#define SPI_SSPIMSC_RXIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPIMSC_RTIM
+// Description : Receive timeout interrupt mask: 0 Receive FIFO not empty and no
+//               read prior to timeout period interrupt is masked. 1 Receive
+//               FIFO not empty and no read prior to timeout period interrupt is
+//               not masked.
+#define SPI_SSPIMSC_RTIM_RESET  _u(0x0)
+#define SPI_SSPIMSC_RTIM_BITS   _u(0x00000002)
+#define SPI_SSPIMSC_RTIM_MSB    _u(1)
+#define SPI_SSPIMSC_RTIM_LSB    _u(1)
+#define SPI_SSPIMSC_RTIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPIMSC_RORIM
+// Description : Receive overrun interrupt mask: 0 Receive FIFO written to while
+//               full condition interrupt is masked. 1 Receive FIFO written to
+//               while full condition interrupt is not masked.
+#define SPI_SSPIMSC_RORIM_RESET  _u(0x0)
+#define SPI_SSPIMSC_RORIM_BITS   _u(0x00000001)
+#define SPI_SSPIMSC_RORIM_MSB    _u(0)
+#define SPI_SSPIMSC_RORIM_LSB    _u(0)
+#define SPI_SSPIMSC_RORIM_ACCESS "RW"
+// =============================================================================
+// Register    : SPI_SSPRIS
+// Description : Raw interrupt status register, SSPRIS on page 3-10
+#define SPI_SSPRIS_OFFSET _u(0x00000018)
+#define SPI_SSPRIS_BITS   _u(0x0000000f)
+#define SPI_SSPRIS_RESET  _u(0x00000008)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPRIS_TXRIS
+// Description : Gives the raw interrupt state, prior to masking, of the
+//               SSPTXINTR interrupt
+#define SPI_SSPRIS_TXRIS_RESET  _u(0x1)
+#define SPI_SSPRIS_TXRIS_BITS   _u(0x00000008)
+#define SPI_SSPRIS_TXRIS_MSB    _u(3)
+#define SPI_SSPRIS_TXRIS_LSB    _u(3)
+#define SPI_SSPRIS_TXRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPRIS_RXRIS
+// Description : Gives the raw interrupt state, prior to masking, of the
+//               SSPRXINTR interrupt
+#define SPI_SSPRIS_RXRIS_RESET  _u(0x0)
+#define SPI_SSPRIS_RXRIS_BITS   _u(0x00000004)
+#define SPI_SSPRIS_RXRIS_MSB    _u(2)
+#define SPI_SSPRIS_RXRIS_LSB    _u(2)
+#define SPI_SSPRIS_RXRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPRIS_RTRIS
+// Description : Gives the raw interrupt state, prior to masking, of the
+//               SSPRTINTR interrupt
+#define SPI_SSPRIS_RTRIS_RESET  _u(0x0)
+#define SPI_SSPRIS_RTRIS_BITS   _u(0x00000002)
+#define SPI_SSPRIS_RTRIS_MSB    _u(1)
+#define SPI_SSPRIS_RTRIS_LSB    _u(1)
+#define SPI_SSPRIS_RTRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPRIS_RORRIS
+// Description : Gives the raw interrupt state, prior to masking, of the
+//               SSPRORINTR interrupt
+#define SPI_SSPRIS_RORRIS_RESET  _u(0x0)
+#define SPI_SSPRIS_RORRIS_BITS   _u(0x00000001)
+#define SPI_SSPRIS_RORRIS_MSB    _u(0)
+#define SPI_SSPRIS_RORRIS_LSB    _u(0)
+#define SPI_SSPRIS_RORRIS_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPMIS
+// Description : Masked interrupt status register, SSPMIS on page 3-11
+#define SPI_SSPMIS_OFFSET _u(0x0000001c)
+#define SPI_SSPMIS_BITS   _u(0x0000000f)
+#define SPI_SSPMIS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPMIS_TXMIS
+// Description : Gives the transmit FIFO masked interrupt state, after masking,
+//               of the SSPTXINTR interrupt
+#define SPI_SSPMIS_TXMIS_RESET  _u(0x0)
+#define SPI_SSPMIS_TXMIS_BITS   _u(0x00000008)
+#define SPI_SSPMIS_TXMIS_MSB    _u(3)
+#define SPI_SSPMIS_TXMIS_LSB    _u(3)
+#define SPI_SSPMIS_TXMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPMIS_RXMIS
+// Description : Gives the receive FIFO masked interrupt state, after masking,
+//               of the SSPRXINTR interrupt
+#define SPI_SSPMIS_RXMIS_RESET  _u(0x0)
+#define SPI_SSPMIS_RXMIS_BITS   _u(0x00000004)
+#define SPI_SSPMIS_RXMIS_MSB    _u(2)
+#define SPI_SSPMIS_RXMIS_LSB    _u(2)
+#define SPI_SSPMIS_RXMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPMIS_RTMIS
+// Description : Gives the receive timeout masked interrupt state, after
+//               masking, of the SSPRTINTR interrupt
+#define SPI_SSPMIS_RTMIS_RESET  _u(0x0)
+#define SPI_SSPMIS_RTMIS_BITS   _u(0x00000002)
+#define SPI_SSPMIS_RTMIS_MSB    _u(1)
+#define SPI_SSPMIS_RTMIS_LSB    _u(1)
+#define SPI_SSPMIS_RTMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPMIS_RORMIS
+// Description : Gives the receive over run masked interrupt status, after
+//               masking, of the SSPRORINTR interrupt
+#define SPI_SSPMIS_RORMIS_RESET  _u(0x0)
+#define SPI_SSPMIS_RORMIS_BITS   _u(0x00000001)
+#define SPI_SSPMIS_RORMIS_MSB    _u(0)
+#define SPI_SSPMIS_RORMIS_LSB    _u(0)
+#define SPI_SSPMIS_RORMIS_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPICR
+// Description : Interrupt clear register, SSPICR on page 3-11
+#define SPI_SSPICR_OFFSET _u(0x00000020)
+#define SPI_SSPICR_BITS   _u(0x00000003)
+#define SPI_SSPICR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPICR_RTIC
+// Description : Clears the SSPRTINTR interrupt
+#define SPI_SSPICR_RTIC_RESET  _u(0x0)
+#define SPI_SSPICR_RTIC_BITS   _u(0x00000002)
+#define SPI_SSPICR_RTIC_MSB    _u(1)
+#define SPI_SSPICR_RTIC_LSB    _u(1)
+#define SPI_SSPICR_RTIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPICR_RORIC
+// Description : Clears the SSPRORINTR interrupt
+#define SPI_SSPICR_RORIC_RESET  _u(0x0)
+#define SPI_SSPICR_RORIC_BITS   _u(0x00000001)
+#define SPI_SSPICR_RORIC_MSB    _u(0)
+#define SPI_SSPICR_RORIC_LSB    _u(0)
+#define SPI_SSPICR_RORIC_ACCESS "WC"
+// =============================================================================
+// Register    : SPI_SSPDMACR
+// Description : DMA control register, SSPDMACR on page 3-12
+#define SPI_SSPDMACR_OFFSET _u(0x00000024)
+#define SPI_SSPDMACR_BITS   _u(0x00000003)
+#define SPI_SSPDMACR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPDMACR_TXDMAE
+// Description : Transmit DMA Enable. If this bit is set to 1, DMA for the
+//               transmit FIFO is enabled.
+#define SPI_SSPDMACR_TXDMAE_RESET  _u(0x0)
+#define SPI_SSPDMACR_TXDMAE_BITS   _u(0x00000002)
+#define SPI_SSPDMACR_TXDMAE_MSB    _u(1)
+#define SPI_SSPDMACR_TXDMAE_LSB    _u(1)
+#define SPI_SSPDMACR_TXDMAE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPDMACR_RXDMAE
+// Description : Receive DMA Enable. If this bit is set to 1, DMA for the
+//               receive FIFO is enabled.
+#define SPI_SSPDMACR_RXDMAE_RESET  _u(0x0)
+#define SPI_SSPDMACR_RXDMAE_BITS   _u(0x00000001)
+#define SPI_SSPDMACR_RXDMAE_MSB    _u(0)
+#define SPI_SSPDMACR_RXDMAE_LSB    _u(0)
+#define SPI_SSPDMACR_RXDMAE_ACCESS "RW"
+// =============================================================================
+// Register    : SPI_SSPPERIPHID0
+// Description : Peripheral identification registers, SSPPeriphID0-3 on page
+//               3-13
+#define SPI_SSPPERIPHID0_OFFSET _u(0x00000fe0)
+#define SPI_SSPPERIPHID0_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID0_RESET  _u(0x00000022)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID0_PARTNUMBER0
+// Description : These bits read back as 0x22
+#define SPI_SSPPERIPHID0_PARTNUMBER0_RESET  _u(0x22)
+#define SPI_SSPPERIPHID0_PARTNUMBER0_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID0_PARTNUMBER0_MSB    _u(7)
+#define SPI_SSPPERIPHID0_PARTNUMBER0_LSB    _u(0)
+#define SPI_SSPPERIPHID0_PARTNUMBER0_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPERIPHID1
+// Description : Peripheral identification registers, SSPPeriphID0-3 on page
+//               3-13
+#define SPI_SSPPERIPHID1_OFFSET _u(0x00000fe4)
+#define SPI_SSPPERIPHID1_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID1_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID1_DESIGNER0
+// Description : These bits read back as 0x1
+#define SPI_SSPPERIPHID1_DESIGNER0_RESET  _u(0x1)
+#define SPI_SSPPERIPHID1_DESIGNER0_BITS   _u(0x000000f0)
+#define SPI_SSPPERIPHID1_DESIGNER0_MSB    _u(7)
+#define SPI_SSPPERIPHID1_DESIGNER0_LSB    _u(4)
+#define SPI_SSPPERIPHID1_DESIGNER0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID1_PARTNUMBER1
+// Description : These bits read back as 0x0
+#define SPI_SSPPERIPHID1_PARTNUMBER1_RESET  _u(0x0)
+#define SPI_SSPPERIPHID1_PARTNUMBER1_BITS   _u(0x0000000f)
+#define SPI_SSPPERIPHID1_PARTNUMBER1_MSB    _u(3)
+#define SPI_SSPPERIPHID1_PARTNUMBER1_LSB    _u(0)
+#define SPI_SSPPERIPHID1_PARTNUMBER1_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPERIPHID2
+// Description : Peripheral identification registers, SSPPeriphID0-3 on page
+//               3-13
+#define SPI_SSPPERIPHID2_OFFSET _u(0x00000fe8)
+#define SPI_SSPPERIPHID2_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID2_RESET  _u(0x00000034)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID2_REVISION
+// Description : These bits return the peripheral revision
+#define SPI_SSPPERIPHID2_REVISION_RESET  _u(0x3)
+#define SPI_SSPPERIPHID2_REVISION_BITS   _u(0x000000f0)
+#define SPI_SSPPERIPHID2_REVISION_MSB    _u(7)
+#define SPI_SSPPERIPHID2_REVISION_LSB    _u(4)
+#define SPI_SSPPERIPHID2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID2_DESIGNER1
+// Description : These bits read back as 0x4
+#define SPI_SSPPERIPHID2_DESIGNER1_RESET  _u(0x4)
+#define SPI_SSPPERIPHID2_DESIGNER1_BITS   _u(0x0000000f)
+#define SPI_SSPPERIPHID2_DESIGNER1_MSB    _u(3)
+#define SPI_SSPPERIPHID2_DESIGNER1_LSB    _u(0)
+#define SPI_SSPPERIPHID2_DESIGNER1_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPERIPHID3
+// Description : Peripheral identification registers, SSPPeriphID0-3 on page
+//               3-13
+#define SPI_SSPPERIPHID3_OFFSET _u(0x00000fec)
+#define SPI_SSPPERIPHID3_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPERIPHID3_CONFIGURATION
+// Description : These bits read back as 0x00
+#define SPI_SSPPERIPHID3_CONFIGURATION_RESET  _u(0x00)
+#define SPI_SSPPERIPHID3_CONFIGURATION_BITS   _u(0x000000ff)
+#define SPI_SSPPERIPHID3_CONFIGURATION_MSB    _u(7)
+#define SPI_SSPPERIPHID3_CONFIGURATION_LSB    _u(0)
+#define SPI_SSPPERIPHID3_CONFIGURATION_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPCELLID0
+// Description : PrimeCell identification registers, SSPPCellID0-3 on page 3-16
+#define SPI_SSPPCELLID0_OFFSET _u(0x00000ff0)
+#define SPI_SSPPCELLID0_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPCELLID0_SSPPCELLID0
+// Description : These bits read back as 0x0D
+#define SPI_SSPPCELLID0_SSPPCELLID0_RESET  _u(0x0d)
+#define SPI_SSPPCELLID0_SSPPCELLID0_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID0_SSPPCELLID0_MSB    _u(7)
+#define SPI_SSPPCELLID0_SSPPCELLID0_LSB    _u(0)
+#define SPI_SSPPCELLID0_SSPPCELLID0_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPCELLID1
+// Description : PrimeCell identification registers, SSPPCellID0-3 on page 3-16
+#define SPI_SSPPCELLID1_OFFSET _u(0x00000ff4)
+#define SPI_SSPPCELLID1_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID1_RESET  _u(0x000000f0)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPCELLID1_SSPPCELLID1
+// Description : These bits read back as 0xF0
+#define SPI_SSPPCELLID1_SSPPCELLID1_RESET  _u(0xf0)
+#define SPI_SSPPCELLID1_SSPPCELLID1_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID1_SSPPCELLID1_MSB    _u(7)
+#define SPI_SSPPCELLID1_SSPPCELLID1_LSB    _u(0)
+#define SPI_SSPPCELLID1_SSPPCELLID1_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPCELLID2
+// Description : PrimeCell identification registers, SSPPCellID0-3 on page 3-16
+#define SPI_SSPPCELLID2_OFFSET _u(0x00000ff8)
+#define SPI_SSPPCELLID2_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPCELLID2_SSPPCELLID2
+// Description : These bits read back as 0x05
+#define SPI_SSPPCELLID2_SSPPCELLID2_RESET  _u(0x05)
+#define SPI_SSPPCELLID2_SSPPCELLID2_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID2_SSPPCELLID2_MSB    _u(7)
+#define SPI_SSPPCELLID2_SSPPCELLID2_LSB    _u(0)
+#define SPI_SSPPCELLID2_SSPPCELLID2_ACCESS "RO"
+// =============================================================================
+// Register    : SPI_SSPPCELLID3
+// Description : PrimeCell identification registers, SSPPCellID0-3 on page 3-16
+#define SPI_SSPPCELLID3_OFFSET _u(0x00000ffc)
+#define SPI_SSPPCELLID3_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : SPI_SSPPCELLID3_SSPPCELLID3
+// Description : These bits read back as 0xB1
+#define SPI_SSPPCELLID3_SSPPCELLID3_RESET  _u(0xb1)
+#define SPI_SSPPCELLID3_SSPPCELLID3_BITS   _u(0x000000ff)
+#define SPI_SSPPCELLID3_SSPPCELLID3_MSB    _u(7)
+#define SPI_SSPPCELLID3_SSPPCELLID3_LSB    _u(0)
+#define SPI_SSPPCELLID3_SSPPCELLID3_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_SPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/syscfg.h b/lib/pico-sdk/rp2350/hardware/regs/syscfg.h
new file mode 100644
index 0000000..455ebf1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/syscfg.h
@@ -0,0 +1,279 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : SYSCFG
+// Version        : 1
+// Bus type       : apb
+// Description    : Register block for various chip control signals
+// =============================================================================
+#ifndef _HARDWARE_REGS_SYSCFG_H
+#define _HARDWARE_REGS_SYSCFG_H
+// =============================================================================
+// Register    : SYSCFG_PROC_CONFIG
+// Description : Configuration for processors
+#define SYSCFG_PROC_CONFIG_OFFSET _u(0x00000000)
+#define SYSCFG_PROC_CONFIG_BITS   _u(0x00000003)
+#define SYSCFG_PROC_CONFIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_CONFIG_PROC1_HALTED
+// Description : Indication that proc1 has halted
+#define SYSCFG_PROC_CONFIG_PROC1_HALTED_RESET  _u(0x0)
+#define SYSCFG_PROC_CONFIG_PROC1_HALTED_BITS   _u(0x00000002)
+#define SYSCFG_PROC_CONFIG_PROC1_HALTED_MSB    _u(1)
+#define SYSCFG_PROC_CONFIG_PROC1_HALTED_LSB    _u(1)
+#define SYSCFG_PROC_CONFIG_PROC1_HALTED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_CONFIG_PROC0_HALTED
+// Description : Indication that proc0 has halted
+#define SYSCFG_PROC_CONFIG_PROC0_HALTED_RESET  _u(0x0)
+#define SYSCFG_PROC_CONFIG_PROC0_HALTED_BITS   _u(0x00000001)
+#define SYSCFG_PROC_CONFIG_PROC0_HALTED_MSB    _u(0)
+#define SYSCFG_PROC_CONFIG_PROC0_HALTED_LSB    _u(0)
+#define SYSCFG_PROC_CONFIG_PROC0_HALTED_ACCESS "RO"
+// =============================================================================
+// Register    : SYSCFG_PROC_IN_SYNC_BYPASS
+// Description : For each bit, if 1, bypass the input synchronizer between that
+//               GPIO
+//               and the GPIO input register in the SIO. The input synchronizers
+//               should
+//               generally be unbypassed, to avoid injecting metastabilities
+//               into processors.
+//               If you're feeling brave, you can bypass to save two cycles of
+//               input
+//               latency. This register applies to GPIO 0...31.
+#define SYSCFG_PROC_IN_SYNC_BYPASS_OFFSET _u(0x00000004)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_BITS   _u(0xffffffff)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_GPIO
+#define SYSCFG_PROC_IN_SYNC_BYPASS_GPIO_RESET  _u(0x00000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_GPIO_BITS   _u(0xffffffff)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_GPIO_MSB    _u(31)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_GPIO_LSB    _u(0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_GPIO_ACCESS "RW"
+// =============================================================================
+// Register    : SYSCFG_PROC_IN_SYNC_BYPASS_HI
+// Description : For each bit, if 1, bypass the input synchronizer between that
+//               GPIO
+//               and the GPIO input register in the SIO. The input synchronizers
+//               should
+//               generally be unbypassed, to avoid injecting metastabilities
+//               into processors.
+//               If you're feeling brave, you can bypass to save two cycles of
+//               input
+//               latency. This register applies to GPIO 32...47. USB GPIO 56..57
+//               QSPI GPIO 58..63
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_OFFSET _u(0x00000008)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_BITS   _u(0xff00ffff)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD_RESET  _u(0x0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD_BITS   _u(0xf0000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD_MSB    _u(31)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD_LSB    _u(28)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN_RESET  _u(0x0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN_BITS   _u(0x08000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN_MSB    _u(27)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN_LSB    _u(27)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_CSN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK_RESET  _u(0x0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK_BITS   _u(0x04000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK_MSB    _u(26)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK_LSB    _u(26)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_QSPI_SCK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM_RESET  _u(0x0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM_BITS   _u(0x02000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM_MSB    _u(25)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM_LSB    _u(25)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP_RESET  _u(0x0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP_BITS   _u(0x01000000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP_MSB    _u(24)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP_LSB    _u(24)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_USB_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO_RESET  _u(0x0000)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO_BITS   _u(0x0000ffff)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO_MSB    _u(15)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO_LSB    _u(0)
+#define SYSCFG_PROC_IN_SYNC_BYPASS_HI_GPIO_ACCESS "RW"
+// =============================================================================
+// Register    : SYSCFG_DBGFORCE
+// Description : Directly control the chip SWD debug port
+#define SYSCFG_DBGFORCE_OFFSET _u(0x0000000c)
+#define SYSCFG_DBGFORCE_BITS   _u(0x0000000f)
+#define SYSCFG_DBGFORCE_RESET  _u(0x00000006)
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_DBGFORCE_ATTACH
+// Description : Attach chip debug port to syscfg controls, and disconnect it
+//               from external SWD pads.
+#define SYSCFG_DBGFORCE_ATTACH_RESET  _u(0x0)
+#define SYSCFG_DBGFORCE_ATTACH_BITS   _u(0x00000008)
+#define SYSCFG_DBGFORCE_ATTACH_MSB    _u(3)
+#define SYSCFG_DBGFORCE_ATTACH_LSB    _u(3)
+#define SYSCFG_DBGFORCE_ATTACH_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_DBGFORCE_SWCLK
+// Description : Directly drive SWCLK, if ATTACH is set
+#define SYSCFG_DBGFORCE_SWCLK_RESET  _u(0x1)
+#define SYSCFG_DBGFORCE_SWCLK_BITS   _u(0x00000004)
+#define SYSCFG_DBGFORCE_SWCLK_MSB    _u(2)
+#define SYSCFG_DBGFORCE_SWCLK_LSB    _u(2)
+#define SYSCFG_DBGFORCE_SWCLK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_DBGFORCE_SWDI
+// Description : Directly drive SWDIO input, if ATTACH is set
+#define SYSCFG_DBGFORCE_SWDI_RESET  _u(0x1)
+#define SYSCFG_DBGFORCE_SWDI_BITS   _u(0x00000002)
+#define SYSCFG_DBGFORCE_SWDI_MSB    _u(1)
+#define SYSCFG_DBGFORCE_SWDI_LSB    _u(1)
+#define SYSCFG_DBGFORCE_SWDI_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_DBGFORCE_SWDO
+// Description : Observe the value of SWDIO output.
+#define SYSCFG_DBGFORCE_SWDO_RESET  "-"
+#define SYSCFG_DBGFORCE_SWDO_BITS   _u(0x00000001)
+#define SYSCFG_DBGFORCE_SWDO_MSB    _u(0)
+#define SYSCFG_DBGFORCE_SWDO_LSB    _u(0)
+#define SYSCFG_DBGFORCE_SWDO_ACCESS "RO"
+// =============================================================================
+// Register    : SYSCFG_MEMPOWERDOWN
+// Description : Control PD pins to memories.
+//               Set high to put memories to a low power state. In this state
+//               the memories will retain contents but not be accessible
+//               Use with caution
+#define SYSCFG_MEMPOWERDOWN_OFFSET _u(0x00000010)
+#define SYSCFG_MEMPOWERDOWN_BITS   _u(0x00001fff)
+#define SYSCFG_MEMPOWERDOWN_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_BOOTRAM
+#define SYSCFG_MEMPOWERDOWN_BOOTRAM_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_BOOTRAM_BITS   _u(0x00001000)
+#define SYSCFG_MEMPOWERDOWN_BOOTRAM_MSB    _u(12)
+#define SYSCFG_MEMPOWERDOWN_BOOTRAM_LSB    _u(12)
+#define SYSCFG_MEMPOWERDOWN_BOOTRAM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_ROM
+#define SYSCFG_MEMPOWERDOWN_ROM_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_ROM_BITS   _u(0x00000800)
+#define SYSCFG_MEMPOWERDOWN_ROM_MSB    _u(11)
+#define SYSCFG_MEMPOWERDOWN_ROM_LSB    _u(11)
+#define SYSCFG_MEMPOWERDOWN_ROM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_USB
+#define SYSCFG_MEMPOWERDOWN_USB_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_USB_BITS   _u(0x00000400)
+#define SYSCFG_MEMPOWERDOWN_USB_MSB    _u(10)
+#define SYSCFG_MEMPOWERDOWN_USB_LSB    _u(10)
+#define SYSCFG_MEMPOWERDOWN_USB_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM9
+#define SYSCFG_MEMPOWERDOWN_SRAM9_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM9_BITS   _u(0x00000200)
+#define SYSCFG_MEMPOWERDOWN_SRAM9_MSB    _u(9)
+#define SYSCFG_MEMPOWERDOWN_SRAM9_LSB    _u(9)
+#define SYSCFG_MEMPOWERDOWN_SRAM9_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM8
+#define SYSCFG_MEMPOWERDOWN_SRAM8_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM8_BITS   _u(0x00000100)
+#define SYSCFG_MEMPOWERDOWN_SRAM8_MSB    _u(8)
+#define SYSCFG_MEMPOWERDOWN_SRAM8_LSB    _u(8)
+#define SYSCFG_MEMPOWERDOWN_SRAM8_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM7
+#define SYSCFG_MEMPOWERDOWN_SRAM7_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM7_BITS   _u(0x00000080)
+#define SYSCFG_MEMPOWERDOWN_SRAM7_MSB    _u(7)
+#define SYSCFG_MEMPOWERDOWN_SRAM7_LSB    _u(7)
+#define SYSCFG_MEMPOWERDOWN_SRAM7_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM6
+#define SYSCFG_MEMPOWERDOWN_SRAM6_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM6_BITS   _u(0x00000040)
+#define SYSCFG_MEMPOWERDOWN_SRAM6_MSB    _u(6)
+#define SYSCFG_MEMPOWERDOWN_SRAM6_LSB    _u(6)
+#define SYSCFG_MEMPOWERDOWN_SRAM6_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM5
+#define SYSCFG_MEMPOWERDOWN_SRAM5_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM5_BITS   _u(0x00000020)
+#define SYSCFG_MEMPOWERDOWN_SRAM5_MSB    _u(5)
+#define SYSCFG_MEMPOWERDOWN_SRAM5_LSB    _u(5)
+#define SYSCFG_MEMPOWERDOWN_SRAM5_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM4
+#define SYSCFG_MEMPOWERDOWN_SRAM4_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM4_BITS   _u(0x00000010)
+#define SYSCFG_MEMPOWERDOWN_SRAM4_MSB    _u(4)
+#define SYSCFG_MEMPOWERDOWN_SRAM4_LSB    _u(4)
+#define SYSCFG_MEMPOWERDOWN_SRAM4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM3
+#define SYSCFG_MEMPOWERDOWN_SRAM3_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM3_BITS   _u(0x00000008)
+#define SYSCFG_MEMPOWERDOWN_SRAM3_MSB    _u(3)
+#define SYSCFG_MEMPOWERDOWN_SRAM3_LSB    _u(3)
+#define SYSCFG_MEMPOWERDOWN_SRAM3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM2
+#define SYSCFG_MEMPOWERDOWN_SRAM2_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM2_BITS   _u(0x00000004)
+#define SYSCFG_MEMPOWERDOWN_SRAM2_MSB    _u(2)
+#define SYSCFG_MEMPOWERDOWN_SRAM2_LSB    _u(2)
+#define SYSCFG_MEMPOWERDOWN_SRAM2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM1
+#define SYSCFG_MEMPOWERDOWN_SRAM1_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM1_BITS   _u(0x00000002)
+#define SYSCFG_MEMPOWERDOWN_SRAM1_MSB    _u(1)
+#define SYSCFG_MEMPOWERDOWN_SRAM1_LSB    _u(1)
+#define SYSCFG_MEMPOWERDOWN_SRAM1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : SYSCFG_MEMPOWERDOWN_SRAM0
+#define SYSCFG_MEMPOWERDOWN_SRAM0_RESET  _u(0x0)
+#define SYSCFG_MEMPOWERDOWN_SRAM0_BITS   _u(0x00000001)
+#define SYSCFG_MEMPOWERDOWN_SRAM0_MSB    _u(0)
+#define SYSCFG_MEMPOWERDOWN_SRAM0_LSB    _u(0)
+#define SYSCFG_MEMPOWERDOWN_SRAM0_ACCESS "RW"
+// =============================================================================
+// Register    : SYSCFG_AUXCTRL
+// Description : Auxiliary system control register
+//               * Bits 7:2: Reserved
+//
+//               * Bit 1: When clear, the LPOSC output is XORed into the TRNG
+//               ROSC output as an additional, uncorrelated entropy source. When
+//               set, this behaviour is disabled.
+//
+//               * Bit 0: Force POWMAN clock to switch to LPOSC, by asserting
+//               its WDRESET input. This must be set before initiating a
+//               watchdog reset of the RSM from a stage that includes CLOCKS, if
+//               POWMAN is running from clk_ref at the point that the watchdog
+//               reset takes place. Otherwise, the short pulse generated on
+//               clk_ref by the reset of the CLOCKS block may affect POWMAN
+//               register state.
+#define SYSCFG_AUXCTRL_OFFSET _u(0x00000014)
+#define SYSCFG_AUXCTRL_BITS   _u(0x000000ff)
+#define SYSCFG_AUXCTRL_RESET  _u(0x00000000)
+#define SYSCFG_AUXCTRL_MSB    _u(7)
+#define SYSCFG_AUXCTRL_LSB    _u(0)
+#define SYSCFG_AUXCTRL_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_SYSCFG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/sysinfo.h b/lib/pico-sdk/rp2350/hardware/regs/sysinfo.h
new file mode 100644
index 0000000..a6409bc
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/sysinfo.h
@@ -0,0 +1,111 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : SYSINFO
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_SYSINFO_H
+#define _HARDWARE_REGS_SYSINFO_H
+// =============================================================================
+// Register    : SYSINFO_CHIP_ID
+// Description : JEDEC JEP-106 compliant chip identifier.
+#define SYSINFO_CHIP_ID_OFFSET _u(0x00000000)
+#define SYSINFO_CHIP_ID_BITS   _u(0xffffffff)
+#define SYSINFO_CHIP_ID_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_CHIP_ID_REVISION
+#define SYSINFO_CHIP_ID_REVISION_RESET  "-"
+#define SYSINFO_CHIP_ID_REVISION_BITS   _u(0xf0000000)
+#define SYSINFO_CHIP_ID_REVISION_MSB    _u(31)
+#define SYSINFO_CHIP_ID_REVISION_LSB    _u(28)
+#define SYSINFO_CHIP_ID_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_CHIP_ID_PART
+#define SYSINFO_CHIP_ID_PART_RESET  "-"
+#define SYSINFO_CHIP_ID_PART_BITS   _u(0x0ffff000)
+#define SYSINFO_CHIP_ID_PART_MSB    _u(27)
+#define SYSINFO_CHIP_ID_PART_LSB    _u(12)
+#define SYSINFO_CHIP_ID_PART_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_CHIP_ID_MANUFACTURER
+#define SYSINFO_CHIP_ID_MANUFACTURER_RESET  "-"
+#define SYSINFO_CHIP_ID_MANUFACTURER_BITS   _u(0x00000ffe)
+#define SYSINFO_CHIP_ID_MANUFACTURER_MSB    _u(11)
+#define SYSINFO_CHIP_ID_MANUFACTURER_LSB    _u(1)
+#define SYSINFO_CHIP_ID_MANUFACTURER_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_CHIP_ID_STOP_BIT
+#define SYSINFO_CHIP_ID_STOP_BIT_RESET  _u(0x1)
+#define SYSINFO_CHIP_ID_STOP_BIT_BITS   _u(0x00000001)
+#define SYSINFO_CHIP_ID_STOP_BIT_MSB    _u(0)
+#define SYSINFO_CHIP_ID_STOP_BIT_LSB    _u(0)
+#define SYSINFO_CHIP_ID_STOP_BIT_ACCESS "RO"
+// =============================================================================
+// Register    : SYSINFO_PACKAGE_SEL
+#define SYSINFO_PACKAGE_SEL_OFFSET _u(0x00000004)
+#define SYSINFO_PACKAGE_SEL_BITS   _u(0x00000001)
+#define SYSINFO_PACKAGE_SEL_RESET  _u(0x00000000)
+#define SYSINFO_PACKAGE_SEL_MSB    _u(0)
+#define SYSINFO_PACKAGE_SEL_LSB    _u(0)
+#define SYSINFO_PACKAGE_SEL_ACCESS "RO"
+// =============================================================================
+// Register    : SYSINFO_PLATFORM
+// Description : Platform register. Allows software to know what environment it
+//               is running in during pre-production development. Post-
+//               production, the PLATFORM is always ASIC, non-SIM.
+#define SYSINFO_PLATFORM_OFFSET _u(0x00000008)
+#define SYSINFO_PLATFORM_BITS   _u(0x0000001f)
+#define SYSINFO_PLATFORM_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_PLATFORM_GATESIM
+#define SYSINFO_PLATFORM_GATESIM_RESET  "-"
+#define SYSINFO_PLATFORM_GATESIM_BITS   _u(0x00000010)
+#define SYSINFO_PLATFORM_GATESIM_MSB    _u(4)
+#define SYSINFO_PLATFORM_GATESIM_LSB    _u(4)
+#define SYSINFO_PLATFORM_GATESIM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_PLATFORM_BATCHSIM
+#define SYSINFO_PLATFORM_BATCHSIM_RESET  "-"
+#define SYSINFO_PLATFORM_BATCHSIM_BITS   _u(0x00000008)
+#define SYSINFO_PLATFORM_BATCHSIM_MSB    _u(3)
+#define SYSINFO_PLATFORM_BATCHSIM_LSB    _u(3)
+#define SYSINFO_PLATFORM_BATCHSIM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_PLATFORM_HDLSIM
+#define SYSINFO_PLATFORM_HDLSIM_RESET  "-"
+#define SYSINFO_PLATFORM_HDLSIM_BITS   _u(0x00000004)
+#define SYSINFO_PLATFORM_HDLSIM_MSB    _u(2)
+#define SYSINFO_PLATFORM_HDLSIM_LSB    _u(2)
+#define SYSINFO_PLATFORM_HDLSIM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_PLATFORM_ASIC
+#define SYSINFO_PLATFORM_ASIC_RESET  "-"
+#define SYSINFO_PLATFORM_ASIC_BITS   _u(0x00000002)
+#define SYSINFO_PLATFORM_ASIC_MSB    _u(1)
+#define SYSINFO_PLATFORM_ASIC_LSB    _u(1)
+#define SYSINFO_PLATFORM_ASIC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : SYSINFO_PLATFORM_FPGA
+#define SYSINFO_PLATFORM_FPGA_RESET  "-"
+#define SYSINFO_PLATFORM_FPGA_BITS   _u(0x00000001)
+#define SYSINFO_PLATFORM_FPGA_MSB    _u(0)
+#define SYSINFO_PLATFORM_FPGA_LSB    _u(0)
+#define SYSINFO_PLATFORM_FPGA_ACCESS "RO"
+// =============================================================================
+// Register    : SYSINFO_GITREF_RP2350
+// Description : Git hash of the chip source. Used to identify chip version.
+#define SYSINFO_GITREF_RP2350_OFFSET _u(0x00000014)
+#define SYSINFO_GITREF_RP2350_BITS   _u(0xffffffff)
+#define SYSINFO_GITREF_RP2350_RESET  "-"
+#define SYSINFO_GITREF_RP2350_MSB    _u(31)
+#define SYSINFO_GITREF_RP2350_LSB    _u(0)
+#define SYSINFO_GITREF_RP2350_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_SYSINFO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/tbman.h b/lib/pico-sdk/rp2350/hardware/regs/tbman.h
new file mode 100644
index 0000000..59cf2d1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/tbman.h
@@ -0,0 +1,48 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : TBMAN
+// Version        : 1
+// Bus type       : apb
+// Description    : For managing simulation testbenches
+// =============================================================================
+#ifndef _HARDWARE_REGS_TBMAN_H
+#define _HARDWARE_REGS_TBMAN_H
+// =============================================================================
+// Register    : TBMAN_PLATFORM
+// Description : Indicates the type of platform in use
+#define TBMAN_PLATFORM_OFFSET _u(0x00000000)
+#define TBMAN_PLATFORM_BITS   _u(0x00000007)
+#define TBMAN_PLATFORM_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : TBMAN_PLATFORM_HDLSIM
+// Description : Indicates the platform is a simulation
+#define TBMAN_PLATFORM_HDLSIM_RESET  _u(0x0)
+#define TBMAN_PLATFORM_HDLSIM_BITS   _u(0x00000004)
+#define TBMAN_PLATFORM_HDLSIM_MSB    _u(2)
+#define TBMAN_PLATFORM_HDLSIM_LSB    _u(2)
+#define TBMAN_PLATFORM_HDLSIM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TBMAN_PLATFORM_FPGA
+// Description : Indicates the platform is an FPGA
+#define TBMAN_PLATFORM_FPGA_RESET  _u(0x0)
+#define TBMAN_PLATFORM_FPGA_BITS   _u(0x00000002)
+#define TBMAN_PLATFORM_FPGA_MSB    _u(1)
+#define TBMAN_PLATFORM_FPGA_LSB    _u(1)
+#define TBMAN_PLATFORM_FPGA_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TBMAN_PLATFORM_ASIC
+// Description : Indicates the platform is an ASIC
+#define TBMAN_PLATFORM_ASIC_RESET  _u(0x1)
+#define TBMAN_PLATFORM_ASIC_BITS   _u(0x00000001)
+#define TBMAN_PLATFORM_ASIC_MSB    _u(0)
+#define TBMAN_PLATFORM_ASIC_LSB    _u(0)
+#define TBMAN_PLATFORM_ASIC_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_TBMAN_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/ticks.h b/lib/pico-sdk/rp2350/hardware/regs/ticks.h
new file mode 100644
index 0000000..79e1352
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/ticks.h
@@ -0,0 +1,275 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : TICKS
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_TICKS_H
+#define _HARDWARE_REGS_TICKS_H
+// =============================================================================
+// Register    : TICKS_PROC0_CTRL
+// Description : Controls the tick generator
+#define TICKS_PROC0_CTRL_OFFSET _u(0x00000000)
+#define TICKS_PROC0_CTRL_BITS   _u(0x00000003)
+#define TICKS_PROC0_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_PROC0_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_PROC0_CTRL_RUNNING_RESET  "-"
+#define TICKS_PROC0_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_PROC0_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_PROC0_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_PROC0_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_PROC0_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_PROC0_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_PROC0_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_PROC0_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_PROC0_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_PROC0_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_PROC0_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_PROC0_CYCLES_OFFSET _u(0x00000004)
+#define TICKS_PROC0_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_PROC0_CYCLES_RESET  _u(0x00000000)
+#define TICKS_PROC0_CYCLES_MSB    _u(8)
+#define TICKS_PROC0_CYCLES_LSB    _u(0)
+#define TICKS_PROC0_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_PROC0_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_PROC0_COUNT_OFFSET _u(0x00000008)
+#define TICKS_PROC0_COUNT_BITS   _u(0x000001ff)
+#define TICKS_PROC0_COUNT_RESET  "-"
+#define TICKS_PROC0_COUNT_MSB    _u(8)
+#define TICKS_PROC0_COUNT_LSB    _u(0)
+#define TICKS_PROC0_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : TICKS_PROC1_CTRL
+// Description : Controls the tick generator
+#define TICKS_PROC1_CTRL_OFFSET _u(0x0000000c)
+#define TICKS_PROC1_CTRL_BITS   _u(0x00000003)
+#define TICKS_PROC1_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_PROC1_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_PROC1_CTRL_RUNNING_RESET  "-"
+#define TICKS_PROC1_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_PROC1_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_PROC1_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_PROC1_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_PROC1_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_PROC1_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_PROC1_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_PROC1_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_PROC1_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_PROC1_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_PROC1_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_PROC1_CYCLES_OFFSET _u(0x00000010)
+#define TICKS_PROC1_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_PROC1_CYCLES_RESET  _u(0x00000000)
+#define TICKS_PROC1_CYCLES_MSB    _u(8)
+#define TICKS_PROC1_CYCLES_LSB    _u(0)
+#define TICKS_PROC1_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_PROC1_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_PROC1_COUNT_OFFSET _u(0x00000014)
+#define TICKS_PROC1_COUNT_BITS   _u(0x000001ff)
+#define TICKS_PROC1_COUNT_RESET  "-"
+#define TICKS_PROC1_COUNT_MSB    _u(8)
+#define TICKS_PROC1_COUNT_LSB    _u(0)
+#define TICKS_PROC1_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : TICKS_TIMER0_CTRL
+// Description : Controls the tick generator
+#define TICKS_TIMER0_CTRL_OFFSET _u(0x00000018)
+#define TICKS_TIMER0_CTRL_BITS   _u(0x00000003)
+#define TICKS_TIMER0_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_TIMER0_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_TIMER0_CTRL_RUNNING_RESET  "-"
+#define TICKS_TIMER0_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_TIMER0_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_TIMER0_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_TIMER0_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_TIMER0_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_TIMER0_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_TIMER0_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_TIMER0_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_TIMER0_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_TIMER0_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_TIMER0_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_TIMER0_CYCLES_OFFSET _u(0x0000001c)
+#define TICKS_TIMER0_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_TIMER0_CYCLES_RESET  _u(0x00000000)
+#define TICKS_TIMER0_CYCLES_MSB    _u(8)
+#define TICKS_TIMER0_CYCLES_LSB    _u(0)
+#define TICKS_TIMER0_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_TIMER0_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_TIMER0_COUNT_OFFSET _u(0x00000020)
+#define TICKS_TIMER0_COUNT_BITS   _u(0x000001ff)
+#define TICKS_TIMER0_COUNT_RESET  "-"
+#define TICKS_TIMER0_COUNT_MSB    _u(8)
+#define TICKS_TIMER0_COUNT_LSB    _u(0)
+#define TICKS_TIMER0_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : TICKS_TIMER1_CTRL
+// Description : Controls the tick generator
+#define TICKS_TIMER1_CTRL_OFFSET _u(0x00000024)
+#define TICKS_TIMER1_CTRL_BITS   _u(0x00000003)
+#define TICKS_TIMER1_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_TIMER1_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_TIMER1_CTRL_RUNNING_RESET  "-"
+#define TICKS_TIMER1_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_TIMER1_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_TIMER1_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_TIMER1_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_TIMER1_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_TIMER1_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_TIMER1_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_TIMER1_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_TIMER1_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_TIMER1_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_TIMER1_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_TIMER1_CYCLES_OFFSET _u(0x00000028)
+#define TICKS_TIMER1_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_TIMER1_CYCLES_RESET  _u(0x00000000)
+#define TICKS_TIMER1_CYCLES_MSB    _u(8)
+#define TICKS_TIMER1_CYCLES_LSB    _u(0)
+#define TICKS_TIMER1_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_TIMER1_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_TIMER1_COUNT_OFFSET _u(0x0000002c)
+#define TICKS_TIMER1_COUNT_BITS   _u(0x000001ff)
+#define TICKS_TIMER1_COUNT_RESET  "-"
+#define TICKS_TIMER1_COUNT_MSB    _u(8)
+#define TICKS_TIMER1_COUNT_LSB    _u(0)
+#define TICKS_TIMER1_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : TICKS_WATCHDOG_CTRL
+// Description : Controls the tick generator
+#define TICKS_WATCHDOG_CTRL_OFFSET _u(0x00000030)
+#define TICKS_WATCHDOG_CTRL_BITS   _u(0x00000003)
+#define TICKS_WATCHDOG_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_WATCHDOG_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_WATCHDOG_CTRL_RUNNING_RESET  "-"
+#define TICKS_WATCHDOG_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_WATCHDOG_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_WATCHDOG_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_WATCHDOG_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_WATCHDOG_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_WATCHDOG_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_WATCHDOG_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_WATCHDOG_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_WATCHDOG_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_WATCHDOG_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_WATCHDOG_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_WATCHDOG_CYCLES_OFFSET _u(0x00000034)
+#define TICKS_WATCHDOG_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_WATCHDOG_CYCLES_RESET  _u(0x00000000)
+#define TICKS_WATCHDOG_CYCLES_MSB    _u(8)
+#define TICKS_WATCHDOG_CYCLES_LSB    _u(0)
+#define TICKS_WATCHDOG_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_WATCHDOG_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_WATCHDOG_COUNT_OFFSET _u(0x00000038)
+#define TICKS_WATCHDOG_COUNT_BITS   _u(0x000001ff)
+#define TICKS_WATCHDOG_COUNT_RESET  "-"
+#define TICKS_WATCHDOG_COUNT_MSB    _u(8)
+#define TICKS_WATCHDOG_COUNT_LSB    _u(0)
+#define TICKS_WATCHDOG_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : TICKS_RISCV_CTRL
+// Description : Controls the tick generator
+#define TICKS_RISCV_CTRL_OFFSET _u(0x0000003c)
+#define TICKS_RISCV_CTRL_BITS   _u(0x00000003)
+#define TICKS_RISCV_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TICKS_RISCV_CTRL_RUNNING
+// Description : Is the tick generator running?
+#define TICKS_RISCV_CTRL_RUNNING_RESET  "-"
+#define TICKS_RISCV_CTRL_RUNNING_BITS   _u(0x00000002)
+#define TICKS_RISCV_CTRL_RUNNING_MSB    _u(1)
+#define TICKS_RISCV_CTRL_RUNNING_LSB    _u(1)
+#define TICKS_RISCV_CTRL_RUNNING_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TICKS_RISCV_CTRL_ENABLE
+// Description : start / stop tick generation
+#define TICKS_RISCV_CTRL_ENABLE_RESET  _u(0x0)
+#define TICKS_RISCV_CTRL_ENABLE_BITS   _u(0x00000001)
+#define TICKS_RISCV_CTRL_ENABLE_MSB    _u(0)
+#define TICKS_RISCV_CTRL_ENABLE_LSB    _u(0)
+#define TICKS_RISCV_CTRL_ENABLE_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_RISCV_CYCLES
+// Description : None
+//               Total number of clk_tick cycles before the next tick.
+#define TICKS_RISCV_CYCLES_OFFSET _u(0x00000040)
+#define TICKS_RISCV_CYCLES_BITS   _u(0x000001ff)
+#define TICKS_RISCV_CYCLES_RESET  _u(0x00000000)
+#define TICKS_RISCV_CYCLES_MSB    _u(8)
+#define TICKS_RISCV_CYCLES_LSB    _u(0)
+#define TICKS_RISCV_CYCLES_ACCESS "RW"
+// =============================================================================
+// Register    : TICKS_RISCV_COUNT
+// Description : None
+//               Count down timer: the remaining number clk_tick cycles before
+//               the next tick is generated.
+#define TICKS_RISCV_COUNT_OFFSET _u(0x00000044)
+#define TICKS_RISCV_COUNT_BITS   _u(0x000001ff)
+#define TICKS_RISCV_COUNT_RESET  "-"
+#define TICKS_RISCV_COUNT_MSB    _u(8)
+#define TICKS_RISCV_COUNT_LSB    _u(0)
+#define TICKS_RISCV_COUNT_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_TICKS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/timer.h b/lib/pico-sdk/rp2350/hardware/regs/timer.h
new file mode 100644
index 0000000..c5f4d05
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/timer.h
@@ -0,0 +1,346 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : TIMER
+// Version        : 1
+// Bus type       : apb
+// Description    : Controls time and alarms
+//
+//                  time is a 64 bit value indicating the time since power-on
+//
+//                  timeh is the top 32 bits of time & timel is the bottom 32
+//                  bits to change time write to timelw before timehw to read
+//                  time read from timelr before timehr
+//
+//                  An alarm is set by setting alarm_enable and writing to the
+//                  corresponding alarm register When an alarm is pending, the
+//                  corresponding alarm_running signal will be high An alarm can
+//                  be cancelled before it has finished by clearing the
+//                  alarm_enable When an alarm fires, the corresponding
+//                  alarm_irq is set and alarm_running is cleared To clear the
+//                  interrupt write a 1 to the corresponding alarm_irq The timer
+//                  can be locked to prevent writing
+// =============================================================================
+#ifndef _HARDWARE_REGS_TIMER_H
+#define _HARDWARE_REGS_TIMER_H
+// =============================================================================
+// Register    : TIMER_TIMEHW
+// Description : Write to bits 63:32 of time always write timelw before timehw
+#define TIMER_TIMEHW_OFFSET _u(0x00000000)
+#define TIMER_TIMEHW_BITS   _u(0xffffffff)
+#define TIMER_TIMEHW_RESET  _u(0x00000000)
+#define TIMER_TIMEHW_MSB    _u(31)
+#define TIMER_TIMEHW_LSB    _u(0)
+#define TIMER_TIMEHW_ACCESS "WF"
+// =============================================================================
+// Register    : TIMER_TIMELW
+// Description : Write to bits 31:0 of time writes do not get copied to time
+//               until timehw is written
+#define TIMER_TIMELW_OFFSET _u(0x00000004)
+#define TIMER_TIMELW_BITS   _u(0xffffffff)
+#define TIMER_TIMELW_RESET  _u(0x00000000)
+#define TIMER_TIMELW_MSB    _u(31)
+#define TIMER_TIMELW_LSB    _u(0)
+#define TIMER_TIMELW_ACCESS "WF"
+// =============================================================================
+// Register    : TIMER_TIMEHR
+// Description : Read from bits 63:32 of time always read timelr before timehr
+#define TIMER_TIMEHR_OFFSET _u(0x00000008)
+#define TIMER_TIMEHR_BITS   _u(0xffffffff)
+#define TIMER_TIMEHR_RESET  _u(0x00000000)
+#define TIMER_TIMEHR_MSB    _u(31)
+#define TIMER_TIMEHR_LSB    _u(0)
+#define TIMER_TIMEHR_ACCESS "RO"
+// =============================================================================
+// Register    : TIMER_TIMELR
+// Description : Read from bits 31:0 of time
+#define TIMER_TIMELR_OFFSET _u(0x0000000c)
+#define TIMER_TIMELR_BITS   _u(0xffffffff)
+#define TIMER_TIMELR_RESET  _u(0x00000000)
+#define TIMER_TIMELR_MSB    _u(31)
+#define TIMER_TIMELR_LSB    _u(0)
+#define TIMER_TIMELR_ACCESS "RO"
+// =============================================================================
+// Register    : TIMER_ALARM0
+// Description : Arm alarm 0, and configure the time it will fire. Once armed,
+//               the alarm fires when TIMER_ALARM0 == TIMELR. The alarm will
+//               disarm itself once it fires, and can be disarmed early using
+//               the ARMED status register.
+#define TIMER_ALARM0_OFFSET _u(0x00000010)
+#define TIMER_ALARM0_BITS   _u(0xffffffff)
+#define TIMER_ALARM0_RESET  _u(0x00000000)
+#define TIMER_ALARM0_MSB    _u(31)
+#define TIMER_ALARM0_LSB    _u(0)
+#define TIMER_ALARM0_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_ALARM1
+// Description : Arm alarm 1, and configure the time it will fire. Once armed,
+//               the alarm fires when TIMER_ALARM1 == TIMELR. The alarm will
+//               disarm itself once it fires, and can be disarmed early using
+//               the ARMED status register.
+#define TIMER_ALARM1_OFFSET _u(0x00000014)
+#define TIMER_ALARM1_BITS   _u(0xffffffff)
+#define TIMER_ALARM1_RESET  _u(0x00000000)
+#define TIMER_ALARM1_MSB    _u(31)
+#define TIMER_ALARM1_LSB    _u(0)
+#define TIMER_ALARM1_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_ALARM2
+// Description : Arm alarm 2, and configure the time it will fire. Once armed,
+//               the alarm fires when TIMER_ALARM2 == TIMELR. The alarm will
+//               disarm itself once it fires, and can be disarmed early using
+//               the ARMED status register.
+#define TIMER_ALARM2_OFFSET _u(0x00000018)
+#define TIMER_ALARM2_BITS   _u(0xffffffff)
+#define TIMER_ALARM2_RESET  _u(0x00000000)
+#define TIMER_ALARM2_MSB    _u(31)
+#define TIMER_ALARM2_LSB    _u(0)
+#define TIMER_ALARM2_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_ALARM3
+// Description : Arm alarm 3, and configure the time it will fire. Once armed,
+//               the alarm fires when TIMER_ALARM3 == TIMELR. The alarm will
+//               disarm itself once it fires, and can be disarmed early using
+//               the ARMED status register.
+#define TIMER_ALARM3_OFFSET _u(0x0000001c)
+#define TIMER_ALARM3_BITS   _u(0xffffffff)
+#define TIMER_ALARM3_RESET  _u(0x00000000)
+#define TIMER_ALARM3_MSB    _u(31)
+#define TIMER_ALARM3_LSB    _u(0)
+#define TIMER_ALARM3_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_ARMED
+// Description : Indicates the armed/disarmed status of each alarm. A write to
+//               the corresponding ALARMx register arms the alarm. Alarms
+//               automatically disarm upon firing, but writing ones here will
+//               disarm immediately without waiting to fire.
+#define TIMER_ARMED_OFFSET _u(0x00000020)
+#define TIMER_ARMED_BITS   _u(0x0000000f)
+#define TIMER_ARMED_RESET  _u(0x00000000)
+#define TIMER_ARMED_MSB    _u(3)
+#define TIMER_ARMED_LSB    _u(0)
+#define TIMER_ARMED_ACCESS "WC"
+// =============================================================================
+// Register    : TIMER_TIMERAWH
+// Description : Raw read from bits 63:32 of time (no side effects)
+#define TIMER_TIMERAWH_OFFSET _u(0x00000024)
+#define TIMER_TIMERAWH_BITS   _u(0xffffffff)
+#define TIMER_TIMERAWH_RESET  _u(0x00000000)
+#define TIMER_TIMERAWH_MSB    _u(31)
+#define TIMER_TIMERAWH_LSB    _u(0)
+#define TIMER_TIMERAWH_ACCESS "RO"
+// =============================================================================
+// Register    : TIMER_TIMERAWL
+// Description : Raw read from bits 31:0 of time (no side effects)
+#define TIMER_TIMERAWL_OFFSET _u(0x00000028)
+#define TIMER_TIMERAWL_BITS   _u(0xffffffff)
+#define TIMER_TIMERAWL_RESET  _u(0x00000000)
+#define TIMER_TIMERAWL_MSB    _u(31)
+#define TIMER_TIMERAWL_LSB    _u(0)
+#define TIMER_TIMERAWL_ACCESS "RO"
+// =============================================================================
+// Register    : TIMER_DBGPAUSE
+// Description : Set bits high to enable pause when the corresponding debug
+//               ports are active
+#define TIMER_DBGPAUSE_OFFSET _u(0x0000002c)
+#define TIMER_DBGPAUSE_BITS   _u(0x00000006)
+#define TIMER_DBGPAUSE_RESET  _u(0x00000007)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_DBGPAUSE_DBG1
+// Description : Pause when processor 1 is in debug mode
+#define TIMER_DBGPAUSE_DBG1_RESET  _u(0x1)
+#define TIMER_DBGPAUSE_DBG1_BITS   _u(0x00000004)
+#define TIMER_DBGPAUSE_DBG1_MSB    _u(2)
+#define TIMER_DBGPAUSE_DBG1_LSB    _u(2)
+#define TIMER_DBGPAUSE_DBG1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_DBGPAUSE_DBG0
+// Description : Pause when processor 0 is in debug mode
+#define TIMER_DBGPAUSE_DBG0_RESET  _u(0x1)
+#define TIMER_DBGPAUSE_DBG0_BITS   _u(0x00000002)
+#define TIMER_DBGPAUSE_DBG0_MSB    _u(1)
+#define TIMER_DBGPAUSE_DBG0_LSB    _u(1)
+#define TIMER_DBGPAUSE_DBG0_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_PAUSE
+// Description : Set high to pause the timer
+#define TIMER_PAUSE_OFFSET _u(0x00000030)
+#define TIMER_PAUSE_BITS   _u(0x00000001)
+#define TIMER_PAUSE_RESET  _u(0x00000000)
+#define TIMER_PAUSE_MSB    _u(0)
+#define TIMER_PAUSE_LSB    _u(0)
+#define TIMER_PAUSE_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_LOCKED
+// Description : Set locked bit to disable write access to timer Once set,
+//               cannot be cleared (without a reset)
+#define TIMER_LOCKED_OFFSET _u(0x00000034)
+#define TIMER_LOCKED_BITS   _u(0x00000001)
+#define TIMER_LOCKED_RESET  _u(0x00000000)
+#define TIMER_LOCKED_MSB    _u(0)
+#define TIMER_LOCKED_LSB    _u(0)
+#define TIMER_LOCKED_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_SOURCE
+// Description : Selects the source for the timer. Defaults to the normal tick
+//               configured in the ticks block (typically configured to 1
+//               microsecond). Writing to 1 will ignore the tick and count
+//               clk_sys cycles instead.
+#define TIMER_SOURCE_OFFSET _u(0x00000038)
+#define TIMER_SOURCE_BITS   _u(0x00000001)
+#define TIMER_SOURCE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_SOURCE_CLK_SYS
+//               0x0 -> TICK
+//               0x1 -> CLK_SYS
+#define TIMER_SOURCE_CLK_SYS_RESET  _u(0x0)
+#define TIMER_SOURCE_CLK_SYS_BITS   _u(0x00000001)
+#define TIMER_SOURCE_CLK_SYS_MSB    _u(0)
+#define TIMER_SOURCE_CLK_SYS_LSB    _u(0)
+#define TIMER_SOURCE_CLK_SYS_ACCESS "RW"
+#define TIMER_SOURCE_CLK_SYS_VALUE_TICK _u(0x0)
+#define TIMER_SOURCE_CLK_SYS_VALUE_CLK_SYS _u(0x1)
+// =============================================================================
+// Register    : TIMER_INTR
+// Description : Raw Interrupts
+#define TIMER_INTR_OFFSET _u(0x0000003c)
+#define TIMER_INTR_BITS   _u(0x0000000f)
+#define TIMER_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTR_ALARM_3
+#define TIMER_INTR_ALARM_3_RESET  _u(0x0)
+#define TIMER_INTR_ALARM_3_BITS   _u(0x00000008)
+#define TIMER_INTR_ALARM_3_MSB    _u(3)
+#define TIMER_INTR_ALARM_3_LSB    _u(3)
+#define TIMER_INTR_ALARM_3_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTR_ALARM_2
+#define TIMER_INTR_ALARM_2_RESET  _u(0x0)
+#define TIMER_INTR_ALARM_2_BITS   _u(0x00000004)
+#define TIMER_INTR_ALARM_2_MSB    _u(2)
+#define TIMER_INTR_ALARM_2_LSB    _u(2)
+#define TIMER_INTR_ALARM_2_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTR_ALARM_1
+#define TIMER_INTR_ALARM_1_RESET  _u(0x0)
+#define TIMER_INTR_ALARM_1_BITS   _u(0x00000002)
+#define TIMER_INTR_ALARM_1_MSB    _u(1)
+#define TIMER_INTR_ALARM_1_LSB    _u(1)
+#define TIMER_INTR_ALARM_1_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTR_ALARM_0
+#define TIMER_INTR_ALARM_0_RESET  _u(0x0)
+#define TIMER_INTR_ALARM_0_BITS   _u(0x00000001)
+#define TIMER_INTR_ALARM_0_MSB    _u(0)
+#define TIMER_INTR_ALARM_0_LSB    _u(0)
+#define TIMER_INTR_ALARM_0_ACCESS "WC"
+// =============================================================================
+// Register    : TIMER_INTE
+// Description : Interrupt Enable
+#define TIMER_INTE_OFFSET _u(0x00000040)
+#define TIMER_INTE_BITS   _u(0x0000000f)
+#define TIMER_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTE_ALARM_3
+#define TIMER_INTE_ALARM_3_RESET  _u(0x0)
+#define TIMER_INTE_ALARM_3_BITS   _u(0x00000008)
+#define TIMER_INTE_ALARM_3_MSB    _u(3)
+#define TIMER_INTE_ALARM_3_LSB    _u(3)
+#define TIMER_INTE_ALARM_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTE_ALARM_2
+#define TIMER_INTE_ALARM_2_RESET  _u(0x0)
+#define TIMER_INTE_ALARM_2_BITS   _u(0x00000004)
+#define TIMER_INTE_ALARM_2_MSB    _u(2)
+#define TIMER_INTE_ALARM_2_LSB    _u(2)
+#define TIMER_INTE_ALARM_2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTE_ALARM_1
+#define TIMER_INTE_ALARM_1_RESET  _u(0x0)
+#define TIMER_INTE_ALARM_1_BITS   _u(0x00000002)
+#define TIMER_INTE_ALARM_1_MSB    _u(1)
+#define TIMER_INTE_ALARM_1_LSB    _u(1)
+#define TIMER_INTE_ALARM_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTE_ALARM_0
+#define TIMER_INTE_ALARM_0_RESET  _u(0x0)
+#define TIMER_INTE_ALARM_0_BITS   _u(0x00000001)
+#define TIMER_INTE_ALARM_0_MSB    _u(0)
+#define TIMER_INTE_ALARM_0_LSB    _u(0)
+#define TIMER_INTE_ALARM_0_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_INTF
+// Description : Interrupt Force
+#define TIMER_INTF_OFFSET _u(0x00000044)
+#define TIMER_INTF_BITS   _u(0x0000000f)
+#define TIMER_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTF_ALARM_3
+#define TIMER_INTF_ALARM_3_RESET  _u(0x0)
+#define TIMER_INTF_ALARM_3_BITS   _u(0x00000008)
+#define TIMER_INTF_ALARM_3_MSB    _u(3)
+#define TIMER_INTF_ALARM_3_LSB    _u(3)
+#define TIMER_INTF_ALARM_3_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTF_ALARM_2
+#define TIMER_INTF_ALARM_2_RESET  _u(0x0)
+#define TIMER_INTF_ALARM_2_BITS   _u(0x00000004)
+#define TIMER_INTF_ALARM_2_MSB    _u(2)
+#define TIMER_INTF_ALARM_2_LSB    _u(2)
+#define TIMER_INTF_ALARM_2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTF_ALARM_1
+#define TIMER_INTF_ALARM_1_RESET  _u(0x0)
+#define TIMER_INTF_ALARM_1_BITS   _u(0x00000002)
+#define TIMER_INTF_ALARM_1_MSB    _u(1)
+#define TIMER_INTF_ALARM_1_LSB    _u(1)
+#define TIMER_INTF_ALARM_1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTF_ALARM_0
+#define TIMER_INTF_ALARM_0_RESET  _u(0x0)
+#define TIMER_INTF_ALARM_0_BITS   _u(0x00000001)
+#define TIMER_INTF_ALARM_0_MSB    _u(0)
+#define TIMER_INTF_ALARM_0_LSB    _u(0)
+#define TIMER_INTF_ALARM_0_ACCESS "RW"
+// =============================================================================
+// Register    : TIMER_INTS
+// Description : Interrupt status after masking & forcing
+#define TIMER_INTS_OFFSET _u(0x00000048)
+#define TIMER_INTS_BITS   _u(0x0000000f)
+#define TIMER_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTS_ALARM_3
+#define TIMER_INTS_ALARM_3_RESET  _u(0x0)
+#define TIMER_INTS_ALARM_3_BITS   _u(0x00000008)
+#define TIMER_INTS_ALARM_3_MSB    _u(3)
+#define TIMER_INTS_ALARM_3_LSB    _u(3)
+#define TIMER_INTS_ALARM_3_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTS_ALARM_2
+#define TIMER_INTS_ALARM_2_RESET  _u(0x0)
+#define TIMER_INTS_ALARM_2_BITS   _u(0x00000004)
+#define TIMER_INTS_ALARM_2_MSB    _u(2)
+#define TIMER_INTS_ALARM_2_LSB    _u(2)
+#define TIMER_INTS_ALARM_2_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTS_ALARM_1
+#define TIMER_INTS_ALARM_1_RESET  _u(0x0)
+#define TIMER_INTS_ALARM_1_BITS   _u(0x00000002)
+#define TIMER_INTS_ALARM_1_MSB    _u(1)
+#define TIMER_INTS_ALARM_1_LSB    _u(1)
+#define TIMER_INTS_ALARM_1_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TIMER_INTS_ALARM_0
+#define TIMER_INTS_ALARM_0_RESET  _u(0x0)
+#define TIMER_INTS_ALARM_0_BITS   _u(0x00000001)
+#define TIMER_INTS_ALARM_0_MSB    _u(0)
+#define TIMER_INTS_ALARM_0_LSB    _u(0)
+#define TIMER_INTS_ALARM_0_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_TIMER_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/trng.h b/lib/pico-sdk/rp2350/hardware/regs/trng.h
new file mode 100644
index 0000000..c84c715
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/trng.h
@@ -0,0 +1,625 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : TRNG
+// Version        : 1
+// Bus type       : apb
+// Description    : ARM TrustZone RNG register block
+// =============================================================================
+#ifndef _HARDWARE_REGS_TRNG_H
+#define _HARDWARE_REGS_TRNG_H
+// =============================================================================
+// Register    : TRNG_RNG_IMR
+// Description : Interrupt masking.
+#define TRNG_RNG_IMR_OFFSET _u(0x00000100)
+#define TRNG_RNG_IMR_BITS   _u(0xffffffff)
+#define TRNG_RNG_IMR_RESET  _u(0x0000000f)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_IMR_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_IMR_RESERVED_RESET  _u(0x0000000)
+#define TRNG_RNG_IMR_RESERVED_BITS   _u(0xfffffff0)
+#define TRNG_RNG_IMR_RESERVED_MSB    _u(31)
+#define TRNG_RNG_IMR_RESERVED_LSB    _u(4)
+#define TRNG_RNG_IMR_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_IMR_VN_ERR_INT_MASK
+// Description : 1'b1-mask interrupt, no interrupt will be generated. See
+//               RNG_ISR for an explanation on this interrupt.
+#define TRNG_RNG_IMR_VN_ERR_INT_MASK_RESET  _u(0x1)
+#define TRNG_RNG_IMR_VN_ERR_INT_MASK_BITS   _u(0x00000008)
+#define TRNG_RNG_IMR_VN_ERR_INT_MASK_MSB    _u(3)
+#define TRNG_RNG_IMR_VN_ERR_INT_MASK_LSB    _u(3)
+#define TRNG_RNG_IMR_VN_ERR_INT_MASK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_IMR_CRNGT_ERR_INT_MASK
+// Description : 1'b1-mask interrupt, no interrupt will be generated. See
+//               RNG_ISR for an explanation on this interrupt.
+#define TRNG_RNG_IMR_CRNGT_ERR_INT_MASK_RESET  _u(0x1)
+#define TRNG_RNG_IMR_CRNGT_ERR_INT_MASK_BITS   _u(0x00000004)
+#define TRNG_RNG_IMR_CRNGT_ERR_INT_MASK_MSB    _u(2)
+#define TRNG_RNG_IMR_CRNGT_ERR_INT_MASK_LSB    _u(2)
+#define TRNG_RNG_IMR_CRNGT_ERR_INT_MASK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK
+// Description : 1'b1-mask interrupt, no interrupt will be generated. See
+//               RNG_ISR for an explanation on this interrupt.
+#define TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK_RESET  _u(0x1)
+#define TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK_BITS   _u(0x00000002)
+#define TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK_MSB    _u(1)
+#define TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK_LSB    _u(1)
+#define TRNG_RNG_IMR_AUTOCORR_ERR_INT_MASK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_IMR_EHR_VALID_INT_MASK
+// Description : 1'b1-mask interrupt, no interrupt will be generated. See
+//               RNG_ISR for an explanation on this interrupt.
+#define TRNG_RNG_IMR_EHR_VALID_INT_MASK_RESET  _u(0x1)
+#define TRNG_RNG_IMR_EHR_VALID_INT_MASK_BITS   _u(0x00000001)
+#define TRNG_RNG_IMR_EHR_VALID_INT_MASK_MSB    _u(0)
+#define TRNG_RNG_IMR_EHR_VALID_INT_MASK_LSB    _u(0)
+#define TRNG_RNG_IMR_EHR_VALID_INT_MASK_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_RNG_ISR
+// Description : RNG status register. If corresponding RNG_IMR bit is unmasked,
+//               an interrupt will be generated.
+#define TRNG_RNG_ISR_OFFSET _u(0x00000104)
+#define TRNG_RNG_ISR_BITS   _u(0xffffffff)
+#define TRNG_RNG_ISR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ISR_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_ISR_RESERVED_RESET  _u(0x0000000)
+#define TRNG_RNG_ISR_RESERVED_BITS   _u(0xfffffff0)
+#define TRNG_RNG_ISR_RESERVED_MSB    _u(31)
+#define TRNG_RNG_ISR_RESERVED_LSB    _u(4)
+#define TRNG_RNG_ISR_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ISR_VN_ERR
+// Description : 1'b1 indicates Von Neuman error. Error in von Neuman occurs if
+//               32 consecutive collected bits are identical, ZERO or ONE.
+#define TRNG_RNG_ISR_VN_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ISR_VN_ERR_BITS   _u(0x00000008)
+#define TRNG_RNG_ISR_VN_ERR_MSB    _u(3)
+#define TRNG_RNG_ISR_VN_ERR_LSB    _u(3)
+#define TRNG_RNG_ISR_VN_ERR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ISR_CRNGT_ERR
+// Description : 1'b1 indicates CRNGT in the RNG test failed. Failure occurs
+//               when two consecutive blocks of 16 collected bits are equal.
+#define TRNG_RNG_ISR_CRNGT_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ISR_CRNGT_ERR_BITS   _u(0x00000004)
+#define TRNG_RNG_ISR_CRNGT_ERR_MSB    _u(2)
+#define TRNG_RNG_ISR_CRNGT_ERR_LSB    _u(2)
+#define TRNG_RNG_ISR_CRNGT_ERR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ISR_AUTOCORR_ERR
+// Description : 1'b1 indicates Autocorrelation test failed four times in a row.
+//               When set, RNG cease from functioning until next reset.
+#define TRNG_RNG_ISR_AUTOCORR_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ISR_AUTOCORR_ERR_BITS   _u(0x00000002)
+#define TRNG_RNG_ISR_AUTOCORR_ERR_MSB    _u(1)
+#define TRNG_RNG_ISR_AUTOCORR_ERR_LSB    _u(1)
+#define TRNG_RNG_ISR_AUTOCORR_ERR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ISR_EHR_VALID
+// Description : 1'b1 indicates that 192 bits have been collected in the RNG,
+//               and are ready to be read.
+#define TRNG_RNG_ISR_EHR_VALID_RESET  _u(0x0)
+#define TRNG_RNG_ISR_EHR_VALID_BITS   _u(0x00000001)
+#define TRNG_RNG_ISR_EHR_VALID_MSB    _u(0)
+#define TRNG_RNG_ISR_EHR_VALID_LSB    _u(0)
+#define TRNG_RNG_ISR_EHR_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RNG_ICR
+// Description : Interrupt/status bit clear Register.
+#define TRNG_RNG_ICR_OFFSET _u(0x00000108)
+#define TRNG_RNG_ICR_BITS   _u(0xffffffff)
+#define TRNG_RNG_ICR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ICR_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_ICR_RESERVED_RESET  _u(0x0000000)
+#define TRNG_RNG_ICR_RESERVED_BITS   _u(0xfffffff0)
+#define TRNG_RNG_ICR_RESERVED_MSB    _u(31)
+#define TRNG_RNG_ICR_RESERVED_LSB    _u(4)
+#define TRNG_RNG_ICR_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ICR_VN_ERR
+// Description : Write 1'b1 - clear corresponding bit in RNG_ISR.
+#define TRNG_RNG_ICR_VN_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ICR_VN_ERR_BITS   _u(0x00000008)
+#define TRNG_RNG_ICR_VN_ERR_MSB    _u(3)
+#define TRNG_RNG_ICR_VN_ERR_LSB    _u(3)
+#define TRNG_RNG_ICR_VN_ERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ICR_CRNGT_ERR
+// Description : Write 1'b1 - clear corresponding bit in RNG_ISR.
+#define TRNG_RNG_ICR_CRNGT_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ICR_CRNGT_ERR_BITS   _u(0x00000004)
+#define TRNG_RNG_ICR_CRNGT_ERR_MSB    _u(2)
+#define TRNG_RNG_ICR_CRNGT_ERR_LSB    _u(2)
+#define TRNG_RNG_ICR_CRNGT_ERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ICR_AUTOCORR_ERR
+// Description : Cannot be cleared by SW! Only RNG reset clears this bit.
+#define TRNG_RNG_ICR_AUTOCORR_ERR_RESET  _u(0x0)
+#define TRNG_RNG_ICR_AUTOCORR_ERR_BITS   _u(0x00000002)
+#define TRNG_RNG_ICR_AUTOCORR_ERR_MSB    _u(1)
+#define TRNG_RNG_ICR_AUTOCORR_ERR_LSB    _u(1)
+#define TRNG_RNG_ICR_AUTOCORR_ERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_ICR_EHR_VALID
+// Description : Write 1'b1 - clear corresponding bit in RNG_ISR.
+#define TRNG_RNG_ICR_EHR_VALID_RESET  _u(0x0)
+#define TRNG_RNG_ICR_EHR_VALID_BITS   _u(0x00000001)
+#define TRNG_RNG_ICR_EHR_VALID_MSB    _u(0)
+#define TRNG_RNG_ICR_EHR_VALID_LSB    _u(0)
+#define TRNG_RNG_ICR_EHR_VALID_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_TRNG_CONFIG
+// Description : Selecting the inverter-chain length.
+#define TRNG_TRNG_CONFIG_OFFSET _u(0x0000010c)
+#define TRNG_TRNG_CONFIG_BITS   _u(0xffffffff)
+#define TRNG_TRNG_CONFIG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_CONFIG_RESERVED
+// Description : RESERVED
+#define TRNG_TRNG_CONFIG_RESERVED_RESET  _u(0x00000000)
+#define TRNG_TRNG_CONFIG_RESERVED_BITS   _u(0xfffffffc)
+#define TRNG_TRNG_CONFIG_RESERVED_MSB    _u(31)
+#define TRNG_TRNG_CONFIG_RESERVED_LSB    _u(2)
+#define TRNG_TRNG_CONFIG_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_CONFIG_RND_SRC_SEL
+// Description : Selects the number of inverters (out of four possible
+//               selections) in the ring oscillator (the entropy source).
+#define TRNG_TRNG_CONFIG_RND_SRC_SEL_RESET  _u(0x0)
+#define TRNG_TRNG_CONFIG_RND_SRC_SEL_BITS   _u(0x00000003)
+#define TRNG_TRNG_CONFIG_RND_SRC_SEL_MSB    _u(1)
+#define TRNG_TRNG_CONFIG_RND_SRC_SEL_LSB    _u(0)
+#define TRNG_TRNG_CONFIG_RND_SRC_SEL_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_TRNG_VALID
+// Description : 192 bit collection indication.
+#define TRNG_TRNG_VALID_OFFSET _u(0x00000110)
+#define TRNG_TRNG_VALID_BITS   _u(0xffffffff)
+#define TRNG_TRNG_VALID_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_VALID_RESERVED
+// Description : RESERVED
+#define TRNG_TRNG_VALID_RESERVED_RESET  _u(0x00000000)
+#define TRNG_TRNG_VALID_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_TRNG_VALID_RESERVED_MSB    _u(31)
+#define TRNG_TRNG_VALID_RESERVED_LSB    _u(1)
+#define TRNG_TRNG_VALID_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_VALID_EHR_VALID
+// Description : 1'b1 indicates that collection of bits in the RNG is completed,
+//               and data can be read from EHR_DATA register.
+#define TRNG_TRNG_VALID_EHR_VALID_RESET  _u(0x0)
+#define TRNG_TRNG_VALID_EHR_VALID_BITS   _u(0x00000001)
+#define TRNG_TRNG_VALID_EHR_VALID_MSB    _u(0)
+#define TRNG_TRNG_VALID_EHR_VALID_LSB    _u(0)
+#define TRNG_TRNG_VALID_EHR_VALID_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA0
+// Description : RNG collected bits.
+//               Bits [31:0] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA0_OFFSET _u(0x00000114)
+#define TRNG_EHR_DATA0_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA0_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA0_MSB    _u(31)
+#define TRNG_EHR_DATA0_LSB    _u(0)
+#define TRNG_EHR_DATA0_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA1
+// Description : RNG collected bits.
+//               Bits [63:32] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA1_OFFSET _u(0x00000118)
+#define TRNG_EHR_DATA1_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA1_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA1_MSB    _u(31)
+#define TRNG_EHR_DATA1_LSB    _u(0)
+#define TRNG_EHR_DATA1_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA2
+// Description : RNG collected bits.
+//               Bits [95:64] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA2_OFFSET _u(0x0000011c)
+#define TRNG_EHR_DATA2_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA2_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA2_MSB    _u(31)
+#define TRNG_EHR_DATA2_LSB    _u(0)
+#define TRNG_EHR_DATA2_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA3
+// Description : RNG collected bits.
+//               Bits [127:96] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA3_OFFSET _u(0x00000120)
+#define TRNG_EHR_DATA3_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA3_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA3_MSB    _u(31)
+#define TRNG_EHR_DATA3_LSB    _u(0)
+#define TRNG_EHR_DATA3_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA4
+// Description : RNG collected bits.
+//               Bits [159:128] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA4_OFFSET _u(0x00000124)
+#define TRNG_EHR_DATA4_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA4_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA4_MSB    _u(31)
+#define TRNG_EHR_DATA4_LSB    _u(0)
+#define TRNG_EHR_DATA4_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_EHR_DATA5
+// Description : RNG collected bits.
+//               Bits [191:160] of Entropy Holding Register (EHR) - RNG output
+//               register
+#define TRNG_EHR_DATA5_OFFSET _u(0x00000128)
+#define TRNG_EHR_DATA5_BITS   _u(0xffffffff)
+#define TRNG_EHR_DATA5_RESET  _u(0x00000000)
+#define TRNG_EHR_DATA5_MSB    _u(31)
+#define TRNG_EHR_DATA5_LSB    _u(0)
+#define TRNG_EHR_DATA5_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RND_SOURCE_ENABLE
+// Description : Enable signal for the random source.
+#define TRNG_RND_SOURCE_ENABLE_OFFSET _u(0x0000012c)
+#define TRNG_RND_SOURCE_ENABLE_BITS   _u(0xffffffff)
+#define TRNG_RND_SOURCE_ENABLE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RND_SOURCE_ENABLE_RESERVED
+// Description : RESERVED
+#define TRNG_RND_SOURCE_ENABLE_RESERVED_RESET  _u(0x00000000)
+#define TRNG_RND_SOURCE_ENABLE_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_RND_SOURCE_ENABLE_RESERVED_MSB    _u(31)
+#define TRNG_RND_SOURCE_ENABLE_RESERVED_LSB    _u(1)
+#define TRNG_RND_SOURCE_ENABLE_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RND_SOURCE_ENABLE_RND_SRC_EN
+// Description : * 1'b1 - entropy source is enabled. *1'b0 - entropy source is
+//               disabled
+#define TRNG_RND_SOURCE_ENABLE_RND_SRC_EN_RESET  _u(0x0)
+#define TRNG_RND_SOURCE_ENABLE_RND_SRC_EN_BITS   _u(0x00000001)
+#define TRNG_RND_SOURCE_ENABLE_RND_SRC_EN_MSB    _u(0)
+#define TRNG_RND_SOURCE_ENABLE_RND_SRC_EN_LSB    _u(0)
+#define TRNG_RND_SOURCE_ENABLE_RND_SRC_EN_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_SAMPLE_CNT1
+// Description : Counts clocks between sampling of random bit.
+#define TRNG_SAMPLE_CNT1_OFFSET _u(0x00000130)
+#define TRNG_SAMPLE_CNT1_BITS   _u(0xffffffff)
+#define TRNG_SAMPLE_CNT1_RESET  _u(0x0000ffff)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_SAMPLE_CNT1_SAMPLE_CNTR1
+// Description : Sets the number of rng_clk cycles between two consecutive ring
+//               oscillator samples. Note! If the Von-Neuman is bypassed, the
+//               minimum value for sample counter must not be less then decimal
+//               seventeen
+#define TRNG_SAMPLE_CNT1_SAMPLE_CNTR1_RESET  _u(0x0000ffff)
+#define TRNG_SAMPLE_CNT1_SAMPLE_CNTR1_BITS   _u(0xffffffff)
+#define TRNG_SAMPLE_CNT1_SAMPLE_CNTR1_MSB    _u(31)
+#define TRNG_SAMPLE_CNT1_SAMPLE_CNTR1_LSB    _u(0)
+#define TRNG_SAMPLE_CNT1_SAMPLE_CNTR1_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_AUTOCORR_STATISTIC
+// Description : Statistic about Autocorrelation test activations.
+#define TRNG_AUTOCORR_STATISTIC_OFFSET _u(0x00000134)
+#define TRNG_AUTOCORR_STATISTIC_BITS   _u(0xffffffff)
+#define TRNG_AUTOCORR_STATISTIC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_AUTOCORR_STATISTIC_RESERVED
+// Description : RESERVED
+#define TRNG_AUTOCORR_STATISTIC_RESERVED_RESET  _u(0x000)
+#define TRNG_AUTOCORR_STATISTIC_RESERVED_BITS   _u(0xffc00000)
+#define TRNG_AUTOCORR_STATISTIC_RESERVED_MSB    _u(31)
+#define TRNG_AUTOCORR_STATISTIC_RESERVED_LSB    _u(22)
+#define TRNG_AUTOCORR_STATISTIC_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS
+// Description : Count each time an autocorrelation test fails. Any write to the
+//               register reset the counter. Stop collecting statistic if one of
+//               the counters reached the limit.
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS_RESET  _u(0x00)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS_BITS   _u(0x003fc000)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS_MSB    _u(21)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS_LSB    _u(14)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_FAILS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS
+// Description : Count each time an autocorrelation test starts. Any write to
+//               the register reset the counter. Stop collecting statistic if
+//               one of the counters reached the limit.
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS_RESET  _u(0x0000)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS_BITS   _u(0x00003fff)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS_MSB    _u(13)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS_LSB    _u(0)
+#define TRNG_AUTOCORR_STATISTIC_AUTOCORR_TRYS_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_TRNG_DEBUG_CONTROL
+// Description : Debug register.
+#define TRNG_TRNG_DEBUG_CONTROL_OFFSET _u(0x00000138)
+#define TRNG_TRNG_DEBUG_CONTROL_BITS   _u(0x0000000f)
+#define TRNG_TRNG_DEBUG_CONTROL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS
+// Description : When set, the autocorrelation test in the TRNG module is
+//               bypassed.
+#define TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS_RESET  _u(0x0)
+#define TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS_BITS   _u(0x00000008)
+#define TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS_MSB    _u(3)
+#define TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS_LSB    _u(3)
+#define TRNG_TRNG_DEBUG_CONTROL_AUTO_CORRELATE_BYPASS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS
+// Description : When set, the CRNGT test in the RNG is bypassed.
+#define TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS_RESET  _u(0x0)
+#define TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS_BITS   _u(0x00000004)
+#define TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS_MSB    _u(2)
+#define TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS_LSB    _u(2)
+#define TRNG_TRNG_DEBUG_CONTROL_TRNG_CRNGT_BYPASS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS
+// Description : When set, the Von-Neuman balancer is bypassed (including the 32
+//               consecutive bits test).
+#define TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS_RESET  _u(0x0)
+#define TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS_BITS   _u(0x00000002)
+#define TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS_MSB    _u(1)
+#define TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS_LSB    _u(1)
+#define TRNG_TRNG_DEBUG_CONTROL_VNC_BYPASS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_DEBUG_CONTROL_RESERVED
+// Description : N/A
+#define TRNG_TRNG_DEBUG_CONTROL_RESERVED_RESET  _u(0x0)
+#define TRNG_TRNG_DEBUG_CONTROL_RESERVED_BITS   _u(0x00000001)
+#define TRNG_TRNG_DEBUG_CONTROL_RESERVED_MSB    _u(0)
+#define TRNG_TRNG_DEBUG_CONTROL_RESERVED_LSB    _u(0)
+#define TRNG_TRNG_DEBUG_CONTROL_RESERVED_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_TRNG_SW_RESET
+// Description : Generate internal SW reset within the RNG block.
+#define TRNG_TRNG_SW_RESET_OFFSET _u(0x00000140)
+#define TRNG_TRNG_SW_RESET_BITS   _u(0xffffffff)
+#define TRNG_TRNG_SW_RESET_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_SW_RESET_RESERVED
+// Description : RESERVED
+#define TRNG_TRNG_SW_RESET_RESERVED_RESET  _u(0x00000000)
+#define TRNG_TRNG_SW_RESET_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_TRNG_SW_RESET_RESERVED_MSB    _u(31)
+#define TRNG_TRNG_SW_RESET_RESERVED_LSB    _u(1)
+#define TRNG_TRNG_SW_RESET_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_SW_RESET_TRNG_SW_RESET
+// Description : Writing 1'b1 to this register causes an internal RNG reset.
+#define TRNG_TRNG_SW_RESET_TRNG_SW_RESET_RESET  _u(0x0)
+#define TRNG_TRNG_SW_RESET_TRNG_SW_RESET_BITS   _u(0x00000001)
+#define TRNG_TRNG_SW_RESET_TRNG_SW_RESET_MSB    _u(0)
+#define TRNG_TRNG_SW_RESET_TRNG_SW_RESET_LSB    _u(0)
+#define TRNG_TRNG_SW_RESET_TRNG_SW_RESET_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_RNG_DEBUG_EN_INPUT
+// Description : Enable the RNG debug mode
+#define TRNG_RNG_DEBUG_EN_INPUT_OFFSET _u(0x000001b4)
+#define TRNG_RNG_DEBUG_EN_INPUT_BITS   _u(0xffffffff)
+#define TRNG_RNG_DEBUG_EN_INPUT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_DEBUG_EN_INPUT_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_DEBUG_EN_INPUT_RESERVED_RESET  _u(0x00000000)
+#define TRNG_RNG_DEBUG_EN_INPUT_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_RNG_DEBUG_EN_INPUT_RESERVED_MSB    _u(31)
+#define TRNG_RNG_DEBUG_EN_INPUT_RESERVED_LSB    _u(1)
+#define TRNG_RNG_DEBUG_EN_INPUT_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN
+// Description : * 1'b1 - debug mode is enabled. *1'b0 - debug mode is disabled
+#define TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN_RESET  _u(0x0)
+#define TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN_BITS   _u(0x00000001)
+#define TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN_MSB    _u(0)
+#define TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN_LSB    _u(0)
+#define TRNG_RNG_DEBUG_EN_INPUT_RNG_DEBUG_EN_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_TRNG_BUSY
+// Description : RNG Busy indication.
+#define TRNG_TRNG_BUSY_OFFSET _u(0x000001b8)
+#define TRNG_TRNG_BUSY_BITS   _u(0xffffffff)
+#define TRNG_TRNG_BUSY_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_BUSY_RESERVED
+// Description : RESERVED
+#define TRNG_TRNG_BUSY_RESERVED_RESET  _u(0x00000000)
+#define TRNG_TRNG_BUSY_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_TRNG_BUSY_RESERVED_MSB    _u(31)
+#define TRNG_TRNG_BUSY_RESERVED_LSB    _u(1)
+#define TRNG_TRNG_BUSY_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_TRNG_BUSY_TRNG_BUSY
+// Description : Reflects rng_busy status.
+#define TRNG_TRNG_BUSY_TRNG_BUSY_RESET  _u(0x0)
+#define TRNG_TRNG_BUSY_TRNG_BUSY_BITS   _u(0x00000001)
+#define TRNG_TRNG_BUSY_TRNG_BUSY_MSB    _u(0)
+#define TRNG_TRNG_BUSY_TRNG_BUSY_LSB    _u(0)
+#define TRNG_TRNG_BUSY_TRNG_BUSY_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RST_BITS_COUNTER
+// Description : Reset the counter of collected bits in the RNG.
+#define TRNG_RST_BITS_COUNTER_OFFSET _u(0x000001bc)
+#define TRNG_RST_BITS_COUNTER_BITS   _u(0xffffffff)
+#define TRNG_RST_BITS_COUNTER_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RST_BITS_COUNTER_RESERVED
+// Description : RESERVED
+#define TRNG_RST_BITS_COUNTER_RESERVED_RESET  _u(0x00000000)
+#define TRNG_RST_BITS_COUNTER_RESERVED_BITS   _u(0xfffffffe)
+#define TRNG_RST_BITS_COUNTER_RESERVED_MSB    _u(31)
+#define TRNG_RST_BITS_COUNTER_RESERVED_LSB    _u(1)
+#define TRNG_RST_BITS_COUNTER_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER
+// Description : Writing any value to this address will reset the bits counter
+//               and RNG valid registers. RND_SORCE_ENABLE register must be
+//               unset in order for the reset to take place.
+#define TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER_RESET  _u(0x0)
+#define TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER_BITS   _u(0x00000001)
+#define TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER_MSB    _u(0)
+#define TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER_LSB    _u(0)
+#define TRNG_RST_BITS_COUNTER_RST_BITS_COUNTER_ACCESS "RW"
+// =============================================================================
+// Register    : TRNG_RNG_VERSION
+// Description : Displays the version settings of the TRNG.
+#define TRNG_RNG_VERSION_OFFSET _u(0x000001c0)
+#define TRNG_RNG_VERSION_BITS   _u(0xffffffff)
+#define TRNG_RNG_VERSION_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_VERSION_RESERVED_RESET  _u(0x000000)
+#define TRNG_RNG_VERSION_RESERVED_BITS   _u(0xffffff00)
+#define TRNG_RNG_VERSION_RESERVED_MSB    _u(31)
+#define TRNG_RNG_VERSION_RESERVED_LSB    _u(8)
+#define TRNG_RNG_VERSION_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_RNG_USE_5_SBOXES
+// Description : * 1'b1 - 5 SBOX AES. *1'b0 - 20 SBOX AES
+#define TRNG_RNG_VERSION_RNG_USE_5_SBOXES_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_RNG_USE_5_SBOXES_BITS   _u(0x00000080)
+#define TRNG_RNG_VERSION_RNG_USE_5_SBOXES_MSB    _u(7)
+#define TRNG_RNG_VERSION_RNG_USE_5_SBOXES_LSB    _u(7)
+#define TRNG_RNG_VERSION_RNG_USE_5_SBOXES_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_RESEEDING_EXISTS
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_RESEEDING_EXISTS_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_RESEEDING_EXISTS_BITS   _u(0x00000040)
+#define TRNG_RNG_VERSION_RESEEDING_EXISTS_MSB    _u(6)
+#define TRNG_RNG_VERSION_RESEEDING_EXISTS_LSB    _u(6)
+#define TRNG_RNG_VERSION_RESEEDING_EXISTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_KAT_EXISTS
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_KAT_EXISTS_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_KAT_EXISTS_BITS   _u(0x00000020)
+#define TRNG_RNG_VERSION_KAT_EXISTS_MSB    _u(5)
+#define TRNG_RNG_VERSION_KAT_EXISTS_LSB    _u(5)
+#define TRNG_RNG_VERSION_KAT_EXISTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_PRNG_EXISTS
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_PRNG_EXISTS_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_PRNG_EXISTS_BITS   _u(0x00000010)
+#define TRNG_RNG_VERSION_PRNG_EXISTS_MSB    _u(4)
+#define TRNG_RNG_VERSION_PRNG_EXISTS_LSB    _u(4)
+#define TRNG_RNG_VERSION_PRNG_EXISTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN_BITS   _u(0x00000008)
+#define TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN_MSB    _u(3)
+#define TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN_LSB    _u(3)
+#define TRNG_RNG_VERSION_TRNG_TESTS_BYPASS_EN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_AUTOCORR_EXISTS
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_AUTOCORR_EXISTS_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_AUTOCORR_EXISTS_BITS   _u(0x00000004)
+#define TRNG_RNG_VERSION_AUTOCORR_EXISTS_MSB    _u(2)
+#define TRNG_RNG_VERSION_AUTOCORR_EXISTS_LSB    _u(2)
+#define TRNG_RNG_VERSION_AUTOCORR_EXISTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_CRNGT_EXISTS
+// Description : * 1'b1 - Exists. *1'b0 - Does not exist
+#define TRNG_RNG_VERSION_CRNGT_EXISTS_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_CRNGT_EXISTS_BITS   _u(0x00000002)
+#define TRNG_RNG_VERSION_CRNGT_EXISTS_MSB    _u(1)
+#define TRNG_RNG_VERSION_CRNGT_EXISTS_LSB    _u(1)
+#define TRNG_RNG_VERSION_CRNGT_EXISTS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_VERSION_EHR_WIDTH_192
+// Description : * 1'b1 - 192-bit EHR. *1'b0 - 128-bit EHR
+#define TRNG_RNG_VERSION_EHR_WIDTH_192_RESET  _u(0x0)
+#define TRNG_RNG_VERSION_EHR_WIDTH_192_BITS   _u(0x00000001)
+#define TRNG_RNG_VERSION_EHR_WIDTH_192_MSB    _u(0)
+#define TRNG_RNG_VERSION_EHR_WIDTH_192_LSB    _u(0)
+#define TRNG_RNG_VERSION_EHR_WIDTH_192_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RNG_BIST_CNTR_0
+// Description : Collected BIST results.
+#define TRNG_RNG_BIST_CNTR_0_OFFSET _u(0x000001e0)
+#define TRNG_RNG_BIST_CNTR_0_BITS   _u(0xffffffff)
+#define TRNG_RNG_BIST_CNTR_0_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_0_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_BIST_CNTR_0_RESERVED_RESET  _u(0x000)
+#define TRNG_RNG_BIST_CNTR_0_RESERVED_BITS   _u(0xffc00000)
+#define TRNG_RNG_BIST_CNTR_0_RESERVED_MSB    _u(31)
+#define TRNG_RNG_BIST_CNTR_0_RESERVED_LSB    _u(22)
+#define TRNG_RNG_BIST_CNTR_0_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL
+// Description : Reflects the results of RNG BIST counter.
+#define TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL_RESET  _u(0x000000)
+#define TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL_BITS   _u(0x003fffff)
+#define TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL_MSB    _u(21)
+#define TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL_LSB    _u(0)
+#define TRNG_RNG_BIST_CNTR_0_ROSC_CNTR_VAL_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RNG_BIST_CNTR_1
+// Description : Collected BIST results.
+#define TRNG_RNG_BIST_CNTR_1_OFFSET _u(0x000001e4)
+#define TRNG_RNG_BIST_CNTR_1_BITS   _u(0xffffffff)
+#define TRNG_RNG_BIST_CNTR_1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_1_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_BIST_CNTR_1_RESERVED_RESET  _u(0x000)
+#define TRNG_RNG_BIST_CNTR_1_RESERVED_BITS   _u(0xffc00000)
+#define TRNG_RNG_BIST_CNTR_1_RESERVED_MSB    _u(31)
+#define TRNG_RNG_BIST_CNTR_1_RESERVED_LSB    _u(22)
+#define TRNG_RNG_BIST_CNTR_1_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL
+// Description : Reflects the results of RNG BIST counter.
+#define TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL_RESET  _u(0x000000)
+#define TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL_BITS   _u(0x003fffff)
+#define TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL_MSB    _u(21)
+#define TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL_LSB    _u(0)
+#define TRNG_RNG_BIST_CNTR_1_ROSC_CNTR_VAL_ACCESS "RO"
+// =============================================================================
+// Register    : TRNG_RNG_BIST_CNTR_2
+// Description : Collected BIST results.
+#define TRNG_RNG_BIST_CNTR_2_OFFSET _u(0x000001e8)
+#define TRNG_RNG_BIST_CNTR_2_BITS   _u(0xffffffff)
+#define TRNG_RNG_BIST_CNTR_2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_2_RESERVED
+// Description : RESERVED
+#define TRNG_RNG_BIST_CNTR_2_RESERVED_RESET  _u(0x000)
+#define TRNG_RNG_BIST_CNTR_2_RESERVED_BITS   _u(0xffc00000)
+#define TRNG_RNG_BIST_CNTR_2_RESERVED_MSB    _u(31)
+#define TRNG_RNG_BIST_CNTR_2_RESERVED_LSB    _u(22)
+#define TRNG_RNG_BIST_CNTR_2_RESERVED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL
+// Description : Reflects the results of RNG BIST counter.
+#define TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL_RESET  _u(0x000000)
+#define TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL_BITS   _u(0x003fffff)
+#define TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL_MSB    _u(21)
+#define TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL_LSB    _u(0)
+#define TRNG_RNG_BIST_CNTR_2_ROSC_CNTR_VAL_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_TRNG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/uart.h b/lib/pico-sdk/rp2350/hardware/regs/uart.h
new file mode 100644
index 0000000..0f7f17e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/uart.h
@@ -0,0 +1,1150 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : UART
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_UART_H
+#define _HARDWARE_REGS_UART_H
+// =============================================================================
+// Register    : UART_UARTDR
+// Description : Data Register, UARTDR
+#define UART_UARTDR_OFFSET _u(0x00000000)
+#define UART_UARTDR_BITS   _u(0x00000fff)
+#define UART_UARTDR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDR_OE
+// Description : Overrun error. This bit is set to 1 if data is received and the
+//               receive FIFO is already full. This is cleared to 0 once there
+//               is an empty space in the FIFO and a new character can be
+//               written to it.
+#define UART_UARTDR_OE_RESET  "-"
+#define UART_UARTDR_OE_BITS   _u(0x00000800)
+#define UART_UARTDR_OE_MSB    _u(11)
+#define UART_UARTDR_OE_LSB    _u(11)
+#define UART_UARTDR_OE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDR_BE
+// Description : Break error. This bit is set to 1 if a break condition was
+//               detected, indicating that the received data input was held LOW
+//               for longer than a full-word transmission time (defined as
+//               start, data, parity and stop bits). In FIFO mode, this error is
+//               associated with the character at the top of the FIFO. When a
+//               break occurs, only one 0 character is loaded into the FIFO. The
+//               next character is only enabled after the receive data input
+//               goes to a 1 (marking state), and the next valid start bit is
+//               received.
+#define UART_UARTDR_BE_RESET  "-"
+#define UART_UARTDR_BE_BITS   _u(0x00000400)
+#define UART_UARTDR_BE_MSB    _u(10)
+#define UART_UARTDR_BE_LSB    _u(10)
+#define UART_UARTDR_BE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDR_PE
+// Description : Parity error. When set to 1, it indicates that the parity of
+//               the received data character does not match the parity that the
+//               EPS and SPS bits in the Line Control Register, UARTLCR_H. In
+//               FIFO mode, this error is associated with the character at the
+//               top of the FIFO.
+#define UART_UARTDR_PE_RESET  "-"
+#define UART_UARTDR_PE_BITS   _u(0x00000200)
+#define UART_UARTDR_PE_MSB    _u(9)
+#define UART_UARTDR_PE_LSB    _u(9)
+#define UART_UARTDR_PE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDR_FE
+// Description : Framing error. When set to 1, it indicates that the received
+//               character did not have a valid stop bit (a valid stop bit is
+//               1). In FIFO mode, this error is associated with the character
+//               at the top of the FIFO.
+#define UART_UARTDR_FE_RESET  "-"
+#define UART_UARTDR_FE_BITS   _u(0x00000100)
+#define UART_UARTDR_FE_MSB    _u(8)
+#define UART_UARTDR_FE_LSB    _u(8)
+#define UART_UARTDR_FE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDR_DATA
+// Description : Receive (read) data character. Transmit (write) data character.
+#define UART_UARTDR_DATA_RESET  "-"
+#define UART_UARTDR_DATA_BITS   _u(0x000000ff)
+#define UART_UARTDR_DATA_MSB    _u(7)
+#define UART_UARTDR_DATA_LSB    _u(0)
+#define UART_UARTDR_DATA_ACCESS "RWF"
+// =============================================================================
+// Register    : UART_UARTRSR
+// Description : Receive Status Register/Error Clear Register, UARTRSR/UARTECR
+#define UART_UARTRSR_OFFSET _u(0x00000004)
+#define UART_UARTRSR_BITS   _u(0x0000000f)
+#define UART_UARTRSR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRSR_OE
+// Description : Overrun error. This bit is set to 1 if data is received and the
+//               FIFO is already full. This bit is cleared to 0 by a write to
+//               UARTECR. The FIFO contents remain valid because no more data is
+//               written when the FIFO is full, only the contents of the shift
+//               register are overwritten. The CPU must now read the data, to
+//               empty the FIFO.
+#define UART_UARTRSR_OE_RESET  _u(0x0)
+#define UART_UARTRSR_OE_BITS   _u(0x00000008)
+#define UART_UARTRSR_OE_MSB    _u(3)
+#define UART_UARTRSR_OE_LSB    _u(3)
+#define UART_UARTRSR_OE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRSR_BE
+// Description : Break error. This bit is set to 1 if a break condition was
+//               detected, indicating that the received data input was held LOW
+//               for longer than a full-word transmission time (defined as
+//               start, data, parity, and stop bits). This bit is cleared to 0
+//               after a write to UARTECR. In FIFO mode, this error is
+//               associated with the character at the top of the FIFO. When a
+//               break occurs, only one 0 character is loaded into the FIFO. The
+//               next character is only enabled after the receive data input
+//               goes to a 1 (marking state) and the next valid start bit is
+//               received.
+#define UART_UARTRSR_BE_RESET  _u(0x0)
+#define UART_UARTRSR_BE_BITS   _u(0x00000004)
+#define UART_UARTRSR_BE_MSB    _u(2)
+#define UART_UARTRSR_BE_LSB    _u(2)
+#define UART_UARTRSR_BE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRSR_PE
+// Description : Parity error. When set to 1, it indicates that the parity of
+//               the received data character does not match the parity that the
+//               EPS and SPS bits in the Line Control Register, UARTLCR_H. This
+//               bit is cleared to 0 by a write to UARTECR. In FIFO mode, this
+//               error is associated with the character at the top of the FIFO.
+#define UART_UARTRSR_PE_RESET  _u(0x0)
+#define UART_UARTRSR_PE_BITS   _u(0x00000002)
+#define UART_UARTRSR_PE_MSB    _u(1)
+#define UART_UARTRSR_PE_LSB    _u(1)
+#define UART_UARTRSR_PE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRSR_FE
+// Description : Framing error. When set to 1, it indicates that the received
+//               character did not have a valid stop bit (a valid stop bit is
+//               1). This bit is cleared to 0 by a write to UARTECR. In FIFO
+//               mode, this error is associated with the character at the top of
+//               the FIFO.
+#define UART_UARTRSR_FE_RESET  _u(0x0)
+#define UART_UARTRSR_FE_BITS   _u(0x00000001)
+#define UART_UARTRSR_FE_MSB    _u(0)
+#define UART_UARTRSR_FE_LSB    _u(0)
+#define UART_UARTRSR_FE_ACCESS "WC"
+// =============================================================================
+// Register    : UART_UARTFR
+// Description : Flag Register, UARTFR
+#define UART_UARTFR_OFFSET _u(0x00000018)
+#define UART_UARTFR_BITS   _u(0x000001ff)
+#define UART_UARTFR_RESET  _u(0x00000090)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_RI
+// Description : Ring indicator. This bit is the complement of the UART ring
+//               indicator, nUARTRI, modem status input. That is, the bit is 1
+//               when nUARTRI is LOW.
+#define UART_UARTFR_RI_RESET  "-"
+#define UART_UARTFR_RI_BITS   _u(0x00000100)
+#define UART_UARTFR_RI_MSB    _u(8)
+#define UART_UARTFR_RI_LSB    _u(8)
+#define UART_UARTFR_RI_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_TXFE
+// Description : Transmit FIFO empty. The meaning of this bit depends on the
+//               state of the FEN bit in the Line Control Register, UARTLCR_H.
+//               If the FIFO is disabled, this bit is set when the transmit
+//               holding register is empty. If the FIFO is enabled, the TXFE bit
+//               is set when the transmit FIFO is empty. This bit does not
+//               indicate if there is data in the transmit shift register.
+#define UART_UARTFR_TXFE_RESET  _u(0x1)
+#define UART_UARTFR_TXFE_BITS   _u(0x00000080)
+#define UART_UARTFR_TXFE_MSB    _u(7)
+#define UART_UARTFR_TXFE_LSB    _u(7)
+#define UART_UARTFR_TXFE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_RXFF
+// Description : Receive FIFO full. The meaning of this bit depends on the state
+//               of the FEN bit in the UARTLCR_H Register. If the FIFO is
+//               disabled, this bit is set when the receive holding register is
+//               full. If the FIFO is enabled, the RXFF bit is set when the
+//               receive FIFO is full.
+#define UART_UARTFR_RXFF_RESET  _u(0x0)
+#define UART_UARTFR_RXFF_BITS   _u(0x00000040)
+#define UART_UARTFR_RXFF_MSB    _u(6)
+#define UART_UARTFR_RXFF_LSB    _u(6)
+#define UART_UARTFR_RXFF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_TXFF
+// Description : Transmit FIFO full. The meaning of this bit depends on the
+//               state of the FEN bit in the UARTLCR_H Register. If the FIFO is
+//               disabled, this bit is set when the transmit holding register is
+//               full. If the FIFO is enabled, the TXFF bit is set when the
+//               transmit FIFO is full.
+#define UART_UARTFR_TXFF_RESET  _u(0x0)
+#define UART_UARTFR_TXFF_BITS   _u(0x00000020)
+#define UART_UARTFR_TXFF_MSB    _u(5)
+#define UART_UARTFR_TXFF_LSB    _u(5)
+#define UART_UARTFR_TXFF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_RXFE
+// Description : Receive FIFO empty. The meaning of this bit depends on the
+//               state of the FEN bit in the UARTLCR_H Register. If the FIFO is
+//               disabled, this bit is set when the receive holding register is
+//               empty. If the FIFO is enabled, the RXFE bit is set when the
+//               receive FIFO is empty.
+#define UART_UARTFR_RXFE_RESET  _u(0x1)
+#define UART_UARTFR_RXFE_BITS   _u(0x00000010)
+#define UART_UARTFR_RXFE_MSB    _u(4)
+#define UART_UARTFR_RXFE_LSB    _u(4)
+#define UART_UARTFR_RXFE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_BUSY
+// Description : UART busy. If this bit is set to 1, the UART is busy
+//               transmitting data. This bit remains set until the complete
+//               byte, including all the stop bits, has been sent from the shift
+//               register. This bit is set as soon as the transmit FIFO becomes
+//               non-empty, regardless of whether the UART is enabled or not.
+#define UART_UARTFR_BUSY_RESET  _u(0x0)
+#define UART_UARTFR_BUSY_BITS   _u(0x00000008)
+#define UART_UARTFR_BUSY_MSB    _u(3)
+#define UART_UARTFR_BUSY_LSB    _u(3)
+#define UART_UARTFR_BUSY_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_DCD
+// Description : Data carrier detect. This bit is the complement of the UART
+//               data carrier detect, nUARTDCD, modem status input. That is, the
+//               bit is 1 when nUARTDCD is LOW.
+#define UART_UARTFR_DCD_RESET  "-"
+#define UART_UARTFR_DCD_BITS   _u(0x00000004)
+#define UART_UARTFR_DCD_MSB    _u(2)
+#define UART_UARTFR_DCD_LSB    _u(2)
+#define UART_UARTFR_DCD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_DSR
+// Description : Data set ready. This bit is the complement of the UART data set
+//               ready, nUARTDSR, modem status input. That is, the bit is 1 when
+//               nUARTDSR is LOW.
+#define UART_UARTFR_DSR_RESET  "-"
+#define UART_UARTFR_DSR_BITS   _u(0x00000002)
+#define UART_UARTFR_DSR_MSB    _u(1)
+#define UART_UARTFR_DSR_LSB    _u(1)
+#define UART_UARTFR_DSR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFR_CTS
+// Description : Clear to send. This bit is the complement of the UART clear to
+//               send, nUARTCTS, modem status input. That is, the bit is 1 when
+//               nUARTCTS is LOW.
+#define UART_UARTFR_CTS_RESET  "-"
+#define UART_UARTFR_CTS_BITS   _u(0x00000001)
+#define UART_UARTFR_CTS_MSB    _u(0)
+#define UART_UARTFR_CTS_LSB    _u(0)
+#define UART_UARTFR_CTS_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTILPR
+// Description : IrDA Low-Power Counter Register, UARTILPR
+#define UART_UARTILPR_OFFSET _u(0x00000020)
+#define UART_UARTILPR_BITS   _u(0x000000ff)
+#define UART_UARTILPR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTILPR_ILPDVSR
+// Description : 8-bit low-power divisor value. These bits are cleared to 0 at
+//               reset.
+#define UART_UARTILPR_ILPDVSR_RESET  _u(0x00)
+#define UART_UARTILPR_ILPDVSR_BITS   _u(0x000000ff)
+#define UART_UARTILPR_ILPDVSR_MSB    _u(7)
+#define UART_UARTILPR_ILPDVSR_LSB    _u(0)
+#define UART_UARTILPR_ILPDVSR_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTIBRD
+// Description : Integer Baud Rate Register, UARTIBRD
+#define UART_UARTIBRD_OFFSET _u(0x00000024)
+#define UART_UARTIBRD_BITS   _u(0x0000ffff)
+#define UART_UARTIBRD_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIBRD_BAUD_DIVINT
+// Description : The integer baud rate divisor. These bits are cleared to 0 on
+//               reset.
+#define UART_UARTIBRD_BAUD_DIVINT_RESET  _u(0x0000)
+#define UART_UARTIBRD_BAUD_DIVINT_BITS   _u(0x0000ffff)
+#define UART_UARTIBRD_BAUD_DIVINT_MSB    _u(15)
+#define UART_UARTIBRD_BAUD_DIVINT_LSB    _u(0)
+#define UART_UARTIBRD_BAUD_DIVINT_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTFBRD
+// Description : Fractional Baud Rate Register, UARTFBRD
+#define UART_UARTFBRD_OFFSET _u(0x00000028)
+#define UART_UARTFBRD_BITS   _u(0x0000003f)
+#define UART_UARTFBRD_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTFBRD_BAUD_DIVFRAC
+// Description : The fractional baud rate divisor. These bits are cleared to 0
+//               on reset.
+#define UART_UARTFBRD_BAUD_DIVFRAC_RESET  _u(0x00)
+#define UART_UARTFBRD_BAUD_DIVFRAC_BITS   _u(0x0000003f)
+#define UART_UARTFBRD_BAUD_DIVFRAC_MSB    _u(5)
+#define UART_UARTFBRD_BAUD_DIVFRAC_LSB    _u(0)
+#define UART_UARTFBRD_BAUD_DIVFRAC_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTLCR_H
+// Description : Line Control Register, UARTLCR_H
+#define UART_UARTLCR_H_OFFSET _u(0x0000002c)
+#define UART_UARTLCR_H_BITS   _u(0x000000ff)
+#define UART_UARTLCR_H_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_SPS
+// Description : Stick parity select. 0 = stick parity is disabled 1 = either: *
+//               if the EPS bit is 0 then the parity bit is transmitted and
+//               checked as a 1 * if the EPS bit is 1 then the parity bit is
+//               transmitted and checked as a 0. This bit has no effect when the
+//               PEN bit disables parity checking and generation.
+#define UART_UARTLCR_H_SPS_RESET  _u(0x0)
+#define UART_UARTLCR_H_SPS_BITS   _u(0x00000080)
+#define UART_UARTLCR_H_SPS_MSB    _u(7)
+#define UART_UARTLCR_H_SPS_LSB    _u(7)
+#define UART_UARTLCR_H_SPS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_WLEN
+// Description : Word length. These bits indicate the number of data bits
+//               transmitted or received in a frame as follows: b11 = 8 bits b10
+//               = 7 bits b01 = 6 bits b00 = 5 bits.
+#define UART_UARTLCR_H_WLEN_RESET  _u(0x0)
+#define UART_UARTLCR_H_WLEN_BITS   _u(0x00000060)
+#define UART_UARTLCR_H_WLEN_MSB    _u(6)
+#define UART_UARTLCR_H_WLEN_LSB    _u(5)
+#define UART_UARTLCR_H_WLEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_FEN
+// Description : Enable FIFOs: 0 = FIFOs are disabled (character mode) that is,
+//               the FIFOs become 1-byte-deep holding registers 1 = transmit and
+//               receive FIFO buffers are enabled (FIFO mode).
+#define UART_UARTLCR_H_FEN_RESET  _u(0x0)
+#define UART_UARTLCR_H_FEN_BITS   _u(0x00000010)
+#define UART_UARTLCR_H_FEN_MSB    _u(4)
+#define UART_UARTLCR_H_FEN_LSB    _u(4)
+#define UART_UARTLCR_H_FEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_STP2
+// Description : Two stop bits select. If this bit is set to 1, two stop bits
+//               are transmitted at the end of the frame. The receive logic does
+//               not check for two stop bits being received.
+#define UART_UARTLCR_H_STP2_RESET  _u(0x0)
+#define UART_UARTLCR_H_STP2_BITS   _u(0x00000008)
+#define UART_UARTLCR_H_STP2_MSB    _u(3)
+#define UART_UARTLCR_H_STP2_LSB    _u(3)
+#define UART_UARTLCR_H_STP2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_EPS
+// Description : Even parity select. Controls the type of parity the UART uses
+//               during transmission and reception: 0 = odd parity. The UART
+//               generates or checks for an odd number of 1s in the data and
+//               parity bits. 1 = even parity. The UART generates or checks for
+//               an even number of 1s in the data and parity bits. This bit has
+//               no effect when the PEN bit disables parity checking and
+//               generation.
+#define UART_UARTLCR_H_EPS_RESET  _u(0x0)
+#define UART_UARTLCR_H_EPS_BITS   _u(0x00000004)
+#define UART_UARTLCR_H_EPS_MSB    _u(2)
+#define UART_UARTLCR_H_EPS_LSB    _u(2)
+#define UART_UARTLCR_H_EPS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_PEN
+// Description : Parity enable: 0 = parity is disabled and no parity bit added
+//               to the data frame 1 = parity checking and generation is
+//               enabled.
+#define UART_UARTLCR_H_PEN_RESET  _u(0x0)
+#define UART_UARTLCR_H_PEN_BITS   _u(0x00000002)
+#define UART_UARTLCR_H_PEN_MSB    _u(1)
+#define UART_UARTLCR_H_PEN_LSB    _u(1)
+#define UART_UARTLCR_H_PEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTLCR_H_BRK
+// Description : Send break. If this bit is set to 1, a low-level is continually
+//               output on the UARTTXD output, after completing transmission of
+//               the current character. For the proper execution of the break
+//               command, the software must set this bit for at least two
+//               complete frames. For normal use, this bit must be cleared to 0.
+#define UART_UARTLCR_H_BRK_RESET  _u(0x0)
+#define UART_UARTLCR_H_BRK_BITS   _u(0x00000001)
+#define UART_UARTLCR_H_BRK_MSB    _u(0)
+#define UART_UARTLCR_H_BRK_LSB    _u(0)
+#define UART_UARTLCR_H_BRK_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTCR
+// Description : Control Register, UARTCR
+#define UART_UARTCR_OFFSET _u(0x00000030)
+#define UART_UARTCR_BITS   _u(0x0000ff87)
+#define UART_UARTCR_RESET  _u(0x00000300)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_CTSEN
+// Description : CTS hardware flow control enable. If this bit is set to 1, CTS
+//               hardware flow control is enabled. Data is only transmitted when
+//               the nUARTCTS signal is asserted.
+#define UART_UARTCR_CTSEN_RESET  _u(0x0)
+#define UART_UARTCR_CTSEN_BITS   _u(0x00008000)
+#define UART_UARTCR_CTSEN_MSB    _u(15)
+#define UART_UARTCR_CTSEN_LSB    _u(15)
+#define UART_UARTCR_CTSEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_RTSEN
+// Description : RTS hardware flow control enable. If this bit is set to 1, RTS
+//               hardware flow control is enabled. Data is only requested when
+//               there is space in the receive FIFO for it to be received.
+#define UART_UARTCR_RTSEN_RESET  _u(0x0)
+#define UART_UARTCR_RTSEN_BITS   _u(0x00004000)
+#define UART_UARTCR_RTSEN_MSB    _u(14)
+#define UART_UARTCR_RTSEN_LSB    _u(14)
+#define UART_UARTCR_RTSEN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_OUT2
+// Description : This bit is the complement of the UART Out2 (nUARTOut2) modem
+//               status output. That is, when the bit is programmed to a 1, the
+//               output is 0. For DTE this can be used as Ring Indicator (RI).
+#define UART_UARTCR_OUT2_RESET  _u(0x0)
+#define UART_UARTCR_OUT2_BITS   _u(0x00002000)
+#define UART_UARTCR_OUT2_MSB    _u(13)
+#define UART_UARTCR_OUT2_LSB    _u(13)
+#define UART_UARTCR_OUT2_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_OUT1
+// Description : This bit is the complement of the UART Out1 (nUARTOut1) modem
+//               status output. That is, when the bit is programmed to a 1 the
+//               output is 0. For DTE this can be used as Data Carrier Detect
+//               (DCD).
+#define UART_UARTCR_OUT1_RESET  _u(0x0)
+#define UART_UARTCR_OUT1_BITS   _u(0x00001000)
+#define UART_UARTCR_OUT1_MSB    _u(12)
+#define UART_UARTCR_OUT1_LSB    _u(12)
+#define UART_UARTCR_OUT1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_RTS
+// Description : Request to send. This bit is the complement of the UART request
+//               to send, nUARTRTS, modem status output. That is, when the bit
+//               is programmed to a 1 then nUARTRTS is LOW.
+#define UART_UARTCR_RTS_RESET  _u(0x0)
+#define UART_UARTCR_RTS_BITS   _u(0x00000800)
+#define UART_UARTCR_RTS_MSB    _u(11)
+#define UART_UARTCR_RTS_LSB    _u(11)
+#define UART_UARTCR_RTS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_DTR
+// Description : Data transmit ready. This bit is the complement of the UART
+//               data transmit ready, nUARTDTR, modem status output. That is,
+//               when the bit is programmed to a 1 then nUARTDTR is LOW.
+#define UART_UARTCR_DTR_RESET  _u(0x0)
+#define UART_UARTCR_DTR_BITS   _u(0x00000400)
+#define UART_UARTCR_DTR_MSB    _u(10)
+#define UART_UARTCR_DTR_LSB    _u(10)
+#define UART_UARTCR_DTR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_RXE
+// Description : Receive enable. If this bit is set to 1, the receive section of
+//               the UART is enabled. Data reception occurs for either UART
+//               signals or SIR signals depending on the setting of the SIREN
+//               bit. When the UART is disabled in the middle of reception, it
+//               completes the current character before stopping.
+#define UART_UARTCR_RXE_RESET  _u(0x1)
+#define UART_UARTCR_RXE_BITS   _u(0x00000200)
+#define UART_UARTCR_RXE_MSB    _u(9)
+#define UART_UARTCR_RXE_LSB    _u(9)
+#define UART_UARTCR_RXE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_TXE
+// Description : Transmit enable. If this bit is set to 1, the transmit section
+//               of the UART is enabled. Data transmission occurs for either
+//               UART signals, or SIR signals depending on the setting of the
+//               SIREN bit. When the UART is disabled in the middle of
+//               transmission, it completes the current character before
+//               stopping.
+#define UART_UARTCR_TXE_RESET  _u(0x1)
+#define UART_UARTCR_TXE_BITS   _u(0x00000100)
+#define UART_UARTCR_TXE_MSB    _u(8)
+#define UART_UARTCR_TXE_LSB    _u(8)
+#define UART_UARTCR_TXE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_LBE
+// Description : Loopback enable. If this bit is set to 1 and the SIREN bit is
+//               set to 1 and the SIRTEST bit in the Test Control Register,
+//               UARTTCR is set to 1, then the nSIROUT path is inverted, and fed
+//               through to the SIRIN path. The SIRTEST bit in the test register
+//               must be set to 1 to override the normal half-duplex SIR
+//               operation. This must be the requirement for accessing the test
+//               registers during normal operation, and SIRTEST must be cleared
+//               to 0 when loopback testing is finished. This feature reduces
+//               the amount of external coupling required during system test. If
+//               this bit is set to 1, and the SIRTEST bit is set to 0, the
+//               UARTTXD path is fed through to the UARTRXD path. In either SIR
+//               mode or UART mode, when this bit is set, the modem outputs are
+//               also fed through to the modem inputs. This bit is cleared to 0
+//               on reset, to disable loopback.
+#define UART_UARTCR_LBE_RESET  _u(0x0)
+#define UART_UARTCR_LBE_BITS   _u(0x00000080)
+#define UART_UARTCR_LBE_MSB    _u(7)
+#define UART_UARTCR_LBE_LSB    _u(7)
+#define UART_UARTCR_LBE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_SIRLP
+// Description : SIR low-power IrDA mode. This bit selects the IrDA encoding
+//               mode. If this bit is cleared to 0, low-level bits are
+//               transmitted as an active high pulse with a width of 3 / 16th of
+//               the bit period. If this bit is set to 1, low-level bits are
+//               transmitted with a pulse width that is 3 times the period of
+//               the IrLPBaud16 input signal, regardless of the selected bit
+//               rate. Setting this bit uses less power, but might reduce
+//               transmission distances.
+#define UART_UARTCR_SIRLP_RESET  _u(0x0)
+#define UART_UARTCR_SIRLP_BITS   _u(0x00000004)
+#define UART_UARTCR_SIRLP_MSB    _u(2)
+#define UART_UARTCR_SIRLP_LSB    _u(2)
+#define UART_UARTCR_SIRLP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_SIREN
+// Description : SIR enable: 0 = IrDA SIR ENDEC is disabled. nSIROUT remains LOW
+//               (no light pulse generated), and signal transitions on SIRIN
+//               have no effect. 1 = IrDA SIR ENDEC is enabled. Data is
+//               transmitted and received on nSIROUT and SIRIN. UARTTXD remains
+//               HIGH, in the marking state. Signal transitions on UARTRXD or
+//               modem status inputs have no effect. This bit has no effect if
+//               the UARTEN bit disables the UART.
+#define UART_UARTCR_SIREN_RESET  _u(0x0)
+#define UART_UARTCR_SIREN_BITS   _u(0x00000002)
+#define UART_UARTCR_SIREN_MSB    _u(1)
+#define UART_UARTCR_SIREN_LSB    _u(1)
+#define UART_UARTCR_SIREN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTCR_UARTEN
+// Description : UART enable: 0 = UART is disabled. If the UART is disabled in
+//               the middle of transmission or reception, it completes the
+//               current character before stopping. 1 = the UART is enabled.
+//               Data transmission and reception occurs for either UART signals
+//               or SIR signals depending on the setting of the SIREN bit.
+#define UART_UARTCR_UARTEN_RESET  _u(0x0)
+#define UART_UARTCR_UARTEN_BITS   _u(0x00000001)
+#define UART_UARTCR_UARTEN_MSB    _u(0)
+#define UART_UARTCR_UARTEN_LSB    _u(0)
+#define UART_UARTCR_UARTEN_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTIFLS
+// Description : Interrupt FIFO Level Select Register, UARTIFLS
+#define UART_UARTIFLS_OFFSET _u(0x00000034)
+#define UART_UARTIFLS_BITS   _u(0x0000003f)
+#define UART_UARTIFLS_RESET  _u(0x00000012)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIFLS_RXIFLSEL
+// Description : Receive interrupt FIFO level select. The trigger points for the
+//               receive interrupt are as follows: b000 = Receive FIFO becomes
+//               >= 1 / 8 full b001 = Receive FIFO becomes >= 1 / 4 full b010 =
+//               Receive FIFO becomes >= 1 / 2 full b011 = Receive FIFO becomes
+//               >= 3 / 4 full b100 = Receive FIFO becomes >= 7 / 8 full
+//               b101-b111 = reserved.
+#define UART_UARTIFLS_RXIFLSEL_RESET  _u(0x2)
+#define UART_UARTIFLS_RXIFLSEL_BITS   _u(0x00000038)
+#define UART_UARTIFLS_RXIFLSEL_MSB    _u(5)
+#define UART_UARTIFLS_RXIFLSEL_LSB    _u(3)
+#define UART_UARTIFLS_RXIFLSEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIFLS_TXIFLSEL
+// Description : Transmit interrupt FIFO level select. The trigger points for
+//               the transmit interrupt are as follows: b000 = Transmit FIFO
+//               becomes <= 1 / 8 full b001 = Transmit FIFO becomes <= 1 / 4
+//               full b010 = Transmit FIFO becomes <= 1 / 2 full b011 = Transmit
+//               FIFO becomes <= 3 / 4 full b100 = Transmit FIFO becomes <= 7 /
+//               8 full b101-b111 = reserved.
+#define UART_UARTIFLS_TXIFLSEL_RESET  _u(0x2)
+#define UART_UARTIFLS_TXIFLSEL_BITS   _u(0x00000007)
+#define UART_UARTIFLS_TXIFLSEL_MSB    _u(2)
+#define UART_UARTIFLS_TXIFLSEL_LSB    _u(0)
+#define UART_UARTIFLS_TXIFLSEL_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTIMSC
+// Description : Interrupt Mask Set/Clear Register, UARTIMSC
+#define UART_UARTIMSC_OFFSET _u(0x00000038)
+#define UART_UARTIMSC_BITS   _u(0x000007ff)
+#define UART_UARTIMSC_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_OEIM
+// Description : Overrun error interrupt mask. A read returns the current mask
+//               for the UARTOEINTR interrupt. On a write of 1, the mask of the
+//               UARTOEINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_OEIM_RESET  _u(0x0)
+#define UART_UARTIMSC_OEIM_BITS   _u(0x00000400)
+#define UART_UARTIMSC_OEIM_MSB    _u(10)
+#define UART_UARTIMSC_OEIM_LSB    _u(10)
+#define UART_UARTIMSC_OEIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_BEIM
+// Description : Break error interrupt mask. A read returns the current mask for
+//               the UARTBEINTR interrupt. On a write of 1, the mask of the
+//               UARTBEINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_BEIM_RESET  _u(0x0)
+#define UART_UARTIMSC_BEIM_BITS   _u(0x00000200)
+#define UART_UARTIMSC_BEIM_MSB    _u(9)
+#define UART_UARTIMSC_BEIM_LSB    _u(9)
+#define UART_UARTIMSC_BEIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_PEIM
+// Description : Parity error interrupt mask. A read returns the current mask
+//               for the UARTPEINTR interrupt. On a write of 1, the mask of the
+//               UARTPEINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_PEIM_RESET  _u(0x0)
+#define UART_UARTIMSC_PEIM_BITS   _u(0x00000100)
+#define UART_UARTIMSC_PEIM_MSB    _u(8)
+#define UART_UARTIMSC_PEIM_LSB    _u(8)
+#define UART_UARTIMSC_PEIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_FEIM
+// Description : Framing error interrupt mask. A read returns the current mask
+//               for the UARTFEINTR interrupt. On a write of 1, the mask of the
+//               UARTFEINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_FEIM_RESET  _u(0x0)
+#define UART_UARTIMSC_FEIM_BITS   _u(0x00000080)
+#define UART_UARTIMSC_FEIM_MSB    _u(7)
+#define UART_UARTIMSC_FEIM_LSB    _u(7)
+#define UART_UARTIMSC_FEIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_RTIM
+// Description : Receive timeout interrupt mask. A read returns the current mask
+//               for the UARTRTINTR interrupt. On a write of 1, the mask of the
+//               UARTRTINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_RTIM_RESET  _u(0x0)
+#define UART_UARTIMSC_RTIM_BITS   _u(0x00000040)
+#define UART_UARTIMSC_RTIM_MSB    _u(6)
+#define UART_UARTIMSC_RTIM_LSB    _u(6)
+#define UART_UARTIMSC_RTIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_TXIM
+// Description : Transmit interrupt mask. A read returns the current mask for
+//               the UARTTXINTR interrupt. On a write of 1, the mask of the
+//               UARTTXINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_TXIM_RESET  _u(0x0)
+#define UART_UARTIMSC_TXIM_BITS   _u(0x00000020)
+#define UART_UARTIMSC_TXIM_MSB    _u(5)
+#define UART_UARTIMSC_TXIM_LSB    _u(5)
+#define UART_UARTIMSC_TXIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_RXIM
+// Description : Receive interrupt mask. A read returns the current mask for the
+//               UARTRXINTR interrupt. On a write of 1, the mask of the
+//               UARTRXINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_RXIM_RESET  _u(0x0)
+#define UART_UARTIMSC_RXIM_BITS   _u(0x00000010)
+#define UART_UARTIMSC_RXIM_MSB    _u(4)
+#define UART_UARTIMSC_RXIM_LSB    _u(4)
+#define UART_UARTIMSC_RXIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_DSRMIM
+// Description : nUARTDSR modem interrupt mask. A read returns the current mask
+//               for the UARTDSRINTR interrupt. On a write of 1, the mask of the
+//               UARTDSRINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_DSRMIM_RESET  _u(0x0)
+#define UART_UARTIMSC_DSRMIM_BITS   _u(0x00000008)
+#define UART_UARTIMSC_DSRMIM_MSB    _u(3)
+#define UART_UARTIMSC_DSRMIM_LSB    _u(3)
+#define UART_UARTIMSC_DSRMIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_DCDMIM
+// Description : nUARTDCD modem interrupt mask. A read returns the current mask
+//               for the UARTDCDINTR interrupt. On a write of 1, the mask of the
+//               UARTDCDINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_DCDMIM_RESET  _u(0x0)
+#define UART_UARTIMSC_DCDMIM_BITS   _u(0x00000004)
+#define UART_UARTIMSC_DCDMIM_MSB    _u(2)
+#define UART_UARTIMSC_DCDMIM_LSB    _u(2)
+#define UART_UARTIMSC_DCDMIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_CTSMIM
+// Description : nUARTCTS modem interrupt mask. A read returns the current mask
+//               for the UARTCTSINTR interrupt. On a write of 1, the mask of the
+//               UARTCTSINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_CTSMIM_RESET  _u(0x0)
+#define UART_UARTIMSC_CTSMIM_BITS   _u(0x00000002)
+#define UART_UARTIMSC_CTSMIM_MSB    _u(1)
+#define UART_UARTIMSC_CTSMIM_LSB    _u(1)
+#define UART_UARTIMSC_CTSMIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTIMSC_RIMIM
+// Description : nUARTRI modem interrupt mask. A read returns the current mask
+//               for the UARTRIINTR interrupt. On a write of 1, the mask of the
+//               UARTRIINTR interrupt is set. A write of 0 clears the mask.
+#define UART_UARTIMSC_RIMIM_RESET  _u(0x0)
+#define UART_UARTIMSC_RIMIM_BITS   _u(0x00000001)
+#define UART_UARTIMSC_RIMIM_MSB    _u(0)
+#define UART_UARTIMSC_RIMIM_LSB    _u(0)
+#define UART_UARTIMSC_RIMIM_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTRIS
+// Description : Raw Interrupt Status Register, UARTRIS
+#define UART_UARTRIS_OFFSET _u(0x0000003c)
+#define UART_UARTRIS_BITS   _u(0x000007ff)
+#define UART_UARTRIS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_OERIS
+// Description : Overrun error interrupt status. Returns the raw interrupt state
+//               of the UARTOEINTR interrupt.
+#define UART_UARTRIS_OERIS_RESET  _u(0x0)
+#define UART_UARTRIS_OERIS_BITS   _u(0x00000400)
+#define UART_UARTRIS_OERIS_MSB    _u(10)
+#define UART_UARTRIS_OERIS_LSB    _u(10)
+#define UART_UARTRIS_OERIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_BERIS
+// Description : Break error interrupt status. Returns the raw interrupt state
+//               of the UARTBEINTR interrupt.
+#define UART_UARTRIS_BERIS_RESET  _u(0x0)
+#define UART_UARTRIS_BERIS_BITS   _u(0x00000200)
+#define UART_UARTRIS_BERIS_MSB    _u(9)
+#define UART_UARTRIS_BERIS_LSB    _u(9)
+#define UART_UARTRIS_BERIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_PERIS
+// Description : Parity error interrupt status. Returns the raw interrupt state
+//               of the UARTPEINTR interrupt.
+#define UART_UARTRIS_PERIS_RESET  _u(0x0)
+#define UART_UARTRIS_PERIS_BITS   _u(0x00000100)
+#define UART_UARTRIS_PERIS_MSB    _u(8)
+#define UART_UARTRIS_PERIS_LSB    _u(8)
+#define UART_UARTRIS_PERIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_FERIS
+// Description : Framing error interrupt status. Returns the raw interrupt state
+//               of the UARTFEINTR interrupt.
+#define UART_UARTRIS_FERIS_RESET  _u(0x0)
+#define UART_UARTRIS_FERIS_BITS   _u(0x00000080)
+#define UART_UARTRIS_FERIS_MSB    _u(7)
+#define UART_UARTRIS_FERIS_LSB    _u(7)
+#define UART_UARTRIS_FERIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_RTRIS
+// Description : Receive timeout interrupt status. Returns the raw interrupt
+//               state of the UARTRTINTR interrupt. a
+#define UART_UARTRIS_RTRIS_RESET  _u(0x0)
+#define UART_UARTRIS_RTRIS_BITS   _u(0x00000040)
+#define UART_UARTRIS_RTRIS_MSB    _u(6)
+#define UART_UARTRIS_RTRIS_LSB    _u(6)
+#define UART_UARTRIS_RTRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_TXRIS
+// Description : Transmit interrupt status. Returns the raw interrupt state of
+//               the UARTTXINTR interrupt.
+#define UART_UARTRIS_TXRIS_RESET  _u(0x0)
+#define UART_UARTRIS_TXRIS_BITS   _u(0x00000020)
+#define UART_UARTRIS_TXRIS_MSB    _u(5)
+#define UART_UARTRIS_TXRIS_LSB    _u(5)
+#define UART_UARTRIS_TXRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_RXRIS
+// Description : Receive interrupt status. Returns the raw interrupt state of
+//               the UARTRXINTR interrupt.
+#define UART_UARTRIS_RXRIS_RESET  _u(0x0)
+#define UART_UARTRIS_RXRIS_BITS   _u(0x00000010)
+#define UART_UARTRIS_RXRIS_MSB    _u(4)
+#define UART_UARTRIS_RXRIS_LSB    _u(4)
+#define UART_UARTRIS_RXRIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_DSRRMIS
+// Description : nUARTDSR modem interrupt status. Returns the raw interrupt
+//               state of the UARTDSRINTR interrupt.
+#define UART_UARTRIS_DSRRMIS_RESET  "-"
+#define UART_UARTRIS_DSRRMIS_BITS   _u(0x00000008)
+#define UART_UARTRIS_DSRRMIS_MSB    _u(3)
+#define UART_UARTRIS_DSRRMIS_LSB    _u(3)
+#define UART_UARTRIS_DSRRMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_DCDRMIS
+// Description : nUARTDCD modem interrupt status. Returns the raw interrupt
+//               state of the UARTDCDINTR interrupt.
+#define UART_UARTRIS_DCDRMIS_RESET  "-"
+#define UART_UARTRIS_DCDRMIS_BITS   _u(0x00000004)
+#define UART_UARTRIS_DCDRMIS_MSB    _u(2)
+#define UART_UARTRIS_DCDRMIS_LSB    _u(2)
+#define UART_UARTRIS_DCDRMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_CTSRMIS
+// Description : nUARTCTS modem interrupt status. Returns the raw interrupt
+//               state of the UARTCTSINTR interrupt.
+#define UART_UARTRIS_CTSRMIS_RESET  "-"
+#define UART_UARTRIS_CTSRMIS_BITS   _u(0x00000002)
+#define UART_UARTRIS_CTSRMIS_MSB    _u(1)
+#define UART_UARTRIS_CTSRMIS_LSB    _u(1)
+#define UART_UARTRIS_CTSRMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTRIS_RIRMIS
+// Description : nUARTRI modem interrupt status. Returns the raw interrupt state
+//               of the UARTRIINTR interrupt.
+#define UART_UARTRIS_RIRMIS_RESET  "-"
+#define UART_UARTRIS_RIRMIS_BITS   _u(0x00000001)
+#define UART_UARTRIS_RIRMIS_MSB    _u(0)
+#define UART_UARTRIS_RIRMIS_LSB    _u(0)
+#define UART_UARTRIS_RIRMIS_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTMIS
+// Description : Masked Interrupt Status Register, UARTMIS
+#define UART_UARTMIS_OFFSET _u(0x00000040)
+#define UART_UARTMIS_BITS   _u(0x000007ff)
+#define UART_UARTMIS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_OEMIS
+// Description : Overrun error masked interrupt status. Returns the masked
+//               interrupt state of the UARTOEINTR interrupt.
+#define UART_UARTMIS_OEMIS_RESET  _u(0x0)
+#define UART_UARTMIS_OEMIS_BITS   _u(0x00000400)
+#define UART_UARTMIS_OEMIS_MSB    _u(10)
+#define UART_UARTMIS_OEMIS_LSB    _u(10)
+#define UART_UARTMIS_OEMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_BEMIS
+// Description : Break error masked interrupt status. Returns the masked
+//               interrupt state of the UARTBEINTR interrupt.
+#define UART_UARTMIS_BEMIS_RESET  _u(0x0)
+#define UART_UARTMIS_BEMIS_BITS   _u(0x00000200)
+#define UART_UARTMIS_BEMIS_MSB    _u(9)
+#define UART_UARTMIS_BEMIS_LSB    _u(9)
+#define UART_UARTMIS_BEMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_PEMIS
+// Description : Parity error masked interrupt status. Returns the masked
+//               interrupt state of the UARTPEINTR interrupt.
+#define UART_UARTMIS_PEMIS_RESET  _u(0x0)
+#define UART_UARTMIS_PEMIS_BITS   _u(0x00000100)
+#define UART_UARTMIS_PEMIS_MSB    _u(8)
+#define UART_UARTMIS_PEMIS_LSB    _u(8)
+#define UART_UARTMIS_PEMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_FEMIS
+// Description : Framing error masked interrupt status. Returns the masked
+//               interrupt state of the UARTFEINTR interrupt.
+#define UART_UARTMIS_FEMIS_RESET  _u(0x0)
+#define UART_UARTMIS_FEMIS_BITS   _u(0x00000080)
+#define UART_UARTMIS_FEMIS_MSB    _u(7)
+#define UART_UARTMIS_FEMIS_LSB    _u(7)
+#define UART_UARTMIS_FEMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_RTMIS
+// Description : Receive timeout masked interrupt status. Returns the masked
+//               interrupt state of the UARTRTINTR interrupt.
+#define UART_UARTMIS_RTMIS_RESET  _u(0x0)
+#define UART_UARTMIS_RTMIS_BITS   _u(0x00000040)
+#define UART_UARTMIS_RTMIS_MSB    _u(6)
+#define UART_UARTMIS_RTMIS_LSB    _u(6)
+#define UART_UARTMIS_RTMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_TXMIS
+// Description : Transmit masked interrupt status. Returns the masked interrupt
+//               state of the UARTTXINTR interrupt.
+#define UART_UARTMIS_TXMIS_RESET  _u(0x0)
+#define UART_UARTMIS_TXMIS_BITS   _u(0x00000020)
+#define UART_UARTMIS_TXMIS_MSB    _u(5)
+#define UART_UARTMIS_TXMIS_LSB    _u(5)
+#define UART_UARTMIS_TXMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_RXMIS
+// Description : Receive masked interrupt status. Returns the masked interrupt
+//               state of the UARTRXINTR interrupt.
+#define UART_UARTMIS_RXMIS_RESET  _u(0x0)
+#define UART_UARTMIS_RXMIS_BITS   _u(0x00000010)
+#define UART_UARTMIS_RXMIS_MSB    _u(4)
+#define UART_UARTMIS_RXMIS_LSB    _u(4)
+#define UART_UARTMIS_RXMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_DSRMMIS
+// Description : nUARTDSR modem masked interrupt status. Returns the masked
+//               interrupt state of the UARTDSRINTR interrupt.
+#define UART_UARTMIS_DSRMMIS_RESET  "-"
+#define UART_UARTMIS_DSRMMIS_BITS   _u(0x00000008)
+#define UART_UARTMIS_DSRMMIS_MSB    _u(3)
+#define UART_UARTMIS_DSRMMIS_LSB    _u(3)
+#define UART_UARTMIS_DSRMMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_DCDMMIS
+// Description : nUARTDCD modem masked interrupt status. Returns the masked
+//               interrupt state of the UARTDCDINTR interrupt.
+#define UART_UARTMIS_DCDMMIS_RESET  "-"
+#define UART_UARTMIS_DCDMMIS_BITS   _u(0x00000004)
+#define UART_UARTMIS_DCDMMIS_MSB    _u(2)
+#define UART_UARTMIS_DCDMMIS_LSB    _u(2)
+#define UART_UARTMIS_DCDMMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_CTSMMIS
+// Description : nUARTCTS modem masked interrupt status. Returns the masked
+//               interrupt state of the UARTCTSINTR interrupt.
+#define UART_UARTMIS_CTSMMIS_RESET  "-"
+#define UART_UARTMIS_CTSMMIS_BITS   _u(0x00000002)
+#define UART_UARTMIS_CTSMMIS_MSB    _u(1)
+#define UART_UARTMIS_CTSMMIS_LSB    _u(1)
+#define UART_UARTMIS_CTSMMIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTMIS_RIMMIS
+// Description : nUARTRI modem masked interrupt status. Returns the masked
+//               interrupt state of the UARTRIINTR interrupt.
+#define UART_UARTMIS_RIMMIS_RESET  "-"
+#define UART_UARTMIS_RIMMIS_BITS   _u(0x00000001)
+#define UART_UARTMIS_RIMMIS_MSB    _u(0)
+#define UART_UARTMIS_RIMMIS_LSB    _u(0)
+#define UART_UARTMIS_RIMMIS_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTICR
+// Description : Interrupt Clear Register, UARTICR
+#define UART_UARTICR_OFFSET _u(0x00000044)
+#define UART_UARTICR_BITS   _u(0x000007ff)
+#define UART_UARTICR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_OEIC
+// Description : Overrun error interrupt clear. Clears the UARTOEINTR interrupt.
+#define UART_UARTICR_OEIC_RESET  "-"
+#define UART_UARTICR_OEIC_BITS   _u(0x00000400)
+#define UART_UARTICR_OEIC_MSB    _u(10)
+#define UART_UARTICR_OEIC_LSB    _u(10)
+#define UART_UARTICR_OEIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_BEIC
+// Description : Break error interrupt clear. Clears the UARTBEINTR interrupt.
+#define UART_UARTICR_BEIC_RESET  "-"
+#define UART_UARTICR_BEIC_BITS   _u(0x00000200)
+#define UART_UARTICR_BEIC_MSB    _u(9)
+#define UART_UARTICR_BEIC_LSB    _u(9)
+#define UART_UARTICR_BEIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_PEIC
+// Description : Parity error interrupt clear. Clears the UARTPEINTR interrupt.
+#define UART_UARTICR_PEIC_RESET  "-"
+#define UART_UARTICR_PEIC_BITS   _u(0x00000100)
+#define UART_UARTICR_PEIC_MSB    _u(8)
+#define UART_UARTICR_PEIC_LSB    _u(8)
+#define UART_UARTICR_PEIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_FEIC
+// Description : Framing error interrupt clear. Clears the UARTFEINTR interrupt.
+#define UART_UARTICR_FEIC_RESET  "-"
+#define UART_UARTICR_FEIC_BITS   _u(0x00000080)
+#define UART_UARTICR_FEIC_MSB    _u(7)
+#define UART_UARTICR_FEIC_LSB    _u(7)
+#define UART_UARTICR_FEIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_RTIC
+// Description : Receive timeout interrupt clear. Clears the UARTRTINTR
+//               interrupt.
+#define UART_UARTICR_RTIC_RESET  "-"
+#define UART_UARTICR_RTIC_BITS   _u(0x00000040)
+#define UART_UARTICR_RTIC_MSB    _u(6)
+#define UART_UARTICR_RTIC_LSB    _u(6)
+#define UART_UARTICR_RTIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_TXIC
+// Description : Transmit interrupt clear. Clears the UARTTXINTR interrupt.
+#define UART_UARTICR_TXIC_RESET  "-"
+#define UART_UARTICR_TXIC_BITS   _u(0x00000020)
+#define UART_UARTICR_TXIC_MSB    _u(5)
+#define UART_UARTICR_TXIC_LSB    _u(5)
+#define UART_UARTICR_TXIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_RXIC
+// Description : Receive interrupt clear. Clears the UARTRXINTR interrupt.
+#define UART_UARTICR_RXIC_RESET  "-"
+#define UART_UARTICR_RXIC_BITS   _u(0x00000010)
+#define UART_UARTICR_RXIC_MSB    _u(4)
+#define UART_UARTICR_RXIC_LSB    _u(4)
+#define UART_UARTICR_RXIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_DSRMIC
+// Description : nUARTDSR modem interrupt clear. Clears the UARTDSRINTR
+//               interrupt.
+#define UART_UARTICR_DSRMIC_RESET  "-"
+#define UART_UARTICR_DSRMIC_BITS   _u(0x00000008)
+#define UART_UARTICR_DSRMIC_MSB    _u(3)
+#define UART_UARTICR_DSRMIC_LSB    _u(3)
+#define UART_UARTICR_DSRMIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_DCDMIC
+// Description : nUARTDCD modem interrupt clear. Clears the UARTDCDINTR
+//               interrupt.
+#define UART_UARTICR_DCDMIC_RESET  "-"
+#define UART_UARTICR_DCDMIC_BITS   _u(0x00000004)
+#define UART_UARTICR_DCDMIC_MSB    _u(2)
+#define UART_UARTICR_DCDMIC_LSB    _u(2)
+#define UART_UARTICR_DCDMIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_CTSMIC
+// Description : nUARTCTS modem interrupt clear. Clears the UARTCTSINTR
+//               interrupt.
+#define UART_UARTICR_CTSMIC_RESET  "-"
+#define UART_UARTICR_CTSMIC_BITS   _u(0x00000002)
+#define UART_UARTICR_CTSMIC_MSB    _u(1)
+#define UART_UARTICR_CTSMIC_LSB    _u(1)
+#define UART_UARTICR_CTSMIC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTICR_RIMIC
+// Description : nUARTRI modem interrupt clear. Clears the UARTRIINTR interrupt.
+#define UART_UARTICR_RIMIC_RESET  "-"
+#define UART_UARTICR_RIMIC_BITS   _u(0x00000001)
+#define UART_UARTICR_RIMIC_MSB    _u(0)
+#define UART_UARTICR_RIMIC_LSB    _u(0)
+#define UART_UARTICR_RIMIC_ACCESS "WC"
+// =============================================================================
+// Register    : UART_UARTDMACR
+// Description : DMA Control Register, UARTDMACR
+#define UART_UARTDMACR_OFFSET _u(0x00000048)
+#define UART_UARTDMACR_BITS   _u(0x00000007)
+#define UART_UARTDMACR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDMACR_DMAONERR
+// Description : DMA on error. If this bit is set to 1, the DMA receive request
+//               outputs, UARTRXDMASREQ or UARTRXDMABREQ, are disabled when the
+//               UART error interrupt is asserted.
+#define UART_UARTDMACR_DMAONERR_RESET  _u(0x0)
+#define UART_UARTDMACR_DMAONERR_BITS   _u(0x00000004)
+#define UART_UARTDMACR_DMAONERR_MSB    _u(2)
+#define UART_UARTDMACR_DMAONERR_LSB    _u(2)
+#define UART_UARTDMACR_DMAONERR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDMACR_TXDMAE
+// Description : Transmit DMA enable. If this bit is set to 1, DMA for the
+//               transmit FIFO is enabled.
+#define UART_UARTDMACR_TXDMAE_RESET  _u(0x0)
+#define UART_UARTDMACR_TXDMAE_BITS   _u(0x00000002)
+#define UART_UARTDMACR_TXDMAE_MSB    _u(1)
+#define UART_UARTDMACR_TXDMAE_LSB    _u(1)
+#define UART_UARTDMACR_TXDMAE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTDMACR_RXDMAE
+// Description : Receive DMA enable. If this bit is set to 1, DMA for the
+//               receive FIFO is enabled.
+#define UART_UARTDMACR_RXDMAE_RESET  _u(0x0)
+#define UART_UARTDMACR_RXDMAE_BITS   _u(0x00000001)
+#define UART_UARTDMACR_RXDMAE_MSB    _u(0)
+#define UART_UARTDMACR_RXDMAE_LSB    _u(0)
+#define UART_UARTDMACR_RXDMAE_ACCESS "RW"
+// =============================================================================
+// Register    : UART_UARTPERIPHID0
+// Description : UARTPeriphID0 Register
+#define UART_UARTPERIPHID0_OFFSET _u(0x00000fe0)
+#define UART_UARTPERIPHID0_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID0_RESET  _u(0x00000011)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID0_PARTNUMBER0
+// Description : These bits read back as 0x11
+#define UART_UARTPERIPHID0_PARTNUMBER0_RESET  _u(0x11)
+#define UART_UARTPERIPHID0_PARTNUMBER0_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID0_PARTNUMBER0_MSB    _u(7)
+#define UART_UARTPERIPHID0_PARTNUMBER0_LSB    _u(0)
+#define UART_UARTPERIPHID0_PARTNUMBER0_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPERIPHID1
+// Description : UARTPeriphID1 Register
+#define UART_UARTPERIPHID1_OFFSET _u(0x00000fe4)
+#define UART_UARTPERIPHID1_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID1_RESET  _u(0x00000010)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID1_DESIGNER0
+// Description : These bits read back as 0x1
+#define UART_UARTPERIPHID1_DESIGNER0_RESET  _u(0x1)
+#define UART_UARTPERIPHID1_DESIGNER0_BITS   _u(0x000000f0)
+#define UART_UARTPERIPHID1_DESIGNER0_MSB    _u(7)
+#define UART_UARTPERIPHID1_DESIGNER0_LSB    _u(4)
+#define UART_UARTPERIPHID1_DESIGNER0_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID1_PARTNUMBER1
+// Description : These bits read back as 0x0
+#define UART_UARTPERIPHID1_PARTNUMBER1_RESET  _u(0x0)
+#define UART_UARTPERIPHID1_PARTNUMBER1_BITS   _u(0x0000000f)
+#define UART_UARTPERIPHID1_PARTNUMBER1_MSB    _u(3)
+#define UART_UARTPERIPHID1_PARTNUMBER1_LSB    _u(0)
+#define UART_UARTPERIPHID1_PARTNUMBER1_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPERIPHID2
+// Description : UARTPeriphID2 Register
+#define UART_UARTPERIPHID2_OFFSET _u(0x00000fe8)
+#define UART_UARTPERIPHID2_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID2_RESET  _u(0x00000034)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID2_REVISION
+// Description : This field depends on the revision of the UART: r1p0 0x0 r1p1
+//               0x1 r1p3 0x2 r1p4 0x2 r1p5 0x3
+#define UART_UARTPERIPHID2_REVISION_RESET  _u(0x3)
+#define UART_UARTPERIPHID2_REVISION_BITS   _u(0x000000f0)
+#define UART_UARTPERIPHID2_REVISION_MSB    _u(7)
+#define UART_UARTPERIPHID2_REVISION_LSB    _u(4)
+#define UART_UARTPERIPHID2_REVISION_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID2_DESIGNER1
+// Description : These bits read back as 0x4
+#define UART_UARTPERIPHID2_DESIGNER1_RESET  _u(0x4)
+#define UART_UARTPERIPHID2_DESIGNER1_BITS   _u(0x0000000f)
+#define UART_UARTPERIPHID2_DESIGNER1_MSB    _u(3)
+#define UART_UARTPERIPHID2_DESIGNER1_LSB    _u(0)
+#define UART_UARTPERIPHID2_DESIGNER1_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPERIPHID3
+// Description : UARTPeriphID3 Register
+#define UART_UARTPERIPHID3_OFFSET _u(0x00000fec)
+#define UART_UARTPERIPHID3_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPERIPHID3_CONFIGURATION
+// Description : These bits read back as 0x00
+#define UART_UARTPERIPHID3_CONFIGURATION_RESET  _u(0x00)
+#define UART_UARTPERIPHID3_CONFIGURATION_BITS   _u(0x000000ff)
+#define UART_UARTPERIPHID3_CONFIGURATION_MSB    _u(7)
+#define UART_UARTPERIPHID3_CONFIGURATION_LSB    _u(0)
+#define UART_UARTPERIPHID3_CONFIGURATION_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPCELLID0
+// Description : UARTPCellID0 Register
+#define UART_UARTPCELLID0_OFFSET _u(0x00000ff0)
+#define UART_UARTPCELLID0_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID0_RESET  _u(0x0000000d)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPCELLID0_UARTPCELLID0
+// Description : These bits read back as 0x0D
+#define UART_UARTPCELLID0_UARTPCELLID0_RESET  _u(0x0d)
+#define UART_UARTPCELLID0_UARTPCELLID0_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID0_UARTPCELLID0_MSB    _u(7)
+#define UART_UARTPCELLID0_UARTPCELLID0_LSB    _u(0)
+#define UART_UARTPCELLID0_UARTPCELLID0_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPCELLID1
+// Description : UARTPCellID1 Register
+#define UART_UARTPCELLID1_OFFSET _u(0x00000ff4)
+#define UART_UARTPCELLID1_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID1_RESET  _u(0x000000f0)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPCELLID1_UARTPCELLID1
+// Description : These bits read back as 0xF0
+#define UART_UARTPCELLID1_UARTPCELLID1_RESET  _u(0xf0)
+#define UART_UARTPCELLID1_UARTPCELLID1_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID1_UARTPCELLID1_MSB    _u(7)
+#define UART_UARTPCELLID1_UARTPCELLID1_LSB    _u(0)
+#define UART_UARTPCELLID1_UARTPCELLID1_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPCELLID2
+// Description : UARTPCellID2 Register
+#define UART_UARTPCELLID2_OFFSET _u(0x00000ff8)
+#define UART_UARTPCELLID2_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID2_RESET  _u(0x00000005)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPCELLID2_UARTPCELLID2
+// Description : These bits read back as 0x05
+#define UART_UARTPCELLID2_UARTPCELLID2_RESET  _u(0x05)
+#define UART_UARTPCELLID2_UARTPCELLID2_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID2_UARTPCELLID2_MSB    _u(7)
+#define UART_UARTPCELLID2_UARTPCELLID2_LSB    _u(0)
+#define UART_UARTPCELLID2_UARTPCELLID2_ACCESS "RO"
+// =============================================================================
+// Register    : UART_UARTPCELLID3
+// Description : UARTPCellID3 Register
+#define UART_UARTPCELLID3_OFFSET _u(0x00000ffc)
+#define UART_UARTPCELLID3_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID3_RESET  _u(0x000000b1)
+// -----------------------------------------------------------------------------
+// Field       : UART_UARTPCELLID3_UARTPCELLID3
+// Description : These bits read back as 0xB1
+#define UART_UARTPCELLID3_UARTPCELLID3_RESET  _u(0xb1)
+#define UART_UARTPCELLID3_UARTPCELLID3_BITS   _u(0x000000ff)
+#define UART_UARTPCELLID3_UARTPCELLID3_MSB    _u(7)
+#define UART_UARTPCELLID3_UARTPCELLID3_LSB    _u(0)
+#define UART_UARTPCELLID3_UARTPCELLID3_ACCESS "RO"
+// =============================================================================
+#endif // _HARDWARE_REGS_UART_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/usb.h b/lib/pico-sdk/rp2350/hardware/regs/usb.h
new file mode 100644
index 0000000..fbf1b7b
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/usb.h
@@ -0,0 +1,4209 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : USB
+// Version        : 1
+// Bus type       : ahbl
+// Description    : USB FS/LS controller device registers
+// =============================================================================
+#ifndef _HARDWARE_REGS_USB_H
+#define _HARDWARE_REGS_USB_H
+// =============================================================================
+// Register    : USB_ADDR_ENDP
+// Description : Device address and endpoint control
+#define USB_ADDR_ENDP_OFFSET _u(0x00000000)
+#define USB_ADDR_ENDP_BITS   _u(0x000f007f)
+#define USB_ADDR_ENDP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP_ENDPOINT
+// Description : Device endpoint to send data to. Only valid for HOST mode.
+#define USB_ADDR_ENDP_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP_ADDRESS
+// Description : In device mode, the address that the device should respond to.
+//               Set in response to a SET_ADDR setup packet from the host. In
+//               host mode set to the address of the device to communicate with.
+#define USB_ADDR_ENDP_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP1
+// Description : Interrupt endpoint 1. Only valid for HOST mode.
+#define USB_ADDR_ENDP1_OFFSET _u(0x00000004)
+#define USB_ADDR_ENDP1_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP1_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP1_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP1_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP1_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP1_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP1_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP1_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP1_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP1_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP1_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP1_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP1_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP1_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP1_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP1_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP1_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP1_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP1_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP1_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP1_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP1_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP1_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP1_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP1_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP1_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP2
+// Description : Interrupt endpoint 2. Only valid for HOST mode.
+#define USB_ADDR_ENDP2_OFFSET _u(0x00000008)
+#define USB_ADDR_ENDP2_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP2_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP2_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP2_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP2_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP2_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP2_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP2_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP2_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP2_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP2_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP2_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP2_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP2_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP2_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP2_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP2_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP2_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP2_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP2_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP2_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP2_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP2_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP2_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP2_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP2_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP3
+// Description : Interrupt endpoint 3. Only valid for HOST mode.
+#define USB_ADDR_ENDP3_OFFSET _u(0x0000000c)
+#define USB_ADDR_ENDP3_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP3_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP3_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP3_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP3_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP3_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP3_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP3_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP3_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP3_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP3_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP3_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP3_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP3_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP3_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP3_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP3_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP3_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP3_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP3_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP3_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP3_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP3_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP3_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP3_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP3_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP4
+// Description : Interrupt endpoint 4. Only valid for HOST mode.
+#define USB_ADDR_ENDP4_OFFSET _u(0x00000010)
+#define USB_ADDR_ENDP4_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP4_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP4_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP4_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP4_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP4_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP4_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP4_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP4_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP4_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP4_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP4_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP4_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP4_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP4_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP4_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP4_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP4_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP4_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP4_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP4_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP4_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP4_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP4_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP4_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP4_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP5
+// Description : Interrupt endpoint 5. Only valid for HOST mode.
+#define USB_ADDR_ENDP5_OFFSET _u(0x00000014)
+#define USB_ADDR_ENDP5_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP5_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP5_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP5_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP5_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP5_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP5_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP5_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP5_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP5_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP5_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP5_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP5_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP5_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP5_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP5_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP5_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP5_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP5_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP5_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP5_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP5_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP5_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP5_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP5_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP5_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP6
+// Description : Interrupt endpoint 6. Only valid for HOST mode.
+#define USB_ADDR_ENDP6_OFFSET _u(0x00000018)
+#define USB_ADDR_ENDP6_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP6_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP6_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP6_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP6_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP6_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP6_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP6_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP6_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP6_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP6_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP6_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP6_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP6_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP6_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP6_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP6_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP6_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP6_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP6_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP6_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP6_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP6_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP6_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP6_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP6_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP7
+// Description : Interrupt endpoint 7. Only valid for HOST mode.
+#define USB_ADDR_ENDP7_OFFSET _u(0x0000001c)
+#define USB_ADDR_ENDP7_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP7_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP7_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP7_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP7_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP7_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP7_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP7_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP7_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP7_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP7_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP7_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP7_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP7_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP7_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP7_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP7_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP7_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP7_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP7_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP7_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP7_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP7_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP7_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP7_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP7_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP8
+// Description : Interrupt endpoint 8. Only valid for HOST mode.
+#define USB_ADDR_ENDP8_OFFSET _u(0x00000020)
+#define USB_ADDR_ENDP8_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP8_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP8_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP8_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP8_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP8_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP8_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP8_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP8_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP8_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP8_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP8_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP8_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP8_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP8_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP8_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP8_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP8_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP8_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP8_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP8_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP8_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP8_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP8_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP8_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP8_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP9
+// Description : Interrupt endpoint 9. Only valid for HOST mode.
+#define USB_ADDR_ENDP9_OFFSET _u(0x00000024)
+#define USB_ADDR_ENDP9_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP9_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP9_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP9_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP9_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP9_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP9_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP9_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP9_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP9_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP9_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP9_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP9_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP9_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP9_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP9_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP9_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP9_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP9_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP9_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP9_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP9_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP9_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP9_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP9_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP9_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP10
+// Description : Interrupt endpoint 10. Only valid for HOST mode.
+#define USB_ADDR_ENDP10_OFFSET _u(0x00000028)
+#define USB_ADDR_ENDP10_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP10_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP10_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP10_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP10_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP10_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP10_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP10_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP10_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP10_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP10_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP10_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP10_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP10_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP10_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP10_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP10_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP10_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP10_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP10_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP10_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP10_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP10_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP10_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP10_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP10_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP11
+// Description : Interrupt endpoint 11. Only valid for HOST mode.
+#define USB_ADDR_ENDP11_OFFSET _u(0x0000002c)
+#define USB_ADDR_ENDP11_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP11_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP11_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP11_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP11_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP11_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP11_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP11_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP11_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP11_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP11_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP11_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP11_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP11_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP11_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP11_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP11_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP11_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP11_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP11_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP11_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP11_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP11_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP11_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP11_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP11_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP12
+// Description : Interrupt endpoint 12. Only valid for HOST mode.
+#define USB_ADDR_ENDP12_OFFSET _u(0x00000030)
+#define USB_ADDR_ENDP12_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP12_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP12_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP12_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP12_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP12_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP12_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP12_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP12_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP12_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP12_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP12_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP12_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP12_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP12_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP12_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP12_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP12_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP12_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP12_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP12_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP12_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP12_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP12_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP12_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP12_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP13
+// Description : Interrupt endpoint 13. Only valid for HOST mode.
+#define USB_ADDR_ENDP13_OFFSET _u(0x00000034)
+#define USB_ADDR_ENDP13_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP13_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP13_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP13_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP13_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP13_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP13_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP13_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP13_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP13_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP13_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP13_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP13_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP13_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP13_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP13_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP13_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP13_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP13_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP13_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP13_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP13_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP13_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP13_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP13_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP13_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP14
+// Description : Interrupt endpoint 14. Only valid for HOST mode.
+#define USB_ADDR_ENDP14_OFFSET _u(0x00000038)
+#define USB_ADDR_ENDP14_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP14_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP14_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP14_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP14_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP14_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP14_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP14_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP14_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP14_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP14_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP14_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP14_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP14_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP14_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP14_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP14_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP14_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP14_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP14_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP14_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP14_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP14_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP14_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP14_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP14_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_ADDR_ENDP15
+// Description : Interrupt endpoint 15. Only valid for HOST mode.
+#define USB_ADDR_ENDP15_OFFSET _u(0x0000003c)
+#define USB_ADDR_ENDP15_BITS   _u(0x060f007f)
+#define USB_ADDR_ENDP15_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP15_INTEP_PREAMBLE
+// Description : Interrupt EP requires preamble (is a low speed device on a full
+//               speed hub)
+#define USB_ADDR_ENDP15_INTEP_PREAMBLE_RESET  _u(0x0)
+#define USB_ADDR_ENDP15_INTEP_PREAMBLE_BITS   _u(0x04000000)
+#define USB_ADDR_ENDP15_INTEP_PREAMBLE_MSB    _u(26)
+#define USB_ADDR_ENDP15_INTEP_PREAMBLE_LSB    _u(26)
+#define USB_ADDR_ENDP15_INTEP_PREAMBLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP15_INTEP_DIR
+// Description : Direction of the interrupt endpoint. In=0, Out=1
+#define USB_ADDR_ENDP15_INTEP_DIR_RESET  _u(0x0)
+#define USB_ADDR_ENDP15_INTEP_DIR_BITS   _u(0x02000000)
+#define USB_ADDR_ENDP15_INTEP_DIR_MSB    _u(25)
+#define USB_ADDR_ENDP15_INTEP_DIR_LSB    _u(25)
+#define USB_ADDR_ENDP15_INTEP_DIR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP15_ENDPOINT
+// Description : Endpoint number of the interrupt endpoint
+#define USB_ADDR_ENDP15_ENDPOINT_RESET  _u(0x0)
+#define USB_ADDR_ENDP15_ENDPOINT_BITS   _u(0x000f0000)
+#define USB_ADDR_ENDP15_ENDPOINT_MSB    _u(19)
+#define USB_ADDR_ENDP15_ENDPOINT_LSB    _u(16)
+#define USB_ADDR_ENDP15_ENDPOINT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_ADDR_ENDP15_ADDRESS
+// Description : Device address
+#define USB_ADDR_ENDP15_ADDRESS_RESET  _u(0x00)
+#define USB_ADDR_ENDP15_ADDRESS_BITS   _u(0x0000007f)
+#define USB_ADDR_ENDP15_ADDRESS_MSB    _u(6)
+#define USB_ADDR_ENDP15_ADDRESS_LSB    _u(0)
+#define USB_ADDR_ENDP15_ADDRESS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_MAIN_CTRL
+// Description : Main control register
+#define USB_MAIN_CTRL_OFFSET _u(0x00000040)
+#define USB_MAIN_CTRL_BITS   _u(0x80000007)
+#define USB_MAIN_CTRL_RESET  _u(0x00000004)
+// -----------------------------------------------------------------------------
+// Field       : USB_MAIN_CTRL_SIM_TIMING
+// Description : Reduced timings for simulation
+#define USB_MAIN_CTRL_SIM_TIMING_RESET  _u(0x0)
+#define USB_MAIN_CTRL_SIM_TIMING_BITS   _u(0x80000000)
+#define USB_MAIN_CTRL_SIM_TIMING_MSB    _u(31)
+#define USB_MAIN_CTRL_SIM_TIMING_LSB    _u(31)
+#define USB_MAIN_CTRL_SIM_TIMING_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_MAIN_CTRL_PHY_ISO
+// Description : Isolates USB phy after controller power-up
+//               Remove isolation once software has configured the controller
+//               Not isolated = 0, Isolated = 1
+#define USB_MAIN_CTRL_PHY_ISO_RESET  _u(0x1)
+#define USB_MAIN_CTRL_PHY_ISO_BITS   _u(0x00000004)
+#define USB_MAIN_CTRL_PHY_ISO_MSB    _u(2)
+#define USB_MAIN_CTRL_PHY_ISO_LSB    _u(2)
+#define USB_MAIN_CTRL_PHY_ISO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_MAIN_CTRL_HOST_NDEVICE
+// Description : Device mode = 0, Host mode = 1
+#define USB_MAIN_CTRL_HOST_NDEVICE_RESET  _u(0x0)
+#define USB_MAIN_CTRL_HOST_NDEVICE_BITS   _u(0x00000002)
+#define USB_MAIN_CTRL_HOST_NDEVICE_MSB    _u(1)
+#define USB_MAIN_CTRL_HOST_NDEVICE_LSB    _u(1)
+#define USB_MAIN_CTRL_HOST_NDEVICE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_MAIN_CTRL_CONTROLLER_EN
+// Description : Enable controller
+#define USB_MAIN_CTRL_CONTROLLER_EN_RESET  _u(0x0)
+#define USB_MAIN_CTRL_CONTROLLER_EN_BITS   _u(0x00000001)
+#define USB_MAIN_CTRL_CONTROLLER_EN_MSB    _u(0)
+#define USB_MAIN_CTRL_CONTROLLER_EN_LSB    _u(0)
+#define USB_MAIN_CTRL_CONTROLLER_EN_ACCESS "RW"
+// =============================================================================
+// Register    : USB_SOF_WR
+// Description : Set the SOF (Start of Frame) frame number in the host
+//               controller. The SOF packet is sent every 1ms and the host will
+//               increment the frame number by 1 each time.
+#define USB_SOF_WR_OFFSET _u(0x00000044)
+#define USB_SOF_WR_BITS   _u(0x000007ff)
+#define USB_SOF_WR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_SOF_WR_COUNT
+#define USB_SOF_WR_COUNT_RESET  _u(0x000)
+#define USB_SOF_WR_COUNT_BITS   _u(0x000007ff)
+#define USB_SOF_WR_COUNT_MSB    _u(10)
+#define USB_SOF_WR_COUNT_LSB    _u(0)
+#define USB_SOF_WR_COUNT_ACCESS "WF"
+// =============================================================================
+// Register    : USB_SOF_RD
+// Description : Read the last SOF (Start of Frame) frame number seen. In device
+//               mode the last SOF received from the host. In host mode the last
+//               SOF sent by the host.
+#define USB_SOF_RD_OFFSET _u(0x00000048)
+#define USB_SOF_RD_BITS   _u(0x000007ff)
+#define USB_SOF_RD_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_SOF_RD_COUNT
+#define USB_SOF_RD_COUNT_RESET  _u(0x000)
+#define USB_SOF_RD_COUNT_BITS   _u(0x000007ff)
+#define USB_SOF_RD_COUNT_MSB    _u(10)
+#define USB_SOF_RD_COUNT_LSB    _u(0)
+#define USB_SOF_RD_COUNT_ACCESS "RO"
+// =============================================================================
+// Register    : USB_SIE_CTRL
+// Description : SIE control register
+#define USB_SIE_CTRL_OFFSET _u(0x0000004c)
+#define USB_SIE_CTRL_BITS   _u(0xff0fbf5f)
+#define USB_SIE_CTRL_RESET  _u(0x00008000)
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_INT_STALL
+// Description : Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a STALL
+#define USB_SIE_CTRL_EP0_INT_STALL_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_INT_STALL_BITS   _u(0x80000000)
+#define USB_SIE_CTRL_EP0_INT_STALL_MSB    _u(31)
+#define USB_SIE_CTRL_EP0_INT_STALL_LSB    _u(31)
+#define USB_SIE_CTRL_EP0_INT_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_DOUBLE_BUF
+// Description : Device: EP0 single buffered = 0, double buffered = 1
+#define USB_SIE_CTRL_EP0_DOUBLE_BUF_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_DOUBLE_BUF_BITS   _u(0x40000000)
+#define USB_SIE_CTRL_EP0_DOUBLE_BUF_MSB    _u(30)
+#define USB_SIE_CTRL_EP0_DOUBLE_BUF_LSB    _u(30)
+#define USB_SIE_CTRL_EP0_DOUBLE_BUF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_INT_1BUF
+// Description : Device: Set bit in BUFF_STATUS for every buffer completed on
+//               EP0
+#define USB_SIE_CTRL_EP0_INT_1BUF_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_INT_1BUF_BITS   _u(0x20000000)
+#define USB_SIE_CTRL_EP0_INT_1BUF_MSB    _u(29)
+#define USB_SIE_CTRL_EP0_INT_1BUF_LSB    _u(29)
+#define USB_SIE_CTRL_EP0_INT_1BUF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_INT_2BUF
+// Description : Device: Set bit in BUFF_STATUS for every 2 buffers completed on
+//               EP0
+#define USB_SIE_CTRL_EP0_INT_2BUF_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_INT_2BUF_BITS   _u(0x10000000)
+#define USB_SIE_CTRL_EP0_INT_2BUF_MSB    _u(28)
+#define USB_SIE_CTRL_EP0_INT_2BUF_LSB    _u(28)
+#define USB_SIE_CTRL_EP0_INT_2BUF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_INT_NAK
+// Description : Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a NAK
+#define USB_SIE_CTRL_EP0_INT_NAK_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_INT_NAK_BITS   _u(0x08000000)
+#define USB_SIE_CTRL_EP0_INT_NAK_MSB    _u(27)
+#define USB_SIE_CTRL_EP0_INT_NAK_LSB    _u(27)
+#define USB_SIE_CTRL_EP0_INT_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_DIRECT_EN
+// Description : Direct bus drive enable
+#define USB_SIE_CTRL_DIRECT_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_DIRECT_EN_BITS   _u(0x04000000)
+#define USB_SIE_CTRL_DIRECT_EN_MSB    _u(26)
+#define USB_SIE_CTRL_DIRECT_EN_LSB    _u(26)
+#define USB_SIE_CTRL_DIRECT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_DIRECT_DP
+// Description : Direct control of DP
+#define USB_SIE_CTRL_DIRECT_DP_RESET  _u(0x0)
+#define USB_SIE_CTRL_DIRECT_DP_BITS   _u(0x02000000)
+#define USB_SIE_CTRL_DIRECT_DP_MSB    _u(25)
+#define USB_SIE_CTRL_DIRECT_DP_LSB    _u(25)
+#define USB_SIE_CTRL_DIRECT_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_DIRECT_DM
+// Description : Direct control of DM
+#define USB_SIE_CTRL_DIRECT_DM_RESET  _u(0x0)
+#define USB_SIE_CTRL_DIRECT_DM_BITS   _u(0x01000000)
+#define USB_SIE_CTRL_DIRECT_DM_MSB    _u(24)
+#define USB_SIE_CTRL_DIRECT_DM_LSB    _u(24)
+#define USB_SIE_CTRL_DIRECT_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET
+// Description : Device: Stop EP0 on a short packet.
+#define USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET_RESET  _u(0x0)
+#define USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET_BITS   _u(0x00080000)
+#define USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET_MSB    _u(19)
+#define USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET_LSB    _u(19)
+#define USB_SIE_CTRL_EP0_STOP_ON_SHORT_PACKET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_TRANSCEIVER_PD
+// Description : Power down bus transceiver
+#define USB_SIE_CTRL_TRANSCEIVER_PD_RESET  _u(0x0)
+#define USB_SIE_CTRL_TRANSCEIVER_PD_BITS   _u(0x00040000)
+#define USB_SIE_CTRL_TRANSCEIVER_PD_MSB    _u(18)
+#define USB_SIE_CTRL_TRANSCEIVER_PD_LSB    _u(18)
+#define USB_SIE_CTRL_TRANSCEIVER_PD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_RPU_OPT
+// Description : Device: Pull-up strength (0=1K2, 1=2k3)
+#define USB_SIE_CTRL_RPU_OPT_RESET  _u(0x0)
+#define USB_SIE_CTRL_RPU_OPT_BITS   _u(0x00020000)
+#define USB_SIE_CTRL_RPU_OPT_MSB    _u(17)
+#define USB_SIE_CTRL_RPU_OPT_LSB    _u(17)
+#define USB_SIE_CTRL_RPU_OPT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_PULLUP_EN
+// Description : Device: Enable pull up resistor
+#define USB_SIE_CTRL_PULLUP_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_PULLUP_EN_BITS   _u(0x00010000)
+#define USB_SIE_CTRL_PULLUP_EN_MSB    _u(16)
+#define USB_SIE_CTRL_PULLUP_EN_LSB    _u(16)
+#define USB_SIE_CTRL_PULLUP_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_PULLDOWN_EN
+// Description : Host: Enable pull down resistors
+#define USB_SIE_CTRL_PULLDOWN_EN_RESET  _u(0x1)
+#define USB_SIE_CTRL_PULLDOWN_EN_BITS   _u(0x00008000)
+#define USB_SIE_CTRL_PULLDOWN_EN_MSB    _u(15)
+#define USB_SIE_CTRL_PULLDOWN_EN_LSB    _u(15)
+#define USB_SIE_CTRL_PULLDOWN_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_RESET_BUS
+// Description : Host: Reset bus
+#define USB_SIE_CTRL_RESET_BUS_RESET  _u(0x0)
+#define USB_SIE_CTRL_RESET_BUS_BITS   _u(0x00002000)
+#define USB_SIE_CTRL_RESET_BUS_MSB    _u(13)
+#define USB_SIE_CTRL_RESET_BUS_LSB    _u(13)
+#define USB_SIE_CTRL_RESET_BUS_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_RESUME
+// Description : Device: Remote wakeup. Device can initiate its own resume after
+//               suspend.
+#define USB_SIE_CTRL_RESUME_RESET  _u(0x0)
+#define USB_SIE_CTRL_RESUME_BITS   _u(0x00001000)
+#define USB_SIE_CTRL_RESUME_MSB    _u(12)
+#define USB_SIE_CTRL_RESUME_LSB    _u(12)
+#define USB_SIE_CTRL_RESUME_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_VBUS_EN
+// Description : Host: Enable VBUS
+#define USB_SIE_CTRL_VBUS_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_VBUS_EN_BITS   _u(0x00000800)
+#define USB_SIE_CTRL_VBUS_EN_MSB    _u(11)
+#define USB_SIE_CTRL_VBUS_EN_LSB    _u(11)
+#define USB_SIE_CTRL_VBUS_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_KEEP_ALIVE_EN
+// Description : Host: Enable keep alive packet (for low speed bus)
+#define USB_SIE_CTRL_KEEP_ALIVE_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_KEEP_ALIVE_EN_BITS   _u(0x00000400)
+#define USB_SIE_CTRL_KEEP_ALIVE_EN_MSB    _u(10)
+#define USB_SIE_CTRL_KEEP_ALIVE_EN_LSB    _u(10)
+#define USB_SIE_CTRL_KEEP_ALIVE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_SOF_EN
+// Description : Host: Enable SOF generation (for full speed bus)
+#define USB_SIE_CTRL_SOF_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_SOF_EN_BITS   _u(0x00000200)
+#define USB_SIE_CTRL_SOF_EN_MSB    _u(9)
+#define USB_SIE_CTRL_SOF_EN_LSB    _u(9)
+#define USB_SIE_CTRL_SOF_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_SOF_SYNC
+// Description : Host: Delay packet(s) until after SOF
+#define USB_SIE_CTRL_SOF_SYNC_RESET  _u(0x0)
+#define USB_SIE_CTRL_SOF_SYNC_BITS   _u(0x00000100)
+#define USB_SIE_CTRL_SOF_SYNC_MSB    _u(8)
+#define USB_SIE_CTRL_SOF_SYNC_LSB    _u(8)
+#define USB_SIE_CTRL_SOF_SYNC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_PREAMBLE_EN
+// Description : Host: Preable enable for LS device on FS hub
+#define USB_SIE_CTRL_PREAMBLE_EN_RESET  _u(0x0)
+#define USB_SIE_CTRL_PREAMBLE_EN_BITS   _u(0x00000040)
+#define USB_SIE_CTRL_PREAMBLE_EN_MSB    _u(6)
+#define USB_SIE_CTRL_PREAMBLE_EN_LSB    _u(6)
+#define USB_SIE_CTRL_PREAMBLE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_STOP_TRANS
+// Description : Host: Stop transaction
+#define USB_SIE_CTRL_STOP_TRANS_RESET  _u(0x0)
+#define USB_SIE_CTRL_STOP_TRANS_BITS   _u(0x00000010)
+#define USB_SIE_CTRL_STOP_TRANS_MSB    _u(4)
+#define USB_SIE_CTRL_STOP_TRANS_LSB    _u(4)
+#define USB_SIE_CTRL_STOP_TRANS_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_RECEIVE_DATA
+// Description : Host: Receive transaction (IN to host)
+#define USB_SIE_CTRL_RECEIVE_DATA_RESET  _u(0x0)
+#define USB_SIE_CTRL_RECEIVE_DATA_BITS   _u(0x00000008)
+#define USB_SIE_CTRL_RECEIVE_DATA_MSB    _u(3)
+#define USB_SIE_CTRL_RECEIVE_DATA_LSB    _u(3)
+#define USB_SIE_CTRL_RECEIVE_DATA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_SEND_DATA
+// Description : Host: Send transaction (OUT from host)
+#define USB_SIE_CTRL_SEND_DATA_RESET  _u(0x0)
+#define USB_SIE_CTRL_SEND_DATA_BITS   _u(0x00000004)
+#define USB_SIE_CTRL_SEND_DATA_MSB    _u(2)
+#define USB_SIE_CTRL_SEND_DATA_LSB    _u(2)
+#define USB_SIE_CTRL_SEND_DATA_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_SEND_SETUP
+// Description : Host: Send Setup packet
+#define USB_SIE_CTRL_SEND_SETUP_RESET  _u(0x0)
+#define USB_SIE_CTRL_SEND_SETUP_BITS   _u(0x00000002)
+#define USB_SIE_CTRL_SEND_SETUP_MSB    _u(1)
+#define USB_SIE_CTRL_SEND_SETUP_LSB    _u(1)
+#define USB_SIE_CTRL_SEND_SETUP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_CTRL_START_TRANS
+// Description : Host: Start transaction
+#define USB_SIE_CTRL_START_TRANS_RESET  _u(0x0)
+#define USB_SIE_CTRL_START_TRANS_BITS   _u(0x00000001)
+#define USB_SIE_CTRL_START_TRANS_MSB    _u(0)
+#define USB_SIE_CTRL_START_TRANS_LSB    _u(0)
+#define USB_SIE_CTRL_START_TRANS_ACCESS "SC"
+// =============================================================================
+// Register    : USB_SIE_STATUS
+// Description : SIE status register
+#define USB_SIE_STATUS_OFFSET _u(0x00000050)
+#define USB_SIE_STATUS_BITS   _u(0xff8f1f1d)
+#define USB_SIE_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_DATA_SEQ_ERROR
+// Description : Data Sequence Error.
+//
+//               The device can raise a sequence error in the following
+//               conditions:
+//
+//               * A SETUP packet is received followed by a DATA1 packet (data
+//               phase should always be DATA0) * An OUT packet is received from
+//               the host but doesn't match the data pid in the buffer control
+//               register read from DPSRAM
+//
+//               The host can raise a data sequence error in the following
+//               conditions:
+//
+//               * An IN packet from the device has the wrong data PID
+#define USB_SIE_STATUS_DATA_SEQ_ERROR_RESET  _u(0x0)
+#define USB_SIE_STATUS_DATA_SEQ_ERROR_BITS   _u(0x80000000)
+#define USB_SIE_STATUS_DATA_SEQ_ERROR_MSB    _u(31)
+#define USB_SIE_STATUS_DATA_SEQ_ERROR_LSB    _u(31)
+#define USB_SIE_STATUS_DATA_SEQ_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_ACK_REC
+// Description : ACK received. Raised by both host and device.
+#define USB_SIE_STATUS_ACK_REC_RESET  _u(0x0)
+#define USB_SIE_STATUS_ACK_REC_BITS   _u(0x40000000)
+#define USB_SIE_STATUS_ACK_REC_MSB    _u(30)
+#define USB_SIE_STATUS_ACK_REC_LSB    _u(30)
+#define USB_SIE_STATUS_ACK_REC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_STALL_REC
+// Description : Host: STALL received
+#define USB_SIE_STATUS_STALL_REC_RESET  _u(0x0)
+#define USB_SIE_STATUS_STALL_REC_BITS   _u(0x20000000)
+#define USB_SIE_STATUS_STALL_REC_MSB    _u(29)
+#define USB_SIE_STATUS_STALL_REC_LSB    _u(29)
+#define USB_SIE_STATUS_STALL_REC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_NAK_REC
+// Description : Host: NAK received
+#define USB_SIE_STATUS_NAK_REC_RESET  _u(0x0)
+#define USB_SIE_STATUS_NAK_REC_BITS   _u(0x10000000)
+#define USB_SIE_STATUS_NAK_REC_MSB    _u(28)
+#define USB_SIE_STATUS_NAK_REC_LSB    _u(28)
+#define USB_SIE_STATUS_NAK_REC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_RX_TIMEOUT
+// Description : RX timeout is raised by both the host and device if an ACK is
+//               not received in the maximum time specified by the USB spec.
+#define USB_SIE_STATUS_RX_TIMEOUT_RESET  _u(0x0)
+#define USB_SIE_STATUS_RX_TIMEOUT_BITS   _u(0x08000000)
+#define USB_SIE_STATUS_RX_TIMEOUT_MSB    _u(27)
+#define USB_SIE_STATUS_RX_TIMEOUT_LSB    _u(27)
+#define USB_SIE_STATUS_RX_TIMEOUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_RX_OVERFLOW
+// Description : RX overflow is raised by the Serial RX engine if the incoming
+//               data is too fast.
+#define USB_SIE_STATUS_RX_OVERFLOW_RESET  _u(0x0)
+#define USB_SIE_STATUS_RX_OVERFLOW_BITS   _u(0x04000000)
+#define USB_SIE_STATUS_RX_OVERFLOW_MSB    _u(26)
+#define USB_SIE_STATUS_RX_OVERFLOW_LSB    _u(26)
+#define USB_SIE_STATUS_RX_OVERFLOW_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_BIT_STUFF_ERROR
+// Description : Bit Stuff Error. Raised by the Serial RX engine.
+#define USB_SIE_STATUS_BIT_STUFF_ERROR_RESET  _u(0x0)
+#define USB_SIE_STATUS_BIT_STUFF_ERROR_BITS   _u(0x02000000)
+#define USB_SIE_STATUS_BIT_STUFF_ERROR_MSB    _u(25)
+#define USB_SIE_STATUS_BIT_STUFF_ERROR_LSB    _u(25)
+#define USB_SIE_STATUS_BIT_STUFF_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_CRC_ERROR
+// Description : CRC Error. Raised by the Serial RX engine.
+#define USB_SIE_STATUS_CRC_ERROR_RESET  _u(0x0)
+#define USB_SIE_STATUS_CRC_ERROR_BITS   _u(0x01000000)
+#define USB_SIE_STATUS_CRC_ERROR_MSB    _u(24)
+#define USB_SIE_STATUS_CRC_ERROR_LSB    _u(24)
+#define USB_SIE_STATUS_CRC_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_ENDPOINT_ERROR
+// Description : An endpoint has encountered an error. Read the ep_rx_error and
+//               ep_tx_error registers to find out which endpoint had an error.
+#define USB_SIE_STATUS_ENDPOINT_ERROR_RESET  _u(0x0)
+#define USB_SIE_STATUS_ENDPOINT_ERROR_BITS   _u(0x00800000)
+#define USB_SIE_STATUS_ENDPOINT_ERROR_MSB    _u(23)
+#define USB_SIE_STATUS_ENDPOINT_ERROR_LSB    _u(23)
+#define USB_SIE_STATUS_ENDPOINT_ERROR_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_BUS_RESET
+// Description : Device: bus reset received
+#define USB_SIE_STATUS_BUS_RESET_RESET  _u(0x0)
+#define USB_SIE_STATUS_BUS_RESET_BITS   _u(0x00080000)
+#define USB_SIE_STATUS_BUS_RESET_MSB    _u(19)
+#define USB_SIE_STATUS_BUS_RESET_LSB    _u(19)
+#define USB_SIE_STATUS_BUS_RESET_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_TRANS_COMPLETE
+// Description : Transaction complete.
+//
+//               Raised by device if:
+//
+//               * An IN or OUT packet is sent with the `LAST_BUFF` bit set in
+//               the buffer control register
+//
+//               Raised by host if:
+//
+//               * A setup packet is sent when no data in or data out
+//               transaction follows * An IN packet is received and the
+//               `LAST_BUFF` bit is set in the buffer control register * An IN
+//               packet is received with zero length * An OUT packet is sent and
+//               the `LAST_BUFF` bit is set
+#define USB_SIE_STATUS_TRANS_COMPLETE_RESET  _u(0x0)
+#define USB_SIE_STATUS_TRANS_COMPLETE_BITS   _u(0x00040000)
+#define USB_SIE_STATUS_TRANS_COMPLETE_MSB    _u(18)
+#define USB_SIE_STATUS_TRANS_COMPLETE_LSB    _u(18)
+#define USB_SIE_STATUS_TRANS_COMPLETE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_SETUP_REC
+// Description : Device: Setup packet received
+#define USB_SIE_STATUS_SETUP_REC_RESET  _u(0x0)
+#define USB_SIE_STATUS_SETUP_REC_BITS   _u(0x00020000)
+#define USB_SIE_STATUS_SETUP_REC_MSB    _u(17)
+#define USB_SIE_STATUS_SETUP_REC_LSB    _u(17)
+#define USB_SIE_STATUS_SETUP_REC_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_CONNECTED
+// Description : Device: connected
+#define USB_SIE_STATUS_CONNECTED_RESET  _u(0x0)
+#define USB_SIE_STATUS_CONNECTED_BITS   _u(0x00010000)
+#define USB_SIE_STATUS_CONNECTED_MSB    _u(16)
+#define USB_SIE_STATUS_CONNECTED_LSB    _u(16)
+#define USB_SIE_STATUS_CONNECTED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_RX_SHORT_PACKET
+// Description : Device or Host has received a short packet. This is when the
+//               data received is less than configured in the buffer control
+//               register. Device: If using double buffered mode on device the
+//               buffer select will not be toggled after writing status back to
+//               the buffer control register. This is to prevent any further
+//               transactions on that endpoint until the user has reset the
+//               buffer control registers. Host: the current transfer will be
+//               stopped early.
+#define USB_SIE_STATUS_RX_SHORT_PACKET_RESET  _u(0x0)
+#define USB_SIE_STATUS_RX_SHORT_PACKET_BITS   _u(0x00001000)
+#define USB_SIE_STATUS_RX_SHORT_PACKET_MSB    _u(12)
+#define USB_SIE_STATUS_RX_SHORT_PACKET_LSB    _u(12)
+#define USB_SIE_STATUS_RX_SHORT_PACKET_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_RESUME
+// Description : Host: Device has initiated a remote resume. Device: host has
+//               initiated a resume.
+#define USB_SIE_STATUS_RESUME_RESET  _u(0x0)
+#define USB_SIE_STATUS_RESUME_BITS   _u(0x00000800)
+#define USB_SIE_STATUS_RESUME_MSB    _u(11)
+#define USB_SIE_STATUS_RESUME_LSB    _u(11)
+#define USB_SIE_STATUS_RESUME_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_VBUS_OVER_CURR
+// Description : VBUS over current detected
+#define USB_SIE_STATUS_VBUS_OVER_CURR_RESET  _u(0x0)
+#define USB_SIE_STATUS_VBUS_OVER_CURR_BITS   _u(0x00000400)
+#define USB_SIE_STATUS_VBUS_OVER_CURR_MSB    _u(10)
+#define USB_SIE_STATUS_VBUS_OVER_CURR_LSB    _u(10)
+#define USB_SIE_STATUS_VBUS_OVER_CURR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_SPEED
+// Description : Host: device speed. Disconnected = 00, LS = 01, FS = 10
+#define USB_SIE_STATUS_SPEED_RESET  _u(0x0)
+#define USB_SIE_STATUS_SPEED_BITS   _u(0x00000300)
+#define USB_SIE_STATUS_SPEED_MSB    _u(9)
+#define USB_SIE_STATUS_SPEED_LSB    _u(8)
+#define USB_SIE_STATUS_SPEED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_SUSPENDED
+// Description : Bus in suspended state. Valid for device. Device will go into
+//               suspend if neither Keep Alive / SOF frames are enabled.
+#define USB_SIE_STATUS_SUSPENDED_RESET  _u(0x0)
+#define USB_SIE_STATUS_SUSPENDED_BITS   _u(0x00000010)
+#define USB_SIE_STATUS_SUSPENDED_MSB    _u(4)
+#define USB_SIE_STATUS_SUSPENDED_LSB    _u(4)
+#define USB_SIE_STATUS_SUSPENDED_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_LINE_STATE
+// Description : USB bus line state
+#define USB_SIE_STATUS_LINE_STATE_RESET  _u(0x0)
+#define USB_SIE_STATUS_LINE_STATE_BITS   _u(0x0000000c)
+#define USB_SIE_STATUS_LINE_STATE_MSB    _u(3)
+#define USB_SIE_STATUS_LINE_STATE_LSB    _u(2)
+#define USB_SIE_STATUS_LINE_STATE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SIE_STATUS_VBUS_DETECTED
+// Description : Device: VBUS Detected
+#define USB_SIE_STATUS_VBUS_DETECTED_RESET  _u(0x0)
+#define USB_SIE_STATUS_VBUS_DETECTED_BITS   _u(0x00000001)
+#define USB_SIE_STATUS_VBUS_DETECTED_MSB    _u(0)
+#define USB_SIE_STATUS_VBUS_DETECTED_LSB    _u(0)
+#define USB_SIE_STATUS_VBUS_DETECTED_ACCESS "RO"
+// =============================================================================
+// Register    : USB_INT_EP_CTRL
+// Description : interrupt endpoint control register
+#define USB_INT_EP_CTRL_OFFSET _u(0x00000054)
+#define USB_INT_EP_CTRL_BITS   _u(0x0000fffe)
+#define USB_INT_EP_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_INT_EP_CTRL_INT_EP_ACTIVE
+// Description : Host: Enable interrupt endpoint 1 -> 15
+#define USB_INT_EP_CTRL_INT_EP_ACTIVE_RESET  _u(0x0000)
+#define USB_INT_EP_CTRL_INT_EP_ACTIVE_BITS   _u(0x0000fffe)
+#define USB_INT_EP_CTRL_INT_EP_ACTIVE_MSB    _u(15)
+#define USB_INT_EP_CTRL_INT_EP_ACTIVE_LSB    _u(1)
+#define USB_INT_EP_CTRL_INT_EP_ACTIVE_ACCESS "RW"
+// =============================================================================
+// Register    : USB_BUFF_STATUS
+// Description : Buffer status register. A bit set here indicates that a buffer
+//               has completed on the endpoint (if the buffer interrupt is
+//               enabled). It is possible for 2 buffers to be completed, so
+//               clearing the buffer status bit may instantly re set it on the
+//               next clock cycle.
+#define USB_BUFF_STATUS_OFFSET _u(0x00000058)
+#define USB_BUFF_STATUS_BITS   _u(0xffffffff)
+#define USB_BUFF_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP15_OUT
+#define USB_BUFF_STATUS_EP15_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP15_OUT_BITS   _u(0x80000000)
+#define USB_BUFF_STATUS_EP15_OUT_MSB    _u(31)
+#define USB_BUFF_STATUS_EP15_OUT_LSB    _u(31)
+#define USB_BUFF_STATUS_EP15_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP15_IN
+#define USB_BUFF_STATUS_EP15_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP15_IN_BITS   _u(0x40000000)
+#define USB_BUFF_STATUS_EP15_IN_MSB    _u(30)
+#define USB_BUFF_STATUS_EP15_IN_LSB    _u(30)
+#define USB_BUFF_STATUS_EP15_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP14_OUT
+#define USB_BUFF_STATUS_EP14_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP14_OUT_BITS   _u(0x20000000)
+#define USB_BUFF_STATUS_EP14_OUT_MSB    _u(29)
+#define USB_BUFF_STATUS_EP14_OUT_LSB    _u(29)
+#define USB_BUFF_STATUS_EP14_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP14_IN
+#define USB_BUFF_STATUS_EP14_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP14_IN_BITS   _u(0x10000000)
+#define USB_BUFF_STATUS_EP14_IN_MSB    _u(28)
+#define USB_BUFF_STATUS_EP14_IN_LSB    _u(28)
+#define USB_BUFF_STATUS_EP14_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP13_OUT
+#define USB_BUFF_STATUS_EP13_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP13_OUT_BITS   _u(0x08000000)
+#define USB_BUFF_STATUS_EP13_OUT_MSB    _u(27)
+#define USB_BUFF_STATUS_EP13_OUT_LSB    _u(27)
+#define USB_BUFF_STATUS_EP13_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP13_IN
+#define USB_BUFF_STATUS_EP13_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP13_IN_BITS   _u(0x04000000)
+#define USB_BUFF_STATUS_EP13_IN_MSB    _u(26)
+#define USB_BUFF_STATUS_EP13_IN_LSB    _u(26)
+#define USB_BUFF_STATUS_EP13_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP12_OUT
+#define USB_BUFF_STATUS_EP12_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP12_OUT_BITS   _u(0x02000000)
+#define USB_BUFF_STATUS_EP12_OUT_MSB    _u(25)
+#define USB_BUFF_STATUS_EP12_OUT_LSB    _u(25)
+#define USB_BUFF_STATUS_EP12_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP12_IN
+#define USB_BUFF_STATUS_EP12_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP12_IN_BITS   _u(0x01000000)
+#define USB_BUFF_STATUS_EP12_IN_MSB    _u(24)
+#define USB_BUFF_STATUS_EP12_IN_LSB    _u(24)
+#define USB_BUFF_STATUS_EP12_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP11_OUT
+#define USB_BUFF_STATUS_EP11_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP11_OUT_BITS   _u(0x00800000)
+#define USB_BUFF_STATUS_EP11_OUT_MSB    _u(23)
+#define USB_BUFF_STATUS_EP11_OUT_LSB    _u(23)
+#define USB_BUFF_STATUS_EP11_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP11_IN
+#define USB_BUFF_STATUS_EP11_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP11_IN_BITS   _u(0x00400000)
+#define USB_BUFF_STATUS_EP11_IN_MSB    _u(22)
+#define USB_BUFF_STATUS_EP11_IN_LSB    _u(22)
+#define USB_BUFF_STATUS_EP11_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP10_OUT
+#define USB_BUFF_STATUS_EP10_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP10_OUT_BITS   _u(0x00200000)
+#define USB_BUFF_STATUS_EP10_OUT_MSB    _u(21)
+#define USB_BUFF_STATUS_EP10_OUT_LSB    _u(21)
+#define USB_BUFF_STATUS_EP10_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP10_IN
+#define USB_BUFF_STATUS_EP10_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP10_IN_BITS   _u(0x00100000)
+#define USB_BUFF_STATUS_EP10_IN_MSB    _u(20)
+#define USB_BUFF_STATUS_EP10_IN_LSB    _u(20)
+#define USB_BUFF_STATUS_EP10_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP9_OUT
+#define USB_BUFF_STATUS_EP9_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP9_OUT_BITS   _u(0x00080000)
+#define USB_BUFF_STATUS_EP9_OUT_MSB    _u(19)
+#define USB_BUFF_STATUS_EP9_OUT_LSB    _u(19)
+#define USB_BUFF_STATUS_EP9_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP9_IN
+#define USB_BUFF_STATUS_EP9_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP9_IN_BITS   _u(0x00040000)
+#define USB_BUFF_STATUS_EP9_IN_MSB    _u(18)
+#define USB_BUFF_STATUS_EP9_IN_LSB    _u(18)
+#define USB_BUFF_STATUS_EP9_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP8_OUT
+#define USB_BUFF_STATUS_EP8_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP8_OUT_BITS   _u(0x00020000)
+#define USB_BUFF_STATUS_EP8_OUT_MSB    _u(17)
+#define USB_BUFF_STATUS_EP8_OUT_LSB    _u(17)
+#define USB_BUFF_STATUS_EP8_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP8_IN
+#define USB_BUFF_STATUS_EP8_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP8_IN_BITS   _u(0x00010000)
+#define USB_BUFF_STATUS_EP8_IN_MSB    _u(16)
+#define USB_BUFF_STATUS_EP8_IN_LSB    _u(16)
+#define USB_BUFF_STATUS_EP8_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP7_OUT
+#define USB_BUFF_STATUS_EP7_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP7_OUT_BITS   _u(0x00008000)
+#define USB_BUFF_STATUS_EP7_OUT_MSB    _u(15)
+#define USB_BUFF_STATUS_EP7_OUT_LSB    _u(15)
+#define USB_BUFF_STATUS_EP7_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP7_IN
+#define USB_BUFF_STATUS_EP7_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP7_IN_BITS   _u(0x00004000)
+#define USB_BUFF_STATUS_EP7_IN_MSB    _u(14)
+#define USB_BUFF_STATUS_EP7_IN_LSB    _u(14)
+#define USB_BUFF_STATUS_EP7_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP6_OUT
+#define USB_BUFF_STATUS_EP6_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP6_OUT_BITS   _u(0x00002000)
+#define USB_BUFF_STATUS_EP6_OUT_MSB    _u(13)
+#define USB_BUFF_STATUS_EP6_OUT_LSB    _u(13)
+#define USB_BUFF_STATUS_EP6_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP6_IN
+#define USB_BUFF_STATUS_EP6_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP6_IN_BITS   _u(0x00001000)
+#define USB_BUFF_STATUS_EP6_IN_MSB    _u(12)
+#define USB_BUFF_STATUS_EP6_IN_LSB    _u(12)
+#define USB_BUFF_STATUS_EP6_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP5_OUT
+#define USB_BUFF_STATUS_EP5_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP5_OUT_BITS   _u(0x00000800)
+#define USB_BUFF_STATUS_EP5_OUT_MSB    _u(11)
+#define USB_BUFF_STATUS_EP5_OUT_LSB    _u(11)
+#define USB_BUFF_STATUS_EP5_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP5_IN
+#define USB_BUFF_STATUS_EP5_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP5_IN_BITS   _u(0x00000400)
+#define USB_BUFF_STATUS_EP5_IN_MSB    _u(10)
+#define USB_BUFF_STATUS_EP5_IN_LSB    _u(10)
+#define USB_BUFF_STATUS_EP5_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP4_OUT
+#define USB_BUFF_STATUS_EP4_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP4_OUT_BITS   _u(0x00000200)
+#define USB_BUFF_STATUS_EP4_OUT_MSB    _u(9)
+#define USB_BUFF_STATUS_EP4_OUT_LSB    _u(9)
+#define USB_BUFF_STATUS_EP4_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP4_IN
+#define USB_BUFF_STATUS_EP4_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP4_IN_BITS   _u(0x00000100)
+#define USB_BUFF_STATUS_EP4_IN_MSB    _u(8)
+#define USB_BUFF_STATUS_EP4_IN_LSB    _u(8)
+#define USB_BUFF_STATUS_EP4_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP3_OUT
+#define USB_BUFF_STATUS_EP3_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP3_OUT_BITS   _u(0x00000080)
+#define USB_BUFF_STATUS_EP3_OUT_MSB    _u(7)
+#define USB_BUFF_STATUS_EP3_OUT_LSB    _u(7)
+#define USB_BUFF_STATUS_EP3_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP3_IN
+#define USB_BUFF_STATUS_EP3_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP3_IN_BITS   _u(0x00000040)
+#define USB_BUFF_STATUS_EP3_IN_MSB    _u(6)
+#define USB_BUFF_STATUS_EP3_IN_LSB    _u(6)
+#define USB_BUFF_STATUS_EP3_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP2_OUT
+#define USB_BUFF_STATUS_EP2_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP2_OUT_BITS   _u(0x00000020)
+#define USB_BUFF_STATUS_EP2_OUT_MSB    _u(5)
+#define USB_BUFF_STATUS_EP2_OUT_LSB    _u(5)
+#define USB_BUFF_STATUS_EP2_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP2_IN
+#define USB_BUFF_STATUS_EP2_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP2_IN_BITS   _u(0x00000010)
+#define USB_BUFF_STATUS_EP2_IN_MSB    _u(4)
+#define USB_BUFF_STATUS_EP2_IN_LSB    _u(4)
+#define USB_BUFF_STATUS_EP2_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP1_OUT
+#define USB_BUFF_STATUS_EP1_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP1_OUT_BITS   _u(0x00000008)
+#define USB_BUFF_STATUS_EP1_OUT_MSB    _u(3)
+#define USB_BUFF_STATUS_EP1_OUT_LSB    _u(3)
+#define USB_BUFF_STATUS_EP1_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP1_IN
+#define USB_BUFF_STATUS_EP1_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP1_IN_BITS   _u(0x00000004)
+#define USB_BUFF_STATUS_EP1_IN_MSB    _u(2)
+#define USB_BUFF_STATUS_EP1_IN_LSB    _u(2)
+#define USB_BUFF_STATUS_EP1_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP0_OUT
+#define USB_BUFF_STATUS_EP0_OUT_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP0_OUT_BITS   _u(0x00000002)
+#define USB_BUFF_STATUS_EP0_OUT_MSB    _u(1)
+#define USB_BUFF_STATUS_EP0_OUT_LSB    _u(1)
+#define USB_BUFF_STATUS_EP0_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_STATUS_EP0_IN
+#define USB_BUFF_STATUS_EP0_IN_RESET  _u(0x0)
+#define USB_BUFF_STATUS_EP0_IN_BITS   _u(0x00000001)
+#define USB_BUFF_STATUS_EP0_IN_MSB    _u(0)
+#define USB_BUFF_STATUS_EP0_IN_LSB    _u(0)
+#define USB_BUFF_STATUS_EP0_IN_ACCESS "WC"
+// =============================================================================
+// Register    : USB_BUFF_CPU_SHOULD_HANDLE
+// Description : Which of the double buffers should be handled. Only valid if
+//               using an interrupt per buffer (i.e. not per 2 buffers). Not
+//               valid for host interrupt endpoint polling because they are only
+//               single buffered.
+#define USB_BUFF_CPU_SHOULD_HANDLE_OFFSET _u(0x0000005c)
+#define USB_BUFF_CPU_SHOULD_HANDLE_BITS   _u(0xffffffff)
+#define USB_BUFF_CPU_SHOULD_HANDLE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_BITS   _u(0x80000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_MSB    _u(31)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_LSB    _u(31)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_BITS   _u(0x40000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_MSB    _u(30)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_LSB    _u(30)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP15_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_BITS   _u(0x20000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_MSB    _u(29)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_LSB    _u(29)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_BITS   _u(0x10000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_MSB    _u(28)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_LSB    _u(28)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP14_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_BITS   _u(0x08000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_MSB    _u(27)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_LSB    _u(27)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_BITS   _u(0x04000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_MSB    _u(26)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_LSB    _u(26)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP13_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_BITS   _u(0x02000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_MSB    _u(25)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_LSB    _u(25)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_BITS   _u(0x01000000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_MSB    _u(24)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_LSB    _u(24)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP12_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_BITS   _u(0x00800000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_MSB    _u(23)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_LSB    _u(23)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_BITS   _u(0x00400000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_MSB    _u(22)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_LSB    _u(22)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP11_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_BITS   _u(0x00200000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_MSB    _u(21)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_LSB    _u(21)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_BITS   _u(0x00100000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_MSB    _u(20)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_LSB    _u(20)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP10_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_BITS   _u(0x00080000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_MSB    _u(19)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_LSB    _u(19)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_BITS   _u(0x00040000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_MSB    _u(18)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_LSB    _u(18)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP9_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_BITS   _u(0x00020000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_MSB    _u(17)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_LSB    _u(17)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_BITS   _u(0x00010000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_MSB    _u(16)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_LSB    _u(16)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP8_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_BITS   _u(0x00008000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_MSB    _u(15)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_LSB    _u(15)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_BITS   _u(0x00004000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_MSB    _u(14)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_LSB    _u(14)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP7_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_BITS   _u(0x00002000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_MSB    _u(13)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_LSB    _u(13)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_BITS   _u(0x00001000)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_MSB    _u(12)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_LSB    _u(12)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP6_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_BITS   _u(0x00000800)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_MSB    _u(11)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_LSB    _u(11)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_BITS   _u(0x00000400)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_MSB    _u(10)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_LSB    _u(10)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP5_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_BITS   _u(0x00000200)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_MSB    _u(9)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_LSB    _u(9)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_BITS   _u(0x00000100)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_MSB    _u(8)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_LSB    _u(8)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP4_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_BITS   _u(0x00000080)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_MSB    _u(7)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_LSB    _u(7)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_BITS   _u(0x00000040)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_MSB    _u(6)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_LSB    _u(6)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP3_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_BITS   _u(0x00000020)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_MSB    _u(5)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_LSB    _u(5)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_BITS   _u(0x00000010)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_MSB    _u(4)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_LSB    _u(4)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP2_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_BITS   _u(0x00000008)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_MSB    _u(3)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_LSB    _u(3)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_BITS   _u(0x00000004)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_MSB    _u(2)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_LSB    _u(2)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP1_IN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_BITS   _u(0x00000002)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_MSB    _u(1)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_LSB    _u(1)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_OUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_RESET  _u(0x0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_BITS   _u(0x00000001)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_MSB    _u(0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_LSB    _u(0)
+#define USB_BUFF_CPU_SHOULD_HANDLE_EP0_IN_ACCESS "RO"
+// =============================================================================
+// Register    : USB_EP_ABORT
+// Description : Device only: Can be set to ignore the buffer control register
+//               for this endpoint in case you would like to revoke a buffer. A
+//               NAK will be sent for every access to the endpoint until this
+//               bit is cleared. A corresponding bit in `EP_ABORT_DONE` is set
+//               when it is safe to modify the buffer control register.
+#define USB_EP_ABORT_OFFSET _u(0x00000060)
+#define USB_EP_ABORT_BITS   _u(0xffffffff)
+#define USB_EP_ABORT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP15_OUT
+#define USB_EP_ABORT_EP15_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP15_OUT_BITS   _u(0x80000000)
+#define USB_EP_ABORT_EP15_OUT_MSB    _u(31)
+#define USB_EP_ABORT_EP15_OUT_LSB    _u(31)
+#define USB_EP_ABORT_EP15_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP15_IN
+#define USB_EP_ABORT_EP15_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP15_IN_BITS   _u(0x40000000)
+#define USB_EP_ABORT_EP15_IN_MSB    _u(30)
+#define USB_EP_ABORT_EP15_IN_LSB    _u(30)
+#define USB_EP_ABORT_EP15_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP14_OUT
+#define USB_EP_ABORT_EP14_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP14_OUT_BITS   _u(0x20000000)
+#define USB_EP_ABORT_EP14_OUT_MSB    _u(29)
+#define USB_EP_ABORT_EP14_OUT_LSB    _u(29)
+#define USB_EP_ABORT_EP14_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP14_IN
+#define USB_EP_ABORT_EP14_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP14_IN_BITS   _u(0x10000000)
+#define USB_EP_ABORT_EP14_IN_MSB    _u(28)
+#define USB_EP_ABORT_EP14_IN_LSB    _u(28)
+#define USB_EP_ABORT_EP14_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP13_OUT
+#define USB_EP_ABORT_EP13_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP13_OUT_BITS   _u(0x08000000)
+#define USB_EP_ABORT_EP13_OUT_MSB    _u(27)
+#define USB_EP_ABORT_EP13_OUT_LSB    _u(27)
+#define USB_EP_ABORT_EP13_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP13_IN
+#define USB_EP_ABORT_EP13_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP13_IN_BITS   _u(0x04000000)
+#define USB_EP_ABORT_EP13_IN_MSB    _u(26)
+#define USB_EP_ABORT_EP13_IN_LSB    _u(26)
+#define USB_EP_ABORT_EP13_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP12_OUT
+#define USB_EP_ABORT_EP12_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP12_OUT_BITS   _u(0x02000000)
+#define USB_EP_ABORT_EP12_OUT_MSB    _u(25)
+#define USB_EP_ABORT_EP12_OUT_LSB    _u(25)
+#define USB_EP_ABORT_EP12_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP12_IN
+#define USB_EP_ABORT_EP12_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP12_IN_BITS   _u(0x01000000)
+#define USB_EP_ABORT_EP12_IN_MSB    _u(24)
+#define USB_EP_ABORT_EP12_IN_LSB    _u(24)
+#define USB_EP_ABORT_EP12_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP11_OUT
+#define USB_EP_ABORT_EP11_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP11_OUT_BITS   _u(0x00800000)
+#define USB_EP_ABORT_EP11_OUT_MSB    _u(23)
+#define USB_EP_ABORT_EP11_OUT_LSB    _u(23)
+#define USB_EP_ABORT_EP11_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP11_IN
+#define USB_EP_ABORT_EP11_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP11_IN_BITS   _u(0x00400000)
+#define USB_EP_ABORT_EP11_IN_MSB    _u(22)
+#define USB_EP_ABORT_EP11_IN_LSB    _u(22)
+#define USB_EP_ABORT_EP11_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP10_OUT
+#define USB_EP_ABORT_EP10_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP10_OUT_BITS   _u(0x00200000)
+#define USB_EP_ABORT_EP10_OUT_MSB    _u(21)
+#define USB_EP_ABORT_EP10_OUT_LSB    _u(21)
+#define USB_EP_ABORT_EP10_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP10_IN
+#define USB_EP_ABORT_EP10_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP10_IN_BITS   _u(0x00100000)
+#define USB_EP_ABORT_EP10_IN_MSB    _u(20)
+#define USB_EP_ABORT_EP10_IN_LSB    _u(20)
+#define USB_EP_ABORT_EP10_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP9_OUT
+#define USB_EP_ABORT_EP9_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP9_OUT_BITS   _u(0x00080000)
+#define USB_EP_ABORT_EP9_OUT_MSB    _u(19)
+#define USB_EP_ABORT_EP9_OUT_LSB    _u(19)
+#define USB_EP_ABORT_EP9_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP9_IN
+#define USB_EP_ABORT_EP9_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP9_IN_BITS   _u(0x00040000)
+#define USB_EP_ABORT_EP9_IN_MSB    _u(18)
+#define USB_EP_ABORT_EP9_IN_LSB    _u(18)
+#define USB_EP_ABORT_EP9_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP8_OUT
+#define USB_EP_ABORT_EP8_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP8_OUT_BITS   _u(0x00020000)
+#define USB_EP_ABORT_EP8_OUT_MSB    _u(17)
+#define USB_EP_ABORT_EP8_OUT_LSB    _u(17)
+#define USB_EP_ABORT_EP8_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP8_IN
+#define USB_EP_ABORT_EP8_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP8_IN_BITS   _u(0x00010000)
+#define USB_EP_ABORT_EP8_IN_MSB    _u(16)
+#define USB_EP_ABORT_EP8_IN_LSB    _u(16)
+#define USB_EP_ABORT_EP8_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP7_OUT
+#define USB_EP_ABORT_EP7_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP7_OUT_BITS   _u(0x00008000)
+#define USB_EP_ABORT_EP7_OUT_MSB    _u(15)
+#define USB_EP_ABORT_EP7_OUT_LSB    _u(15)
+#define USB_EP_ABORT_EP7_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP7_IN
+#define USB_EP_ABORT_EP7_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP7_IN_BITS   _u(0x00004000)
+#define USB_EP_ABORT_EP7_IN_MSB    _u(14)
+#define USB_EP_ABORT_EP7_IN_LSB    _u(14)
+#define USB_EP_ABORT_EP7_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP6_OUT
+#define USB_EP_ABORT_EP6_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP6_OUT_BITS   _u(0x00002000)
+#define USB_EP_ABORT_EP6_OUT_MSB    _u(13)
+#define USB_EP_ABORT_EP6_OUT_LSB    _u(13)
+#define USB_EP_ABORT_EP6_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP6_IN
+#define USB_EP_ABORT_EP6_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP6_IN_BITS   _u(0x00001000)
+#define USB_EP_ABORT_EP6_IN_MSB    _u(12)
+#define USB_EP_ABORT_EP6_IN_LSB    _u(12)
+#define USB_EP_ABORT_EP6_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP5_OUT
+#define USB_EP_ABORT_EP5_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP5_OUT_BITS   _u(0x00000800)
+#define USB_EP_ABORT_EP5_OUT_MSB    _u(11)
+#define USB_EP_ABORT_EP5_OUT_LSB    _u(11)
+#define USB_EP_ABORT_EP5_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP5_IN
+#define USB_EP_ABORT_EP5_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP5_IN_BITS   _u(0x00000400)
+#define USB_EP_ABORT_EP5_IN_MSB    _u(10)
+#define USB_EP_ABORT_EP5_IN_LSB    _u(10)
+#define USB_EP_ABORT_EP5_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP4_OUT
+#define USB_EP_ABORT_EP4_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP4_OUT_BITS   _u(0x00000200)
+#define USB_EP_ABORT_EP4_OUT_MSB    _u(9)
+#define USB_EP_ABORT_EP4_OUT_LSB    _u(9)
+#define USB_EP_ABORT_EP4_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP4_IN
+#define USB_EP_ABORT_EP4_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP4_IN_BITS   _u(0x00000100)
+#define USB_EP_ABORT_EP4_IN_MSB    _u(8)
+#define USB_EP_ABORT_EP4_IN_LSB    _u(8)
+#define USB_EP_ABORT_EP4_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP3_OUT
+#define USB_EP_ABORT_EP3_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP3_OUT_BITS   _u(0x00000080)
+#define USB_EP_ABORT_EP3_OUT_MSB    _u(7)
+#define USB_EP_ABORT_EP3_OUT_LSB    _u(7)
+#define USB_EP_ABORT_EP3_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP3_IN
+#define USB_EP_ABORT_EP3_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP3_IN_BITS   _u(0x00000040)
+#define USB_EP_ABORT_EP3_IN_MSB    _u(6)
+#define USB_EP_ABORT_EP3_IN_LSB    _u(6)
+#define USB_EP_ABORT_EP3_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP2_OUT
+#define USB_EP_ABORT_EP2_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP2_OUT_BITS   _u(0x00000020)
+#define USB_EP_ABORT_EP2_OUT_MSB    _u(5)
+#define USB_EP_ABORT_EP2_OUT_LSB    _u(5)
+#define USB_EP_ABORT_EP2_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP2_IN
+#define USB_EP_ABORT_EP2_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP2_IN_BITS   _u(0x00000010)
+#define USB_EP_ABORT_EP2_IN_MSB    _u(4)
+#define USB_EP_ABORT_EP2_IN_LSB    _u(4)
+#define USB_EP_ABORT_EP2_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP1_OUT
+#define USB_EP_ABORT_EP1_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP1_OUT_BITS   _u(0x00000008)
+#define USB_EP_ABORT_EP1_OUT_MSB    _u(3)
+#define USB_EP_ABORT_EP1_OUT_LSB    _u(3)
+#define USB_EP_ABORT_EP1_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP1_IN
+#define USB_EP_ABORT_EP1_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP1_IN_BITS   _u(0x00000004)
+#define USB_EP_ABORT_EP1_IN_MSB    _u(2)
+#define USB_EP_ABORT_EP1_IN_LSB    _u(2)
+#define USB_EP_ABORT_EP1_IN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP0_OUT
+#define USB_EP_ABORT_EP0_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_EP0_OUT_BITS   _u(0x00000002)
+#define USB_EP_ABORT_EP0_OUT_MSB    _u(1)
+#define USB_EP_ABORT_EP0_OUT_LSB    _u(1)
+#define USB_EP_ABORT_EP0_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_EP0_IN
+#define USB_EP_ABORT_EP0_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_EP0_IN_BITS   _u(0x00000001)
+#define USB_EP_ABORT_EP0_IN_MSB    _u(0)
+#define USB_EP_ABORT_EP0_IN_LSB    _u(0)
+#define USB_EP_ABORT_EP0_IN_ACCESS "RW"
+// =============================================================================
+// Register    : USB_EP_ABORT_DONE
+// Description : Device only: Used in conjunction with `EP_ABORT`. Set once an
+//               endpoint is idle so the programmer knows it is safe to modify
+//               the buffer control register.
+#define USB_EP_ABORT_DONE_OFFSET _u(0x00000064)
+#define USB_EP_ABORT_DONE_BITS   _u(0xffffffff)
+#define USB_EP_ABORT_DONE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP15_OUT
+#define USB_EP_ABORT_DONE_EP15_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP15_OUT_BITS   _u(0x80000000)
+#define USB_EP_ABORT_DONE_EP15_OUT_MSB    _u(31)
+#define USB_EP_ABORT_DONE_EP15_OUT_LSB    _u(31)
+#define USB_EP_ABORT_DONE_EP15_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP15_IN
+#define USB_EP_ABORT_DONE_EP15_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP15_IN_BITS   _u(0x40000000)
+#define USB_EP_ABORT_DONE_EP15_IN_MSB    _u(30)
+#define USB_EP_ABORT_DONE_EP15_IN_LSB    _u(30)
+#define USB_EP_ABORT_DONE_EP15_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP14_OUT
+#define USB_EP_ABORT_DONE_EP14_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP14_OUT_BITS   _u(0x20000000)
+#define USB_EP_ABORT_DONE_EP14_OUT_MSB    _u(29)
+#define USB_EP_ABORT_DONE_EP14_OUT_LSB    _u(29)
+#define USB_EP_ABORT_DONE_EP14_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP14_IN
+#define USB_EP_ABORT_DONE_EP14_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP14_IN_BITS   _u(0x10000000)
+#define USB_EP_ABORT_DONE_EP14_IN_MSB    _u(28)
+#define USB_EP_ABORT_DONE_EP14_IN_LSB    _u(28)
+#define USB_EP_ABORT_DONE_EP14_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP13_OUT
+#define USB_EP_ABORT_DONE_EP13_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP13_OUT_BITS   _u(0x08000000)
+#define USB_EP_ABORT_DONE_EP13_OUT_MSB    _u(27)
+#define USB_EP_ABORT_DONE_EP13_OUT_LSB    _u(27)
+#define USB_EP_ABORT_DONE_EP13_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP13_IN
+#define USB_EP_ABORT_DONE_EP13_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP13_IN_BITS   _u(0x04000000)
+#define USB_EP_ABORT_DONE_EP13_IN_MSB    _u(26)
+#define USB_EP_ABORT_DONE_EP13_IN_LSB    _u(26)
+#define USB_EP_ABORT_DONE_EP13_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP12_OUT
+#define USB_EP_ABORT_DONE_EP12_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP12_OUT_BITS   _u(0x02000000)
+#define USB_EP_ABORT_DONE_EP12_OUT_MSB    _u(25)
+#define USB_EP_ABORT_DONE_EP12_OUT_LSB    _u(25)
+#define USB_EP_ABORT_DONE_EP12_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP12_IN
+#define USB_EP_ABORT_DONE_EP12_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP12_IN_BITS   _u(0x01000000)
+#define USB_EP_ABORT_DONE_EP12_IN_MSB    _u(24)
+#define USB_EP_ABORT_DONE_EP12_IN_LSB    _u(24)
+#define USB_EP_ABORT_DONE_EP12_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP11_OUT
+#define USB_EP_ABORT_DONE_EP11_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP11_OUT_BITS   _u(0x00800000)
+#define USB_EP_ABORT_DONE_EP11_OUT_MSB    _u(23)
+#define USB_EP_ABORT_DONE_EP11_OUT_LSB    _u(23)
+#define USB_EP_ABORT_DONE_EP11_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP11_IN
+#define USB_EP_ABORT_DONE_EP11_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP11_IN_BITS   _u(0x00400000)
+#define USB_EP_ABORT_DONE_EP11_IN_MSB    _u(22)
+#define USB_EP_ABORT_DONE_EP11_IN_LSB    _u(22)
+#define USB_EP_ABORT_DONE_EP11_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP10_OUT
+#define USB_EP_ABORT_DONE_EP10_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP10_OUT_BITS   _u(0x00200000)
+#define USB_EP_ABORT_DONE_EP10_OUT_MSB    _u(21)
+#define USB_EP_ABORT_DONE_EP10_OUT_LSB    _u(21)
+#define USB_EP_ABORT_DONE_EP10_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP10_IN
+#define USB_EP_ABORT_DONE_EP10_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP10_IN_BITS   _u(0x00100000)
+#define USB_EP_ABORT_DONE_EP10_IN_MSB    _u(20)
+#define USB_EP_ABORT_DONE_EP10_IN_LSB    _u(20)
+#define USB_EP_ABORT_DONE_EP10_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP9_OUT
+#define USB_EP_ABORT_DONE_EP9_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP9_OUT_BITS   _u(0x00080000)
+#define USB_EP_ABORT_DONE_EP9_OUT_MSB    _u(19)
+#define USB_EP_ABORT_DONE_EP9_OUT_LSB    _u(19)
+#define USB_EP_ABORT_DONE_EP9_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP9_IN
+#define USB_EP_ABORT_DONE_EP9_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP9_IN_BITS   _u(0x00040000)
+#define USB_EP_ABORT_DONE_EP9_IN_MSB    _u(18)
+#define USB_EP_ABORT_DONE_EP9_IN_LSB    _u(18)
+#define USB_EP_ABORT_DONE_EP9_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP8_OUT
+#define USB_EP_ABORT_DONE_EP8_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP8_OUT_BITS   _u(0x00020000)
+#define USB_EP_ABORT_DONE_EP8_OUT_MSB    _u(17)
+#define USB_EP_ABORT_DONE_EP8_OUT_LSB    _u(17)
+#define USB_EP_ABORT_DONE_EP8_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP8_IN
+#define USB_EP_ABORT_DONE_EP8_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP8_IN_BITS   _u(0x00010000)
+#define USB_EP_ABORT_DONE_EP8_IN_MSB    _u(16)
+#define USB_EP_ABORT_DONE_EP8_IN_LSB    _u(16)
+#define USB_EP_ABORT_DONE_EP8_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP7_OUT
+#define USB_EP_ABORT_DONE_EP7_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP7_OUT_BITS   _u(0x00008000)
+#define USB_EP_ABORT_DONE_EP7_OUT_MSB    _u(15)
+#define USB_EP_ABORT_DONE_EP7_OUT_LSB    _u(15)
+#define USB_EP_ABORT_DONE_EP7_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP7_IN
+#define USB_EP_ABORT_DONE_EP7_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP7_IN_BITS   _u(0x00004000)
+#define USB_EP_ABORT_DONE_EP7_IN_MSB    _u(14)
+#define USB_EP_ABORT_DONE_EP7_IN_LSB    _u(14)
+#define USB_EP_ABORT_DONE_EP7_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP6_OUT
+#define USB_EP_ABORT_DONE_EP6_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP6_OUT_BITS   _u(0x00002000)
+#define USB_EP_ABORT_DONE_EP6_OUT_MSB    _u(13)
+#define USB_EP_ABORT_DONE_EP6_OUT_LSB    _u(13)
+#define USB_EP_ABORT_DONE_EP6_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP6_IN
+#define USB_EP_ABORT_DONE_EP6_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP6_IN_BITS   _u(0x00001000)
+#define USB_EP_ABORT_DONE_EP6_IN_MSB    _u(12)
+#define USB_EP_ABORT_DONE_EP6_IN_LSB    _u(12)
+#define USB_EP_ABORT_DONE_EP6_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP5_OUT
+#define USB_EP_ABORT_DONE_EP5_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP5_OUT_BITS   _u(0x00000800)
+#define USB_EP_ABORT_DONE_EP5_OUT_MSB    _u(11)
+#define USB_EP_ABORT_DONE_EP5_OUT_LSB    _u(11)
+#define USB_EP_ABORT_DONE_EP5_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP5_IN
+#define USB_EP_ABORT_DONE_EP5_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP5_IN_BITS   _u(0x00000400)
+#define USB_EP_ABORT_DONE_EP5_IN_MSB    _u(10)
+#define USB_EP_ABORT_DONE_EP5_IN_LSB    _u(10)
+#define USB_EP_ABORT_DONE_EP5_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP4_OUT
+#define USB_EP_ABORT_DONE_EP4_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP4_OUT_BITS   _u(0x00000200)
+#define USB_EP_ABORT_DONE_EP4_OUT_MSB    _u(9)
+#define USB_EP_ABORT_DONE_EP4_OUT_LSB    _u(9)
+#define USB_EP_ABORT_DONE_EP4_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP4_IN
+#define USB_EP_ABORT_DONE_EP4_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP4_IN_BITS   _u(0x00000100)
+#define USB_EP_ABORT_DONE_EP4_IN_MSB    _u(8)
+#define USB_EP_ABORT_DONE_EP4_IN_LSB    _u(8)
+#define USB_EP_ABORT_DONE_EP4_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP3_OUT
+#define USB_EP_ABORT_DONE_EP3_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP3_OUT_BITS   _u(0x00000080)
+#define USB_EP_ABORT_DONE_EP3_OUT_MSB    _u(7)
+#define USB_EP_ABORT_DONE_EP3_OUT_LSB    _u(7)
+#define USB_EP_ABORT_DONE_EP3_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP3_IN
+#define USB_EP_ABORT_DONE_EP3_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP3_IN_BITS   _u(0x00000040)
+#define USB_EP_ABORT_DONE_EP3_IN_MSB    _u(6)
+#define USB_EP_ABORT_DONE_EP3_IN_LSB    _u(6)
+#define USB_EP_ABORT_DONE_EP3_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP2_OUT
+#define USB_EP_ABORT_DONE_EP2_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP2_OUT_BITS   _u(0x00000020)
+#define USB_EP_ABORT_DONE_EP2_OUT_MSB    _u(5)
+#define USB_EP_ABORT_DONE_EP2_OUT_LSB    _u(5)
+#define USB_EP_ABORT_DONE_EP2_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP2_IN
+#define USB_EP_ABORT_DONE_EP2_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP2_IN_BITS   _u(0x00000010)
+#define USB_EP_ABORT_DONE_EP2_IN_MSB    _u(4)
+#define USB_EP_ABORT_DONE_EP2_IN_LSB    _u(4)
+#define USB_EP_ABORT_DONE_EP2_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP1_OUT
+#define USB_EP_ABORT_DONE_EP1_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP1_OUT_BITS   _u(0x00000008)
+#define USB_EP_ABORT_DONE_EP1_OUT_MSB    _u(3)
+#define USB_EP_ABORT_DONE_EP1_OUT_LSB    _u(3)
+#define USB_EP_ABORT_DONE_EP1_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP1_IN
+#define USB_EP_ABORT_DONE_EP1_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP1_IN_BITS   _u(0x00000004)
+#define USB_EP_ABORT_DONE_EP1_IN_MSB    _u(2)
+#define USB_EP_ABORT_DONE_EP1_IN_LSB    _u(2)
+#define USB_EP_ABORT_DONE_EP1_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP0_OUT
+#define USB_EP_ABORT_DONE_EP0_OUT_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP0_OUT_BITS   _u(0x00000002)
+#define USB_EP_ABORT_DONE_EP0_OUT_MSB    _u(1)
+#define USB_EP_ABORT_DONE_EP0_OUT_LSB    _u(1)
+#define USB_EP_ABORT_DONE_EP0_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_ABORT_DONE_EP0_IN
+#define USB_EP_ABORT_DONE_EP0_IN_RESET  _u(0x0)
+#define USB_EP_ABORT_DONE_EP0_IN_BITS   _u(0x00000001)
+#define USB_EP_ABORT_DONE_EP0_IN_MSB    _u(0)
+#define USB_EP_ABORT_DONE_EP0_IN_LSB    _u(0)
+#define USB_EP_ABORT_DONE_EP0_IN_ACCESS "WC"
+// =============================================================================
+// Register    : USB_EP_STALL_ARM
+// Description : Device: this bit must be set in conjunction with the `STALL`
+//               bit in the buffer control register to send a STALL on EP0. The
+//               device controller clears these bits when a SETUP packet is
+//               received because the USB spec requires that a STALL condition
+//               is cleared when a SETUP packet is received.
+#define USB_EP_STALL_ARM_OFFSET _u(0x00000068)
+#define USB_EP_STALL_ARM_BITS   _u(0x00000003)
+#define USB_EP_STALL_ARM_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STALL_ARM_EP0_OUT
+#define USB_EP_STALL_ARM_EP0_OUT_RESET  _u(0x0)
+#define USB_EP_STALL_ARM_EP0_OUT_BITS   _u(0x00000002)
+#define USB_EP_STALL_ARM_EP0_OUT_MSB    _u(1)
+#define USB_EP_STALL_ARM_EP0_OUT_LSB    _u(1)
+#define USB_EP_STALL_ARM_EP0_OUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STALL_ARM_EP0_IN
+#define USB_EP_STALL_ARM_EP0_IN_RESET  _u(0x0)
+#define USB_EP_STALL_ARM_EP0_IN_BITS   _u(0x00000001)
+#define USB_EP_STALL_ARM_EP0_IN_MSB    _u(0)
+#define USB_EP_STALL_ARM_EP0_IN_LSB    _u(0)
+#define USB_EP_STALL_ARM_EP0_IN_ACCESS "RW"
+// =============================================================================
+// Register    : USB_NAK_POLL
+// Description : Used by the host controller. Sets the wait time in microseconds
+//               before trying again if the device replies with a NAK.
+#define USB_NAK_POLL_OFFSET _u(0x0000006c)
+#define USB_NAK_POLL_BITS   _u(0xffffffff)
+#define USB_NAK_POLL_RESET  _u(0x00100010)
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_RETRY_COUNT_HI
+// Description : Bits 9:6 of nak_retry count
+#define USB_NAK_POLL_RETRY_COUNT_HI_RESET  _u(0x0)
+#define USB_NAK_POLL_RETRY_COUNT_HI_BITS   _u(0xf0000000)
+#define USB_NAK_POLL_RETRY_COUNT_HI_MSB    _u(31)
+#define USB_NAK_POLL_RETRY_COUNT_HI_LSB    _u(28)
+#define USB_NAK_POLL_RETRY_COUNT_HI_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_EPX_STOPPED_ON_NAK
+// Description : EPX polling has stopped because a nak was received
+#define USB_NAK_POLL_EPX_STOPPED_ON_NAK_RESET  _u(0x0)
+#define USB_NAK_POLL_EPX_STOPPED_ON_NAK_BITS   _u(0x08000000)
+#define USB_NAK_POLL_EPX_STOPPED_ON_NAK_MSB    _u(27)
+#define USB_NAK_POLL_EPX_STOPPED_ON_NAK_LSB    _u(27)
+#define USB_NAK_POLL_EPX_STOPPED_ON_NAK_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_STOP_EPX_ON_NAK
+// Description : Stop polling epx when a nak is received
+#define USB_NAK_POLL_STOP_EPX_ON_NAK_RESET  _u(0x0)
+#define USB_NAK_POLL_STOP_EPX_ON_NAK_BITS   _u(0x04000000)
+#define USB_NAK_POLL_STOP_EPX_ON_NAK_MSB    _u(26)
+#define USB_NAK_POLL_STOP_EPX_ON_NAK_LSB    _u(26)
+#define USB_NAK_POLL_STOP_EPX_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_DELAY_FS
+// Description : NAK polling interval for a full speed device
+#define USB_NAK_POLL_DELAY_FS_RESET  _u(0x010)
+#define USB_NAK_POLL_DELAY_FS_BITS   _u(0x03ff0000)
+#define USB_NAK_POLL_DELAY_FS_MSB    _u(25)
+#define USB_NAK_POLL_DELAY_FS_LSB    _u(16)
+#define USB_NAK_POLL_DELAY_FS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_RETRY_COUNT_LO
+// Description : Bits 5:0 of nak_retry_count
+#define USB_NAK_POLL_RETRY_COUNT_LO_RESET  _u(0x00)
+#define USB_NAK_POLL_RETRY_COUNT_LO_BITS   _u(0x0000fc00)
+#define USB_NAK_POLL_RETRY_COUNT_LO_MSB    _u(15)
+#define USB_NAK_POLL_RETRY_COUNT_LO_LSB    _u(10)
+#define USB_NAK_POLL_RETRY_COUNT_LO_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_NAK_POLL_DELAY_LS
+// Description : NAK polling interval for a low speed device
+#define USB_NAK_POLL_DELAY_LS_RESET  _u(0x010)
+#define USB_NAK_POLL_DELAY_LS_BITS   _u(0x000003ff)
+#define USB_NAK_POLL_DELAY_LS_MSB    _u(9)
+#define USB_NAK_POLL_DELAY_LS_LSB    _u(0)
+#define USB_NAK_POLL_DELAY_LS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_EP_STATUS_STALL_NAK
+// Description : Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL`
+//               bits are set. For EP0 this comes from `SIE_CTRL`. For all other
+//               endpoints it comes from the endpoint control register.
+#define USB_EP_STATUS_STALL_NAK_OFFSET _u(0x00000070)
+#define USB_EP_STATUS_STALL_NAK_BITS   _u(0xffffffff)
+#define USB_EP_STATUS_STALL_NAK_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP15_OUT
+#define USB_EP_STATUS_STALL_NAK_EP15_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP15_OUT_BITS   _u(0x80000000)
+#define USB_EP_STATUS_STALL_NAK_EP15_OUT_MSB    _u(31)
+#define USB_EP_STATUS_STALL_NAK_EP15_OUT_LSB    _u(31)
+#define USB_EP_STATUS_STALL_NAK_EP15_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP15_IN
+#define USB_EP_STATUS_STALL_NAK_EP15_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP15_IN_BITS   _u(0x40000000)
+#define USB_EP_STATUS_STALL_NAK_EP15_IN_MSB    _u(30)
+#define USB_EP_STATUS_STALL_NAK_EP15_IN_LSB    _u(30)
+#define USB_EP_STATUS_STALL_NAK_EP15_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP14_OUT
+#define USB_EP_STATUS_STALL_NAK_EP14_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP14_OUT_BITS   _u(0x20000000)
+#define USB_EP_STATUS_STALL_NAK_EP14_OUT_MSB    _u(29)
+#define USB_EP_STATUS_STALL_NAK_EP14_OUT_LSB    _u(29)
+#define USB_EP_STATUS_STALL_NAK_EP14_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP14_IN
+#define USB_EP_STATUS_STALL_NAK_EP14_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP14_IN_BITS   _u(0x10000000)
+#define USB_EP_STATUS_STALL_NAK_EP14_IN_MSB    _u(28)
+#define USB_EP_STATUS_STALL_NAK_EP14_IN_LSB    _u(28)
+#define USB_EP_STATUS_STALL_NAK_EP14_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP13_OUT
+#define USB_EP_STATUS_STALL_NAK_EP13_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP13_OUT_BITS   _u(0x08000000)
+#define USB_EP_STATUS_STALL_NAK_EP13_OUT_MSB    _u(27)
+#define USB_EP_STATUS_STALL_NAK_EP13_OUT_LSB    _u(27)
+#define USB_EP_STATUS_STALL_NAK_EP13_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP13_IN
+#define USB_EP_STATUS_STALL_NAK_EP13_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP13_IN_BITS   _u(0x04000000)
+#define USB_EP_STATUS_STALL_NAK_EP13_IN_MSB    _u(26)
+#define USB_EP_STATUS_STALL_NAK_EP13_IN_LSB    _u(26)
+#define USB_EP_STATUS_STALL_NAK_EP13_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP12_OUT
+#define USB_EP_STATUS_STALL_NAK_EP12_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP12_OUT_BITS   _u(0x02000000)
+#define USB_EP_STATUS_STALL_NAK_EP12_OUT_MSB    _u(25)
+#define USB_EP_STATUS_STALL_NAK_EP12_OUT_LSB    _u(25)
+#define USB_EP_STATUS_STALL_NAK_EP12_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP12_IN
+#define USB_EP_STATUS_STALL_NAK_EP12_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP12_IN_BITS   _u(0x01000000)
+#define USB_EP_STATUS_STALL_NAK_EP12_IN_MSB    _u(24)
+#define USB_EP_STATUS_STALL_NAK_EP12_IN_LSB    _u(24)
+#define USB_EP_STATUS_STALL_NAK_EP12_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP11_OUT
+#define USB_EP_STATUS_STALL_NAK_EP11_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP11_OUT_BITS   _u(0x00800000)
+#define USB_EP_STATUS_STALL_NAK_EP11_OUT_MSB    _u(23)
+#define USB_EP_STATUS_STALL_NAK_EP11_OUT_LSB    _u(23)
+#define USB_EP_STATUS_STALL_NAK_EP11_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP11_IN
+#define USB_EP_STATUS_STALL_NAK_EP11_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP11_IN_BITS   _u(0x00400000)
+#define USB_EP_STATUS_STALL_NAK_EP11_IN_MSB    _u(22)
+#define USB_EP_STATUS_STALL_NAK_EP11_IN_LSB    _u(22)
+#define USB_EP_STATUS_STALL_NAK_EP11_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP10_OUT
+#define USB_EP_STATUS_STALL_NAK_EP10_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP10_OUT_BITS   _u(0x00200000)
+#define USB_EP_STATUS_STALL_NAK_EP10_OUT_MSB    _u(21)
+#define USB_EP_STATUS_STALL_NAK_EP10_OUT_LSB    _u(21)
+#define USB_EP_STATUS_STALL_NAK_EP10_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP10_IN
+#define USB_EP_STATUS_STALL_NAK_EP10_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP10_IN_BITS   _u(0x00100000)
+#define USB_EP_STATUS_STALL_NAK_EP10_IN_MSB    _u(20)
+#define USB_EP_STATUS_STALL_NAK_EP10_IN_LSB    _u(20)
+#define USB_EP_STATUS_STALL_NAK_EP10_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP9_OUT
+#define USB_EP_STATUS_STALL_NAK_EP9_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP9_OUT_BITS   _u(0x00080000)
+#define USB_EP_STATUS_STALL_NAK_EP9_OUT_MSB    _u(19)
+#define USB_EP_STATUS_STALL_NAK_EP9_OUT_LSB    _u(19)
+#define USB_EP_STATUS_STALL_NAK_EP9_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP9_IN
+#define USB_EP_STATUS_STALL_NAK_EP9_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP9_IN_BITS   _u(0x00040000)
+#define USB_EP_STATUS_STALL_NAK_EP9_IN_MSB    _u(18)
+#define USB_EP_STATUS_STALL_NAK_EP9_IN_LSB    _u(18)
+#define USB_EP_STATUS_STALL_NAK_EP9_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP8_OUT
+#define USB_EP_STATUS_STALL_NAK_EP8_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP8_OUT_BITS   _u(0x00020000)
+#define USB_EP_STATUS_STALL_NAK_EP8_OUT_MSB    _u(17)
+#define USB_EP_STATUS_STALL_NAK_EP8_OUT_LSB    _u(17)
+#define USB_EP_STATUS_STALL_NAK_EP8_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP8_IN
+#define USB_EP_STATUS_STALL_NAK_EP8_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP8_IN_BITS   _u(0x00010000)
+#define USB_EP_STATUS_STALL_NAK_EP8_IN_MSB    _u(16)
+#define USB_EP_STATUS_STALL_NAK_EP8_IN_LSB    _u(16)
+#define USB_EP_STATUS_STALL_NAK_EP8_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP7_OUT
+#define USB_EP_STATUS_STALL_NAK_EP7_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP7_OUT_BITS   _u(0x00008000)
+#define USB_EP_STATUS_STALL_NAK_EP7_OUT_MSB    _u(15)
+#define USB_EP_STATUS_STALL_NAK_EP7_OUT_LSB    _u(15)
+#define USB_EP_STATUS_STALL_NAK_EP7_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP7_IN
+#define USB_EP_STATUS_STALL_NAK_EP7_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP7_IN_BITS   _u(0x00004000)
+#define USB_EP_STATUS_STALL_NAK_EP7_IN_MSB    _u(14)
+#define USB_EP_STATUS_STALL_NAK_EP7_IN_LSB    _u(14)
+#define USB_EP_STATUS_STALL_NAK_EP7_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP6_OUT
+#define USB_EP_STATUS_STALL_NAK_EP6_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP6_OUT_BITS   _u(0x00002000)
+#define USB_EP_STATUS_STALL_NAK_EP6_OUT_MSB    _u(13)
+#define USB_EP_STATUS_STALL_NAK_EP6_OUT_LSB    _u(13)
+#define USB_EP_STATUS_STALL_NAK_EP6_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP6_IN
+#define USB_EP_STATUS_STALL_NAK_EP6_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP6_IN_BITS   _u(0x00001000)
+#define USB_EP_STATUS_STALL_NAK_EP6_IN_MSB    _u(12)
+#define USB_EP_STATUS_STALL_NAK_EP6_IN_LSB    _u(12)
+#define USB_EP_STATUS_STALL_NAK_EP6_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP5_OUT
+#define USB_EP_STATUS_STALL_NAK_EP5_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP5_OUT_BITS   _u(0x00000800)
+#define USB_EP_STATUS_STALL_NAK_EP5_OUT_MSB    _u(11)
+#define USB_EP_STATUS_STALL_NAK_EP5_OUT_LSB    _u(11)
+#define USB_EP_STATUS_STALL_NAK_EP5_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP5_IN
+#define USB_EP_STATUS_STALL_NAK_EP5_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP5_IN_BITS   _u(0x00000400)
+#define USB_EP_STATUS_STALL_NAK_EP5_IN_MSB    _u(10)
+#define USB_EP_STATUS_STALL_NAK_EP5_IN_LSB    _u(10)
+#define USB_EP_STATUS_STALL_NAK_EP5_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP4_OUT
+#define USB_EP_STATUS_STALL_NAK_EP4_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP4_OUT_BITS   _u(0x00000200)
+#define USB_EP_STATUS_STALL_NAK_EP4_OUT_MSB    _u(9)
+#define USB_EP_STATUS_STALL_NAK_EP4_OUT_LSB    _u(9)
+#define USB_EP_STATUS_STALL_NAK_EP4_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP4_IN
+#define USB_EP_STATUS_STALL_NAK_EP4_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP4_IN_BITS   _u(0x00000100)
+#define USB_EP_STATUS_STALL_NAK_EP4_IN_MSB    _u(8)
+#define USB_EP_STATUS_STALL_NAK_EP4_IN_LSB    _u(8)
+#define USB_EP_STATUS_STALL_NAK_EP4_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP3_OUT
+#define USB_EP_STATUS_STALL_NAK_EP3_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP3_OUT_BITS   _u(0x00000080)
+#define USB_EP_STATUS_STALL_NAK_EP3_OUT_MSB    _u(7)
+#define USB_EP_STATUS_STALL_NAK_EP3_OUT_LSB    _u(7)
+#define USB_EP_STATUS_STALL_NAK_EP3_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP3_IN
+#define USB_EP_STATUS_STALL_NAK_EP3_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP3_IN_BITS   _u(0x00000040)
+#define USB_EP_STATUS_STALL_NAK_EP3_IN_MSB    _u(6)
+#define USB_EP_STATUS_STALL_NAK_EP3_IN_LSB    _u(6)
+#define USB_EP_STATUS_STALL_NAK_EP3_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP2_OUT
+#define USB_EP_STATUS_STALL_NAK_EP2_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP2_OUT_BITS   _u(0x00000020)
+#define USB_EP_STATUS_STALL_NAK_EP2_OUT_MSB    _u(5)
+#define USB_EP_STATUS_STALL_NAK_EP2_OUT_LSB    _u(5)
+#define USB_EP_STATUS_STALL_NAK_EP2_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP2_IN
+#define USB_EP_STATUS_STALL_NAK_EP2_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP2_IN_BITS   _u(0x00000010)
+#define USB_EP_STATUS_STALL_NAK_EP2_IN_MSB    _u(4)
+#define USB_EP_STATUS_STALL_NAK_EP2_IN_LSB    _u(4)
+#define USB_EP_STATUS_STALL_NAK_EP2_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP1_OUT
+#define USB_EP_STATUS_STALL_NAK_EP1_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP1_OUT_BITS   _u(0x00000008)
+#define USB_EP_STATUS_STALL_NAK_EP1_OUT_MSB    _u(3)
+#define USB_EP_STATUS_STALL_NAK_EP1_OUT_LSB    _u(3)
+#define USB_EP_STATUS_STALL_NAK_EP1_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP1_IN
+#define USB_EP_STATUS_STALL_NAK_EP1_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP1_IN_BITS   _u(0x00000004)
+#define USB_EP_STATUS_STALL_NAK_EP1_IN_MSB    _u(2)
+#define USB_EP_STATUS_STALL_NAK_EP1_IN_LSB    _u(2)
+#define USB_EP_STATUS_STALL_NAK_EP1_IN_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP0_OUT
+#define USB_EP_STATUS_STALL_NAK_EP0_OUT_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP0_OUT_BITS   _u(0x00000002)
+#define USB_EP_STATUS_STALL_NAK_EP0_OUT_MSB    _u(1)
+#define USB_EP_STATUS_STALL_NAK_EP0_OUT_LSB    _u(1)
+#define USB_EP_STATUS_STALL_NAK_EP0_OUT_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_STATUS_STALL_NAK_EP0_IN
+#define USB_EP_STATUS_STALL_NAK_EP0_IN_RESET  _u(0x0)
+#define USB_EP_STATUS_STALL_NAK_EP0_IN_BITS   _u(0x00000001)
+#define USB_EP_STATUS_STALL_NAK_EP0_IN_MSB    _u(0)
+#define USB_EP_STATUS_STALL_NAK_EP0_IN_LSB    _u(0)
+#define USB_EP_STATUS_STALL_NAK_EP0_IN_ACCESS "WC"
+// =============================================================================
+// Register    : USB_USB_MUXING
+// Description : Where to connect the USB controller. Should be to_phy by
+//               default.
+#define USB_USB_MUXING_OFFSET _u(0x00000074)
+#define USB_USB_MUXING_BITS   _u(0x8000001f)
+#define USB_USB_MUXING_RESET  _u(0x00000001)
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_SWAP_DPDM
+// Description : Swap the USB PHY DP and DM pins and all related controls and
+//               flip receive differential data. Can be used to switch USB DP/DP
+//               on the PCB.
+//               This is done at a low level so overrides all other controls.
+#define USB_USB_MUXING_SWAP_DPDM_RESET  _u(0x0)
+#define USB_USB_MUXING_SWAP_DPDM_BITS   _u(0x80000000)
+#define USB_USB_MUXING_SWAP_DPDM_MSB    _u(31)
+#define USB_USB_MUXING_SWAP_DPDM_LSB    _u(31)
+#define USB_USB_MUXING_SWAP_DPDM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_USBPHY_AS_GPIO
+// Description : Use the usb DP and DM pins as GPIO pins instead of connecting
+//               them to the USB controller.
+#define USB_USB_MUXING_USBPHY_AS_GPIO_RESET  _u(0x0)
+#define USB_USB_MUXING_USBPHY_AS_GPIO_BITS   _u(0x00000010)
+#define USB_USB_MUXING_USBPHY_AS_GPIO_MSB    _u(4)
+#define USB_USB_MUXING_USBPHY_AS_GPIO_LSB    _u(4)
+#define USB_USB_MUXING_USBPHY_AS_GPIO_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_SOFTCON
+#define USB_USB_MUXING_SOFTCON_RESET  _u(0x0)
+#define USB_USB_MUXING_SOFTCON_BITS   _u(0x00000008)
+#define USB_USB_MUXING_SOFTCON_MSB    _u(3)
+#define USB_USB_MUXING_SOFTCON_LSB    _u(3)
+#define USB_USB_MUXING_SOFTCON_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_TO_DIGITAL_PAD
+#define USB_USB_MUXING_TO_DIGITAL_PAD_RESET  _u(0x0)
+#define USB_USB_MUXING_TO_DIGITAL_PAD_BITS   _u(0x00000004)
+#define USB_USB_MUXING_TO_DIGITAL_PAD_MSB    _u(2)
+#define USB_USB_MUXING_TO_DIGITAL_PAD_LSB    _u(2)
+#define USB_USB_MUXING_TO_DIGITAL_PAD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_TO_EXTPHY
+#define USB_USB_MUXING_TO_EXTPHY_RESET  _u(0x0)
+#define USB_USB_MUXING_TO_EXTPHY_BITS   _u(0x00000002)
+#define USB_USB_MUXING_TO_EXTPHY_MSB    _u(1)
+#define USB_USB_MUXING_TO_EXTPHY_LSB    _u(1)
+#define USB_USB_MUXING_TO_EXTPHY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_MUXING_TO_PHY
+#define USB_USB_MUXING_TO_PHY_RESET  _u(0x1)
+#define USB_USB_MUXING_TO_PHY_BITS   _u(0x00000001)
+#define USB_USB_MUXING_TO_PHY_MSB    _u(0)
+#define USB_USB_MUXING_TO_PHY_LSB    _u(0)
+#define USB_USB_MUXING_TO_PHY_ACCESS "RW"
+// =============================================================================
+// Register    : USB_USB_PWR
+// Description : Overrides for the power signals in the event that the VBUS
+//               signals are not hooked up to GPIO. Set the value of the
+//               override and then the override enable to switch over to the
+//               override value.
+#define USB_USB_PWR_OFFSET _u(0x00000078)
+#define USB_USB_PWR_BITS   _u(0x0000003f)
+#define USB_USB_PWR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_OVERCURR_DETECT_EN
+#define USB_USB_PWR_OVERCURR_DETECT_EN_RESET  _u(0x0)
+#define USB_USB_PWR_OVERCURR_DETECT_EN_BITS   _u(0x00000020)
+#define USB_USB_PWR_OVERCURR_DETECT_EN_MSB    _u(5)
+#define USB_USB_PWR_OVERCURR_DETECT_EN_LSB    _u(5)
+#define USB_USB_PWR_OVERCURR_DETECT_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_OVERCURR_DETECT
+#define USB_USB_PWR_OVERCURR_DETECT_RESET  _u(0x0)
+#define USB_USB_PWR_OVERCURR_DETECT_BITS   _u(0x00000010)
+#define USB_USB_PWR_OVERCURR_DETECT_MSB    _u(4)
+#define USB_USB_PWR_OVERCURR_DETECT_LSB    _u(4)
+#define USB_USB_PWR_OVERCURR_DETECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN
+#define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_BITS   _u(0x00000008)
+#define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_MSB    _u(3)
+#define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_LSB    _u(3)
+#define USB_USB_PWR_VBUS_DETECT_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_VBUS_DETECT
+#define USB_USB_PWR_VBUS_DETECT_RESET  _u(0x0)
+#define USB_USB_PWR_VBUS_DETECT_BITS   _u(0x00000004)
+#define USB_USB_PWR_VBUS_DETECT_MSB    _u(2)
+#define USB_USB_PWR_VBUS_DETECT_LSB    _u(2)
+#define USB_USB_PWR_VBUS_DETECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_VBUS_EN_OVERRIDE_EN
+#define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_BITS   _u(0x00000002)
+#define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_MSB    _u(1)
+#define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_LSB    _u(1)
+#define USB_USB_PWR_VBUS_EN_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USB_PWR_VBUS_EN
+#define USB_USB_PWR_VBUS_EN_RESET  _u(0x0)
+#define USB_USB_PWR_VBUS_EN_BITS   _u(0x00000001)
+#define USB_USB_PWR_VBUS_EN_MSB    _u(0)
+#define USB_USB_PWR_VBUS_EN_LSB    _u(0)
+#define USB_USB_PWR_VBUS_EN_ACCESS "RW"
+// =============================================================================
+// Register    : USB_USBPHY_DIRECT
+// Description : This register allows for direct control of the USB phy. Use in
+//               conjunction with usbphy_direct_override register to enable each
+//               override bit.
+#define USB_USBPHY_DIRECT_OFFSET _u(0x0000007c)
+#define USB_USBPHY_DIRECT_BITS   _u(0x03ffff77)
+#define USB_USBPHY_DIRECT_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DM_OVERRIDE
+// Description : Override rx_dm value into controller
+#define USB_USBPHY_DIRECT_RX_DM_OVERRIDE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DM_OVERRIDE_BITS   _u(0x02000000)
+#define USB_USBPHY_DIRECT_RX_DM_OVERRIDE_MSB    _u(25)
+#define USB_USBPHY_DIRECT_RX_DM_OVERRIDE_LSB    _u(25)
+#define USB_USBPHY_DIRECT_RX_DM_OVERRIDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DP_OVERRIDE
+// Description : Override rx_dp value into controller
+#define USB_USBPHY_DIRECT_RX_DP_OVERRIDE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DP_OVERRIDE_BITS   _u(0x01000000)
+#define USB_USBPHY_DIRECT_RX_DP_OVERRIDE_MSB    _u(24)
+#define USB_USBPHY_DIRECT_RX_DP_OVERRIDE_LSB    _u(24)
+#define USB_USBPHY_DIRECT_RX_DP_OVERRIDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DD_OVERRIDE
+// Description : Override rx_dd value into controller
+#define USB_USBPHY_DIRECT_RX_DD_OVERRIDE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DD_OVERRIDE_BITS   _u(0x00800000)
+#define USB_USBPHY_DIRECT_RX_DD_OVERRIDE_MSB    _u(23)
+#define USB_USBPHY_DIRECT_RX_DD_OVERRIDE_LSB    _u(23)
+#define USB_USBPHY_DIRECT_RX_DD_OVERRIDE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DM_OVV
+// Description : DM over voltage
+#define USB_USBPHY_DIRECT_DM_OVV_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DM_OVV_BITS   _u(0x00400000)
+#define USB_USBPHY_DIRECT_DM_OVV_MSB    _u(22)
+#define USB_USBPHY_DIRECT_DM_OVV_LSB    _u(22)
+#define USB_USBPHY_DIRECT_DM_OVV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DP_OVV
+// Description : DP over voltage
+#define USB_USBPHY_DIRECT_DP_OVV_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DP_OVV_BITS   _u(0x00200000)
+#define USB_USBPHY_DIRECT_DP_OVV_MSB    _u(21)
+#define USB_USBPHY_DIRECT_DP_OVV_LSB    _u(21)
+#define USB_USBPHY_DIRECT_DP_OVV_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DM_OVCN
+// Description : DM overcurrent
+#define USB_USBPHY_DIRECT_DM_OVCN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DM_OVCN_BITS   _u(0x00100000)
+#define USB_USBPHY_DIRECT_DM_OVCN_MSB    _u(20)
+#define USB_USBPHY_DIRECT_DM_OVCN_LSB    _u(20)
+#define USB_USBPHY_DIRECT_DM_OVCN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DP_OVCN
+// Description : DP overcurrent
+#define USB_USBPHY_DIRECT_DP_OVCN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DP_OVCN_BITS   _u(0x00080000)
+#define USB_USBPHY_DIRECT_DP_OVCN_MSB    _u(19)
+#define USB_USBPHY_DIRECT_DP_OVCN_LSB    _u(19)
+#define USB_USBPHY_DIRECT_DP_OVCN_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DM
+// Description : DPM pin state
+#define USB_USBPHY_DIRECT_RX_DM_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DM_BITS   _u(0x00040000)
+#define USB_USBPHY_DIRECT_RX_DM_MSB    _u(18)
+#define USB_USBPHY_DIRECT_RX_DM_LSB    _u(18)
+#define USB_USBPHY_DIRECT_RX_DM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DP
+// Description : DPP pin state
+#define USB_USBPHY_DIRECT_RX_DP_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DP_BITS   _u(0x00020000)
+#define USB_USBPHY_DIRECT_RX_DP_MSB    _u(17)
+#define USB_USBPHY_DIRECT_RX_DP_LSB    _u(17)
+#define USB_USBPHY_DIRECT_RX_DP_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_DD
+// Description : Differential RX
+#define USB_USBPHY_DIRECT_RX_DD_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_DD_BITS   _u(0x00010000)
+#define USB_USBPHY_DIRECT_RX_DD_MSB    _u(16)
+#define USB_USBPHY_DIRECT_RX_DD_LSB    _u(16)
+#define USB_USBPHY_DIRECT_RX_DD_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_DIFFMODE
+// Description : TX_DIFFMODE=0: Single ended mode
+//               TX_DIFFMODE=1: Differential drive mode (TX_DM, TX_DM_OE
+//               ignored)
+#define USB_USBPHY_DIRECT_TX_DIFFMODE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_DIFFMODE_BITS   _u(0x00008000)
+#define USB_USBPHY_DIRECT_TX_DIFFMODE_MSB    _u(15)
+#define USB_USBPHY_DIRECT_TX_DIFFMODE_LSB    _u(15)
+#define USB_USBPHY_DIRECT_TX_DIFFMODE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_FSSLEW
+// Description : TX_FSSLEW=0: Low speed slew rate
+//               TX_FSSLEW=1: Full speed slew rate
+#define USB_USBPHY_DIRECT_TX_FSSLEW_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_FSSLEW_BITS   _u(0x00004000)
+#define USB_USBPHY_DIRECT_TX_FSSLEW_MSB    _u(14)
+#define USB_USBPHY_DIRECT_TX_FSSLEW_LSB    _u(14)
+#define USB_USBPHY_DIRECT_TX_FSSLEW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_PD
+// Description : TX power down override (if override enable is set). 1 = powered
+//               down.
+#define USB_USBPHY_DIRECT_TX_PD_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_PD_BITS   _u(0x00002000)
+#define USB_USBPHY_DIRECT_TX_PD_MSB    _u(13)
+#define USB_USBPHY_DIRECT_TX_PD_LSB    _u(13)
+#define USB_USBPHY_DIRECT_TX_PD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_RX_PD
+// Description : RX power down override (if override enable is set). 1 = powered
+//               down.
+#define USB_USBPHY_DIRECT_RX_PD_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_RX_PD_BITS   _u(0x00001000)
+#define USB_USBPHY_DIRECT_RX_PD_MSB    _u(12)
+#define USB_USBPHY_DIRECT_RX_PD_LSB    _u(12)
+#define USB_USBPHY_DIRECT_RX_PD_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_DM
+// Description : Output data. TX_DIFFMODE=1, Ignored
+//               TX_DIFFMODE=0, Drives DPM only. TX_DM_OE=1 to enable drive.
+//               DPM=TX_DM
+#define USB_USBPHY_DIRECT_TX_DM_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_DM_BITS   _u(0x00000800)
+#define USB_USBPHY_DIRECT_TX_DM_MSB    _u(11)
+#define USB_USBPHY_DIRECT_TX_DM_LSB    _u(11)
+#define USB_USBPHY_DIRECT_TX_DM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_DP
+// Description : Output data. If TX_DIFFMODE=1, Drives DPP/DPM diff pair.
+//               TX_DP_OE=1 to enable drive. DPP=TX_DP, DPM=~TX_DP
+//               If TX_DIFFMODE=0, Drives DPP only. TX_DP_OE=1 to enable drive.
+//               DPP=TX_DP
+#define USB_USBPHY_DIRECT_TX_DP_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_DP_BITS   _u(0x00000400)
+#define USB_USBPHY_DIRECT_TX_DP_MSB    _u(10)
+#define USB_USBPHY_DIRECT_TX_DP_LSB    _u(10)
+#define USB_USBPHY_DIRECT_TX_DP_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_DM_OE
+// Description : Output enable. If TX_DIFFMODE=1, Ignored.
+//               If TX_DIFFMODE=0, OE for DPM only. 0 - DPM in Hi-Z state; 1 -
+//               DPM driving
+#define USB_USBPHY_DIRECT_TX_DM_OE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_DM_OE_BITS   _u(0x00000200)
+#define USB_USBPHY_DIRECT_TX_DM_OE_MSB    _u(9)
+#define USB_USBPHY_DIRECT_TX_DM_OE_LSB    _u(9)
+#define USB_USBPHY_DIRECT_TX_DM_OE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_TX_DP_OE
+// Description : Output enable. If TX_DIFFMODE=1, OE for DPP/DPM diff pair. 0 -
+//               DPP/DPM in Hi-Z state; 1 - DPP/DPM driving
+//               If TX_DIFFMODE=0, OE for DPP only. 0 - DPP in Hi-Z state; 1 -
+//               DPP driving
+#define USB_USBPHY_DIRECT_TX_DP_OE_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_TX_DP_OE_BITS   _u(0x00000100)
+#define USB_USBPHY_DIRECT_TX_DP_OE_MSB    _u(8)
+#define USB_USBPHY_DIRECT_TX_DP_OE_LSB    _u(8)
+#define USB_USBPHY_DIRECT_TX_DP_OE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DM_PULLDN_EN
+// Description : DM pull down enable
+#define USB_USBPHY_DIRECT_DM_PULLDN_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DM_PULLDN_EN_BITS   _u(0x00000040)
+#define USB_USBPHY_DIRECT_DM_PULLDN_EN_MSB    _u(6)
+#define USB_USBPHY_DIRECT_DM_PULLDN_EN_LSB    _u(6)
+#define USB_USBPHY_DIRECT_DM_PULLDN_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DM_PULLUP_EN
+// Description : DM pull up enable
+#define USB_USBPHY_DIRECT_DM_PULLUP_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DM_PULLUP_EN_BITS   _u(0x00000020)
+#define USB_USBPHY_DIRECT_DM_PULLUP_EN_MSB    _u(5)
+#define USB_USBPHY_DIRECT_DM_PULLUP_EN_LSB    _u(5)
+#define USB_USBPHY_DIRECT_DM_PULLUP_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DM_PULLUP_HISEL
+// Description : Enable the second DM pull up resistor. 0 - Pull = Rpu2; 1 -
+//               Pull = Rpu1 + Rpu2
+#define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_BITS   _u(0x00000010)
+#define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_MSB    _u(4)
+#define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_LSB    _u(4)
+#define USB_USBPHY_DIRECT_DM_PULLUP_HISEL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DP_PULLDN_EN
+// Description : DP pull down enable
+#define USB_USBPHY_DIRECT_DP_PULLDN_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DP_PULLDN_EN_BITS   _u(0x00000004)
+#define USB_USBPHY_DIRECT_DP_PULLDN_EN_MSB    _u(2)
+#define USB_USBPHY_DIRECT_DP_PULLDN_EN_LSB    _u(2)
+#define USB_USBPHY_DIRECT_DP_PULLDN_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DP_PULLUP_EN
+// Description : DP pull up enable
+#define USB_USBPHY_DIRECT_DP_PULLUP_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DP_PULLUP_EN_BITS   _u(0x00000002)
+#define USB_USBPHY_DIRECT_DP_PULLUP_EN_MSB    _u(1)
+#define USB_USBPHY_DIRECT_DP_PULLUP_EN_LSB    _u(1)
+#define USB_USBPHY_DIRECT_DP_PULLUP_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_DP_PULLUP_HISEL
+// Description : Enable the second DP pull up resistor. 0 - Pull = Rpu2; 1 -
+//               Pull = Rpu1 + Rpu2
+#define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_BITS   _u(0x00000001)
+#define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_MSB    _u(0)
+#define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_LSB    _u(0)
+#define USB_USBPHY_DIRECT_DP_PULLUP_HISEL_ACCESS "RW"
+// =============================================================================
+// Register    : USB_USBPHY_DIRECT_OVERRIDE
+// Description : Override enable for each control in usbphy_direct
+#define USB_USBPHY_DIRECT_OVERRIDE_OFFSET _u(0x00000080)
+#define USB_USBPHY_DIRECT_OVERRIDE_BITS   _u(0x00079fff)
+#define USB_USBPHY_DIRECT_OVERRIDE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN_BITS   _u(0x00040000)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN_MSB    _u(18)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN_LSB    _u(18)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DM_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN_BITS   _u(0x00020000)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN_MSB    _u(17)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN_LSB    _u(17)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DP_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN_BITS   _u(0x00010000)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN_MSB    _u(16)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN_LSB    _u(16)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_DD_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_BITS   _u(0x00008000)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_MSB    _u(15)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_LSB    _u(15)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DIFFMODE_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_BITS   _u(0x00001000)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_MSB    _u(12)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_LSB    _u(12)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_BITS   _u(0x00000800)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_MSB    _u(11)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_LSB    _u(11)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_FSSLEW_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_BITS   _u(0x00000400)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_MSB    _u(10)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_LSB    _u(10)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_PD_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_BITS   _u(0x00000200)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_MSB    _u(9)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_LSB    _u(9)
+#define USB_USBPHY_DIRECT_OVERRIDE_RX_PD_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_BITS   _u(0x00000100)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_MSB    _u(8)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_LSB    _u(8)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_BITS   _u(0x00000080)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_MSB    _u(7)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_LSB    _u(7)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_BITS   _u(0x00000040)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_MSB    _u(6)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_LSB    _u(6)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DM_OE_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_BITS   _u(0x00000020)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_MSB    _u(5)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_LSB    _u(5)
+#define USB_USBPHY_DIRECT_OVERRIDE_TX_DP_OE_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_BITS   _u(0x00000010)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_MSB    _u(4)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_LSB    _u(4)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLDN_EN_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_BITS   _u(0x00000008)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_MSB    _u(3)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_LSB    _u(3)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLDN_EN_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_BITS   _u(0x00000004)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_MSB    _u(2)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_LSB    _u(2)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_EN_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_BITS   _u(0x00000002)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_MSB    _u(1)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_LSB    _u(1)
+#define USB_USBPHY_DIRECT_OVERRIDE_DM_PULLUP_HISEL_OVERRIDE_EN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_RESET  _u(0x0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_BITS   _u(0x00000001)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_MSB    _u(0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_LSB    _u(0)
+#define USB_USBPHY_DIRECT_OVERRIDE_DP_PULLUP_HISEL_OVERRIDE_EN_ACCESS "RW"
+// =============================================================================
+// Register    : USB_USBPHY_TRIM
+// Description : Used to adjust trim values of USB phy pull down resistors.
+#define USB_USBPHY_TRIM_OFFSET _u(0x00000084)
+#define USB_USBPHY_TRIM_BITS   _u(0x00001f1f)
+#define USB_USBPHY_TRIM_RESET  _u(0x00001f1f)
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_TRIM_DM_PULLDN_TRIM
+// Description : Value to drive to USB PHY
+//               DM pulldown resistor trim control
+//               Experimental data suggests that the reset value will work, but
+//               this register allows adjustment if required
+#define USB_USBPHY_TRIM_DM_PULLDN_TRIM_RESET  _u(0x1f)
+#define USB_USBPHY_TRIM_DM_PULLDN_TRIM_BITS   _u(0x00001f00)
+#define USB_USBPHY_TRIM_DM_PULLDN_TRIM_MSB    _u(12)
+#define USB_USBPHY_TRIM_DM_PULLDN_TRIM_LSB    _u(8)
+#define USB_USBPHY_TRIM_DM_PULLDN_TRIM_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_USBPHY_TRIM_DP_PULLDN_TRIM
+// Description : Value to drive to USB PHY
+//               DP pulldown resistor trim control
+//               Experimental data suggests that the reset value will work, but
+//               this register allows adjustment if required
+#define USB_USBPHY_TRIM_DP_PULLDN_TRIM_RESET  _u(0x1f)
+#define USB_USBPHY_TRIM_DP_PULLDN_TRIM_BITS   _u(0x0000001f)
+#define USB_USBPHY_TRIM_DP_PULLDN_TRIM_MSB    _u(4)
+#define USB_USBPHY_TRIM_DP_PULLDN_TRIM_LSB    _u(0)
+#define USB_USBPHY_TRIM_DP_PULLDN_TRIM_ACCESS "RW"
+// =============================================================================
+// Register    : USB_LINESTATE_TUNING
+// Description : Used for debug only.
+#define USB_LINESTATE_TUNING_OFFSET _u(0x00000088)
+#define USB_LINESTATE_TUNING_BITS   _u(0x00000fff)
+#define USB_LINESTATE_TUNING_RESET  _u(0x000000f8)
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_SPARE_FIX
+#define USB_LINESTATE_TUNING_SPARE_FIX_RESET  _u(0x0)
+#define USB_LINESTATE_TUNING_SPARE_FIX_BITS   _u(0x00000f00)
+#define USB_LINESTATE_TUNING_SPARE_FIX_MSB    _u(11)
+#define USB_LINESTATE_TUNING_SPARE_FIX_LSB    _u(8)
+#define USB_LINESTATE_TUNING_SPARE_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX
+// Description : Device - exit suspend on any non-idle signalling, not qualified
+//               with a 1ms timer
+#define USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX_RESET  _u(0x1)
+#define USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX_BITS   _u(0x00000080)
+#define USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX_MSB    _u(7)
+#define USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX_LSB    _u(7)
+#define USB_LINESTATE_TUNING_DEV_LS_WAKE_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE
+// Description : Device - suppress repeated errors until the device FSM is next
+//               in the process of decoding an inbound packet.
+#define USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE_RESET  _u(0x1)
+#define USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE_BITS   _u(0x00000040)
+#define USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE_MSB    _u(6)
+#define USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE_LSB    _u(6)
+#define USB_LINESTATE_TUNING_DEV_RX_ERR_QUIESCE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX
+// Description : RX - when recovering from line chatter or bitstuff errors,
+//               treat SE0 as the end of chatter as well as
+//               8 consecutive idle bits.
+#define USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX_RESET  _u(0x1)
+#define USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX_BITS   _u(0x00000020)
+#define USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX_MSB    _u(5)
+#define USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX_LSB    _u(5)
+#define USB_LINESTATE_TUNING_SIE_RX_CHATTER_SE0_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX
+// Description : RX - when a bitstuff error is signalled by rx_dasm,
+//               unconditionally terminate RX decode to
+//               avoid a hang during certain packet phases.
+#define USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX_RESET  _u(0x1)
+#define USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX_BITS   _u(0x00000010)
+#define USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX_MSB    _u(4)
+#define USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX_LSB    _u(4)
+#define USB_LINESTATE_TUNING_SIE_RX_BITSTUFF_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX
+// Description : Device - the controller FSM performs two reads of the buffer
+//               status memory address to
+//               avoid sampling metastable data. An enabled buffer is only used
+//               if both reads match.
+#define USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX_RESET  _u(0x1)
+#define USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX_BITS   _u(0x00000008)
+#define USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX_MSB    _u(3)
+#define USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX_LSB    _u(3)
+#define USB_LINESTATE_TUNING_DEV_BUFF_CONTROL_DOUBLE_READ_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_MULTI_HUB_FIX
+// Description : Host - increase inter-packet and turnaround timeouts to
+//               accommodate worst-case hub delays.
+#define USB_LINESTATE_TUNING_MULTI_HUB_FIX_RESET  _u(0x0)
+#define USB_LINESTATE_TUNING_MULTI_HUB_FIX_BITS   _u(0x00000004)
+#define USB_LINESTATE_TUNING_MULTI_HUB_FIX_MSB    _u(2)
+#define USB_LINESTATE_TUNING_MULTI_HUB_FIX_LSB    _u(2)
+#define USB_LINESTATE_TUNING_MULTI_HUB_FIX_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_LINESTATE_DELAY
+// Description : Device/Host - add an extra 1-bit debounce of linestate
+//               sampling.
+#define USB_LINESTATE_TUNING_LINESTATE_DELAY_RESET  _u(0x0)
+#define USB_LINESTATE_TUNING_LINESTATE_DELAY_BITS   _u(0x00000002)
+#define USB_LINESTATE_TUNING_LINESTATE_DELAY_MSB    _u(1)
+#define USB_LINESTATE_TUNING_LINESTATE_DELAY_LSB    _u(1)
+#define USB_LINESTATE_TUNING_LINESTATE_DELAY_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_LINESTATE_TUNING_RCV_DELAY
+// Description : Device - register the received data to account for hub bit
+//               dribble before EOP. Only affects certain hubs.
+#define USB_LINESTATE_TUNING_RCV_DELAY_RESET  _u(0x0)
+#define USB_LINESTATE_TUNING_RCV_DELAY_BITS   _u(0x00000001)
+#define USB_LINESTATE_TUNING_RCV_DELAY_MSB    _u(0)
+#define USB_LINESTATE_TUNING_RCV_DELAY_LSB    _u(0)
+#define USB_LINESTATE_TUNING_RCV_DELAY_ACCESS "RW"
+// =============================================================================
+// Register    : USB_INTR
+// Description : Raw Interrupts
+#define USB_INTR_OFFSET _u(0x0000008c)
+#define USB_INTR_BITS   _u(0x00ffffff)
+#define USB_INTR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_EPX_STOPPED_ON_NAK
+// Description : Source: NAK_POLL.EPX_STOPPED_ON_NAK
+#define USB_INTR_EPX_STOPPED_ON_NAK_RESET  _u(0x0)
+#define USB_INTR_EPX_STOPPED_ON_NAK_BITS   _u(0x00800000)
+#define USB_INTR_EPX_STOPPED_ON_NAK_MSB    _u(23)
+#define USB_INTR_EPX_STOPPED_ON_NAK_LSB    _u(23)
+#define USB_INTR_EPX_STOPPED_ON_NAK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_DEV_SM_WATCHDOG_FIRED
+// Description : Source: DEV_SM_WATCHDOG.FIRED
+#define USB_INTR_DEV_SM_WATCHDOG_FIRED_RESET  _u(0x0)
+#define USB_INTR_DEV_SM_WATCHDOG_FIRED_BITS   _u(0x00400000)
+#define USB_INTR_DEV_SM_WATCHDOG_FIRED_MSB    _u(22)
+#define USB_INTR_DEV_SM_WATCHDOG_FIRED_LSB    _u(22)
+#define USB_INTR_DEV_SM_WATCHDOG_FIRED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ENDPOINT_ERROR
+// Description : Source: SIE_STATUS.ENDPOINT_ERROR
+#define USB_INTR_ENDPOINT_ERROR_RESET  _u(0x0)
+#define USB_INTR_ENDPOINT_ERROR_BITS   _u(0x00200000)
+#define USB_INTR_ENDPOINT_ERROR_MSB    _u(21)
+#define USB_INTR_ENDPOINT_ERROR_LSB    _u(21)
+#define USB_INTR_ENDPOINT_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_RX_SHORT_PACKET
+// Description : Source: SIE_STATUS.RX_SHORT_PACKET
+#define USB_INTR_RX_SHORT_PACKET_RESET  _u(0x0)
+#define USB_INTR_RX_SHORT_PACKET_BITS   _u(0x00100000)
+#define USB_INTR_RX_SHORT_PACKET_MSB    _u(20)
+#define USB_INTR_RX_SHORT_PACKET_LSB    _u(20)
+#define USB_INTR_RX_SHORT_PACKET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_EP_STALL_NAK
+// Description : Raised when any bit in EP_STATUS_STALL_NAK is set. Clear by
+//               clearing all bits in EP_STATUS_STALL_NAK.
+#define USB_INTR_EP_STALL_NAK_RESET  _u(0x0)
+#define USB_INTR_EP_STALL_NAK_BITS   _u(0x00080000)
+#define USB_INTR_EP_STALL_NAK_MSB    _u(19)
+#define USB_INTR_EP_STALL_NAK_LSB    _u(19)
+#define USB_INTR_EP_STALL_NAK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ABORT_DONE
+// Description : Raised when any bit in ABORT_DONE is set. Clear by clearing all
+//               bits in ABORT_DONE.
+#define USB_INTR_ABORT_DONE_RESET  _u(0x0)
+#define USB_INTR_ABORT_DONE_BITS   _u(0x00040000)
+#define USB_INTR_ABORT_DONE_MSB    _u(18)
+#define USB_INTR_ABORT_DONE_LSB    _u(18)
+#define USB_INTR_ABORT_DONE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_DEV_SOF
+// Description : Set every time the device receives a SOF (Start of Frame)
+//               packet. Cleared by reading SOF_RD
+#define USB_INTR_DEV_SOF_RESET  _u(0x0)
+#define USB_INTR_DEV_SOF_BITS   _u(0x00020000)
+#define USB_INTR_DEV_SOF_MSB    _u(17)
+#define USB_INTR_DEV_SOF_LSB    _u(17)
+#define USB_INTR_DEV_SOF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_SETUP_REQ
+// Description : Device. Source: SIE_STATUS.SETUP_REC
+#define USB_INTR_SETUP_REQ_RESET  _u(0x0)
+#define USB_INTR_SETUP_REQ_BITS   _u(0x00010000)
+#define USB_INTR_SETUP_REQ_MSB    _u(16)
+#define USB_INTR_SETUP_REQ_LSB    _u(16)
+#define USB_INTR_SETUP_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_DEV_RESUME_FROM_HOST
+// Description : Set when the device receives a resume from the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTR_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
+#define USB_INTR_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
+#define USB_INTR_DEV_RESUME_FROM_HOST_MSB    _u(15)
+#define USB_INTR_DEV_RESUME_FROM_HOST_LSB    _u(15)
+#define USB_INTR_DEV_RESUME_FROM_HOST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_DEV_SUSPEND
+// Description : Set when the device suspend state changes. Cleared by writing
+//               to SIE_STATUS.SUSPENDED
+#define USB_INTR_DEV_SUSPEND_RESET  _u(0x0)
+#define USB_INTR_DEV_SUSPEND_BITS   _u(0x00004000)
+#define USB_INTR_DEV_SUSPEND_MSB    _u(14)
+#define USB_INTR_DEV_SUSPEND_LSB    _u(14)
+#define USB_INTR_DEV_SUSPEND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_DEV_CONN_DIS
+// Description : Set when the device connection state changes. Cleared by
+//               writing to SIE_STATUS.CONNECTED
+#define USB_INTR_DEV_CONN_DIS_RESET  _u(0x0)
+#define USB_INTR_DEV_CONN_DIS_BITS   _u(0x00002000)
+#define USB_INTR_DEV_CONN_DIS_MSB    _u(13)
+#define USB_INTR_DEV_CONN_DIS_LSB    _u(13)
+#define USB_INTR_DEV_CONN_DIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_BUS_RESET
+// Description : Source: SIE_STATUS.BUS_RESET
+#define USB_INTR_BUS_RESET_RESET  _u(0x0)
+#define USB_INTR_BUS_RESET_BITS   _u(0x00001000)
+#define USB_INTR_BUS_RESET_MSB    _u(12)
+#define USB_INTR_BUS_RESET_LSB    _u(12)
+#define USB_INTR_BUS_RESET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_VBUS_DETECT
+// Description : Source: SIE_STATUS.VBUS_DETECTED
+#define USB_INTR_VBUS_DETECT_RESET  _u(0x0)
+#define USB_INTR_VBUS_DETECT_BITS   _u(0x00000800)
+#define USB_INTR_VBUS_DETECT_MSB    _u(11)
+#define USB_INTR_VBUS_DETECT_LSB    _u(11)
+#define USB_INTR_VBUS_DETECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_STALL
+// Description : Source: SIE_STATUS.STALL_REC
+#define USB_INTR_STALL_RESET  _u(0x0)
+#define USB_INTR_STALL_BITS   _u(0x00000400)
+#define USB_INTR_STALL_MSB    _u(10)
+#define USB_INTR_STALL_LSB    _u(10)
+#define USB_INTR_STALL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ERROR_CRC
+// Description : Source: SIE_STATUS.CRC_ERROR
+#define USB_INTR_ERROR_CRC_RESET  _u(0x0)
+#define USB_INTR_ERROR_CRC_BITS   _u(0x00000200)
+#define USB_INTR_ERROR_CRC_MSB    _u(9)
+#define USB_INTR_ERROR_CRC_LSB    _u(9)
+#define USB_INTR_ERROR_CRC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ERROR_BIT_STUFF
+// Description : Source: SIE_STATUS.BIT_STUFF_ERROR
+#define USB_INTR_ERROR_BIT_STUFF_RESET  _u(0x0)
+#define USB_INTR_ERROR_BIT_STUFF_BITS   _u(0x00000100)
+#define USB_INTR_ERROR_BIT_STUFF_MSB    _u(8)
+#define USB_INTR_ERROR_BIT_STUFF_LSB    _u(8)
+#define USB_INTR_ERROR_BIT_STUFF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ERROR_RX_OVERFLOW
+// Description : Source: SIE_STATUS.RX_OVERFLOW
+#define USB_INTR_ERROR_RX_OVERFLOW_RESET  _u(0x0)
+#define USB_INTR_ERROR_RX_OVERFLOW_BITS   _u(0x00000080)
+#define USB_INTR_ERROR_RX_OVERFLOW_MSB    _u(7)
+#define USB_INTR_ERROR_RX_OVERFLOW_LSB    _u(7)
+#define USB_INTR_ERROR_RX_OVERFLOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ERROR_RX_TIMEOUT
+// Description : Source: SIE_STATUS.RX_TIMEOUT
+#define USB_INTR_ERROR_RX_TIMEOUT_RESET  _u(0x0)
+#define USB_INTR_ERROR_RX_TIMEOUT_BITS   _u(0x00000040)
+#define USB_INTR_ERROR_RX_TIMEOUT_MSB    _u(6)
+#define USB_INTR_ERROR_RX_TIMEOUT_LSB    _u(6)
+#define USB_INTR_ERROR_RX_TIMEOUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_ERROR_DATA_SEQ
+// Description : Source: SIE_STATUS.DATA_SEQ_ERROR
+#define USB_INTR_ERROR_DATA_SEQ_RESET  _u(0x0)
+#define USB_INTR_ERROR_DATA_SEQ_BITS   _u(0x00000020)
+#define USB_INTR_ERROR_DATA_SEQ_MSB    _u(5)
+#define USB_INTR_ERROR_DATA_SEQ_LSB    _u(5)
+#define USB_INTR_ERROR_DATA_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_BUFF_STATUS
+// Description : Raised when any bit in BUFF_STATUS is set. Clear by clearing
+//               all bits in BUFF_STATUS.
+#define USB_INTR_BUFF_STATUS_RESET  _u(0x0)
+#define USB_INTR_BUFF_STATUS_BITS   _u(0x00000010)
+#define USB_INTR_BUFF_STATUS_MSB    _u(4)
+#define USB_INTR_BUFF_STATUS_LSB    _u(4)
+#define USB_INTR_BUFF_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_TRANS_COMPLETE
+// Description : Raised every time SIE_STATUS.TRANS_COMPLETE is set. Clear by
+//               writing to this bit.
+#define USB_INTR_TRANS_COMPLETE_RESET  _u(0x0)
+#define USB_INTR_TRANS_COMPLETE_BITS   _u(0x00000008)
+#define USB_INTR_TRANS_COMPLETE_MSB    _u(3)
+#define USB_INTR_TRANS_COMPLETE_LSB    _u(3)
+#define USB_INTR_TRANS_COMPLETE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_HOST_SOF
+// Description : Host: raised every time the host sends a SOF (Start of Frame).
+//               Cleared by reading SOF_RD
+#define USB_INTR_HOST_SOF_RESET  _u(0x0)
+#define USB_INTR_HOST_SOF_BITS   _u(0x00000004)
+#define USB_INTR_HOST_SOF_MSB    _u(2)
+#define USB_INTR_HOST_SOF_LSB    _u(2)
+#define USB_INTR_HOST_SOF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_HOST_RESUME
+// Description : Host: raised when a device wakes up the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTR_HOST_RESUME_RESET  _u(0x0)
+#define USB_INTR_HOST_RESUME_BITS   _u(0x00000002)
+#define USB_INTR_HOST_RESUME_MSB    _u(1)
+#define USB_INTR_HOST_RESUME_LSB    _u(1)
+#define USB_INTR_HOST_RESUME_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTR_HOST_CONN_DIS
+// Description : Host: raised when a device is connected or disconnected (i.e.
+//               when SIE_STATUS.SPEED changes). Cleared by writing to
+//               SIE_STATUS.SPEED
+#define USB_INTR_HOST_CONN_DIS_RESET  _u(0x0)
+#define USB_INTR_HOST_CONN_DIS_BITS   _u(0x00000001)
+#define USB_INTR_HOST_CONN_DIS_MSB    _u(0)
+#define USB_INTR_HOST_CONN_DIS_LSB    _u(0)
+#define USB_INTR_HOST_CONN_DIS_ACCESS "RO"
+// =============================================================================
+// Register    : USB_INTE
+// Description : Interrupt Enable
+#define USB_INTE_OFFSET _u(0x00000090)
+#define USB_INTE_BITS   _u(0x00ffffff)
+#define USB_INTE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_EPX_STOPPED_ON_NAK
+// Description : Source: NAK_POLL.EPX_STOPPED_ON_NAK
+#define USB_INTE_EPX_STOPPED_ON_NAK_RESET  _u(0x0)
+#define USB_INTE_EPX_STOPPED_ON_NAK_BITS   _u(0x00800000)
+#define USB_INTE_EPX_STOPPED_ON_NAK_MSB    _u(23)
+#define USB_INTE_EPX_STOPPED_ON_NAK_LSB    _u(23)
+#define USB_INTE_EPX_STOPPED_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_DEV_SM_WATCHDOG_FIRED
+// Description : Source: DEV_SM_WATCHDOG.FIRED
+#define USB_INTE_DEV_SM_WATCHDOG_FIRED_RESET  _u(0x0)
+#define USB_INTE_DEV_SM_WATCHDOG_FIRED_BITS   _u(0x00400000)
+#define USB_INTE_DEV_SM_WATCHDOG_FIRED_MSB    _u(22)
+#define USB_INTE_DEV_SM_WATCHDOG_FIRED_LSB    _u(22)
+#define USB_INTE_DEV_SM_WATCHDOG_FIRED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ENDPOINT_ERROR
+// Description : Source: SIE_STATUS.ENDPOINT_ERROR
+#define USB_INTE_ENDPOINT_ERROR_RESET  _u(0x0)
+#define USB_INTE_ENDPOINT_ERROR_BITS   _u(0x00200000)
+#define USB_INTE_ENDPOINT_ERROR_MSB    _u(21)
+#define USB_INTE_ENDPOINT_ERROR_LSB    _u(21)
+#define USB_INTE_ENDPOINT_ERROR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_RX_SHORT_PACKET
+// Description : Source: SIE_STATUS.RX_SHORT_PACKET
+#define USB_INTE_RX_SHORT_PACKET_RESET  _u(0x0)
+#define USB_INTE_RX_SHORT_PACKET_BITS   _u(0x00100000)
+#define USB_INTE_RX_SHORT_PACKET_MSB    _u(20)
+#define USB_INTE_RX_SHORT_PACKET_LSB    _u(20)
+#define USB_INTE_RX_SHORT_PACKET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_EP_STALL_NAK
+// Description : Raised when any bit in EP_STATUS_STALL_NAK is set. Clear by
+//               clearing all bits in EP_STATUS_STALL_NAK.
+#define USB_INTE_EP_STALL_NAK_RESET  _u(0x0)
+#define USB_INTE_EP_STALL_NAK_BITS   _u(0x00080000)
+#define USB_INTE_EP_STALL_NAK_MSB    _u(19)
+#define USB_INTE_EP_STALL_NAK_LSB    _u(19)
+#define USB_INTE_EP_STALL_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ABORT_DONE
+// Description : Raised when any bit in ABORT_DONE is set. Clear by clearing all
+//               bits in ABORT_DONE.
+#define USB_INTE_ABORT_DONE_RESET  _u(0x0)
+#define USB_INTE_ABORT_DONE_BITS   _u(0x00040000)
+#define USB_INTE_ABORT_DONE_MSB    _u(18)
+#define USB_INTE_ABORT_DONE_LSB    _u(18)
+#define USB_INTE_ABORT_DONE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_DEV_SOF
+// Description : Set every time the device receives a SOF (Start of Frame)
+//               packet. Cleared by reading SOF_RD
+#define USB_INTE_DEV_SOF_RESET  _u(0x0)
+#define USB_INTE_DEV_SOF_BITS   _u(0x00020000)
+#define USB_INTE_DEV_SOF_MSB    _u(17)
+#define USB_INTE_DEV_SOF_LSB    _u(17)
+#define USB_INTE_DEV_SOF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_SETUP_REQ
+// Description : Device. Source: SIE_STATUS.SETUP_REC
+#define USB_INTE_SETUP_REQ_RESET  _u(0x0)
+#define USB_INTE_SETUP_REQ_BITS   _u(0x00010000)
+#define USB_INTE_SETUP_REQ_MSB    _u(16)
+#define USB_INTE_SETUP_REQ_LSB    _u(16)
+#define USB_INTE_SETUP_REQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_DEV_RESUME_FROM_HOST
+// Description : Set when the device receives a resume from the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTE_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
+#define USB_INTE_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
+#define USB_INTE_DEV_RESUME_FROM_HOST_MSB    _u(15)
+#define USB_INTE_DEV_RESUME_FROM_HOST_LSB    _u(15)
+#define USB_INTE_DEV_RESUME_FROM_HOST_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_DEV_SUSPEND
+// Description : Set when the device suspend state changes. Cleared by writing
+//               to SIE_STATUS.SUSPENDED
+#define USB_INTE_DEV_SUSPEND_RESET  _u(0x0)
+#define USB_INTE_DEV_SUSPEND_BITS   _u(0x00004000)
+#define USB_INTE_DEV_SUSPEND_MSB    _u(14)
+#define USB_INTE_DEV_SUSPEND_LSB    _u(14)
+#define USB_INTE_DEV_SUSPEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_DEV_CONN_DIS
+// Description : Set when the device connection state changes. Cleared by
+//               writing to SIE_STATUS.CONNECTED
+#define USB_INTE_DEV_CONN_DIS_RESET  _u(0x0)
+#define USB_INTE_DEV_CONN_DIS_BITS   _u(0x00002000)
+#define USB_INTE_DEV_CONN_DIS_MSB    _u(13)
+#define USB_INTE_DEV_CONN_DIS_LSB    _u(13)
+#define USB_INTE_DEV_CONN_DIS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_BUS_RESET
+// Description : Source: SIE_STATUS.BUS_RESET
+#define USB_INTE_BUS_RESET_RESET  _u(0x0)
+#define USB_INTE_BUS_RESET_BITS   _u(0x00001000)
+#define USB_INTE_BUS_RESET_MSB    _u(12)
+#define USB_INTE_BUS_RESET_LSB    _u(12)
+#define USB_INTE_BUS_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_VBUS_DETECT
+// Description : Source: SIE_STATUS.VBUS_DETECTED
+#define USB_INTE_VBUS_DETECT_RESET  _u(0x0)
+#define USB_INTE_VBUS_DETECT_BITS   _u(0x00000800)
+#define USB_INTE_VBUS_DETECT_MSB    _u(11)
+#define USB_INTE_VBUS_DETECT_LSB    _u(11)
+#define USB_INTE_VBUS_DETECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_STALL
+// Description : Source: SIE_STATUS.STALL_REC
+#define USB_INTE_STALL_RESET  _u(0x0)
+#define USB_INTE_STALL_BITS   _u(0x00000400)
+#define USB_INTE_STALL_MSB    _u(10)
+#define USB_INTE_STALL_LSB    _u(10)
+#define USB_INTE_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ERROR_CRC
+// Description : Source: SIE_STATUS.CRC_ERROR
+#define USB_INTE_ERROR_CRC_RESET  _u(0x0)
+#define USB_INTE_ERROR_CRC_BITS   _u(0x00000200)
+#define USB_INTE_ERROR_CRC_MSB    _u(9)
+#define USB_INTE_ERROR_CRC_LSB    _u(9)
+#define USB_INTE_ERROR_CRC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ERROR_BIT_STUFF
+// Description : Source: SIE_STATUS.BIT_STUFF_ERROR
+#define USB_INTE_ERROR_BIT_STUFF_RESET  _u(0x0)
+#define USB_INTE_ERROR_BIT_STUFF_BITS   _u(0x00000100)
+#define USB_INTE_ERROR_BIT_STUFF_MSB    _u(8)
+#define USB_INTE_ERROR_BIT_STUFF_LSB    _u(8)
+#define USB_INTE_ERROR_BIT_STUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ERROR_RX_OVERFLOW
+// Description : Source: SIE_STATUS.RX_OVERFLOW
+#define USB_INTE_ERROR_RX_OVERFLOW_RESET  _u(0x0)
+#define USB_INTE_ERROR_RX_OVERFLOW_BITS   _u(0x00000080)
+#define USB_INTE_ERROR_RX_OVERFLOW_MSB    _u(7)
+#define USB_INTE_ERROR_RX_OVERFLOW_LSB    _u(7)
+#define USB_INTE_ERROR_RX_OVERFLOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ERROR_RX_TIMEOUT
+// Description : Source: SIE_STATUS.RX_TIMEOUT
+#define USB_INTE_ERROR_RX_TIMEOUT_RESET  _u(0x0)
+#define USB_INTE_ERROR_RX_TIMEOUT_BITS   _u(0x00000040)
+#define USB_INTE_ERROR_RX_TIMEOUT_MSB    _u(6)
+#define USB_INTE_ERROR_RX_TIMEOUT_LSB    _u(6)
+#define USB_INTE_ERROR_RX_TIMEOUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_ERROR_DATA_SEQ
+// Description : Source: SIE_STATUS.DATA_SEQ_ERROR
+#define USB_INTE_ERROR_DATA_SEQ_RESET  _u(0x0)
+#define USB_INTE_ERROR_DATA_SEQ_BITS   _u(0x00000020)
+#define USB_INTE_ERROR_DATA_SEQ_MSB    _u(5)
+#define USB_INTE_ERROR_DATA_SEQ_LSB    _u(5)
+#define USB_INTE_ERROR_DATA_SEQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_BUFF_STATUS
+// Description : Raised when any bit in BUFF_STATUS is set. Clear by clearing
+//               all bits in BUFF_STATUS.
+#define USB_INTE_BUFF_STATUS_RESET  _u(0x0)
+#define USB_INTE_BUFF_STATUS_BITS   _u(0x00000010)
+#define USB_INTE_BUFF_STATUS_MSB    _u(4)
+#define USB_INTE_BUFF_STATUS_LSB    _u(4)
+#define USB_INTE_BUFF_STATUS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_TRANS_COMPLETE
+// Description : Raised every time SIE_STATUS.TRANS_COMPLETE is set. Clear by
+//               writing to this bit.
+#define USB_INTE_TRANS_COMPLETE_RESET  _u(0x0)
+#define USB_INTE_TRANS_COMPLETE_BITS   _u(0x00000008)
+#define USB_INTE_TRANS_COMPLETE_MSB    _u(3)
+#define USB_INTE_TRANS_COMPLETE_LSB    _u(3)
+#define USB_INTE_TRANS_COMPLETE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_HOST_SOF
+// Description : Host: raised every time the host sends a SOF (Start of Frame).
+//               Cleared by reading SOF_RD
+#define USB_INTE_HOST_SOF_RESET  _u(0x0)
+#define USB_INTE_HOST_SOF_BITS   _u(0x00000004)
+#define USB_INTE_HOST_SOF_MSB    _u(2)
+#define USB_INTE_HOST_SOF_LSB    _u(2)
+#define USB_INTE_HOST_SOF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_HOST_RESUME
+// Description : Host: raised when a device wakes up the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTE_HOST_RESUME_RESET  _u(0x0)
+#define USB_INTE_HOST_RESUME_BITS   _u(0x00000002)
+#define USB_INTE_HOST_RESUME_MSB    _u(1)
+#define USB_INTE_HOST_RESUME_LSB    _u(1)
+#define USB_INTE_HOST_RESUME_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTE_HOST_CONN_DIS
+// Description : Host: raised when a device is connected or disconnected (i.e.
+//               when SIE_STATUS.SPEED changes). Cleared by writing to
+//               SIE_STATUS.SPEED
+#define USB_INTE_HOST_CONN_DIS_RESET  _u(0x0)
+#define USB_INTE_HOST_CONN_DIS_BITS   _u(0x00000001)
+#define USB_INTE_HOST_CONN_DIS_MSB    _u(0)
+#define USB_INTE_HOST_CONN_DIS_LSB    _u(0)
+#define USB_INTE_HOST_CONN_DIS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_INTF
+// Description : Interrupt Force
+#define USB_INTF_OFFSET _u(0x00000094)
+#define USB_INTF_BITS   _u(0x00ffffff)
+#define USB_INTF_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_EPX_STOPPED_ON_NAK
+// Description : Source: NAK_POLL.EPX_STOPPED_ON_NAK
+#define USB_INTF_EPX_STOPPED_ON_NAK_RESET  _u(0x0)
+#define USB_INTF_EPX_STOPPED_ON_NAK_BITS   _u(0x00800000)
+#define USB_INTF_EPX_STOPPED_ON_NAK_MSB    _u(23)
+#define USB_INTF_EPX_STOPPED_ON_NAK_LSB    _u(23)
+#define USB_INTF_EPX_STOPPED_ON_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_DEV_SM_WATCHDOG_FIRED
+// Description : Source: DEV_SM_WATCHDOG.FIRED
+#define USB_INTF_DEV_SM_WATCHDOG_FIRED_RESET  _u(0x0)
+#define USB_INTF_DEV_SM_WATCHDOG_FIRED_BITS   _u(0x00400000)
+#define USB_INTF_DEV_SM_WATCHDOG_FIRED_MSB    _u(22)
+#define USB_INTF_DEV_SM_WATCHDOG_FIRED_LSB    _u(22)
+#define USB_INTF_DEV_SM_WATCHDOG_FIRED_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ENDPOINT_ERROR
+// Description : Source: SIE_STATUS.ENDPOINT_ERROR
+#define USB_INTF_ENDPOINT_ERROR_RESET  _u(0x0)
+#define USB_INTF_ENDPOINT_ERROR_BITS   _u(0x00200000)
+#define USB_INTF_ENDPOINT_ERROR_MSB    _u(21)
+#define USB_INTF_ENDPOINT_ERROR_LSB    _u(21)
+#define USB_INTF_ENDPOINT_ERROR_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_RX_SHORT_PACKET
+// Description : Source: SIE_STATUS.RX_SHORT_PACKET
+#define USB_INTF_RX_SHORT_PACKET_RESET  _u(0x0)
+#define USB_INTF_RX_SHORT_PACKET_BITS   _u(0x00100000)
+#define USB_INTF_RX_SHORT_PACKET_MSB    _u(20)
+#define USB_INTF_RX_SHORT_PACKET_LSB    _u(20)
+#define USB_INTF_RX_SHORT_PACKET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_EP_STALL_NAK
+// Description : Raised when any bit in EP_STATUS_STALL_NAK is set. Clear by
+//               clearing all bits in EP_STATUS_STALL_NAK.
+#define USB_INTF_EP_STALL_NAK_RESET  _u(0x0)
+#define USB_INTF_EP_STALL_NAK_BITS   _u(0x00080000)
+#define USB_INTF_EP_STALL_NAK_MSB    _u(19)
+#define USB_INTF_EP_STALL_NAK_LSB    _u(19)
+#define USB_INTF_EP_STALL_NAK_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ABORT_DONE
+// Description : Raised when any bit in ABORT_DONE is set. Clear by clearing all
+//               bits in ABORT_DONE.
+#define USB_INTF_ABORT_DONE_RESET  _u(0x0)
+#define USB_INTF_ABORT_DONE_BITS   _u(0x00040000)
+#define USB_INTF_ABORT_DONE_MSB    _u(18)
+#define USB_INTF_ABORT_DONE_LSB    _u(18)
+#define USB_INTF_ABORT_DONE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_DEV_SOF
+// Description : Set every time the device receives a SOF (Start of Frame)
+//               packet. Cleared by reading SOF_RD
+#define USB_INTF_DEV_SOF_RESET  _u(0x0)
+#define USB_INTF_DEV_SOF_BITS   _u(0x00020000)
+#define USB_INTF_DEV_SOF_MSB    _u(17)
+#define USB_INTF_DEV_SOF_LSB    _u(17)
+#define USB_INTF_DEV_SOF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_SETUP_REQ
+// Description : Device. Source: SIE_STATUS.SETUP_REC
+#define USB_INTF_SETUP_REQ_RESET  _u(0x0)
+#define USB_INTF_SETUP_REQ_BITS   _u(0x00010000)
+#define USB_INTF_SETUP_REQ_MSB    _u(16)
+#define USB_INTF_SETUP_REQ_LSB    _u(16)
+#define USB_INTF_SETUP_REQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_DEV_RESUME_FROM_HOST
+// Description : Set when the device receives a resume from the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTF_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
+#define USB_INTF_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
+#define USB_INTF_DEV_RESUME_FROM_HOST_MSB    _u(15)
+#define USB_INTF_DEV_RESUME_FROM_HOST_LSB    _u(15)
+#define USB_INTF_DEV_RESUME_FROM_HOST_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_DEV_SUSPEND
+// Description : Set when the device suspend state changes. Cleared by writing
+//               to SIE_STATUS.SUSPENDED
+#define USB_INTF_DEV_SUSPEND_RESET  _u(0x0)
+#define USB_INTF_DEV_SUSPEND_BITS   _u(0x00004000)
+#define USB_INTF_DEV_SUSPEND_MSB    _u(14)
+#define USB_INTF_DEV_SUSPEND_LSB    _u(14)
+#define USB_INTF_DEV_SUSPEND_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_DEV_CONN_DIS
+// Description : Set when the device connection state changes. Cleared by
+//               writing to SIE_STATUS.CONNECTED
+#define USB_INTF_DEV_CONN_DIS_RESET  _u(0x0)
+#define USB_INTF_DEV_CONN_DIS_BITS   _u(0x00002000)
+#define USB_INTF_DEV_CONN_DIS_MSB    _u(13)
+#define USB_INTF_DEV_CONN_DIS_LSB    _u(13)
+#define USB_INTF_DEV_CONN_DIS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_BUS_RESET
+// Description : Source: SIE_STATUS.BUS_RESET
+#define USB_INTF_BUS_RESET_RESET  _u(0x0)
+#define USB_INTF_BUS_RESET_BITS   _u(0x00001000)
+#define USB_INTF_BUS_RESET_MSB    _u(12)
+#define USB_INTF_BUS_RESET_LSB    _u(12)
+#define USB_INTF_BUS_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_VBUS_DETECT
+// Description : Source: SIE_STATUS.VBUS_DETECTED
+#define USB_INTF_VBUS_DETECT_RESET  _u(0x0)
+#define USB_INTF_VBUS_DETECT_BITS   _u(0x00000800)
+#define USB_INTF_VBUS_DETECT_MSB    _u(11)
+#define USB_INTF_VBUS_DETECT_LSB    _u(11)
+#define USB_INTF_VBUS_DETECT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_STALL
+// Description : Source: SIE_STATUS.STALL_REC
+#define USB_INTF_STALL_RESET  _u(0x0)
+#define USB_INTF_STALL_BITS   _u(0x00000400)
+#define USB_INTF_STALL_MSB    _u(10)
+#define USB_INTF_STALL_LSB    _u(10)
+#define USB_INTF_STALL_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ERROR_CRC
+// Description : Source: SIE_STATUS.CRC_ERROR
+#define USB_INTF_ERROR_CRC_RESET  _u(0x0)
+#define USB_INTF_ERROR_CRC_BITS   _u(0x00000200)
+#define USB_INTF_ERROR_CRC_MSB    _u(9)
+#define USB_INTF_ERROR_CRC_LSB    _u(9)
+#define USB_INTF_ERROR_CRC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ERROR_BIT_STUFF
+// Description : Source: SIE_STATUS.BIT_STUFF_ERROR
+#define USB_INTF_ERROR_BIT_STUFF_RESET  _u(0x0)
+#define USB_INTF_ERROR_BIT_STUFF_BITS   _u(0x00000100)
+#define USB_INTF_ERROR_BIT_STUFF_MSB    _u(8)
+#define USB_INTF_ERROR_BIT_STUFF_LSB    _u(8)
+#define USB_INTF_ERROR_BIT_STUFF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ERROR_RX_OVERFLOW
+// Description : Source: SIE_STATUS.RX_OVERFLOW
+#define USB_INTF_ERROR_RX_OVERFLOW_RESET  _u(0x0)
+#define USB_INTF_ERROR_RX_OVERFLOW_BITS   _u(0x00000080)
+#define USB_INTF_ERROR_RX_OVERFLOW_MSB    _u(7)
+#define USB_INTF_ERROR_RX_OVERFLOW_LSB    _u(7)
+#define USB_INTF_ERROR_RX_OVERFLOW_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ERROR_RX_TIMEOUT
+// Description : Source: SIE_STATUS.RX_TIMEOUT
+#define USB_INTF_ERROR_RX_TIMEOUT_RESET  _u(0x0)
+#define USB_INTF_ERROR_RX_TIMEOUT_BITS   _u(0x00000040)
+#define USB_INTF_ERROR_RX_TIMEOUT_MSB    _u(6)
+#define USB_INTF_ERROR_RX_TIMEOUT_LSB    _u(6)
+#define USB_INTF_ERROR_RX_TIMEOUT_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_ERROR_DATA_SEQ
+// Description : Source: SIE_STATUS.DATA_SEQ_ERROR
+#define USB_INTF_ERROR_DATA_SEQ_RESET  _u(0x0)
+#define USB_INTF_ERROR_DATA_SEQ_BITS   _u(0x00000020)
+#define USB_INTF_ERROR_DATA_SEQ_MSB    _u(5)
+#define USB_INTF_ERROR_DATA_SEQ_LSB    _u(5)
+#define USB_INTF_ERROR_DATA_SEQ_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_BUFF_STATUS
+// Description : Raised when any bit in BUFF_STATUS is set. Clear by clearing
+//               all bits in BUFF_STATUS.
+#define USB_INTF_BUFF_STATUS_RESET  _u(0x0)
+#define USB_INTF_BUFF_STATUS_BITS   _u(0x00000010)
+#define USB_INTF_BUFF_STATUS_MSB    _u(4)
+#define USB_INTF_BUFF_STATUS_LSB    _u(4)
+#define USB_INTF_BUFF_STATUS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_TRANS_COMPLETE
+// Description : Raised every time SIE_STATUS.TRANS_COMPLETE is set. Clear by
+//               writing to this bit.
+#define USB_INTF_TRANS_COMPLETE_RESET  _u(0x0)
+#define USB_INTF_TRANS_COMPLETE_BITS   _u(0x00000008)
+#define USB_INTF_TRANS_COMPLETE_MSB    _u(3)
+#define USB_INTF_TRANS_COMPLETE_LSB    _u(3)
+#define USB_INTF_TRANS_COMPLETE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_HOST_SOF
+// Description : Host: raised every time the host sends a SOF (Start of Frame).
+//               Cleared by reading SOF_RD
+#define USB_INTF_HOST_SOF_RESET  _u(0x0)
+#define USB_INTF_HOST_SOF_BITS   _u(0x00000004)
+#define USB_INTF_HOST_SOF_MSB    _u(2)
+#define USB_INTF_HOST_SOF_LSB    _u(2)
+#define USB_INTF_HOST_SOF_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_HOST_RESUME
+// Description : Host: raised when a device wakes up the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTF_HOST_RESUME_RESET  _u(0x0)
+#define USB_INTF_HOST_RESUME_BITS   _u(0x00000002)
+#define USB_INTF_HOST_RESUME_MSB    _u(1)
+#define USB_INTF_HOST_RESUME_LSB    _u(1)
+#define USB_INTF_HOST_RESUME_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTF_HOST_CONN_DIS
+// Description : Host: raised when a device is connected or disconnected (i.e.
+//               when SIE_STATUS.SPEED changes). Cleared by writing to
+//               SIE_STATUS.SPEED
+#define USB_INTF_HOST_CONN_DIS_RESET  _u(0x0)
+#define USB_INTF_HOST_CONN_DIS_BITS   _u(0x00000001)
+#define USB_INTF_HOST_CONN_DIS_MSB    _u(0)
+#define USB_INTF_HOST_CONN_DIS_LSB    _u(0)
+#define USB_INTF_HOST_CONN_DIS_ACCESS "RW"
+// =============================================================================
+// Register    : USB_INTS
+// Description : Interrupt status after masking & forcing
+#define USB_INTS_OFFSET _u(0x00000098)
+#define USB_INTS_BITS   _u(0x00ffffff)
+#define USB_INTS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_EPX_STOPPED_ON_NAK
+// Description : Source: NAK_POLL.EPX_STOPPED_ON_NAK
+#define USB_INTS_EPX_STOPPED_ON_NAK_RESET  _u(0x0)
+#define USB_INTS_EPX_STOPPED_ON_NAK_BITS   _u(0x00800000)
+#define USB_INTS_EPX_STOPPED_ON_NAK_MSB    _u(23)
+#define USB_INTS_EPX_STOPPED_ON_NAK_LSB    _u(23)
+#define USB_INTS_EPX_STOPPED_ON_NAK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_DEV_SM_WATCHDOG_FIRED
+// Description : Source: DEV_SM_WATCHDOG.FIRED
+#define USB_INTS_DEV_SM_WATCHDOG_FIRED_RESET  _u(0x0)
+#define USB_INTS_DEV_SM_WATCHDOG_FIRED_BITS   _u(0x00400000)
+#define USB_INTS_DEV_SM_WATCHDOG_FIRED_MSB    _u(22)
+#define USB_INTS_DEV_SM_WATCHDOG_FIRED_LSB    _u(22)
+#define USB_INTS_DEV_SM_WATCHDOG_FIRED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ENDPOINT_ERROR
+// Description : Source: SIE_STATUS.ENDPOINT_ERROR
+#define USB_INTS_ENDPOINT_ERROR_RESET  _u(0x0)
+#define USB_INTS_ENDPOINT_ERROR_BITS   _u(0x00200000)
+#define USB_INTS_ENDPOINT_ERROR_MSB    _u(21)
+#define USB_INTS_ENDPOINT_ERROR_LSB    _u(21)
+#define USB_INTS_ENDPOINT_ERROR_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_RX_SHORT_PACKET
+// Description : Source: SIE_STATUS.RX_SHORT_PACKET
+#define USB_INTS_RX_SHORT_PACKET_RESET  _u(0x0)
+#define USB_INTS_RX_SHORT_PACKET_BITS   _u(0x00100000)
+#define USB_INTS_RX_SHORT_PACKET_MSB    _u(20)
+#define USB_INTS_RX_SHORT_PACKET_LSB    _u(20)
+#define USB_INTS_RX_SHORT_PACKET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_EP_STALL_NAK
+// Description : Raised when any bit in EP_STATUS_STALL_NAK is set. Clear by
+//               clearing all bits in EP_STATUS_STALL_NAK.
+#define USB_INTS_EP_STALL_NAK_RESET  _u(0x0)
+#define USB_INTS_EP_STALL_NAK_BITS   _u(0x00080000)
+#define USB_INTS_EP_STALL_NAK_MSB    _u(19)
+#define USB_INTS_EP_STALL_NAK_LSB    _u(19)
+#define USB_INTS_EP_STALL_NAK_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ABORT_DONE
+// Description : Raised when any bit in ABORT_DONE is set. Clear by clearing all
+//               bits in ABORT_DONE.
+#define USB_INTS_ABORT_DONE_RESET  _u(0x0)
+#define USB_INTS_ABORT_DONE_BITS   _u(0x00040000)
+#define USB_INTS_ABORT_DONE_MSB    _u(18)
+#define USB_INTS_ABORT_DONE_LSB    _u(18)
+#define USB_INTS_ABORT_DONE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_DEV_SOF
+// Description : Set every time the device receives a SOF (Start of Frame)
+//               packet. Cleared by reading SOF_RD
+#define USB_INTS_DEV_SOF_RESET  _u(0x0)
+#define USB_INTS_DEV_SOF_BITS   _u(0x00020000)
+#define USB_INTS_DEV_SOF_MSB    _u(17)
+#define USB_INTS_DEV_SOF_LSB    _u(17)
+#define USB_INTS_DEV_SOF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_SETUP_REQ
+// Description : Device. Source: SIE_STATUS.SETUP_REC
+#define USB_INTS_SETUP_REQ_RESET  _u(0x0)
+#define USB_INTS_SETUP_REQ_BITS   _u(0x00010000)
+#define USB_INTS_SETUP_REQ_MSB    _u(16)
+#define USB_INTS_SETUP_REQ_LSB    _u(16)
+#define USB_INTS_SETUP_REQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_DEV_RESUME_FROM_HOST
+// Description : Set when the device receives a resume from the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTS_DEV_RESUME_FROM_HOST_RESET  _u(0x0)
+#define USB_INTS_DEV_RESUME_FROM_HOST_BITS   _u(0x00008000)
+#define USB_INTS_DEV_RESUME_FROM_HOST_MSB    _u(15)
+#define USB_INTS_DEV_RESUME_FROM_HOST_LSB    _u(15)
+#define USB_INTS_DEV_RESUME_FROM_HOST_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_DEV_SUSPEND
+// Description : Set when the device suspend state changes. Cleared by writing
+//               to SIE_STATUS.SUSPENDED
+#define USB_INTS_DEV_SUSPEND_RESET  _u(0x0)
+#define USB_INTS_DEV_SUSPEND_BITS   _u(0x00004000)
+#define USB_INTS_DEV_SUSPEND_MSB    _u(14)
+#define USB_INTS_DEV_SUSPEND_LSB    _u(14)
+#define USB_INTS_DEV_SUSPEND_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_DEV_CONN_DIS
+// Description : Set when the device connection state changes. Cleared by
+//               writing to SIE_STATUS.CONNECTED
+#define USB_INTS_DEV_CONN_DIS_RESET  _u(0x0)
+#define USB_INTS_DEV_CONN_DIS_BITS   _u(0x00002000)
+#define USB_INTS_DEV_CONN_DIS_MSB    _u(13)
+#define USB_INTS_DEV_CONN_DIS_LSB    _u(13)
+#define USB_INTS_DEV_CONN_DIS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_BUS_RESET
+// Description : Source: SIE_STATUS.BUS_RESET
+#define USB_INTS_BUS_RESET_RESET  _u(0x0)
+#define USB_INTS_BUS_RESET_BITS   _u(0x00001000)
+#define USB_INTS_BUS_RESET_MSB    _u(12)
+#define USB_INTS_BUS_RESET_LSB    _u(12)
+#define USB_INTS_BUS_RESET_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_VBUS_DETECT
+// Description : Source: SIE_STATUS.VBUS_DETECTED
+#define USB_INTS_VBUS_DETECT_RESET  _u(0x0)
+#define USB_INTS_VBUS_DETECT_BITS   _u(0x00000800)
+#define USB_INTS_VBUS_DETECT_MSB    _u(11)
+#define USB_INTS_VBUS_DETECT_LSB    _u(11)
+#define USB_INTS_VBUS_DETECT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_STALL
+// Description : Source: SIE_STATUS.STALL_REC
+#define USB_INTS_STALL_RESET  _u(0x0)
+#define USB_INTS_STALL_BITS   _u(0x00000400)
+#define USB_INTS_STALL_MSB    _u(10)
+#define USB_INTS_STALL_LSB    _u(10)
+#define USB_INTS_STALL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ERROR_CRC
+// Description : Source: SIE_STATUS.CRC_ERROR
+#define USB_INTS_ERROR_CRC_RESET  _u(0x0)
+#define USB_INTS_ERROR_CRC_BITS   _u(0x00000200)
+#define USB_INTS_ERROR_CRC_MSB    _u(9)
+#define USB_INTS_ERROR_CRC_LSB    _u(9)
+#define USB_INTS_ERROR_CRC_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ERROR_BIT_STUFF
+// Description : Source: SIE_STATUS.BIT_STUFF_ERROR
+#define USB_INTS_ERROR_BIT_STUFF_RESET  _u(0x0)
+#define USB_INTS_ERROR_BIT_STUFF_BITS   _u(0x00000100)
+#define USB_INTS_ERROR_BIT_STUFF_MSB    _u(8)
+#define USB_INTS_ERROR_BIT_STUFF_LSB    _u(8)
+#define USB_INTS_ERROR_BIT_STUFF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ERROR_RX_OVERFLOW
+// Description : Source: SIE_STATUS.RX_OVERFLOW
+#define USB_INTS_ERROR_RX_OVERFLOW_RESET  _u(0x0)
+#define USB_INTS_ERROR_RX_OVERFLOW_BITS   _u(0x00000080)
+#define USB_INTS_ERROR_RX_OVERFLOW_MSB    _u(7)
+#define USB_INTS_ERROR_RX_OVERFLOW_LSB    _u(7)
+#define USB_INTS_ERROR_RX_OVERFLOW_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ERROR_RX_TIMEOUT
+// Description : Source: SIE_STATUS.RX_TIMEOUT
+#define USB_INTS_ERROR_RX_TIMEOUT_RESET  _u(0x0)
+#define USB_INTS_ERROR_RX_TIMEOUT_BITS   _u(0x00000040)
+#define USB_INTS_ERROR_RX_TIMEOUT_MSB    _u(6)
+#define USB_INTS_ERROR_RX_TIMEOUT_LSB    _u(6)
+#define USB_INTS_ERROR_RX_TIMEOUT_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_ERROR_DATA_SEQ
+// Description : Source: SIE_STATUS.DATA_SEQ_ERROR
+#define USB_INTS_ERROR_DATA_SEQ_RESET  _u(0x0)
+#define USB_INTS_ERROR_DATA_SEQ_BITS   _u(0x00000020)
+#define USB_INTS_ERROR_DATA_SEQ_MSB    _u(5)
+#define USB_INTS_ERROR_DATA_SEQ_LSB    _u(5)
+#define USB_INTS_ERROR_DATA_SEQ_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_BUFF_STATUS
+// Description : Raised when any bit in BUFF_STATUS is set. Clear by clearing
+//               all bits in BUFF_STATUS.
+#define USB_INTS_BUFF_STATUS_RESET  _u(0x0)
+#define USB_INTS_BUFF_STATUS_BITS   _u(0x00000010)
+#define USB_INTS_BUFF_STATUS_MSB    _u(4)
+#define USB_INTS_BUFF_STATUS_LSB    _u(4)
+#define USB_INTS_BUFF_STATUS_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_TRANS_COMPLETE
+// Description : Raised every time SIE_STATUS.TRANS_COMPLETE is set. Clear by
+//               writing to this bit.
+#define USB_INTS_TRANS_COMPLETE_RESET  _u(0x0)
+#define USB_INTS_TRANS_COMPLETE_BITS   _u(0x00000008)
+#define USB_INTS_TRANS_COMPLETE_MSB    _u(3)
+#define USB_INTS_TRANS_COMPLETE_LSB    _u(3)
+#define USB_INTS_TRANS_COMPLETE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_HOST_SOF
+// Description : Host: raised every time the host sends a SOF (Start of Frame).
+//               Cleared by reading SOF_RD
+#define USB_INTS_HOST_SOF_RESET  _u(0x0)
+#define USB_INTS_HOST_SOF_BITS   _u(0x00000004)
+#define USB_INTS_HOST_SOF_MSB    _u(2)
+#define USB_INTS_HOST_SOF_LSB    _u(2)
+#define USB_INTS_HOST_SOF_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_HOST_RESUME
+// Description : Host: raised when a device wakes up the host. Cleared by
+//               writing to SIE_STATUS.RESUME
+#define USB_INTS_HOST_RESUME_RESET  _u(0x0)
+#define USB_INTS_HOST_RESUME_BITS   _u(0x00000002)
+#define USB_INTS_HOST_RESUME_MSB    _u(1)
+#define USB_INTS_HOST_RESUME_LSB    _u(1)
+#define USB_INTS_HOST_RESUME_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_INTS_HOST_CONN_DIS
+// Description : Host: raised when a device is connected or disconnected (i.e.
+//               when SIE_STATUS.SPEED changes). Cleared by writing to
+//               SIE_STATUS.SPEED
+#define USB_INTS_HOST_CONN_DIS_RESET  _u(0x0)
+#define USB_INTS_HOST_CONN_DIS_BITS   _u(0x00000001)
+#define USB_INTS_HOST_CONN_DIS_MSB    _u(0)
+#define USB_INTS_HOST_CONN_DIS_LSB    _u(0)
+#define USB_INTS_HOST_CONN_DIS_ACCESS "RO"
+// =============================================================================
+// Register    : USB_SOF_TIMESTAMP_RAW
+// Description : Device only. Raw value of free-running PHY clock counter
+//               @48MHz. Used to calculate time between SOF events.
+#define USB_SOF_TIMESTAMP_RAW_OFFSET _u(0x00000100)
+#define USB_SOF_TIMESTAMP_RAW_BITS   _u(0x001fffff)
+#define USB_SOF_TIMESTAMP_RAW_RESET  _u(0x00000000)
+#define USB_SOF_TIMESTAMP_RAW_MSB    _u(20)
+#define USB_SOF_TIMESTAMP_RAW_LSB    _u(0)
+#define USB_SOF_TIMESTAMP_RAW_ACCESS "RO"
+// =============================================================================
+// Register    : USB_SOF_TIMESTAMP_LAST
+// Description : Device only. Value of free-running PHY clock counter @48MHz
+//               when last SOF event occurred.
+#define USB_SOF_TIMESTAMP_LAST_OFFSET _u(0x00000104)
+#define USB_SOF_TIMESTAMP_LAST_BITS   _u(0x001fffff)
+#define USB_SOF_TIMESTAMP_LAST_RESET  _u(0x00000000)
+#define USB_SOF_TIMESTAMP_LAST_MSB    _u(20)
+#define USB_SOF_TIMESTAMP_LAST_LSB    _u(0)
+#define USB_SOF_TIMESTAMP_LAST_ACCESS "RO"
+// =============================================================================
+// Register    : USB_SM_STATE
+#define USB_SM_STATE_OFFSET _u(0x00000108)
+#define USB_SM_STATE_BITS   _u(0x00000fff)
+#define USB_SM_STATE_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_SM_STATE_RX_DASM
+#define USB_SM_STATE_RX_DASM_RESET  _u(0x0)
+#define USB_SM_STATE_RX_DASM_BITS   _u(0x00000f00)
+#define USB_SM_STATE_RX_DASM_MSB    _u(11)
+#define USB_SM_STATE_RX_DASM_LSB    _u(8)
+#define USB_SM_STATE_RX_DASM_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SM_STATE_BC_STATE
+#define USB_SM_STATE_BC_STATE_RESET  _u(0x0)
+#define USB_SM_STATE_BC_STATE_BITS   _u(0x000000e0)
+#define USB_SM_STATE_BC_STATE_MSB    _u(7)
+#define USB_SM_STATE_BC_STATE_LSB    _u(5)
+#define USB_SM_STATE_BC_STATE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : USB_SM_STATE_STATE
+#define USB_SM_STATE_STATE_RESET  _u(0x00)
+#define USB_SM_STATE_STATE_BITS   _u(0x0000001f)
+#define USB_SM_STATE_STATE_MSB    _u(4)
+#define USB_SM_STATE_STATE_LSB    _u(0)
+#define USB_SM_STATE_STATE_ACCESS "RO"
+// =============================================================================
+// Register    : USB_EP_TX_ERROR
+// Description : TX error count for each endpoint. Write to each field to reset
+//               the counter to 0.
+#define USB_EP_TX_ERROR_OFFSET _u(0x0000010c)
+#define USB_EP_TX_ERROR_BITS   _u(0xffffffff)
+#define USB_EP_TX_ERROR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP15
+#define USB_EP_TX_ERROR_EP15_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP15_BITS   _u(0xc0000000)
+#define USB_EP_TX_ERROR_EP15_MSB    _u(31)
+#define USB_EP_TX_ERROR_EP15_LSB    _u(30)
+#define USB_EP_TX_ERROR_EP15_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP14
+#define USB_EP_TX_ERROR_EP14_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP14_BITS   _u(0x30000000)
+#define USB_EP_TX_ERROR_EP14_MSB    _u(29)
+#define USB_EP_TX_ERROR_EP14_LSB    _u(28)
+#define USB_EP_TX_ERROR_EP14_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP13
+#define USB_EP_TX_ERROR_EP13_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP13_BITS   _u(0x0c000000)
+#define USB_EP_TX_ERROR_EP13_MSB    _u(27)
+#define USB_EP_TX_ERROR_EP13_LSB    _u(26)
+#define USB_EP_TX_ERROR_EP13_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP12
+#define USB_EP_TX_ERROR_EP12_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP12_BITS   _u(0x03000000)
+#define USB_EP_TX_ERROR_EP12_MSB    _u(25)
+#define USB_EP_TX_ERROR_EP12_LSB    _u(24)
+#define USB_EP_TX_ERROR_EP12_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP11
+#define USB_EP_TX_ERROR_EP11_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP11_BITS   _u(0x00c00000)
+#define USB_EP_TX_ERROR_EP11_MSB    _u(23)
+#define USB_EP_TX_ERROR_EP11_LSB    _u(22)
+#define USB_EP_TX_ERROR_EP11_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP10
+#define USB_EP_TX_ERROR_EP10_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP10_BITS   _u(0x00300000)
+#define USB_EP_TX_ERROR_EP10_MSB    _u(21)
+#define USB_EP_TX_ERROR_EP10_LSB    _u(20)
+#define USB_EP_TX_ERROR_EP10_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP9
+#define USB_EP_TX_ERROR_EP9_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP9_BITS   _u(0x000c0000)
+#define USB_EP_TX_ERROR_EP9_MSB    _u(19)
+#define USB_EP_TX_ERROR_EP9_LSB    _u(18)
+#define USB_EP_TX_ERROR_EP9_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP8
+#define USB_EP_TX_ERROR_EP8_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP8_BITS   _u(0x00030000)
+#define USB_EP_TX_ERROR_EP8_MSB    _u(17)
+#define USB_EP_TX_ERROR_EP8_LSB    _u(16)
+#define USB_EP_TX_ERROR_EP8_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP7
+#define USB_EP_TX_ERROR_EP7_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP7_BITS   _u(0x0000c000)
+#define USB_EP_TX_ERROR_EP7_MSB    _u(15)
+#define USB_EP_TX_ERROR_EP7_LSB    _u(14)
+#define USB_EP_TX_ERROR_EP7_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP6
+#define USB_EP_TX_ERROR_EP6_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP6_BITS   _u(0x00003000)
+#define USB_EP_TX_ERROR_EP6_MSB    _u(13)
+#define USB_EP_TX_ERROR_EP6_LSB    _u(12)
+#define USB_EP_TX_ERROR_EP6_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP5
+#define USB_EP_TX_ERROR_EP5_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP5_BITS   _u(0x00000c00)
+#define USB_EP_TX_ERROR_EP5_MSB    _u(11)
+#define USB_EP_TX_ERROR_EP5_LSB    _u(10)
+#define USB_EP_TX_ERROR_EP5_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP4
+#define USB_EP_TX_ERROR_EP4_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP4_BITS   _u(0x00000300)
+#define USB_EP_TX_ERROR_EP4_MSB    _u(9)
+#define USB_EP_TX_ERROR_EP4_LSB    _u(8)
+#define USB_EP_TX_ERROR_EP4_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP3
+#define USB_EP_TX_ERROR_EP3_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP3_BITS   _u(0x000000c0)
+#define USB_EP_TX_ERROR_EP3_MSB    _u(7)
+#define USB_EP_TX_ERROR_EP3_LSB    _u(6)
+#define USB_EP_TX_ERROR_EP3_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP2
+#define USB_EP_TX_ERROR_EP2_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP2_BITS   _u(0x00000030)
+#define USB_EP_TX_ERROR_EP2_MSB    _u(5)
+#define USB_EP_TX_ERROR_EP2_LSB    _u(4)
+#define USB_EP_TX_ERROR_EP2_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP1
+#define USB_EP_TX_ERROR_EP1_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP1_BITS   _u(0x0000000c)
+#define USB_EP_TX_ERROR_EP1_MSB    _u(3)
+#define USB_EP_TX_ERROR_EP1_LSB    _u(2)
+#define USB_EP_TX_ERROR_EP1_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_TX_ERROR_EP0
+#define USB_EP_TX_ERROR_EP0_RESET  _u(0x0)
+#define USB_EP_TX_ERROR_EP0_BITS   _u(0x00000003)
+#define USB_EP_TX_ERROR_EP0_MSB    _u(1)
+#define USB_EP_TX_ERROR_EP0_LSB    _u(0)
+#define USB_EP_TX_ERROR_EP0_ACCESS "WC"
+// =============================================================================
+// Register    : USB_EP_RX_ERROR
+// Description : RX error count for each endpoint. Write to each field to reset
+//               the counter to 0.
+#define USB_EP_RX_ERROR_OFFSET _u(0x00000110)
+#define USB_EP_RX_ERROR_BITS   _u(0xffffffff)
+#define USB_EP_RX_ERROR_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP15_SEQ
+#define USB_EP_RX_ERROR_EP15_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP15_SEQ_BITS   _u(0x80000000)
+#define USB_EP_RX_ERROR_EP15_SEQ_MSB    _u(31)
+#define USB_EP_RX_ERROR_EP15_SEQ_LSB    _u(31)
+#define USB_EP_RX_ERROR_EP15_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP15_TRANSACTION
+#define USB_EP_RX_ERROR_EP15_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP15_TRANSACTION_BITS   _u(0x40000000)
+#define USB_EP_RX_ERROR_EP15_TRANSACTION_MSB    _u(30)
+#define USB_EP_RX_ERROR_EP15_TRANSACTION_LSB    _u(30)
+#define USB_EP_RX_ERROR_EP15_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP14_SEQ
+#define USB_EP_RX_ERROR_EP14_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP14_SEQ_BITS   _u(0x20000000)
+#define USB_EP_RX_ERROR_EP14_SEQ_MSB    _u(29)
+#define USB_EP_RX_ERROR_EP14_SEQ_LSB    _u(29)
+#define USB_EP_RX_ERROR_EP14_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP14_TRANSACTION
+#define USB_EP_RX_ERROR_EP14_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP14_TRANSACTION_BITS   _u(0x10000000)
+#define USB_EP_RX_ERROR_EP14_TRANSACTION_MSB    _u(28)
+#define USB_EP_RX_ERROR_EP14_TRANSACTION_LSB    _u(28)
+#define USB_EP_RX_ERROR_EP14_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP13_SEQ
+#define USB_EP_RX_ERROR_EP13_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP13_SEQ_BITS   _u(0x08000000)
+#define USB_EP_RX_ERROR_EP13_SEQ_MSB    _u(27)
+#define USB_EP_RX_ERROR_EP13_SEQ_LSB    _u(27)
+#define USB_EP_RX_ERROR_EP13_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP13_TRANSACTION
+#define USB_EP_RX_ERROR_EP13_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP13_TRANSACTION_BITS   _u(0x04000000)
+#define USB_EP_RX_ERROR_EP13_TRANSACTION_MSB    _u(26)
+#define USB_EP_RX_ERROR_EP13_TRANSACTION_LSB    _u(26)
+#define USB_EP_RX_ERROR_EP13_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP12_SEQ
+#define USB_EP_RX_ERROR_EP12_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP12_SEQ_BITS   _u(0x02000000)
+#define USB_EP_RX_ERROR_EP12_SEQ_MSB    _u(25)
+#define USB_EP_RX_ERROR_EP12_SEQ_LSB    _u(25)
+#define USB_EP_RX_ERROR_EP12_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP12_TRANSACTION
+#define USB_EP_RX_ERROR_EP12_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP12_TRANSACTION_BITS   _u(0x01000000)
+#define USB_EP_RX_ERROR_EP12_TRANSACTION_MSB    _u(24)
+#define USB_EP_RX_ERROR_EP12_TRANSACTION_LSB    _u(24)
+#define USB_EP_RX_ERROR_EP12_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP11_SEQ
+#define USB_EP_RX_ERROR_EP11_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP11_SEQ_BITS   _u(0x00800000)
+#define USB_EP_RX_ERROR_EP11_SEQ_MSB    _u(23)
+#define USB_EP_RX_ERROR_EP11_SEQ_LSB    _u(23)
+#define USB_EP_RX_ERROR_EP11_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP11_TRANSACTION
+#define USB_EP_RX_ERROR_EP11_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP11_TRANSACTION_BITS   _u(0x00400000)
+#define USB_EP_RX_ERROR_EP11_TRANSACTION_MSB    _u(22)
+#define USB_EP_RX_ERROR_EP11_TRANSACTION_LSB    _u(22)
+#define USB_EP_RX_ERROR_EP11_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP10_SEQ
+#define USB_EP_RX_ERROR_EP10_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP10_SEQ_BITS   _u(0x00200000)
+#define USB_EP_RX_ERROR_EP10_SEQ_MSB    _u(21)
+#define USB_EP_RX_ERROR_EP10_SEQ_LSB    _u(21)
+#define USB_EP_RX_ERROR_EP10_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP10_TRANSACTION
+#define USB_EP_RX_ERROR_EP10_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP10_TRANSACTION_BITS   _u(0x00100000)
+#define USB_EP_RX_ERROR_EP10_TRANSACTION_MSB    _u(20)
+#define USB_EP_RX_ERROR_EP10_TRANSACTION_LSB    _u(20)
+#define USB_EP_RX_ERROR_EP10_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP9_SEQ
+#define USB_EP_RX_ERROR_EP9_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP9_SEQ_BITS   _u(0x00080000)
+#define USB_EP_RX_ERROR_EP9_SEQ_MSB    _u(19)
+#define USB_EP_RX_ERROR_EP9_SEQ_LSB    _u(19)
+#define USB_EP_RX_ERROR_EP9_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP9_TRANSACTION
+#define USB_EP_RX_ERROR_EP9_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP9_TRANSACTION_BITS   _u(0x00040000)
+#define USB_EP_RX_ERROR_EP9_TRANSACTION_MSB    _u(18)
+#define USB_EP_RX_ERROR_EP9_TRANSACTION_LSB    _u(18)
+#define USB_EP_RX_ERROR_EP9_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP8_SEQ
+#define USB_EP_RX_ERROR_EP8_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP8_SEQ_BITS   _u(0x00020000)
+#define USB_EP_RX_ERROR_EP8_SEQ_MSB    _u(17)
+#define USB_EP_RX_ERROR_EP8_SEQ_LSB    _u(17)
+#define USB_EP_RX_ERROR_EP8_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP8_TRANSACTION
+#define USB_EP_RX_ERROR_EP8_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP8_TRANSACTION_BITS   _u(0x00010000)
+#define USB_EP_RX_ERROR_EP8_TRANSACTION_MSB    _u(16)
+#define USB_EP_RX_ERROR_EP8_TRANSACTION_LSB    _u(16)
+#define USB_EP_RX_ERROR_EP8_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP7_SEQ
+#define USB_EP_RX_ERROR_EP7_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP7_SEQ_BITS   _u(0x00008000)
+#define USB_EP_RX_ERROR_EP7_SEQ_MSB    _u(15)
+#define USB_EP_RX_ERROR_EP7_SEQ_LSB    _u(15)
+#define USB_EP_RX_ERROR_EP7_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP7_TRANSACTION
+#define USB_EP_RX_ERROR_EP7_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP7_TRANSACTION_BITS   _u(0x00004000)
+#define USB_EP_RX_ERROR_EP7_TRANSACTION_MSB    _u(14)
+#define USB_EP_RX_ERROR_EP7_TRANSACTION_LSB    _u(14)
+#define USB_EP_RX_ERROR_EP7_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP6_SEQ
+#define USB_EP_RX_ERROR_EP6_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP6_SEQ_BITS   _u(0x00002000)
+#define USB_EP_RX_ERROR_EP6_SEQ_MSB    _u(13)
+#define USB_EP_RX_ERROR_EP6_SEQ_LSB    _u(13)
+#define USB_EP_RX_ERROR_EP6_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP6_TRANSACTION
+#define USB_EP_RX_ERROR_EP6_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP6_TRANSACTION_BITS   _u(0x00001000)
+#define USB_EP_RX_ERROR_EP6_TRANSACTION_MSB    _u(12)
+#define USB_EP_RX_ERROR_EP6_TRANSACTION_LSB    _u(12)
+#define USB_EP_RX_ERROR_EP6_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP5_SEQ
+#define USB_EP_RX_ERROR_EP5_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP5_SEQ_BITS   _u(0x00000800)
+#define USB_EP_RX_ERROR_EP5_SEQ_MSB    _u(11)
+#define USB_EP_RX_ERROR_EP5_SEQ_LSB    _u(11)
+#define USB_EP_RX_ERROR_EP5_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP5_TRANSACTION
+#define USB_EP_RX_ERROR_EP5_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP5_TRANSACTION_BITS   _u(0x00000400)
+#define USB_EP_RX_ERROR_EP5_TRANSACTION_MSB    _u(10)
+#define USB_EP_RX_ERROR_EP5_TRANSACTION_LSB    _u(10)
+#define USB_EP_RX_ERROR_EP5_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP4_SEQ
+#define USB_EP_RX_ERROR_EP4_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP4_SEQ_BITS   _u(0x00000200)
+#define USB_EP_RX_ERROR_EP4_SEQ_MSB    _u(9)
+#define USB_EP_RX_ERROR_EP4_SEQ_LSB    _u(9)
+#define USB_EP_RX_ERROR_EP4_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP4_TRANSACTION
+#define USB_EP_RX_ERROR_EP4_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP4_TRANSACTION_BITS   _u(0x00000100)
+#define USB_EP_RX_ERROR_EP4_TRANSACTION_MSB    _u(8)
+#define USB_EP_RX_ERROR_EP4_TRANSACTION_LSB    _u(8)
+#define USB_EP_RX_ERROR_EP4_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP3_SEQ
+#define USB_EP_RX_ERROR_EP3_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP3_SEQ_BITS   _u(0x00000080)
+#define USB_EP_RX_ERROR_EP3_SEQ_MSB    _u(7)
+#define USB_EP_RX_ERROR_EP3_SEQ_LSB    _u(7)
+#define USB_EP_RX_ERROR_EP3_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP3_TRANSACTION
+#define USB_EP_RX_ERROR_EP3_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP3_TRANSACTION_BITS   _u(0x00000040)
+#define USB_EP_RX_ERROR_EP3_TRANSACTION_MSB    _u(6)
+#define USB_EP_RX_ERROR_EP3_TRANSACTION_LSB    _u(6)
+#define USB_EP_RX_ERROR_EP3_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP2_SEQ
+#define USB_EP_RX_ERROR_EP2_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP2_SEQ_BITS   _u(0x00000020)
+#define USB_EP_RX_ERROR_EP2_SEQ_MSB    _u(5)
+#define USB_EP_RX_ERROR_EP2_SEQ_LSB    _u(5)
+#define USB_EP_RX_ERROR_EP2_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP2_TRANSACTION
+#define USB_EP_RX_ERROR_EP2_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP2_TRANSACTION_BITS   _u(0x00000010)
+#define USB_EP_RX_ERROR_EP2_TRANSACTION_MSB    _u(4)
+#define USB_EP_RX_ERROR_EP2_TRANSACTION_LSB    _u(4)
+#define USB_EP_RX_ERROR_EP2_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP1_SEQ
+#define USB_EP_RX_ERROR_EP1_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP1_SEQ_BITS   _u(0x00000008)
+#define USB_EP_RX_ERROR_EP1_SEQ_MSB    _u(3)
+#define USB_EP_RX_ERROR_EP1_SEQ_LSB    _u(3)
+#define USB_EP_RX_ERROR_EP1_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP1_TRANSACTION
+#define USB_EP_RX_ERROR_EP1_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP1_TRANSACTION_BITS   _u(0x00000004)
+#define USB_EP_RX_ERROR_EP1_TRANSACTION_MSB    _u(2)
+#define USB_EP_RX_ERROR_EP1_TRANSACTION_LSB    _u(2)
+#define USB_EP_RX_ERROR_EP1_TRANSACTION_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP0_SEQ
+#define USB_EP_RX_ERROR_EP0_SEQ_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP0_SEQ_BITS   _u(0x00000002)
+#define USB_EP_RX_ERROR_EP0_SEQ_MSB    _u(1)
+#define USB_EP_RX_ERROR_EP0_SEQ_LSB    _u(1)
+#define USB_EP_RX_ERROR_EP0_SEQ_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_EP_RX_ERROR_EP0_TRANSACTION
+#define USB_EP_RX_ERROR_EP0_TRANSACTION_RESET  _u(0x0)
+#define USB_EP_RX_ERROR_EP0_TRANSACTION_BITS   _u(0x00000001)
+#define USB_EP_RX_ERROR_EP0_TRANSACTION_MSB    _u(0)
+#define USB_EP_RX_ERROR_EP0_TRANSACTION_LSB    _u(0)
+#define USB_EP_RX_ERROR_EP0_TRANSACTION_ACCESS "WC"
+// =============================================================================
+// Register    : USB_DEV_SM_WATCHDOG
+// Description : Watchdog that forces the device state machine to idle and
+//               raises an interrupt if the device stays in a state that isn't
+//               idle for the configured limit. The counter is reset on every
+//               state transition.
+//               Set limit while enable is low and then set the enable.
+#define USB_DEV_SM_WATCHDOG_OFFSET _u(0x00000114)
+#define USB_DEV_SM_WATCHDOG_BITS   _u(0x001fffff)
+#define USB_DEV_SM_WATCHDOG_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : USB_DEV_SM_WATCHDOG_FIRED
+#define USB_DEV_SM_WATCHDOG_FIRED_RESET  _u(0x0)
+#define USB_DEV_SM_WATCHDOG_FIRED_BITS   _u(0x00100000)
+#define USB_DEV_SM_WATCHDOG_FIRED_MSB    _u(20)
+#define USB_DEV_SM_WATCHDOG_FIRED_LSB    _u(20)
+#define USB_DEV_SM_WATCHDOG_FIRED_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEV_SM_WATCHDOG_RESET
+// Description : Set to 1 to forcibly reset the device state machine on watchdog
+//               expiry
+#define USB_DEV_SM_WATCHDOG_RESET_RESET  _u(0x0)
+#define USB_DEV_SM_WATCHDOG_RESET_BITS   _u(0x00080000)
+#define USB_DEV_SM_WATCHDOG_RESET_MSB    _u(19)
+#define USB_DEV_SM_WATCHDOG_RESET_LSB    _u(19)
+#define USB_DEV_SM_WATCHDOG_RESET_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEV_SM_WATCHDOG_ENABLE
+#define USB_DEV_SM_WATCHDOG_ENABLE_RESET  _u(0x0)
+#define USB_DEV_SM_WATCHDOG_ENABLE_BITS   _u(0x00040000)
+#define USB_DEV_SM_WATCHDOG_ENABLE_MSB    _u(18)
+#define USB_DEV_SM_WATCHDOG_ENABLE_LSB    _u(18)
+#define USB_DEV_SM_WATCHDOG_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : USB_DEV_SM_WATCHDOG_LIMIT
+#define USB_DEV_SM_WATCHDOG_LIMIT_RESET  _u(0x00000)
+#define USB_DEV_SM_WATCHDOG_LIMIT_BITS   _u(0x0003ffff)
+#define USB_DEV_SM_WATCHDOG_LIMIT_MSB    _u(17)
+#define USB_DEV_SM_WATCHDOG_LIMIT_LSB    _u(0)
+#define USB_DEV_SM_WATCHDOG_LIMIT_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_USB_H
+
diff --git a/lib/rp2040/hardware/regs/usb_device_dpram.h b/lib/pico-sdk/rp2350/hardware/regs/usb_device_dpram.h
similarity index 95%
rename from lib/rp2040/hardware/regs/usb_device_dpram.h
rename to lib/pico-sdk/rp2350/hardware/regs/usb_device_dpram.h
index 6422774..27203f4 100644
--- a/lib/rp2040/hardware/regs/usb_device_dpram.h
+++ b/lib/pico-sdk/rp2350/hardware/regs/usb_device_dpram.h
@@ -1,5 +1,7 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
 /**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
+ * Copyright (c) 2024 Raspberry Pi Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */
@@ -9,8 +11,8 @@
 // Bus type       : ahbl
 // Description    : DPRAM layout for USB device.
 // =============================================================================
-#ifndef HARDWARE_REGS_USB_DEVICE_DPRAM_DEFINED
-#define HARDWARE_REGS_USB_DEVICE_DPRAM_DEFINED
+#ifndef _HARDWARE_REGS_USB_DEVICE_DPRAM_H
+#define _HARDWARE_REGS_USB_DEVICE_DPRAM_H
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_SETUP_PACKET_LOW
 // Description : Bytes 0-3 of the SETUP packet from the host.
@@ -19,7 +21,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE
-// Description : None
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_RESET  _u(0x0000)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_BITS   _u(0xffff0000)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_MSB    _u(31)
@@ -27,7 +28,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_WVALUE_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST
-// Description : None
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_RESET  _u(0x00)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_BITS   _u(0x0000ff00)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_MSB    _u(15)
@@ -35,7 +35,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BREQUEST_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE
-// Description : None
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_RESET  _u(0x00)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_BITS   _u(0x000000ff)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_LOW_BMREQUESTTYPE_MSB    _u(7)
@@ -49,7 +48,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_RESET  _u(0x00000000)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH
-// Description : None
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_RESET  _u(0x0000)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_BITS   _u(0xffff0000)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_MSB    _u(31)
@@ -57,7 +55,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WLENGTH_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX
-// Description : None
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_RESET  _u(0x0000)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_BITS   _u(0x0000ffff)
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_MSB    _u(15)
@@ -65,7 +62,6 @@
 #define USB_DEVICE_DPRAM_SETUP_PACKET_HIGH_WINDEX_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP1_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_OFFSET _u(0x00000008)
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_RESET  _u(0x00000000)
@@ -105,19 +101,19 @@
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -146,7 +142,6 @@
 #define USB_DEVICE_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP1_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_OFFSET _u(0x0000000c)
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_RESET  _u(0x00000000)
@@ -186,19 +181,19 @@
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -227,7 +222,6 @@
 #define USB_DEVICE_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP2_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_OFFSET _u(0x00000010)
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_RESET  _u(0x00000000)
@@ -267,19 +261,19 @@
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -308,7 +302,6 @@
 #define USB_DEVICE_DPRAM_EP2_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP2_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_OFFSET _u(0x00000014)
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_RESET  _u(0x00000000)
@@ -348,19 +341,19 @@
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -389,7 +382,6 @@
 #define USB_DEVICE_DPRAM_EP2_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP3_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_OFFSET _u(0x00000018)
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_RESET  _u(0x00000000)
@@ -429,19 +421,19 @@
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -470,7 +462,6 @@
 #define USB_DEVICE_DPRAM_EP3_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP3_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_OFFSET _u(0x0000001c)
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_RESET  _u(0x00000000)
@@ -510,19 +501,19 @@
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -551,7 +542,6 @@
 #define USB_DEVICE_DPRAM_EP3_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP4_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_OFFSET _u(0x00000020)
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_RESET  _u(0x00000000)
@@ -591,19 +581,19 @@
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -632,7 +622,6 @@
 #define USB_DEVICE_DPRAM_EP4_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP4_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_OFFSET _u(0x00000024)
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_RESET  _u(0x00000000)
@@ -672,19 +661,19 @@
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -713,7 +702,6 @@
 #define USB_DEVICE_DPRAM_EP4_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP5_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_OFFSET _u(0x00000028)
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_RESET  _u(0x00000000)
@@ -753,19 +741,19 @@
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -794,7 +782,6 @@
 #define USB_DEVICE_DPRAM_EP5_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP5_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_OFFSET _u(0x0000002c)
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_RESET  _u(0x00000000)
@@ -834,19 +821,19 @@
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -875,7 +862,6 @@
 #define USB_DEVICE_DPRAM_EP5_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP6_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_OFFSET _u(0x00000030)
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_RESET  _u(0x00000000)
@@ -915,19 +901,19 @@
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -956,7 +942,6 @@
 #define USB_DEVICE_DPRAM_EP6_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP6_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_OFFSET _u(0x00000034)
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_RESET  _u(0x00000000)
@@ -996,19 +981,19 @@
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1037,7 +1022,6 @@
 #define USB_DEVICE_DPRAM_EP6_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP7_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_OFFSET _u(0x00000038)
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_RESET  _u(0x00000000)
@@ -1077,19 +1061,19 @@
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1118,7 +1102,6 @@
 #define USB_DEVICE_DPRAM_EP7_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP7_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_OFFSET _u(0x0000003c)
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1158,19 +1141,19 @@
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1199,7 +1182,6 @@
 #define USB_DEVICE_DPRAM_EP7_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP8_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_OFFSET _u(0x00000040)
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_RESET  _u(0x00000000)
@@ -1239,19 +1221,19 @@
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1280,7 +1262,6 @@
 #define USB_DEVICE_DPRAM_EP8_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP8_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_OFFSET _u(0x00000044)
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1320,19 +1301,19 @@
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1361,7 +1342,6 @@
 #define USB_DEVICE_DPRAM_EP8_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP9_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_OFFSET _u(0x00000048)
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_RESET  _u(0x00000000)
@@ -1401,19 +1381,19 @@
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1442,7 +1422,6 @@
 #define USB_DEVICE_DPRAM_EP9_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP9_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_OFFSET _u(0x0000004c)
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1482,19 +1461,19 @@
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1523,7 +1502,6 @@
 #define USB_DEVICE_DPRAM_EP9_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP10_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_OFFSET _u(0x00000050)
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_RESET  _u(0x00000000)
@@ -1563,19 +1541,19 @@
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1604,7 +1582,6 @@
 #define USB_DEVICE_DPRAM_EP10_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP10_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_OFFSET _u(0x00000054)
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1644,19 +1621,19 @@
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1685,7 +1662,6 @@
 #define USB_DEVICE_DPRAM_EP10_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP11_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_OFFSET _u(0x00000058)
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_RESET  _u(0x00000000)
@@ -1725,19 +1701,19 @@
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1766,7 +1742,6 @@
 #define USB_DEVICE_DPRAM_EP11_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP11_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_OFFSET _u(0x0000005c)
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1806,19 +1781,19 @@
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1847,7 +1822,6 @@
 #define USB_DEVICE_DPRAM_EP11_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP12_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_OFFSET _u(0x00000060)
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_RESET  _u(0x00000000)
@@ -1887,19 +1861,19 @@
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -1928,7 +1902,6 @@
 #define USB_DEVICE_DPRAM_EP12_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP12_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_OFFSET _u(0x00000064)
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_RESET  _u(0x00000000)
@@ -1968,19 +1941,19 @@
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2009,7 +1982,6 @@
 #define USB_DEVICE_DPRAM_EP12_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP13_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_OFFSET _u(0x00000068)
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_RESET  _u(0x00000000)
@@ -2049,19 +2021,19 @@
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2090,7 +2062,6 @@
 #define USB_DEVICE_DPRAM_EP13_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP13_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_OFFSET _u(0x0000006c)
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_RESET  _u(0x00000000)
@@ -2130,19 +2101,19 @@
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2171,7 +2142,6 @@
 #define USB_DEVICE_DPRAM_EP13_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP14_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_OFFSET _u(0x00000070)
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_RESET  _u(0x00000000)
@@ -2211,19 +2181,19 @@
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2252,7 +2222,6 @@
 #define USB_DEVICE_DPRAM_EP14_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP14_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_OFFSET _u(0x00000074)
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_RESET  _u(0x00000000)
@@ -2292,19 +2261,19 @@
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2333,7 +2302,6 @@
 #define USB_DEVICE_DPRAM_EP14_OUT_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP15_IN_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_OFFSET _u(0x00000078)
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_RESET  _u(0x00000000)
@@ -2373,19 +2341,19 @@
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_IN_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_IN_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2414,7 +2382,6 @@
 #define USB_DEVICE_DPRAM_EP15_IN_CONTROL_BUFFER_ADDRESS_ACCESS "RW"
 // =============================================================================
 // Register    : USB_DEVICE_DPRAM_EP15_OUT_CONTROL
-// Description : None
 #define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_OFFSET _u(0x0000007c)
 #define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_BITS   _u(0xfc03ffff)
 #define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_RESET  _u(0x00000000)
@@ -2454,19 +2421,19 @@
 #define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_PER_DOUBLE_BUFF_ACCESS "RW"
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE
-// Description : 0x0 -> Control
+//               0x0 -> Control
 //               0x1 -> Isochronous
 //               0x2 -> Bulk
 //               0x3 -> Interrupt
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_RESET             _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_BITS              _u(0x0c000000)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_MSB               _u(27)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_LSB               _u(26)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_ACCESS            "RW"
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL     _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_BITS   _u(0x0c000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_MSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_LSB    _u(26)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_CONTROL _u(0x0)
 #define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_ISOCHRONOUS _u(0x1)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK        _u(0x2)
-#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT   _u(0x3)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_BULK _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_OUT_CONTROL_ENDPOINT_TYPE_VALUE_INTERRUPT _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_OUT_CONTROL_INTERRUPT_ON_STALL
 // Description : Trigger an interrupt if a STALL is sent. Intended for debug
@@ -2539,14 +2506,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -2664,8 +2631,7 @@
 #define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -2674,14 +2640,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -2808,14 +2774,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -2933,8 +2899,7 @@
 #define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -2943,14 +2908,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP1_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -3077,14 +3042,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -3202,8 +3167,7 @@
 #define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -3212,14 +3176,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP2_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -3346,14 +3310,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -3471,8 +3435,7 @@
 #define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -3481,14 +3444,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP3_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -3615,14 +3578,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -3740,8 +3703,7 @@
 #define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -3750,14 +3712,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP4_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -3884,14 +3846,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -4009,8 +3971,7 @@
 #define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -4019,14 +3980,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP5_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -4153,14 +4114,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -4278,8 +4239,7 @@
 #define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -4288,14 +4248,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP6_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -4422,14 +4382,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -4547,8 +4507,7 @@
 #define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -4557,14 +4516,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP7_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -4691,14 +4650,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -4816,8 +4775,7 @@
 #define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -4826,14 +4784,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP8_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -4960,14 +4918,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -5085,8 +5043,7 @@
 #define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5095,14 +5052,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP9_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -5220,8 +5177,7 @@
 #define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5230,14 +5186,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -5355,8 +5311,7 @@
 #define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5365,14 +5320,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP10_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -5490,8 +5445,7 @@
 #define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5500,14 +5454,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -5625,8 +5579,7 @@
 #define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5635,14 +5588,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP11_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -5760,8 +5713,7 @@
 #define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5770,14 +5722,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -5895,8 +5847,7 @@
 #define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -5905,14 +5856,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP12_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -6030,8 +5981,7 @@
 #define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6040,14 +5990,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -6165,8 +6115,7 @@
 #define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6175,14 +6124,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP13_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -6300,8 +6249,7 @@
 #define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6310,14 +6258,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -6435,8 +6383,7 @@
 #define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6445,14 +6392,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP14_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -6570,8 +6517,7 @@
 #define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSE
-//               T
+// Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6580,14 +6526,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_IN_BUFFER_CONTROL_AVAILABLE_1
@@ -6705,8 +6651,7 @@
 #define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_LSB    _u(29)
 #define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_PID_1_ACCESS "RW"
 // -----------------------------------------------------------------------------
-// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFS
-//               ET
+// Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET
 // Description : The number of bytes buffer 1 is offset from buffer 0 in
 //               Isochronous mode. Only valid in double buffered mode for an
 //               Isochronous endpoint.
@@ -6715,14 +6660,14 @@
 //               0x1 -> 256
 //               0x2 -> 512
 //               0x3 -> 1024
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET      _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS       _u(0x18000000)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB        _u(28)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB        _u(27)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS     "RW"
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128  _u(0x0)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256  _u(0x1)
-#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512  _u(0x2)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_RESET  _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_BITS   _u(0x18000000)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_MSB    _u(28)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_LSB    _u(27)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_ACCESS "RW"
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_128 _u(0x0)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_256 _u(0x1)
+#define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_512 _u(0x2)
 #define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_DOUBLE_BUFFER_ISO_OFFSET_VALUE_1024 _u(0x3)
 // -----------------------------------------------------------------------------
 // Field       : USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_AVAILABLE_1
@@ -6804,4 +6749,5 @@
 #define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_LSB    _u(0)
 #define USB_DEVICE_DPRAM_EP15_OUT_BUFFER_CONTROL_LENGTH_0_ACCESS "RW"
 // =============================================================================
-#endif // HARDWARE_REGS_USB_DEVICE_DPRAM_DEFINED
+#endif // _HARDWARE_REGS_USB_DEVICE_DPRAM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/watchdog.h b/lib/pico-sdk/rp2350/hardware/regs/watchdog.h
new file mode 100644
index 0000000..07e5b40
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/watchdog.h
@@ -0,0 +1,192 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : WATCHDOG
+// Version        : 1
+// Bus type       : apb
+// =============================================================================
+#ifndef _HARDWARE_REGS_WATCHDOG_H
+#define _HARDWARE_REGS_WATCHDOG_H
+// =============================================================================
+// Register    : WATCHDOG_CTRL
+// Description : Watchdog control
+//               The rst_wdsel register determines which subsystems are reset
+//               when the watchdog is triggered.
+//               The watchdog can be triggered in software.
+#define WATCHDOG_CTRL_OFFSET _u(0x00000000)
+#define WATCHDOG_CTRL_BITS   _u(0xc7ffffff)
+#define WATCHDOG_CTRL_RESET  _u(0x07000000)
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_TRIGGER
+// Description : Trigger a watchdog reset
+#define WATCHDOG_CTRL_TRIGGER_RESET  _u(0x0)
+#define WATCHDOG_CTRL_TRIGGER_BITS   _u(0x80000000)
+#define WATCHDOG_CTRL_TRIGGER_MSB    _u(31)
+#define WATCHDOG_CTRL_TRIGGER_LSB    _u(31)
+#define WATCHDOG_CTRL_TRIGGER_ACCESS "SC"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_ENABLE
+// Description : When not enabled the watchdog timer is paused
+#define WATCHDOG_CTRL_ENABLE_RESET  _u(0x0)
+#define WATCHDOG_CTRL_ENABLE_BITS   _u(0x40000000)
+#define WATCHDOG_CTRL_ENABLE_MSB    _u(30)
+#define WATCHDOG_CTRL_ENABLE_LSB    _u(30)
+#define WATCHDOG_CTRL_ENABLE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_PAUSE_DBG1
+// Description : Pause the watchdog timer when processor 1 is in debug mode
+#define WATCHDOG_CTRL_PAUSE_DBG1_RESET  _u(0x1)
+#define WATCHDOG_CTRL_PAUSE_DBG1_BITS   _u(0x04000000)
+#define WATCHDOG_CTRL_PAUSE_DBG1_MSB    _u(26)
+#define WATCHDOG_CTRL_PAUSE_DBG1_LSB    _u(26)
+#define WATCHDOG_CTRL_PAUSE_DBG1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_PAUSE_DBG0
+// Description : Pause the watchdog timer when processor 0 is in debug mode
+#define WATCHDOG_CTRL_PAUSE_DBG0_RESET  _u(0x1)
+#define WATCHDOG_CTRL_PAUSE_DBG0_BITS   _u(0x02000000)
+#define WATCHDOG_CTRL_PAUSE_DBG0_MSB    _u(25)
+#define WATCHDOG_CTRL_PAUSE_DBG0_LSB    _u(25)
+#define WATCHDOG_CTRL_PAUSE_DBG0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_PAUSE_JTAG
+// Description : Pause the watchdog timer when JTAG is accessing the bus fabric
+#define WATCHDOG_CTRL_PAUSE_JTAG_RESET  _u(0x1)
+#define WATCHDOG_CTRL_PAUSE_JTAG_BITS   _u(0x01000000)
+#define WATCHDOG_CTRL_PAUSE_JTAG_MSB    _u(24)
+#define WATCHDOG_CTRL_PAUSE_JTAG_LSB    _u(24)
+#define WATCHDOG_CTRL_PAUSE_JTAG_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_CTRL_TIME
+// Description : Indicates the time in usec before a watchdog reset will be
+//               triggered
+#define WATCHDOG_CTRL_TIME_RESET  _u(0x000000)
+#define WATCHDOG_CTRL_TIME_BITS   _u(0x00ffffff)
+#define WATCHDOG_CTRL_TIME_MSB    _u(23)
+#define WATCHDOG_CTRL_TIME_LSB    _u(0)
+#define WATCHDOG_CTRL_TIME_ACCESS "RO"
+// =============================================================================
+// Register    : WATCHDOG_LOAD
+// Description : Load the watchdog timer. The maximum setting is 0xffffff which
+//               corresponds to approximately 16 seconds.
+#define WATCHDOG_LOAD_OFFSET _u(0x00000004)
+#define WATCHDOG_LOAD_BITS   _u(0x00ffffff)
+#define WATCHDOG_LOAD_RESET  _u(0x00000000)
+#define WATCHDOG_LOAD_MSB    _u(23)
+#define WATCHDOG_LOAD_LSB    _u(0)
+#define WATCHDOG_LOAD_ACCESS "WF"
+// =============================================================================
+// Register    : WATCHDOG_REASON
+// Description : Logs the reason for the last reset. Both bits are zero for the
+//               case of a hardware reset.
+//
+//               Additionally, as of RP2350, a debugger warm reset of either
+//               core (SYSRESETREQ or hartreset) will also clear the watchdog
+//               reason register, so that software loaded under the debugger
+//               following a watchdog timeout will not continue to see the
+//               timeout condition.
+#define WATCHDOG_REASON_OFFSET _u(0x00000008)
+#define WATCHDOG_REASON_BITS   _u(0x00000003)
+#define WATCHDOG_REASON_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_REASON_FORCE
+#define WATCHDOG_REASON_FORCE_RESET  _u(0x0)
+#define WATCHDOG_REASON_FORCE_BITS   _u(0x00000002)
+#define WATCHDOG_REASON_FORCE_MSB    _u(1)
+#define WATCHDOG_REASON_FORCE_LSB    _u(1)
+#define WATCHDOG_REASON_FORCE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : WATCHDOG_REASON_TIMER
+#define WATCHDOG_REASON_TIMER_RESET  _u(0x0)
+#define WATCHDOG_REASON_TIMER_BITS   _u(0x00000001)
+#define WATCHDOG_REASON_TIMER_MSB    _u(0)
+#define WATCHDOG_REASON_TIMER_LSB    _u(0)
+#define WATCHDOG_REASON_TIMER_ACCESS "RO"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH0
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH0_OFFSET _u(0x0000000c)
+#define WATCHDOG_SCRATCH0_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH0_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH0_MSB    _u(31)
+#define WATCHDOG_SCRATCH0_LSB    _u(0)
+#define WATCHDOG_SCRATCH0_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH1
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH1_OFFSET _u(0x00000010)
+#define WATCHDOG_SCRATCH1_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH1_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH1_MSB    _u(31)
+#define WATCHDOG_SCRATCH1_LSB    _u(0)
+#define WATCHDOG_SCRATCH1_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH2
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH2_OFFSET _u(0x00000014)
+#define WATCHDOG_SCRATCH2_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH2_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH2_MSB    _u(31)
+#define WATCHDOG_SCRATCH2_LSB    _u(0)
+#define WATCHDOG_SCRATCH2_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH3
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH3_OFFSET _u(0x00000018)
+#define WATCHDOG_SCRATCH3_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH3_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH3_MSB    _u(31)
+#define WATCHDOG_SCRATCH3_LSB    _u(0)
+#define WATCHDOG_SCRATCH3_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH4
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH4_OFFSET _u(0x0000001c)
+#define WATCHDOG_SCRATCH4_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH4_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH4_MSB    _u(31)
+#define WATCHDOG_SCRATCH4_LSB    _u(0)
+#define WATCHDOG_SCRATCH4_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH5
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH5_OFFSET _u(0x00000020)
+#define WATCHDOG_SCRATCH5_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH5_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH5_MSB    _u(31)
+#define WATCHDOG_SCRATCH5_LSB    _u(0)
+#define WATCHDOG_SCRATCH5_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH6
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH6_OFFSET _u(0x00000024)
+#define WATCHDOG_SCRATCH6_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH6_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH6_MSB    _u(31)
+#define WATCHDOG_SCRATCH6_LSB    _u(0)
+#define WATCHDOG_SCRATCH6_ACCESS "RW"
+// =============================================================================
+// Register    : WATCHDOG_SCRATCH7
+// Description : Scratch register. Information persists through soft reset of
+//               the chip.
+#define WATCHDOG_SCRATCH7_OFFSET _u(0x00000028)
+#define WATCHDOG_SCRATCH7_BITS   _u(0xffffffff)
+#define WATCHDOG_SCRATCH7_RESET  _u(0x00000000)
+#define WATCHDOG_SCRATCH7_MSB    _u(31)
+#define WATCHDOG_SCRATCH7_LSB    _u(0)
+#define WATCHDOG_SCRATCH7_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_WATCHDOG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/xip.h b/lib/pico-sdk/rp2350/hardware/regs/xip.h
new file mode 100644
index 0000000..7487ec6
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/xip.h
@@ -0,0 +1,313 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : XIP
+// Version        : 1
+// Bus type       : ahb
+// Description    : QSPI flash execute-in-place block
+// =============================================================================
+#ifndef _HARDWARE_REGS_XIP_H
+#define _HARDWARE_REGS_XIP_H
+// =============================================================================
+// Register    : XIP_CTRL
+// Description : Cache control register. Read-only from a Non-secure context.
+#define XIP_CTRL_OFFSET _u(0x00000000)
+#define XIP_CTRL_BITS   _u(0x00000ffb)
+#define XIP_CTRL_RESET  _u(0x00000083)
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_WRITABLE_M1
+// Description : If 1, enable writes to XIP memory window 1 (addresses
+//               0x11000000 through 0x11ffffff, and their uncached mirrors). If
+//               0, this region is read-only.
+//
+//               XIP memory is *read-only by default*. This bit must be set to
+//               enable writes if a RAM device is attached on QSPI chip select
+//               1.
+//
+//               The default read-only behaviour avoids two issues with writing
+//               to a read-only QSPI device (e.g. flash). First, a write will
+//               initially appear to succeed due to caching, but the data will
+//               eventually be lost when the written line is evicted, causing
+//               unpredictable behaviour.
+//
+//               Second, when a written line is evicted, it will cause a write
+//               command to be issued to the flash, which can break the flash
+//               out of its continuous read mode. After this point, flash reads
+//               will return garbage. This is a security concern, as it allows
+//               Non-secure software to break Secure flash reads if it has
+//               permission to write to any flash address.
+//
+//               Note the read-only behaviour is implemented by downgrading
+//               writes to reads, so writes will still cause allocation of an
+//               address, but have no other effect.
+#define XIP_CTRL_WRITABLE_M1_RESET  _u(0x0)
+#define XIP_CTRL_WRITABLE_M1_BITS   _u(0x00000800)
+#define XIP_CTRL_WRITABLE_M1_MSB    _u(11)
+#define XIP_CTRL_WRITABLE_M1_LSB    _u(11)
+#define XIP_CTRL_WRITABLE_M1_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_WRITABLE_M0
+// Description : If 1, enable writes to XIP memory window 0 (addresses
+//               0x10000000 through 0x10ffffff, and their uncached mirrors). If
+//               0, this region is read-only.
+//
+//               XIP memory is *read-only by default*. This bit must be set to
+//               enable writes if a RAM device is attached on QSPI chip select
+//               0.
+//
+//               The default read-only behaviour avoids two issues with writing
+//               to a read-only QSPI device (e.g. flash). First, a write will
+//               initially appear to succeed due to caching, but the data will
+//               eventually be lost when the written line is evicted, causing
+//               unpredictable behaviour.
+//
+//               Second, when a written line is evicted, it will cause a write
+//               command to be issued to the flash, which can break the flash
+//               out of its continuous read mode. After this point, flash reads
+//               will return garbage. This is a security concern, as it allows
+//               Non-secure software to break Secure flash reads if it has
+//               permission to write to any flash address.
+//
+//               Note the read-only behaviour is implemented by downgrading
+//               writes to reads, so writes will still cause allocation of an
+//               address, but have no other effect.
+#define XIP_CTRL_WRITABLE_M0_RESET  _u(0x0)
+#define XIP_CTRL_WRITABLE_M0_BITS   _u(0x00000400)
+#define XIP_CTRL_WRITABLE_M0_MSB    _u(10)
+#define XIP_CTRL_WRITABLE_M0_LSB    _u(10)
+#define XIP_CTRL_WRITABLE_M0_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_SPLIT_WAYS
+// Description : When 1, route all cached+Secure accesses to way 0 of the cache,
+//               and route all cached+Non-secure accesses to way 1 of the cache.
+//
+//               This partitions the cache into two half-sized direct-mapped
+//               regions, such that Non-secure code can not observe cache line
+//               state changes caused by Secure execution.
+//
+//               A full cache flush is required when changing the value of
+//               SPLIT_WAYS. The flush should be performed whilst SPLIT_WAYS is
+//               0, so that both cache ways are accessible for invalidation.
+#define XIP_CTRL_SPLIT_WAYS_RESET  _u(0x0)
+#define XIP_CTRL_SPLIT_WAYS_BITS   _u(0x00000200)
+#define XIP_CTRL_SPLIT_WAYS_MSB    _u(9)
+#define XIP_CTRL_SPLIT_WAYS_LSB    _u(9)
+#define XIP_CTRL_SPLIT_WAYS_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_MAINT_NONSEC
+// Description : When 0, Non-secure accesses to the cache maintenance address
+//               window (addr[27] == 1, addr[26] == 0) will generate a bus
+//               error. When 1, Non-secure accesses can perform cache
+//               maintenance operations by writing to the cache maintenance
+//               address window.
+//
+//               Cache maintenance operations may be used to corrupt Secure data
+//               by invalidating cache lines inappropriately, or map Secure
+//               content into a Non-secure region by pinning cache lines.
+//               Therefore this bit should generally be set to 0, unless Secure
+//               code is not using the cache.
+//
+//               Care should also be taken to clear the cache data memory and
+//               tag memory before granting maintenance operations to Non-secure
+//               code.
+#define XIP_CTRL_MAINT_NONSEC_RESET  _u(0x0)
+#define XIP_CTRL_MAINT_NONSEC_BITS   _u(0x00000100)
+#define XIP_CTRL_MAINT_NONSEC_MSB    _u(8)
+#define XIP_CTRL_MAINT_NONSEC_LSB    _u(8)
+#define XIP_CTRL_MAINT_NONSEC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_NO_UNTRANSLATED_NONSEC
+// Description : When 1, Non-secure accesses to the uncached, untranslated
+//               window (addr[27:26] == 3) will generate a bus error.
+#define XIP_CTRL_NO_UNTRANSLATED_NONSEC_RESET  _u(0x1)
+#define XIP_CTRL_NO_UNTRANSLATED_NONSEC_BITS   _u(0x00000080)
+#define XIP_CTRL_NO_UNTRANSLATED_NONSEC_MSB    _u(7)
+#define XIP_CTRL_NO_UNTRANSLATED_NONSEC_LSB    _u(7)
+#define XIP_CTRL_NO_UNTRANSLATED_NONSEC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_NO_UNTRANSLATED_SEC
+// Description : When 1, Secure accesses to the uncached, untranslated window
+//               (addr[27:26] == 3) will generate a bus error.
+#define XIP_CTRL_NO_UNTRANSLATED_SEC_RESET  _u(0x0)
+#define XIP_CTRL_NO_UNTRANSLATED_SEC_BITS   _u(0x00000040)
+#define XIP_CTRL_NO_UNTRANSLATED_SEC_MSB    _u(6)
+#define XIP_CTRL_NO_UNTRANSLATED_SEC_LSB    _u(6)
+#define XIP_CTRL_NO_UNTRANSLATED_SEC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_NO_UNCACHED_NONSEC
+// Description : When 1, Non-secure accesses to the uncached window (addr[27:26]
+//               == 1) will generate a bus error. This may reduce the number of
+//               SAU/MPU/PMP regions required to protect flash contents.
+//
+//               Note this does not disable access to the uncached, untranslated
+//               window -- see NO_UNTRANSLATED_SEC.
+#define XIP_CTRL_NO_UNCACHED_NONSEC_RESET  _u(0x0)
+#define XIP_CTRL_NO_UNCACHED_NONSEC_BITS   _u(0x00000020)
+#define XIP_CTRL_NO_UNCACHED_NONSEC_MSB    _u(5)
+#define XIP_CTRL_NO_UNCACHED_NONSEC_LSB    _u(5)
+#define XIP_CTRL_NO_UNCACHED_NONSEC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_NO_UNCACHED_SEC
+// Description : When 1, Secure accesses to the uncached window (addr[27:26] ==
+//               1) will generate a bus error. This may reduce the number of
+//               SAU/MPU/PMP regions required to protect flash contents.
+//
+//               Note this does not disable access to the uncached, untranslated
+//               window -- see NO_UNTRANSLATED_SEC.
+#define XIP_CTRL_NO_UNCACHED_SEC_RESET  _u(0x0)
+#define XIP_CTRL_NO_UNCACHED_SEC_BITS   _u(0x00000010)
+#define XIP_CTRL_NO_UNCACHED_SEC_MSB    _u(4)
+#define XIP_CTRL_NO_UNCACHED_SEC_LSB    _u(4)
+#define XIP_CTRL_NO_UNCACHED_SEC_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_POWER_DOWN
+// Description : When 1, the cache memories are powered down. They retain state,
+//               but can not be accessed. This reduces static power dissipation.
+//               Writing 1 to this bit forces CTRL_EN_SECURE and
+//               CTRL_EN_NONSECURE to 0, i.e. the cache cannot be enabled when
+//               powered down.
+#define XIP_CTRL_POWER_DOWN_RESET  _u(0x0)
+#define XIP_CTRL_POWER_DOWN_BITS   _u(0x00000008)
+#define XIP_CTRL_POWER_DOWN_MSB    _u(3)
+#define XIP_CTRL_POWER_DOWN_LSB    _u(3)
+#define XIP_CTRL_POWER_DOWN_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_EN_NONSECURE
+// Description : When 1, enable the cache for Non-secure accesses. When enabled,
+//               Non-secure XIP accesses to the cached (addr[26] == 0) window
+//               will query the cache, and QSPI accesses are performed only if
+//               the requested data is not present. When disabled, Secure access
+//               ignore the cache contents, and always access the QSPI
+//               interface.
+//
+//               Accesses to the uncached (addr[26] == 1) window will never
+//               query the cache, irrespective of this bit.
+#define XIP_CTRL_EN_NONSECURE_RESET  _u(0x1)
+#define XIP_CTRL_EN_NONSECURE_BITS   _u(0x00000002)
+#define XIP_CTRL_EN_NONSECURE_MSB    _u(1)
+#define XIP_CTRL_EN_NONSECURE_LSB    _u(1)
+#define XIP_CTRL_EN_NONSECURE_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XIP_CTRL_EN_SECURE
+// Description : When 1, enable the cache for Secure accesses. When enabled,
+//               Secure XIP accesses to the cached (addr[26] == 0) window will
+//               query the cache, and QSPI accesses are performed only if the
+//               requested data is not present. When disabled, Secure access
+//               ignore the cache contents, and always access the QSPI
+//               interface.
+//
+//               Accesses to the uncached (addr[26] == 1) window will never
+//               query the cache, irrespective of this bit.
+//
+//               There is no cache-as-SRAM address window. Cache lines are
+//               allocated for SRAM-like use by individually pinning them, and
+//               keeping the cache enabled.
+#define XIP_CTRL_EN_SECURE_RESET  _u(0x1)
+#define XIP_CTRL_EN_SECURE_BITS   _u(0x00000001)
+#define XIP_CTRL_EN_SECURE_MSB    _u(0)
+#define XIP_CTRL_EN_SECURE_LSB    _u(0)
+#define XIP_CTRL_EN_SECURE_ACCESS "RW"
+// =============================================================================
+// Register    : XIP_STAT
+#define XIP_STAT_OFFSET _u(0x00000008)
+#define XIP_STAT_BITS   _u(0x00000006)
+#define XIP_STAT_RESET  _u(0x00000002)
+// -----------------------------------------------------------------------------
+// Field       : XIP_STAT_FIFO_FULL
+// Description : When 1, indicates the XIP streaming FIFO is completely full.
+//               The streaming FIFO is 2 entries deep, so the full and empty
+//               flag allow its level to be ascertained.
+#define XIP_STAT_FIFO_FULL_RESET  _u(0x0)
+#define XIP_STAT_FIFO_FULL_BITS   _u(0x00000004)
+#define XIP_STAT_FIFO_FULL_MSB    _u(2)
+#define XIP_STAT_FIFO_FULL_LSB    _u(2)
+#define XIP_STAT_FIFO_FULL_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : XIP_STAT_FIFO_EMPTY
+// Description : When 1, indicates the XIP streaming FIFO is completely empty.
+#define XIP_STAT_FIFO_EMPTY_RESET  _u(0x1)
+#define XIP_STAT_FIFO_EMPTY_BITS   _u(0x00000002)
+#define XIP_STAT_FIFO_EMPTY_MSB    _u(1)
+#define XIP_STAT_FIFO_EMPTY_LSB    _u(1)
+#define XIP_STAT_FIFO_EMPTY_ACCESS "RO"
+// =============================================================================
+// Register    : XIP_CTR_HIT
+// Description : Cache Hit counter
+//               A 32 bit saturating counter that increments upon each cache
+//               hit,
+//               i.e. when an XIP access is serviced directly from cached data.
+//               Write any value to clear.
+#define XIP_CTR_HIT_OFFSET _u(0x0000000c)
+#define XIP_CTR_HIT_BITS   _u(0xffffffff)
+#define XIP_CTR_HIT_RESET  _u(0x00000000)
+#define XIP_CTR_HIT_MSB    _u(31)
+#define XIP_CTR_HIT_LSB    _u(0)
+#define XIP_CTR_HIT_ACCESS "WC"
+// =============================================================================
+// Register    : XIP_CTR_ACC
+// Description : Cache Access counter
+//               A 32 bit saturating counter that increments upon each XIP
+//               access,
+//               whether the cache is hit or not. This includes noncacheable
+//               accesses.
+//               Write any value to clear.
+#define XIP_CTR_ACC_OFFSET _u(0x00000010)
+#define XIP_CTR_ACC_BITS   _u(0xffffffff)
+#define XIP_CTR_ACC_RESET  _u(0x00000000)
+#define XIP_CTR_ACC_MSB    _u(31)
+#define XIP_CTR_ACC_LSB    _u(0)
+#define XIP_CTR_ACC_ACCESS "WC"
+// =============================================================================
+// Register    : XIP_STREAM_ADDR
+// Description : FIFO stream address
+//               The address of the next word to be streamed from flash to the
+//               streaming FIFO.
+//               Increments automatically after each flash access.
+//               Write the initial access address here before starting a
+//               streaming read.
+#define XIP_STREAM_ADDR_OFFSET _u(0x00000014)
+#define XIP_STREAM_ADDR_BITS   _u(0xfffffffc)
+#define XIP_STREAM_ADDR_RESET  _u(0x00000000)
+#define XIP_STREAM_ADDR_MSB    _u(31)
+#define XIP_STREAM_ADDR_LSB    _u(2)
+#define XIP_STREAM_ADDR_ACCESS "RW"
+// =============================================================================
+// Register    : XIP_STREAM_CTR
+// Description : FIFO stream control
+//               Write a nonzero value to start a streaming read. This will then
+//               progress in the background, using flash idle cycles to transfer
+//               a linear data block from flash to the streaming FIFO.
+//               Decrements automatically (1 at a time) as the stream
+//               progresses, and halts on reaching 0.
+//               Write 0 to halt an in-progress stream, and discard any in-
+//               flight
+//               read, so that a new stream can immediately be started (after
+//               draining the FIFO and reinitialising STREAM_ADDR)
+#define XIP_STREAM_CTR_OFFSET _u(0x00000018)
+#define XIP_STREAM_CTR_BITS   _u(0x003fffff)
+#define XIP_STREAM_CTR_RESET  _u(0x00000000)
+#define XIP_STREAM_CTR_MSB    _u(21)
+#define XIP_STREAM_CTR_LSB    _u(0)
+#define XIP_STREAM_CTR_ACCESS "RW"
+// =============================================================================
+// Register    : XIP_STREAM_FIFO
+// Description : FIFO stream data
+//               Streamed data is buffered here, for retrieval by the system
+//               DMA.
+//               This FIFO can also be accessed via the XIP_AUX slave, to avoid
+//               exposing
+//               the DMA to bus stalls caused by other XIP traffic.
+#define XIP_STREAM_FIFO_OFFSET _u(0x0000001c)
+#define XIP_STREAM_FIFO_BITS   _u(0xffffffff)
+#define XIP_STREAM_FIFO_RESET  _u(0x00000000)
+#define XIP_STREAM_FIFO_MSB    _u(31)
+#define XIP_STREAM_FIFO_LSB    _u(0)
+#define XIP_STREAM_FIFO_ACCESS "RF"
+// =============================================================================
+#endif // _HARDWARE_REGS_XIP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/xip_aux.h b/lib/pico-sdk/rp2350/hardware/regs/xip_aux.h
new file mode 100644
index 0000000..07940ca
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/xip_aux.h
@@ -0,0 +1,123 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : XIP_AUX
+// Version        : 1
+// Bus type       : ahb
+// Description    : Auxiliary DMA access to XIP FIFOs, via fast AHB bus access
+// =============================================================================
+#ifndef _HARDWARE_REGS_XIP_AUX_H
+#define _HARDWARE_REGS_XIP_AUX_H
+// =============================================================================
+// Register    : XIP_AUX_STREAM
+// Description : Read the XIP stream FIFO (fast bus access to
+//               XIP_CTRL_STREAM_FIFO)
+#define XIP_AUX_STREAM_OFFSET _u(0x00000000)
+#define XIP_AUX_STREAM_BITS   _u(0xffffffff)
+#define XIP_AUX_STREAM_RESET  _u(0x00000000)
+#define XIP_AUX_STREAM_MSB    _u(31)
+#define XIP_AUX_STREAM_LSB    _u(0)
+#define XIP_AUX_STREAM_ACCESS "RF"
+// =============================================================================
+// Register    : XIP_AUX_QMI_DIRECT_TX
+// Description : Write to the QMI direct-mode TX FIFO (fast bus access to
+//               QMI_DIRECT_TX)
+#define XIP_AUX_QMI_DIRECT_TX_OFFSET _u(0x00000004)
+#define XIP_AUX_QMI_DIRECT_TX_BITS   _u(0x001fffff)
+#define XIP_AUX_QMI_DIRECT_TX_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : XIP_AUX_QMI_DIRECT_TX_NOPUSH
+// Description : Inhibit the RX FIFO push that would correspond to this TX FIFO
+//               entry.
+//
+//               Useful to avoid garbage appearing in the RX FIFO when pushing
+//               the command at the beginning of a SPI transfer.
+#define XIP_AUX_QMI_DIRECT_TX_NOPUSH_RESET  _u(0x0)
+#define XIP_AUX_QMI_DIRECT_TX_NOPUSH_BITS   _u(0x00100000)
+#define XIP_AUX_QMI_DIRECT_TX_NOPUSH_MSB    _u(20)
+#define XIP_AUX_QMI_DIRECT_TX_NOPUSH_LSB    _u(20)
+#define XIP_AUX_QMI_DIRECT_TX_NOPUSH_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : XIP_AUX_QMI_DIRECT_TX_OE
+// Description : Output enable (active-high). For single width (SPI), this field
+//               is ignored, and SD0 is always set to output, with SD1 always
+//               set to input.
+//
+//               For dual and quad width (DSPI/QSPI), this sets whether the
+//               relevant SDx pads are set to output whilst transferring this
+//               FIFO record. In this case the command/address should have OE
+//               set, and the data transfer should have OE set or clear
+//               depending on the direction of the transfer.
+#define XIP_AUX_QMI_DIRECT_TX_OE_RESET  _u(0x0)
+#define XIP_AUX_QMI_DIRECT_TX_OE_BITS   _u(0x00080000)
+#define XIP_AUX_QMI_DIRECT_TX_OE_MSB    _u(19)
+#define XIP_AUX_QMI_DIRECT_TX_OE_LSB    _u(19)
+#define XIP_AUX_QMI_DIRECT_TX_OE_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : XIP_AUX_QMI_DIRECT_TX_DWIDTH
+// Description : Data width. If 0, hardware will transmit the 8 LSBs of the
+//               DIRECT_TX DATA field, and return an 8-bit value in the 8 LSBs
+//               of DIRECT_RX. If 1, the full 16-bit width is used. 8-bit and
+//               16-bit transfers can be mixed freely.
+#define XIP_AUX_QMI_DIRECT_TX_DWIDTH_RESET  _u(0x0)
+#define XIP_AUX_QMI_DIRECT_TX_DWIDTH_BITS   _u(0x00040000)
+#define XIP_AUX_QMI_DIRECT_TX_DWIDTH_MSB    _u(18)
+#define XIP_AUX_QMI_DIRECT_TX_DWIDTH_LSB    _u(18)
+#define XIP_AUX_QMI_DIRECT_TX_DWIDTH_ACCESS "WF"
+// -----------------------------------------------------------------------------
+// Field       : XIP_AUX_QMI_DIRECT_TX_IWIDTH
+// Description : Configure whether this FIFO record is transferred with
+//               single/dual/quad interface width (0/1/2). Different widths can
+//               be mixed freely.
+//               0x0 -> Single width
+//               0x1 -> Dual width
+//               0x2 -> Quad width
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_RESET  _u(0x0)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_BITS   _u(0x00030000)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_MSB    _u(17)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_LSB    _u(16)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_ACCESS "WF"
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_VALUE_S _u(0x0)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_VALUE_D _u(0x1)
+#define XIP_AUX_QMI_DIRECT_TX_IWIDTH_VALUE_Q _u(0x2)
+// -----------------------------------------------------------------------------
+// Field       : XIP_AUX_QMI_DIRECT_TX_DATA
+// Description : Data pushed here will be clocked out falling edges of SCK (or
+//               before the very first rising edge of SCK, if this is the first
+//               pulse). For each byte clocked out, the interface will
+//               simultaneously sample one byte, on rising edges of SCK, and
+//               push this to the DIRECT_RX FIFO.
+//
+//               For 16-bit data, the least-significant byte is transmitted
+//               first.
+#define XIP_AUX_QMI_DIRECT_TX_DATA_RESET  _u(0x0000)
+#define XIP_AUX_QMI_DIRECT_TX_DATA_BITS   _u(0x0000ffff)
+#define XIP_AUX_QMI_DIRECT_TX_DATA_MSB    _u(15)
+#define XIP_AUX_QMI_DIRECT_TX_DATA_LSB    _u(0)
+#define XIP_AUX_QMI_DIRECT_TX_DATA_ACCESS "WF"
+// =============================================================================
+// Register    : XIP_AUX_QMI_DIRECT_RX
+// Description : Read from the QMI direct-mode RX FIFO (fast bus access to
+//               QMI_DIRECT_RX)
+//               With each byte clocked out on the serial interface, one byte
+//               will simultaneously be clocked in, and will appear in this
+//               FIFO. The serial interface will stall when this FIFO is full,
+//               to avoid dropping data.
+//
+//               When 16-bit data is pushed into the TX FIFO, the corresponding
+//               RX FIFO push will also contain 16 bits of data. The least-
+//               significant byte is the first one received.
+#define XIP_AUX_QMI_DIRECT_RX_OFFSET _u(0x00000008)
+#define XIP_AUX_QMI_DIRECT_RX_BITS   _u(0x0000ffff)
+#define XIP_AUX_QMI_DIRECT_RX_RESET  _u(0x00000000)
+#define XIP_AUX_QMI_DIRECT_RX_MSB    _u(15)
+#define XIP_AUX_QMI_DIRECT_RX_LSB    _u(0)
+#define XIP_AUX_QMI_DIRECT_RX_ACCESS "RF"
+// =============================================================================
+#endif // _HARDWARE_REGS_XIP_AUX_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/regs/xosc.h b/lib/pico-sdk/rp2350/hardware/regs/xosc.h
new file mode 100644
index 0000000..782c30c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/regs/xosc.h
@@ -0,0 +1,175 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+// =============================================================================
+// Register block : XOSC
+// Version        : 1
+// Bus type       : apb
+// Description    : Controls the crystal oscillator
+// =============================================================================
+#ifndef _HARDWARE_REGS_XOSC_H
+#define _HARDWARE_REGS_XOSC_H
+// =============================================================================
+// Register    : XOSC_CTRL
+// Description : Crystal Oscillator Control
+#define XOSC_CTRL_OFFSET _u(0x00000000)
+#define XOSC_CTRL_BITS   _u(0x00ffffff)
+#define XOSC_CTRL_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : XOSC_CTRL_ENABLE
+// Description : On power-up this field is initialised to DISABLE and the chip
+//               runs from the ROSC.
+//               If the chip has subsequently been programmed to run from the
+//               XOSC then setting this field to DISABLE may lock-up the chip.
+//               If  this is a concern then run the clk_ref from the ROSC and
+//               enable the clk_sys RESUS feature.
+//               The 12-bit code is intended to give some protection against
+//               accidental writes. An invalid setting will retain the previous
+//               value. The actual value being used can be read from
+//               STATUS_ENABLED
+//               0xd1e -> DISABLE
+//               0xfab -> ENABLE
+#define XOSC_CTRL_ENABLE_RESET  "-"
+#define XOSC_CTRL_ENABLE_BITS   _u(0x00fff000)
+#define XOSC_CTRL_ENABLE_MSB    _u(23)
+#define XOSC_CTRL_ENABLE_LSB    _u(12)
+#define XOSC_CTRL_ENABLE_ACCESS "RW"
+#define XOSC_CTRL_ENABLE_VALUE_DISABLE _u(0xd1e)
+#define XOSC_CTRL_ENABLE_VALUE_ENABLE _u(0xfab)
+// -----------------------------------------------------------------------------
+// Field       : XOSC_CTRL_FREQ_RANGE
+// Description : The 12-bit code is intended to give some protection against
+//               accidental writes. An invalid setting will retain the previous
+//               value. The actual value being used can be read from
+//               STATUS_FREQ_RANGE
+//               0xaa0 -> 1_15MHZ
+//               0xaa1 -> 10_30MHZ
+//               0xaa2 -> 25_60MHZ
+//               0xaa3 -> 40_100MHZ
+#define XOSC_CTRL_FREQ_RANGE_RESET  "-"
+#define XOSC_CTRL_FREQ_RANGE_BITS   _u(0x00000fff)
+#define XOSC_CTRL_FREQ_RANGE_MSB    _u(11)
+#define XOSC_CTRL_FREQ_RANGE_LSB    _u(0)
+#define XOSC_CTRL_FREQ_RANGE_ACCESS "RW"
+#define XOSC_CTRL_FREQ_RANGE_VALUE_1_15MHZ _u(0xaa0)
+#define XOSC_CTRL_FREQ_RANGE_VALUE_10_30MHZ _u(0xaa1)
+#define XOSC_CTRL_FREQ_RANGE_VALUE_25_60MHZ _u(0xaa2)
+#define XOSC_CTRL_FREQ_RANGE_VALUE_40_100MHZ _u(0xaa3)
+// =============================================================================
+// Register    : XOSC_STATUS
+// Description : Crystal Oscillator Status
+#define XOSC_STATUS_OFFSET _u(0x00000004)
+#define XOSC_STATUS_BITS   _u(0x81001003)
+#define XOSC_STATUS_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STATUS_STABLE
+// Description : Oscillator is running and stable
+#define XOSC_STATUS_STABLE_RESET  _u(0x0)
+#define XOSC_STATUS_STABLE_BITS   _u(0x80000000)
+#define XOSC_STATUS_STABLE_MSB    _u(31)
+#define XOSC_STATUS_STABLE_LSB    _u(31)
+#define XOSC_STATUS_STABLE_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STATUS_BADWRITE
+// Description : An invalid value has been written to CTRL_ENABLE or
+//               CTRL_FREQ_RANGE or DORMANT
+#define XOSC_STATUS_BADWRITE_RESET  _u(0x0)
+#define XOSC_STATUS_BADWRITE_BITS   _u(0x01000000)
+#define XOSC_STATUS_BADWRITE_MSB    _u(24)
+#define XOSC_STATUS_BADWRITE_LSB    _u(24)
+#define XOSC_STATUS_BADWRITE_ACCESS "WC"
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STATUS_ENABLED
+// Description : Oscillator is enabled but not necessarily running and stable,
+//               resets to 0
+#define XOSC_STATUS_ENABLED_RESET  "-"
+#define XOSC_STATUS_ENABLED_BITS   _u(0x00001000)
+#define XOSC_STATUS_ENABLED_MSB    _u(12)
+#define XOSC_STATUS_ENABLED_LSB    _u(12)
+#define XOSC_STATUS_ENABLED_ACCESS "RO"
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STATUS_FREQ_RANGE
+// Description : The current frequency range setting
+//               0x0 -> 1_15MHZ
+//               0x1 -> 10_30MHZ
+//               0x2 -> 25_60MHZ
+//               0x3 -> 40_100MHZ
+#define XOSC_STATUS_FREQ_RANGE_RESET  "-"
+#define XOSC_STATUS_FREQ_RANGE_BITS   _u(0x00000003)
+#define XOSC_STATUS_FREQ_RANGE_MSB    _u(1)
+#define XOSC_STATUS_FREQ_RANGE_LSB    _u(0)
+#define XOSC_STATUS_FREQ_RANGE_ACCESS "RO"
+#define XOSC_STATUS_FREQ_RANGE_VALUE_1_15MHZ _u(0x0)
+#define XOSC_STATUS_FREQ_RANGE_VALUE_10_30MHZ _u(0x1)
+#define XOSC_STATUS_FREQ_RANGE_VALUE_25_60MHZ _u(0x2)
+#define XOSC_STATUS_FREQ_RANGE_VALUE_40_100MHZ _u(0x3)
+// =============================================================================
+// Register    : XOSC_DORMANT
+// Description : Crystal Oscillator pause control
+//               This is used to save power by pausing the XOSC
+//               On power-up this field is initialised to WAKE
+//               An invalid write will also select WAKE
+//               Warning: stop the PLLs before selecting dormant mode
+//               Warning: setup the irq before selecting dormant mode
+//               0x636f6d61 -> dormant
+//               0x77616b65 -> WAKE
+#define XOSC_DORMANT_OFFSET _u(0x00000008)
+#define XOSC_DORMANT_BITS   _u(0xffffffff)
+#define XOSC_DORMANT_RESET  "-"
+#define XOSC_DORMANT_MSB    _u(31)
+#define XOSC_DORMANT_LSB    _u(0)
+#define XOSC_DORMANT_ACCESS "RW"
+#define XOSC_DORMANT_VALUE_DORMANT _u(0x636f6d61)
+#define XOSC_DORMANT_VALUE_WAKE _u(0x77616b65)
+// =============================================================================
+// Register    : XOSC_STARTUP
+// Description : Controls the startup delay
+#define XOSC_STARTUP_OFFSET _u(0x0000000c)
+#define XOSC_STARTUP_BITS   _u(0x00103fff)
+#define XOSC_STARTUP_RESET  _u(0x00000000)
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STARTUP_X4
+// Description : Multiplies the startup_delay by 4, just in case. The reset
+//               value is controlled by a mask-programmable tiecell and is
+//               provided in case we are booting from XOSC and the default
+//               startup delay is insufficient. The reset value is 0x0.
+#define XOSC_STARTUP_X4_RESET  "-"
+#define XOSC_STARTUP_X4_BITS   _u(0x00100000)
+#define XOSC_STARTUP_X4_MSB    _u(20)
+#define XOSC_STARTUP_X4_LSB    _u(20)
+#define XOSC_STARTUP_X4_ACCESS "RW"
+// -----------------------------------------------------------------------------
+// Field       : XOSC_STARTUP_DELAY
+// Description : in multiples of 256*xtal_period. The reset value of 0xc4
+//               corresponds to approx 50 000 cycles.
+#define XOSC_STARTUP_DELAY_RESET  "-"
+#define XOSC_STARTUP_DELAY_BITS   _u(0x00003fff)
+#define XOSC_STARTUP_DELAY_MSB    _u(13)
+#define XOSC_STARTUP_DELAY_LSB    _u(0)
+#define XOSC_STARTUP_DELAY_ACCESS "RW"
+// =============================================================================
+// Register    : XOSC_COUNT
+// Description : A down counter running at the xosc frequency which counts to
+//               zero and stops.
+//               Can be used for short software pauses when setting up time
+//               sensitive hardware.
+//               To start the counter, write a non-zero value. Reads will return
+//               1 while the count is running and 0 when it has finished.
+//               Minimum count value is 4. Count values <4 will be treated as
+//               count value =4.
+//               Note that synchronisation to the register clock domain costs 2
+//               register clock cycles and the counter cannot compensate for
+//               that.
+#define XOSC_COUNT_OFFSET _u(0x00000010)
+#define XOSC_COUNT_BITS   _u(0x0000ffff)
+#define XOSC_COUNT_RESET  _u(0x00000000)
+#define XOSC_COUNT_MSB    _u(15)
+#define XOSC_COUNT_LSB    _u(0)
+#define XOSC_COUNT_ACCESS "RW"
+// =============================================================================
+#endif // _HARDWARE_REGS_XOSC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/accessctrl.h b/lib/pico-sdk/rp2350/hardware/structs/accessctrl.h
new file mode 100644
index 0000000..5fd30cb
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/accessctrl.h
@@ -0,0 +1,519 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_ACCESSCTRL_H
+#define _HARDWARE_STRUCTS_ACCESSCTRL_H
+
+/**
+ * \file rp2350/accessctrl.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/accessctrl.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_accessctrl
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/accessctrl.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(ACCESSCTRL_LOCK_OFFSET) // ACCESSCTRL_LOCK
+    // Once a LOCK bit is written to 1, ACCESSCTRL silently ignores writes from that master
+    // 0x00000008 [3]     DEBUG        (0) 
+    // 0x00000004 [2]     DMA          (1) 
+    // 0x00000002 [1]     CORE1        (0) 
+    // 0x00000001 [0]     CORE0        (0) 
+    io_rw_32 lock;
+ 
+    _REG_(ACCESSCTRL_FORCE_CORE_NS_OFFSET) // ACCESSCTRL_FORCE_CORE_NS
+    // Force core 1's bus accesses to always be Non-secure, no matter the core's internal state
+    // 0x00000002 [1]     CORE1        (0) 
+    io_rw_32 force_core_ns;
+ 
+    _REG_(ACCESSCTRL_CFGRESET_OFFSET) // ACCESSCTRL_CFGRESET
+    // Write 1 to reset all ACCESSCTRL configuration, except for the LOCK and FORCE_CORE_NS registers
+    // 0x00000001 [0]     CFGRESET     (0) 
+    io_wo_32 cfgreset;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_GPIO_NSMASK0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_GPIO_NSMASK0_OFFSET) // ACCESSCTRL_GPIO_NSMASK0
+    // Control whether GPIO0
+    // 0xffffffff [31:0]  GPIO_NSMASK0 (0x00000000) 
+    io_rw_32 gpio_nsmask[2];
+ 
+    _REG_(ACCESSCTRL_ROM_OFFSET) // ACCESSCTRL_ROM
+    // Control access to ROM. Defaults to fully open access.
+    // 0x00000080 [7]     DBG          (1) If 1, ROM can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, ROM can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, ROM can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, ROM can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, ROM can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, ROM can be accessed from a...
+    // 0x00000002 [1]     NSP          (1) If 1, ROM can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (1) If 1, and NSP is also set, ROM can be accessed from a...
+    io_rw_32 rom;
+ 
+    _REG_(ACCESSCTRL_XIP_MAIN_OFFSET) // ACCESSCTRL_XIP_MAIN
+    // Control access to XIP_MAIN. Defaults to fully open access.
+    // 0x00000080 [7]     DBG          (1) If 1, XIP_MAIN can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, XIP_MAIN can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, XIP_MAIN can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, XIP_MAIN can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, XIP_MAIN can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, XIP_MAIN can be accessed from...
+    // 0x00000002 [1]     NSP          (1) If 1, XIP_MAIN can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (1) If 1, and NSP is also set, XIP_MAIN can be accessed from...
+    io_rw_32 xip_main;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_SRAM0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_SRAM0_OFFSET) // ACCESSCTRL_SRAM0
+    // Control access to SRAM0. Defaults to fully open access.
+    // 0x00000080 [7]     DBG          (1) If 1, SRAM0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, SRAM0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, SRAM0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, SRAM0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, SRAM0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, SRAM0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (1) If 1, SRAM0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (1) If 1, and NSP is also set, SRAM0 can be accessed from a...
+    io_rw_32 sram[10];
+ 
+    _REG_(ACCESSCTRL_DMA_OFFSET) // ACCESSCTRL_DMA
+    // Control access to DMA. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, DMA can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, DMA can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, DMA can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, DMA can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, DMA can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, DMA can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, DMA can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, DMA can be accessed from a...
+    io_rw_32 dma;
+ 
+    _REG_(ACCESSCTRL_USBCTRL_OFFSET) // ACCESSCTRL_USBCTRL
+    // Control access to USBCTRL. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, USBCTRL can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, USBCTRL can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, USBCTRL can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, USBCTRL can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, USBCTRL can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, USBCTRL can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, USBCTRL can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, USBCTRL can be accessed from...
+    io_rw_32 usbctrl;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_PIO0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_PIO0_OFFSET) // ACCESSCTRL_PIO0
+    // Control access to PIO0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, PIO0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, PIO0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PIO0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PIO0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PIO0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, PIO0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, PIO0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PIO0 can be accessed from a...
+    io_rw_32 pio[3];
+ 
+    _REG_(ACCESSCTRL_CORESIGHT_TRACE_OFFSET) // ACCESSCTRL_CORESIGHT_TRACE
+    // Control access to CORESIGHT_TRACE. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, CORESIGHT_TRACE can be accessed by the debugger,...
+    // 0x00000040 [6]     DMA          (0) If 1, CORESIGHT_TRACE can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, CORESIGHT_TRACE can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, CORESIGHT_TRACE can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, CORESIGHT_TRACE can be accessed from a Secure,...
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, CORESIGHT_TRACE can be...
+    // 0x00000002 [1]     NSP          (0) If 1, CORESIGHT_TRACE can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, CORESIGHT_TRACE can be...
+    io_rw_32 coresight_trace;
+ 
+    _REG_(ACCESSCTRL_CORESIGHT_PERIPH_OFFSET) // ACCESSCTRL_CORESIGHT_PERIPH
+    // Control access to CORESIGHT_PERIPH. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, CORESIGHT_PERIPH can be accessed by the debugger,...
+    // 0x00000040 [6]     DMA          (0) If 1, CORESIGHT_PERIPH can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, CORESIGHT_PERIPH can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, CORESIGHT_PERIPH can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, CORESIGHT_PERIPH can be accessed from a Secure,...
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, CORESIGHT_PERIPH can be...
+    // 0x00000002 [1]     NSP          (0) If 1, CORESIGHT_PERIPH can be accessed from a...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, CORESIGHT_PERIPH can be...
+    io_rw_32 coresight_periph;
+ 
+    _REG_(ACCESSCTRL_SYSINFO_OFFSET) // ACCESSCTRL_SYSINFO
+    // Control access to SYSINFO. Defaults to fully open access.
+    // 0x00000080 [7]     DBG          (1) If 1, SYSINFO can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, SYSINFO can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, SYSINFO can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, SYSINFO can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, SYSINFO can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, SYSINFO can be accessed from a...
+    // 0x00000002 [1]     NSP          (1) If 1, SYSINFO can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (1) If 1, and NSP is also set, SYSINFO can be accessed from...
+    io_rw_32 sysinfo;
+ 
+    _REG_(ACCESSCTRL_RESETS_OFFSET) // ACCESSCTRL_RESETS
+    // Control access to RESETS. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, RESETS can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, RESETS can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, RESETS can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, RESETS can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, RESETS can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, RESETS can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, RESETS can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, RESETS can be accessed from a...
+    io_rw_32 resets;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_IO_BANK0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_IO_BANK0_OFFSET) // ACCESSCTRL_IO_BANK0
+    // Control access to IO_BANK0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, IO_BANK0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, IO_BANK0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, IO_BANK0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, IO_BANK0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, IO_BANK0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, IO_BANK0 can be accessed from...
+    // 0x00000002 [1]     NSP          (0) If 1, IO_BANK0 can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, IO_BANK0 can be accessed from...
+    io_rw_32 io_bank[2];
+ 
+    _REG_(ACCESSCTRL_PADS_BANK0_OFFSET) // ACCESSCTRL_PADS_BANK0
+    // Control access to PADS_BANK0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, PADS_BANK0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, PADS_BANK0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PADS_BANK0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PADS_BANK0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PADS_BANK0 can be accessed from a Secure,...
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, PADS_BANK0 can be accessed...
+    // 0x00000002 [1]     NSP          (0) If 1, PADS_BANK0 can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PADS_BANK0 can be accessed...
+    io_rw_32 pads_bank0;
+ 
+    _REG_(ACCESSCTRL_PADS_QSPI_OFFSET) // ACCESSCTRL_PADS_QSPI
+    // Control access to PADS_QSPI. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, PADS_QSPI can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, PADS_QSPI can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PADS_QSPI can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PADS_QSPI can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PADS_QSPI can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, PADS_QSPI can be accessed from...
+    // 0x00000002 [1]     NSP          (0) If 1, PADS_QSPI can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PADS_QSPI can be accessed...
+    io_rw_32 pads_qspi;
+ 
+    _REG_(ACCESSCTRL_BUSCTRL_OFFSET) // ACCESSCTRL_BUSCTRL
+    // Control access to BUSCTRL. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, BUSCTRL can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, BUSCTRL can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, BUSCTRL can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, BUSCTRL can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, BUSCTRL can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, BUSCTRL can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, BUSCTRL can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, BUSCTRL can be accessed from...
+    io_rw_32 busctrl;
+ 
+    _REG_(ACCESSCTRL_ADC0_OFFSET) // ACCESSCTRL_ADC0
+    // Control access to ADC0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, ADC0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, ADC0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, ADC0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, ADC0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, ADC0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, ADC0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, ADC0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, ADC0 can be accessed from a...
+    io_rw_32 adc0;
+ 
+    _REG_(ACCESSCTRL_HSTX_OFFSET) // ACCESSCTRL_HSTX
+    // Control access to HSTX. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, HSTX can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, HSTX can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, HSTX can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, HSTX can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, HSTX can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, HSTX can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, HSTX can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, HSTX can be accessed from a...
+    io_rw_32 hstx;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_I2C0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_I2C0_OFFSET) // ACCESSCTRL_I2C0
+    // Control access to I2C0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, I2C0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, I2C0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, I2C0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, I2C0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, I2C0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, I2C0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, I2C0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, I2C0 can be accessed from a...
+    io_rw_32 i2c[2];
+ 
+    _REG_(ACCESSCTRL_PWM_OFFSET) // ACCESSCTRL_PWM
+    // Control access to PWM. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, PWM can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, PWM can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PWM can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PWM can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PWM can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, PWM can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, PWM can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PWM can be accessed from a...
+    io_rw_32 pwm;
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_SPI0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_SPI0_OFFSET) // ACCESSCTRL_SPI0
+    // Control access to SPI0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, SPI0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, SPI0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, SPI0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, SPI0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, SPI0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, SPI0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, SPI0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, SPI0 can be accessed from a...
+    io_rw_32 spi[2];
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_TIMER0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_TIMER0_OFFSET) // ACCESSCTRL_TIMER0
+    // Control access to TIMER0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, TIMER0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, TIMER0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, TIMER0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, TIMER0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, TIMER0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, TIMER0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, TIMER0 can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, TIMER0 can be accessed from a...
+    io_rw_32 timer[2];
+ 
+    // (Description copied from array index 0 register ACCESSCTRL_UART0 applies similarly to other array indexes)
+    _REG_(ACCESSCTRL_UART0_OFFSET) // ACCESSCTRL_UART0
+    // Control access to UART0. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, UART0 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, UART0 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, UART0 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, UART0 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, UART0 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, UART0 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, UART0 can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, UART0 can be accessed from a...
+    io_rw_32 uart[2];
+ 
+    _REG_(ACCESSCTRL_OTP_OFFSET) // ACCESSCTRL_OTP
+    // Control access to OTP. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, OTP can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, OTP can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, OTP can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, OTP can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, OTP can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, OTP can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, OTP can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, OTP can be accessed from a...
+    io_rw_32 otp;
+ 
+    _REG_(ACCESSCTRL_TBMAN_OFFSET) // ACCESSCTRL_TBMAN
+    // Control access to TBMAN. Defaults to Secure access from any master.
+    // 0x00000080 [7]     DBG          (1) If 1, TBMAN can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, TBMAN can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, TBMAN can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, TBMAN can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, TBMAN can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (1) If 1, and SP is also set, TBMAN can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, TBMAN can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, TBMAN can be accessed from a...
+    io_rw_32 tbman;
+ 
+    _REG_(ACCESSCTRL_POWMAN_OFFSET) // ACCESSCTRL_POWMAN
+    // Control access to POWMAN. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, POWMAN can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, POWMAN can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, POWMAN can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, POWMAN can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, POWMAN can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, POWMAN can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, POWMAN can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, POWMAN can be accessed from a...
+    io_rw_32 powman;
+ 
+    _REG_(ACCESSCTRL_TRNG_OFFSET) // ACCESSCTRL_TRNG
+    // Control access to TRNG. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, TRNG can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, TRNG can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, TRNG can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, TRNG can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, TRNG can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, TRNG can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, TRNG can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, TRNG can be accessed from a...
+    io_rw_32 trng;
+ 
+    _REG_(ACCESSCTRL_SHA256_OFFSET) // ACCESSCTRL_SHA256
+    // Control access to SHA256. Defaults to Secure, Privileged access only.
+    // 0x00000080 [7]     DBG          (1) If 1, SHA256 can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, SHA256 can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, SHA256 can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, SHA256 can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, SHA256 can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, SHA256 can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, SHA256 can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, SHA256 can be accessed from a...
+    io_rw_32 sha256;
+ 
+    _REG_(ACCESSCTRL_SYSCFG_OFFSET) // ACCESSCTRL_SYSCFG
+    // Control access to SYSCFG. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, SYSCFG can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, SYSCFG can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, SYSCFG can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, SYSCFG can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, SYSCFG can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, SYSCFG can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, SYSCFG can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, SYSCFG can be accessed from a...
+    io_rw_32 syscfg;
+ 
+    _REG_(ACCESSCTRL_CLOCKS_OFFSET) // ACCESSCTRL_CLOCKS
+    // Control access to CLOCKS. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, CLOCKS can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, CLOCKS can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, CLOCKS can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, CLOCKS can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, CLOCKS can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, CLOCKS can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, CLOCKS can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, CLOCKS can be accessed from a...
+    io_rw_32 clocks;
+ 
+    _REG_(ACCESSCTRL_XOSC_OFFSET) // ACCESSCTRL_XOSC
+    // Control access to XOSC. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, XOSC can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, XOSC can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, XOSC can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, XOSC can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, XOSC can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, XOSC can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, XOSC can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, XOSC can be accessed from a...
+    io_rw_32 xosc;
+ 
+    _REG_(ACCESSCTRL_ROSC_OFFSET) // ACCESSCTRL_ROSC
+    // Control access to ROSC. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, ROSC can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, ROSC can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, ROSC can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, ROSC can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, ROSC can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, ROSC can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, ROSC can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, ROSC can be accessed from a...
+    io_rw_32 rosc;
+ 
+    _REG_(ACCESSCTRL_PLL_SYS_OFFSET) // ACCESSCTRL_PLL_SYS
+    // Control access to PLL_SYS. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, PLL_SYS can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, PLL_SYS can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PLL_SYS can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PLL_SYS can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PLL_SYS can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, PLL_SYS can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, PLL_SYS can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PLL_SYS can be accessed from...
+    io_rw_32 pll_sys;
+ 
+    _REG_(ACCESSCTRL_PLL_USB_OFFSET) // ACCESSCTRL_PLL_USB
+    // Control access to PLL_USB. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, PLL_USB can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, PLL_USB can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, PLL_USB can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, PLL_USB can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, PLL_USB can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, PLL_USB can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, PLL_USB can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, PLL_USB can be accessed from...
+    io_rw_32 pll_usb;
+ 
+    _REG_(ACCESSCTRL_TICKS_OFFSET) // ACCESSCTRL_TICKS
+    // Control access to TICKS. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, TICKS can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, TICKS can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, TICKS can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, TICKS can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, TICKS can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, TICKS can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, TICKS can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, TICKS can be accessed from a...
+    io_rw_32 ticks;
+ 
+    _REG_(ACCESSCTRL_WATCHDOG_OFFSET) // ACCESSCTRL_WATCHDOG
+    // Control access to WATCHDOG. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, WATCHDOG can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, WATCHDOG can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, WATCHDOG can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, WATCHDOG can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, WATCHDOG can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, WATCHDOG can be accessed from...
+    // 0x00000002 [1]     NSP          (0) If 1, WATCHDOG can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, WATCHDOG can be accessed from...
+    io_rw_32 watchdog;
+ 
+    _REG_(ACCESSCTRL_RSM_OFFSET) // ACCESSCTRL_RSM
+    // Control access to RSM. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, RSM can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, RSM can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, RSM can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, RSM can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, RSM can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, RSM can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, RSM can be accessed from a Non-secure, Privileged context
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, RSM can be accessed from a...
+    io_rw_32 rsm;
+ 
+    _REG_(ACCESSCTRL_XIP_CTRL_OFFSET) // ACCESSCTRL_XIP_CTRL
+    // Control access to XIP_CTRL. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, XIP_CTRL can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, XIP_CTRL can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, XIP_CTRL can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, XIP_CTRL can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, XIP_CTRL can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, XIP_CTRL can be accessed from...
+    // 0x00000002 [1]     NSP          (0) If 1, XIP_CTRL can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, XIP_CTRL can be accessed from...
+    io_rw_32 xip_ctrl;
+ 
+    _REG_(ACCESSCTRL_XIP_QMI_OFFSET) // ACCESSCTRL_XIP_QMI
+    // Control access to XIP_QMI. Defaults to Secure, Privileged processor or debug access only.
+    // 0x00000080 [7]     DBG          (1) If 1, XIP_QMI can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (0) If 1, XIP_QMI can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, XIP_QMI can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, XIP_QMI can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, XIP_QMI can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, XIP_QMI can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, XIP_QMI can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, XIP_QMI can be accessed from...
+    io_rw_32 xip_qmi;
+ 
+    _REG_(ACCESSCTRL_XIP_AUX_OFFSET) // ACCESSCTRL_XIP_AUX
+    // Control access to XIP_AUX. Defaults to Secure, Privileged access only.
+    // 0x00000080 [7]     DBG          (1) If 1, XIP_AUX can be accessed by the debugger, at...
+    // 0x00000040 [6]     DMA          (1) If 1, XIP_AUX can be accessed by the DMA, at...
+    // 0x00000020 [5]     CORE1        (1) If 1, XIP_AUX can be accessed by core 1, at...
+    // 0x00000010 [4]     CORE0        (1) If 1, XIP_AUX can be accessed by core 0, at...
+    // 0x00000008 [3]     SP           (1) If 1, XIP_AUX can be accessed from a Secure, Privileged context
+    // 0x00000004 [2]     SU           (0) If 1, and SP is also set, XIP_AUX can be accessed from a...
+    // 0x00000002 [1]     NSP          (0) If 1, XIP_AUX can be accessed from a Non-secure,...
+    // 0x00000001 [0]     NSU          (0) If 1, and NSP is also set, XIP_AUX can be accessed from...
+    io_rw_32 xip_aux;
+} accessctrl_hw_t;
+
+#define accessctrl_hw ((accessctrl_hw_t *)ACCESSCTRL_BASE)
+static_assert(sizeof (accessctrl_hw_t) == 0x00ec, "");
+
+#endif // _HARDWARE_STRUCTS_ACCESSCTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/adc.h b/lib/pico-sdk/rp2350/hardware/structs/adc.h
new file mode 100644
index 0000000..687128e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/adc.h
@@ -0,0 +1,96 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_ADC_H
+#define _HARDWARE_STRUCTS_ADC_H
+
+/**
+ * \file rp2350/adc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/adc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_adc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/adc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(ADC_CS_OFFSET) // ADC_CS
+    // ADC Control and Status
+    // 0x01ff0000 [24:16] RROBIN       (0x000) Round-robin sampling
+    // 0x0000f000 [15:12] AINSEL       (0x0) Select analog mux input
+    // 0x00000400 [10]    ERR_STICKY   (0) Some past ADC conversion encountered an error
+    // 0x00000200 [9]     ERR          (0) The most recent ADC conversion encountered an error;...
+    // 0x00000100 [8]     READY        (0) 1 if the ADC is ready to start a new conversion
+    // 0x00000008 [3]     START_MANY   (0) Continuously perform conversions whilst this bit is 1
+    // 0x00000004 [2]     START_ONCE   (0) Start a single conversion
+    // 0x00000002 [1]     TS_EN        (0) Power on temperature sensor
+    // 0x00000001 [0]     EN           (0) Power on ADC and enable its clock
+    io_rw_32 cs;
+ 
+    _REG_(ADC_RESULT_OFFSET) // ADC_RESULT
+    // Result of most recent ADC conversion
+    // 0x00000fff [11:0]  RESULT       (0x000) 
+    io_ro_32 result;
+ 
+    _REG_(ADC_FCS_OFFSET) // ADC_FCS
+    // FIFO control and status
+    // 0x0f000000 [27:24] THRESH       (0x0) DREQ/IRQ asserted when level >= threshold
+    // 0x000f0000 [19:16] LEVEL        (0x0) The number of conversion results currently waiting in the FIFO
+    // 0x00000800 [11]    OVER         (0) 1 if the FIFO has been overflowed
+    // 0x00000400 [10]    UNDER        (0) 1 if the FIFO has been underflowed
+    // 0x00000200 [9]     FULL         (0) 
+    // 0x00000100 [8]     EMPTY        (0) 
+    // 0x00000008 [3]     DREQ_EN      (0) If 1: assert DMA requests when FIFO contains data
+    // 0x00000004 [2]     ERR          (0) If 1: conversion error bit appears in the FIFO alongside...
+    // 0x00000002 [1]     SHIFT        (0) If 1: FIFO results are right-shifted to be one byte in size
+    // 0x00000001 [0]     EN           (0) If 1: write result to the FIFO after each conversion
+    io_rw_32 fcs;
+ 
+    _REG_(ADC_FIFO_OFFSET) // ADC_FIFO
+    // Conversion result FIFO
+    // 0x00008000 [15]    ERR          (-) 1 if this particular sample experienced a conversion error
+    // 0x00000fff [11:0]  VAL          (-) 
+    io_ro_32 fifo;
+ 
+    _REG_(ADC_DIV_OFFSET) // ADC_DIV
+    // Clock divider
+    // 0x00ffff00 [23:8]  INT          (0x0000) Integer part of clock divisor
+    // 0x000000ff [7:0]   FRAC         (0x00) Fractional part of clock divisor
+    io_rw_32 div;
+ 
+    _REG_(ADC_INTR_OFFSET) // ADC_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_ro_32 intr;
+ 
+    _REG_(ADC_INTE_OFFSET) // ADC_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_rw_32 inte;
+ 
+    _REG_(ADC_INTF_OFFSET) // ADC_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_rw_32 intf;
+ 
+    _REG_(ADC_INTS_OFFSET) // ADC_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     FIFO         (0) Triggered when the sample FIFO reaches a certain level
+    io_ro_32 ints;
+} adc_hw_t;
+
+#define adc_hw ((adc_hw_t *)ADC_BASE)
+static_assert(sizeof (adc_hw_t) == 0x0024, "");
+
+#endif // _HARDWARE_STRUCTS_ADC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/bootram.h b/lib/pico-sdk/rp2350/hardware/structs/bootram.h
new file mode 100644
index 0000000..b40a039
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/bootram.h
@@ -0,0 +1,49 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_BOOTRAM_H
+#define _HARDWARE_STRUCTS_BOOTRAM_H
+
+/**
+ * \file rp2350/bootram.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/bootram.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_bootram
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/bootram.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    // (Description copied from array index 0 register BOOTRAM_WRITE_ONCE0 applies similarly to other array indexes)
+    _REG_(BOOTRAM_WRITE_ONCE0_OFFSET) // BOOTRAM_WRITE_ONCE0
+    // This registers always ORs writes into its current contents
+    // 0xffffffff [31:0]  WRITE_ONCE0  (0x00000000) 
+    io_rw_32 write_once[2];
+ 
+    _REG_(BOOTRAM_BOOTLOCK_STAT_OFFSET) // BOOTRAM_BOOTLOCK_STAT
+    // Bootlock status register
+    // 0x000000ff [7:0]   BOOTLOCK_STAT (0xff) 
+    io_rw_32 bootlock_stat;
+ 
+    // (Description copied from array index 0 register BOOTRAM_BOOTLOCK0 applies similarly to other array indexes)
+    _REG_(BOOTRAM_BOOTLOCK0_OFFSET) // BOOTRAM_BOOTLOCK0
+    // Read to claim and check
+    // 0xffffffff [31:0]  BOOTLOCK0    (0x00000000) 
+    io_rw_32 bootlock[8];
+} bootram_hw_t;
+
+#define bootram_hw ((bootram_hw_t *)(BOOTRAM_BASE + BOOTRAM_WRITE_ONCE0_OFFSET))
+static_assert(sizeof (bootram_hw_t) == 0x002c, "");
+
+#endif // _HARDWARE_STRUCTS_BOOTRAM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/bus_ctrl.h b/lib/pico-sdk/rp2350/hardware/structs/bus_ctrl.h
new file mode 100644
index 0000000..b94a404
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/bus_ctrl.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/busctrl.h"
+#define bus_ctrl_hw busctrl_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2350/hardware/structs/busctrl.h b/lib/pico-sdk/rp2350/hardware/structs/busctrl.h
new file mode 100644
index 0000000..2eb83a9
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/busctrl.h
@@ -0,0 +1,90 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_BUSCTRL_H
+#define _HARDWARE_STRUCTS_BUSCTRL_H
+
+/**
+ * \file rp2350/busctrl.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/busctrl.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_busctrl
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/busctrl.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Bus fabric performance counters on RP2350 (used as typedef \ref bus_ctrl_perf_counter_t)
+ *  \ingroup hardware_busctrl
+ */
+typedef enum bus_ctrl_perf_counter_rp2350 {
+    arbiter_rom_perf_event_access = 19,
+    arbiter_rom_perf_event_access_contested = 18,
+    arbiter_xip_main_perf_event_access = 17,
+    arbiter_xip_main_perf_event_access_contested = 16,
+    arbiter_sram0_perf_event_access = 15,
+    arbiter_sram0_perf_event_access_contested = 14,
+    arbiter_sram1_perf_event_access = 13,
+    arbiter_sram1_perf_event_access_contested = 12,
+    arbiter_sram2_perf_event_access = 11,
+    arbiter_sram2_perf_event_access_contested = 10,
+    arbiter_sram3_perf_event_access = 9,
+    arbiter_sram3_perf_event_access_contested = 8,
+    arbiter_sram4_perf_event_access = 7,
+    arbiter_sram4_perf_event_access_contested = 6,
+    arbiter_sram5_perf_event_access = 5,
+    arbiter_sram5_perf_event_access_contested = 4,
+    arbiter_fastperi_perf_event_access = 3,
+    arbiter_fastperi_perf_event_access_contested = 2,
+    arbiter_apb_perf_event_access = 1,
+    arbiter_apb_perf_event_access_contested = 0
+} bus_ctrl_perf_counter_t;
+
+typedef struct {
+    _REG_(BUSCTRL_PERFCTR0_OFFSET) // BUSCTRL_PERFCTR0
+    // Bus fabric performance counter 0
+    // 0x00ffffff [23:0]  PERFCTR0     (0x000000) Busfabric saturating performance counter 0 +
+    io_rw_32 value;
+ 
+    _REG_(BUSCTRL_PERFSEL0_OFFSET) // BUSCTRL_PERFSEL0
+    // Bus fabric performance event select for PERFCTR0
+    // 0x0000007f [6:0]   PERFSEL0     (0x1f) Select an event for PERFCTR0
+    io_rw_32 sel;
+} bus_ctrl_perf_hw_t;
+
+typedef struct {
+    _REG_(BUSCTRL_BUS_PRIORITY_OFFSET) // BUSCTRL_BUS_PRIORITY
+    // Set the priority of each master for bus arbitration
+    // 0x00001000 [12]    DMA_W        (0) 0 - low priority, 1 - high priority
+    // 0x00000100 [8]     DMA_R        (0) 0 - low priority, 1 - high priority
+    // 0x00000010 [4]     PROC1        (0) 0 - low priority, 1 - high priority
+    // 0x00000001 [0]     PROC0        (0) 0 - low priority, 1 - high priority
+    io_rw_32 priority;
+ 
+    _REG_(BUSCTRL_BUS_PRIORITY_ACK_OFFSET) // BUSCTRL_BUS_PRIORITY_ACK
+    // Bus priority acknowledge
+    // 0x00000001 [0]     BUS_PRIORITY_ACK (0) Goes to 1 once all arbiters have registered the new...
+    io_ro_32 priority_ack;
+ 
+    _REG_(BUSCTRL_PERFCTR_EN_OFFSET) // BUSCTRL_PERFCTR_EN
+    // Enable the performance counters
+    // 0x00000001 [0]     PERFCTR_EN   (0) 
+    io_rw_32 perfctr_en;
+ 
+    bus_ctrl_perf_hw_t counter[4];
+} busctrl_hw_t;
+
+#define busctrl_hw ((busctrl_hw_t *)BUSCTRL_BASE)
+static_assert(sizeof (busctrl_hw_t) == 0x002c, "");
+
+#endif // _HARDWARE_STRUCTS_BUSCTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/clocks.h b/lib/pico-sdk/rp2350/hardware/structs/clocks.h
new file mode 100644
index 0000000..2cdc1b8
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/clocks.h
@@ -0,0 +1,580 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_CLOCKS_H
+#define _HARDWARE_STRUCTS_CLOCKS_H
+
+/**
+ * \file rp2350/clocks.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/clocks.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_clocks
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/clocks.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Clock numbers on RP2350 (used as typedef \ref clock_num_t) 
+ *  \ingroup hardware_clocks
+ */
+/// \tag::clkenum[]
+typedef enum clock_num_rp2350 {
+    clk_gpout0 = 0, ///< Select CLK_GPOUT0 as clock source
+    clk_gpout1 = 1, ///< Select CLK_GPOUT1 as clock source
+    clk_gpout2 = 2, ///< Select CLK_GPOUT2 as clock source
+    clk_gpout3 = 3, ///< Select CLK_GPOUT3 as clock source
+    clk_ref = 4, ///< Select CLK_REF as clock source
+    clk_sys = 5, ///< Select CLK_SYS as clock source
+    clk_peri = 6, ///< Select CLK_PERI as clock source
+    clk_hstx = 7, ///< Select CLK_HSTX as clock source
+    clk_usb = 8, ///< Select CLK_USB as clock source
+    clk_adc = 9, ///< Select CLK_ADC as clock source
+    CLK_COUNT
+} clock_num_t;
+/// \end::clkenum[]
+
+/** \brief  Clock destination numbers on RP2350 (used as typedef \ref clock_dest_num_t)
+ *  \ingroup hardware_clocks
+ */
+typedef enum clock_dest_num_rp2350 {
+    CLK_DEST_SYS_CLOCKS = 0, ///< Select SYS_CLOCKS as clock destination
+    CLK_DEST_SYS_ACCESSCTRL = 1, ///< Select SYS_ACCESSCTRL as clock destination
+    CLK_DEST_ADC = 2, ///< Select ADC as clock destination
+    CLK_DEST_SYS_ADC = 3, ///< Select SYS_ADC as clock destination
+    CLK_DEST_SYS_BOOTRAM = 4, ///< Select SYS_BOOTRAM as clock destination
+    CLK_DEST_SYS_BUSCTRL = 5, ///< Select SYS_BUSCTRL as clock destination
+    CLK_DEST_SYS_BUSFABRIC = 6, ///< Select SYS_BUSFABRIC as clock destination
+    CLK_DEST_SYS_DMA = 7, ///< Select SYS_DMA as clock destination
+    CLK_DEST_SYS_GLITCH_DETECTOR = 8, ///< Select SYS_GLITCH_DETECTOR as clock destination
+    CLK_DEST_HSTX = 9, ///< Select HSTX as clock destination
+    CLK_DEST_SYS_HSTX = 10, ///< Select SYS_HSTX as clock destination
+    CLK_DEST_SYS_I2C0 = 11, ///< Select SYS_I2C0 as clock destination
+    CLK_DEST_SYS_I2C1 = 12, ///< Select SYS_I2C1 as clock destination
+    CLK_DEST_SYS_IO = 13, ///< Select SYS_IO as clock destination
+    CLK_DEST_SYS_JTAG = 14, ///< Select SYS_JTAG as clock destination
+    CLK_DEST_REF_OTP = 15, ///< Select REF_OTP as clock destination
+    CLK_DEST_SYS_OTP = 16, ///< Select SYS_OTP as clock destination
+    CLK_DEST_SYS_PADS = 17, ///< Select SYS_PADS as clock destination
+    CLK_DEST_SYS_PIO0 = 18, ///< Select SYS_PIO0 as clock destination
+    CLK_DEST_SYS_PIO1 = 19, ///< Select SYS_PIO1 as clock destination
+    CLK_DEST_SYS_PIO2 = 20, ///< Select SYS_PIO2 as clock destination
+    CLK_DEST_SYS_PLL_SYS = 21, ///< Select SYS_PLL_SYS as clock destination
+    CLK_DEST_SYS_PLL_USB = 22, ///< Select SYS_PLL_USB as clock destination
+    CLK_DEST_REF_POWMAN = 23, ///< Select REF_POWMAN as clock destination
+    CLK_DEST_SYS_POWMAN = 24, ///< Select SYS_POWMAN as clock destination
+    CLK_DEST_SYS_PWM = 25, ///< Select SYS_PWM as clock destination
+    CLK_DEST_SYS_RESETS = 26, ///< Select SYS_RESETS as clock destination
+    CLK_DEST_SYS_ROM = 27, ///< Select SYS_ROM as clock destination
+    CLK_DEST_SYS_ROSC = 28, ///< Select SYS_ROSC as clock destination
+    CLK_DEST_SYS_PSM = 29, ///< Select SYS_PSM as clock destination
+    CLK_DEST_SYS_SHA256 = 30, ///< Select SYS_SHA256 as clock destination
+    CLK_DEST_SYS_SIO = 31, ///< Select SYS_SIO as clock destination
+    CLK_DEST_PERI_SPI0 = 32, ///< Select PERI_SPI0 as clock destination
+    CLK_DEST_SYS_SPI0 = 33, ///< Select SYS_SPI0 as clock destination
+    CLK_DEST_PERI_SPI1 = 34, ///< Select PERI_SPI1 as clock destination
+    CLK_DEST_SYS_SPI1 = 35, ///< Select SYS_SPI1 as clock destination
+    CLK_DEST_SYS_SRAM0 = 36, ///< Select SYS_SRAM0 as clock destination
+    CLK_DEST_SYS_SRAM1 = 37, ///< Select SYS_SRAM1 as clock destination
+    CLK_DEST_SYS_SRAM2 = 38, ///< Select SYS_SRAM2 as clock destination
+    CLK_DEST_SYS_SRAM3 = 39, ///< Select SYS_SRAM3 as clock destination
+    CLK_DEST_SYS_SRAM4 = 40, ///< Select SYS_SRAM4 as clock destination
+    CLK_DEST_SYS_SRAM5 = 41, ///< Select SYS_SRAM5 as clock destination
+    CLK_DEST_SYS_SRAM6 = 42, ///< Select SYS_SRAM6 as clock destination
+    CLK_DEST_SYS_SRAM7 = 43, ///< Select SYS_SRAM7 as clock destination
+    CLK_DEST_SYS_SRAM8 = 44, ///< Select SYS_SRAM8 as clock destination
+    CLK_DEST_SYS_SRAM9 = 45, ///< Select SYS_SRAM9 as clock destination
+    CLK_DEST_SYS_SYSCFG = 46, ///< Select SYS_SYSCFG as clock destination
+    CLK_DEST_SYS_SYSINFO = 47, ///< Select SYS_SYSINFO as clock destination
+    CLK_DEST_SYS_TBMAN = 48, ///< Select SYS_TBMAN as clock destination
+    CLK_DEST_REF_TICKS = 49, ///< Select REF_TICKS as clock destination
+    CLK_DEST_SYS_TICKS = 50, ///< Select SYS_TICKS as clock destination
+    CLK_DEST_SYS_TIMER0 = 51, ///< Select SYS_TIMER0 as clock destination
+    CLK_DEST_SYS_TIMER1 = 52, ///< Select SYS_TIMER1 as clock destination
+    CLK_DEST_SYS_TRNG = 53, ///< Select SYS_TRNG as clock destination
+    CLK_DEST_PERI_UART0 = 54, ///< Select PERI_UART0 as clock destination
+    CLK_DEST_SYS_UART0 = 55, ///< Select SYS_UART0 as clock destination
+    CLK_DEST_PERI_UART1 = 56, ///< Select PERI_UART1 as clock destination
+    CLK_DEST_SYS_UART1 = 57, ///< Select SYS_UART1 as clock destination
+    CLK_DEST_SYS_USBCTRL = 58, ///< Select SYS_USBCTRL as clock destination
+    CLK_DEST_USB = 59, ///< Select USB as clock destination
+    CLK_DEST_SYS_WATCHDOG = 60, ///< Select SYS_WATCHDOG as clock destination
+    CLK_DEST_SYS_XIP = 61, ///< Select SYS_XIP as clock destination
+    CLK_DEST_SYS_XOSC = 62, ///< Select SYS_XOSC as clock destination
+    NUM_CLOCK_DESTINATIONS
+} clock_dest_num_t;
+
+/// \tag::clock_hw[]
+typedef struct {
+    _REG_(CLOCKS_CLK_GPOUT0_CTRL_OFFSET) // CLOCKS_CLK_GPOUT0_CTRL
+    // Clock control, can be changed on-the-fly (except for auxsrc)
+    // 0x10000000 [28]    ENABLED      (0) clock generator is enabled
+    // 0x00100000 [20]    NUDGE        (0) An edge on this signal shifts the phase of the output by...
+    // 0x00030000 [17:16] PHASE        (0x0) This delays the enable signal by up to 3 cycles of the...
+    // 0x00001000 [12]    DC50         (0) Enables duty cycle correction for odd divisors, can be...
+    // 0x00000800 [11]    ENABLE       (0) Starts and stops the clock generator cleanly
+    // 0x00000400 [10]    KILL         (0) Asynchronously kills the clock generator, enable must be...
+    // 0x000001e0 [8:5]   AUXSRC       (0x0) Selects the auxiliary clock source, will glitch when switching
+    io_rw_32 ctrl;
+ 
+    _REG_(CLOCKS_CLK_GPOUT0_DIV_OFFSET) // CLOCKS_CLK_GPOUT0_DIV
+    // 0xffff0000 [31:16] INT          (0x0001) Integer part of clock divisor, 0 -> max+1, can be...
+    // 0x0000ffff [15:0]  FRAC         (0x0000) Fractional component of the divisor, can be changed on-the-fly
+    io_rw_32 div;
+ 
+    _REG_(CLOCKS_CLK_GPOUT0_SELECTED_OFFSET) // CLOCKS_CLK_GPOUT0_SELECTED
+    // Indicates which src is currently selected (one-hot)
+    // 0x00000001 [0]     CLK_GPOUT0_SELECTED (1) This slice does not have a glitchless mux (only the...
+    io_ro_32 selected;
+} clock_hw_t;
+/// \end::clock_hw[]
+
+typedef struct {
+    _REG_(CLOCKS_CLK_SYS_RESUS_CTRL_OFFSET) // CLOCKS_CLK_SYS_RESUS_CTRL
+    // 0x00010000 [16]    CLEAR        (0) For clearing the resus after the fault that triggered it...
+    // 0x00001000 [12]    FRCE         (0) Force a resus, for test purposes only
+    // 0x00000100 [8]     ENABLE       (0) Enable resus
+    // 0x000000ff [7:0]   TIMEOUT      (0xff) This is expressed as a number of clk_ref cycles +
+    io_rw_32 ctrl;
+ 
+    _REG_(CLOCKS_CLK_SYS_RESUS_STATUS_OFFSET) // CLOCKS_CLK_SYS_RESUS_STATUS
+    // 0x00000001 [0]     RESUSSED     (0) Clock has been resuscitated, correct the error then send...
+    io_ro_32 status;
+} clock_resus_hw_t;
+
+typedef struct {
+    _REG_(CLOCKS_FC0_REF_KHZ_OFFSET) // CLOCKS_FC0_REF_KHZ
+    // Reference clock frequency in kHz
+    // 0x000fffff [19:0]  FC0_REF_KHZ  (0x00000) 
+    io_rw_32 ref_khz;
+ 
+    _REG_(CLOCKS_FC0_MIN_KHZ_OFFSET) // CLOCKS_FC0_MIN_KHZ
+    // Minimum pass frequency in kHz
+    // 0x01ffffff [24:0]  FC0_MIN_KHZ  (0x0000000) 
+    io_rw_32 min_khz;
+ 
+    _REG_(CLOCKS_FC0_MAX_KHZ_OFFSET) // CLOCKS_FC0_MAX_KHZ
+    // Maximum pass frequency in kHz
+    // 0x01ffffff [24:0]  FC0_MAX_KHZ  (0x1ffffff) 
+    io_rw_32 max_khz;
+ 
+    _REG_(CLOCKS_FC0_DELAY_OFFSET) // CLOCKS_FC0_DELAY
+    // Delays the start of frequency counting to allow the mux to settle +
+    // 0x00000007 [2:0]   FC0_DELAY    (0x1) 
+    io_rw_32 delay;
+ 
+    _REG_(CLOCKS_FC0_INTERVAL_OFFSET) // CLOCKS_FC0_INTERVAL
+    // The test interval is 0
+    // 0x0000000f [3:0]   FC0_INTERVAL (0x8) 
+    io_rw_32 interval;
+ 
+    _REG_(CLOCKS_FC0_SRC_OFFSET) // CLOCKS_FC0_SRC
+    // Clock sent to frequency counter, set to 0 when not required +
+    // 0x000000ff [7:0]   FC0_SRC      (0x00) 
+    io_rw_32 src;
+ 
+    _REG_(CLOCKS_FC0_STATUS_OFFSET) // CLOCKS_FC0_STATUS
+    // Frequency counter status
+    // 0x10000000 [28]    DIED         (0) Test clock stopped during test
+    // 0x01000000 [24]    FAST         (0) Test clock faster than expected, only valid when status_done=1
+    // 0x00100000 [20]    SLOW         (0) Test clock slower than expected, only valid when status_done=1
+    // 0x00010000 [16]    FAIL         (0) Test failed
+    // 0x00001000 [12]    WAITING      (0) Waiting for test clock to start
+    // 0x00000100 [8]     RUNNING      (0) Test running
+    // 0x00000010 [4]     DONE         (0) Test complete
+    // 0x00000001 [0]     PASS         (0) Test passed
+    io_ro_32 status;
+ 
+    _REG_(CLOCKS_FC0_RESULT_OFFSET) // CLOCKS_FC0_RESULT
+    // Result of frequency measurement, only valid when status_done=1
+    // 0x3fffffe0 [29:5]  KHZ          (0x0000000) 
+    // 0x0000001f [4:0]   FRAC         (0x00) 
+    io_ro_32 result;
+} fc_hw_t;
+
+typedef struct {
+    clock_hw_t clk[10];
+ 
+    _REG_(CLOCKS_DFTCLK_XOSC_CTRL_OFFSET) // CLOCKS_DFTCLK_XOSC_CTRL
+    // 0x00000003 [1:0]   SRC          (0x0) 
+    io_rw_32 dftclk_xosc_ctrl;
+ 
+    _REG_(CLOCKS_DFTCLK_ROSC_CTRL_OFFSET) // CLOCKS_DFTCLK_ROSC_CTRL
+    // 0x00000003 [1:0]   SRC          (0x0) 
+    io_rw_32 dftclk_rosc_ctrl;
+ 
+    _REG_(CLOCKS_DFTCLK_LPOSC_CTRL_OFFSET) // CLOCKS_DFTCLK_LPOSC_CTRL
+    // 0x00000003 [1:0]   SRC          (0x0) 
+    io_rw_32 dftclk_lposc_ctrl;
+ 
+    clock_resus_hw_t resus;
+ 
+    fc_hw_t fc0;
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_WAKE_EN0_OFFSET) // CLOCKS_WAKE_EN0
+            // enable clock in wake mode
+            // 0x80000000 [31]    CLK_SYS_SIOB (1) 
+            // 0x40000000 [30]    CLK_SYS_SHA256 (1) 
+            // 0x20000000 [29]    CLK_SYS_RSM  (1) 
+            // 0x10000000 [28]    CLK_SYS_ROSC (1) 
+            // 0x08000000 [27]    CLK_SYS_ROM  (1) 
+            // 0x04000000 [26]    CLK_SYS_RESETS (1) 
+            // 0x02000000 [25]    CLK_SYS_PWM  (1) 
+            // 0x01000000 [24]    CLK_SYS_POWMAN (1) 
+            // 0x00800000 [23]    CLK_REF_POWMAN (1) 
+            // 0x00400000 [22]    CLK_SYS_PLL_USB (1) 
+            // 0x00200000 [21]    CLK_SYS_PLL_SYS (1) 
+            // 0x00100000 [20]    CLK_SYS_PIO2 (1) 
+            // 0x00080000 [19]    CLK_SYS_PIO1 (1) 
+            // 0x00040000 [18]    CLK_SYS_PIO0 (1) 
+            // 0x00020000 [17]    CLK_SYS_PADS (1) 
+            // 0x00010000 [16]    CLK_SYS_OTP  (1) 
+            // 0x00008000 [15]    CLK_REF_OTP  (1) 
+            // 0x00004000 [14]    CLK_SYS_JTAG (1) 
+            // 0x00002000 [13]    CLK_SYS_IO   (1) 
+            // 0x00001000 [12]    CLK_SYS_I2C1 (1) 
+            // 0x00000800 [11]    CLK_SYS_I2C0 (1) 
+            // 0x00000400 [10]    CLK_SYS_HSTX (1) 
+            // 0x00000200 [9]     CLK_HSTX     (1) 
+            // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (1) 
+            // 0x00000080 [7]     CLK_SYS_DMA  (1) 
+            // 0x00000040 [6]     CLK_SYS_BUSFABRIC (1) 
+            // 0x00000020 [5]     CLK_SYS_BUSCTRL (1) 
+            // 0x00000010 [4]     CLK_SYS_BOOTRAM (1) 
+            // 0x00000008 [3]     CLK_SYS_ADC  (1) 
+            // 0x00000004 [2]     CLK_ADC      (1) 
+            // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (1) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+            io_rw_32 wake_en0; 
+
+            _REG_(CLOCKS_WAKE_EN1_OFFSET) // CLOCKS_WAKE_EN1
+            // enable clock in wake mode
+            // 0x40000000 [30]    CLK_SYS_XOSC (1) 
+            // 0x20000000 [29]    CLK_SYS_XIP  (1) 
+            // 0x10000000 [28]    CLK_SYS_WATCHDOG (1) 
+            // 0x08000000 [27]    CLK_USB      (1) 
+            // 0x04000000 [26]    CLK_SYS_USBCTRL (1) 
+            // 0x02000000 [25]    CLK_SYS_UART1 (1) 
+            // 0x01000000 [24]    CLK_PERI_UART1 (1) 
+            // 0x00800000 [23]    CLK_SYS_UART0 (1) 
+            // 0x00400000 [22]    CLK_PERI_UART0 (1) 
+            // 0x00200000 [21]    CLK_SYS_TRNG (1) 
+            // 0x00100000 [20]    CLK_SYS_TIMER1 (1) 
+            // 0x00080000 [19]    CLK_SYS_TIMER0 (1) 
+            // 0x00040000 [18]    CLK_SYS_TICKS (1) 
+            // 0x00020000 [17]    CLK_REF_TICKS (1) 
+            // 0x00010000 [16]    CLK_SYS_TBMAN (1) 
+            // 0x00008000 [15]    CLK_SYS_SYSINFO (1) 
+            // 0x00004000 [14]    CLK_SYS_SYSCFG (1) 
+            // 0x00002000 [13]    CLK_SYS_SRAM9 (1) 
+            // 0x00001000 [12]    CLK_SYS_SRAM8 (1) 
+            // 0x00000800 [11]    CLK_SYS_SRAM7 (1) 
+            // 0x00000400 [10]    CLK_SYS_SRAM6 (1) 
+            // 0x00000200 [9]     CLK_SYS_SRAM5 (1) 
+            // 0x00000100 [8]     CLK_SYS_SRAM4 (1) 
+            // 0x00000080 [7]     CLK_SYS_SRAM3 (1) 
+            // 0x00000040 [6]     CLK_SYS_SRAM2 (1) 
+            // 0x00000020 [5]     CLK_SYS_SRAM1 (1) 
+            // 0x00000010 [4]     CLK_SYS_SRAM0 (1) 
+            // 0x00000008 [3]     CLK_SYS_SPI1 (1) 
+            // 0x00000004 [2]     CLK_PERI_SPI1 (1) 
+            // 0x00000002 [1]     CLK_SYS_SPI0 (1) 
+            // 0x00000001 [0]     CLK_PERI_SPI0 (1) 
+            io_rw_32 wake_en1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_WAKE_EN0 applies similarly to other array indexes)
+        _REG_(CLOCKS_WAKE_EN0_OFFSET) // CLOCKS_WAKE_EN0
+        // enable clock in wake mode
+        // 0x80000000 [31]    CLK_SYS_SIO  (1) 
+        // 0x40000000 [30]    CLK_SYS_SHA256 (1) 
+        // 0x20000000 [29]    CLK_SYS_PSM  (1) 
+        // 0x10000000 [28]    CLK_SYS_ROSC (1) 
+        // 0x08000000 [27]    CLK_SYS_ROM  (1) 
+        // 0x04000000 [26]    CLK_SYS_RESETS (1) 
+        // 0x02000000 [25]    CLK_SYS_PWM  (1) 
+        // 0x01000000 [24]    CLK_SYS_POWMAN (1) 
+        // 0x00800000 [23]    CLK_REF_POWMAN (1) 
+        // 0x00400000 [22]    CLK_SYS_PLL_USB (1) 
+        // 0x00200000 [21]    CLK_SYS_PLL_SYS (1) 
+        // 0x00100000 [20]    CLK_SYS_PIO2 (1) 
+        // 0x00080000 [19]    CLK_SYS_PIO1 (1) 
+        // 0x00040000 [18]    CLK_SYS_PIO0 (1) 
+        // 0x00020000 [17]    CLK_SYS_PADS (1) 
+        // 0x00010000 [16]    CLK_SYS_OTP  (1) 
+        // 0x00008000 [15]    CLK_REF_OTP  (1) 
+        // 0x00004000 [14]    CLK_SYS_JTAG (1) 
+        // 0x00002000 [13]    CLK_SYS_IO   (1) 
+        // 0x00001000 [12]    CLK_SYS_I2C1 (1) 
+        // 0x00000800 [11]    CLK_SYS_I2C0 (1) 
+        // 0x00000400 [10]    CLK_SYS_HSTX (1) 
+        // 0x00000200 [9]     CLK_HSTX     (1) 
+        // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (1) 
+        // 0x00000080 [7]     CLK_SYS_DMA  (1) 
+        // 0x00000040 [6]     CLK_SYS_BUSFABRIC (1) 
+        // 0x00000020 [5]     CLK_SYS_BUSCTRL (1) 
+        // 0x00000010 [4]     CLK_SYS_BOOTRAM (1) 
+        // 0x00000008 [3]     CLK_SYS_ADC  (1) 
+        // 0x00000004 [2]     CLK_ADC      (1) 
+        // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (1) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+        io_rw_32 wake_en[2];
+    };
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_SLEEP_EN0_OFFSET) // CLOCKS_SLEEP_EN0
+            // enable clock in sleep mode
+            // 0x80000000 [31]    CLK_SYS_SIOB (1) 
+            // 0x40000000 [30]    CLK_SYS_SHA256 (1) 
+            // 0x20000000 [29]    CLK_SYS_RSM  (1) 
+            // 0x10000000 [28]    CLK_SYS_ROSC (1) 
+            // 0x08000000 [27]    CLK_SYS_ROM  (1) 
+            // 0x04000000 [26]    CLK_SYS_RESETS (1) 
+            // 0x02000000 [25]    CLK_SYS_PWM  (1) 
+            // 0x01000000 [24]    CLK_SYS_POWMAN (1) 
+            // 0x00800000 [23]    CLK_REF_POWMAN (1) 
+            // 0x00400000 [22]    CLK_SYS_PLL_USB (1) 
+            // 0x00200000 [21]    CLK_SYS_PLL_SYS (1) 
+            // 0x00100000 [20]    CLK_SYS_PIO2 (1) 
+            // 0x00080000 [19]    CLK_SYS_PIO1 (1) 
+            // 0x00040000 [18]    CLK_SYS_PIO0 (1) 
+            // 0x00020000 [17]    CLK_SYS_PADS (1) 
+            // 0x00010000 [16]    CLK_SYS_OTP  (1) 
+            // 0x00008000 [15]    CLK_REF_OTP  (1) 
+            // 0x00004000 [14]    CLK_SYS_JTAG (1) 
+            // 0x00002000 [13]    CLK_SYS_IO   (1) 
+            // 0x00001000 [12]    CLK_SYS_I2C1 (1) 
+            // 0x00000800 [11]    CLK_SYS_I2C0 (1) 
+            // 0x00000400 [10]    CLK_SYS_HSTX (1) 
+            // 0x00000200 [9]     CLK_HSTX     (1) 
+            // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (1) 
+            // 0x00000080 [7]     CLK_SYS_DMA  (1) 
+            // 0x00000040 [6]     CLK_SYS_BUSFABRIC (1) 
+            // 0x00000020 [5]     CLK_SYS_BUSCTRL (1) 
+            // 0x00000010 [4]     CLK_SYS_BOOTRAM (1) 
+            // 0x00000008 [3]     CLK_SYS_ADC  (1) 
+            // 0x00000004 [2]     CLK_ADC      (1) 
+            // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (1) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+            io_rw_32 sleep_en0; 
+
+            _REG_(CLOCKS_SLEEP_EN1_OFFSET) // CLOCKS_SLEEP_EN1
+            // enable clock in sleep mode
+            // 0x40000000 [30]    CLK_SYS_XOSC (1) 
+            // 0x20000000 [29]    CLK_SYS_XIP  (1) 
+            // 0x10000000 [28]    CLK_SYS_WATCHDOG (1) 
+            // 0x08000000 [27]    CLK_USB      (1) 
+            // 0x04000000 [26]    CLK_SYS_USBCTRL (1) 
+            // 0x02000000 [25]    CLK_SYS_UART1 (1) 
+            // 0x01000000 [24]    CLK_PERI_UART1 (1) 
+            // 0x00800000 [23]    CLK_SYS_UART0 (1) 
+            // 0x00400000 [22]    CLK_PERI_UART0 (1) 
+            // 0x00200000 [21]    CLK_SYS_TRNG (1) 
+            // 0x00100000 [20]    CLK_SYS_TIMER1 (1) 
+            // 0x00080000 [19]    CLK_SYS_TIMER0 (1) 
+            // 0x00040000 [18]    CLK_SYS_TICKS (1) 
+            // 0x00020000 [17]    CLK_REF_TICKS (1) 
+            // 0x00010000 [16]    CLK_SYS_TBMAN (1) 
+            // 0x00008000 [15]    CLK_SYS_SYSINFO (1) 
+            // 0x00004000 [14]    CLK_SYS_SYSCFG (1) 
+            // 0x00002000 [13]    CLK_SYS_SRAM9 (1) 
+            // 0x00001000 [12]    CLK_SYS_SRAM8 (1) 
+            // 0x00000800 [11]    CLK_SYS_SRAM7 (1) 
+            // 0x00000400 [10]    CLK_SYS_SRAM6 (1) 
+            // 0x00000200 [9]     CLK_SYS_SRAM5 (1) 
+            // 0x00000100 [8]     CLK_SYS_SRAM4 (1) 
+            // 0x00000080 [7]     CLK_SYS_SRAM3 (1) 
+            // 0x00000040 [6]     CLK_SYS_SRAM2 (1) 
+            // 0x00000020 [5]     CLK_SYS_SRAM1 (1) 
+            // 0x00000010 [4]     CLK_SYS_SRAM0 (1) 
+            // 0x00000008 [3]     CLK_SYS_SPI1 (1) 
+            // 0x00000004 [2]     CLK_PERI_SPI1 (1) 
+            // 0x00000002 [1]     CLK_SYS_SPI0 (1) 
+            // 0x00000001 [0]     CLK_PERI_SPI0 (1) 
+            io_rw_32 sleep_en1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_SLEEP_EN0 applies similarly to other array indexes)
+        _REG_(CLOCKS_SLEEP_EN0_OFFSET) // CLOCKS_SLEEP_EN0
+        // enable clock in sleep mode
+        // 0x80000000 [31]    CLK_SYS_SIO  (1) 
+        // 0x40000000 [30]    CLK_SYS_SHA256 (1) 
+        // 0x20000000 [29]    CLK_SYS_PSM  (1) 
+        // 0x10000000 [28]    CLK_SYS_ROSC (1) 
+        // 0x08000000 [27]    CLK_SYS_ROM  (1) 
+        // 0x04000000 [26]    CLK_SYS_RESETS (1) 
+        // 0x02000000 [25]    CLK_SYS_PWM  (1) 
+        // 0x01000000 [24]    CLK_SYS_POWMAN (1) 
+        // 0x00800000 [23]    CLK_REF_POWMAN (1) 
+        // 0x00400000 [22]    CLK_SYS_PLL_USB (1) 
+        // 0x00200000 [21]    CLK_SYS_PLL_SYS (1) 
+        // 0x00100000 [20]    CLK_SYS_PIO2 (1) 
+        // 0x00080000 [19]    CLK_SYS_PIO1 (1) 
+        // 0x00040000 [18]    CLK_SYS_PIO0 (1) 
+        // 0x00020000 [17]    CLK_SYS_PADS (1) 
+        // 0x00010000 [16]    CLK_SYS_OTP  (1) 
+        // 0x00008000 [15]    CLK_REF_OTP  (1) 
+        // 0x00004000 [14]    CLK_SYS_JTAG (1) 
+        // 0x00002000 [13]    CLK_SYS_IO   (1) 
+        // 0x00001000 [12]    CLK_SYS_I2C1 (1) 
+        // 0x00000800 [11]    CLK_SYS_I2C0 (1) 
+        // 0x00000400 [10]    CLK_SYS_HSTX (1) 
+        // 0x00000200 [9]     CLK_HSTX     (1) 
+        // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (1) 
+        // 0x00000080 [7]     CLK_SYS_DMA  (1) 
+        // 0x00000040 [6]     CLK_SYS_BUSFABRIC (1) 
+        // 0x00000020 [5]     CLK_SYS_BUSCTRL (1) 
+        // 0x00000010 [4]     CLK_SYS_BOOTRAM (1) 
+        // 0x00000008 [3]     CLK_SYS_ADC  (1) 
+        // 0x00000004 [2]     CLK_ADC      (1) 
+        // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (1) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (1) 
+        io_rw_32 sleep_en[2];
+    };
+ 
+    union {
+        struct {
+            _REG_(CLOCKS_ENABLED0_OFFSET) // CLOCKS_ENABLED0
+            // indicates the state of the clock enable
+            // 0x80000000 [31]    CLK_SYS_SIOB (0) 
+            // 0x40000000 [30]    CLK_SYS_SHA256 (0) 
+            // 0x20000000 [29]    CLK_SYS_RSM  (0) 
+            // 0x10000000 [28]    CLK_SYS_ROSC (0) 
+            // 0x08000000 [27]    CLK_SYS_ROM  (0) 
+            // 0x04000000 [26]    CLK_SYS_RESETS (0) 
+            // 0x02000000 [25]    CLK_SYS_PWM  (0) 
+            // 0x01000000 [24]    CLK_SYS_POWMAN (0) 
+            // 0x00800000 [23]    CLK_REF_POWMAN (0) 
+            // 0x00400000 [22]    CLK_SYS_PLL_USB (0) 
+            // 0x00200000 [21]    CLK_SYS_PLL_SYS (0) 
+            // 0x00100000 [20]    CLK_SYS_PIO2 (0) 
+            // 0x00080000 [19]    CLK_SYS_PIO1 (0) 
+            // 0x00040000 [18]    CLK_SYS_PIO0 (0) 
+            // 0x00020000 [17]    CLK_SYS_PADS (0) 
+            // 0x00010000 [16]    CLK_SYS_OTP  (0) 
+            // 0x00008000 [15]    CLK_REF_OTP  (0) 
+            // 0x00004000 [14]    CLK_SYS_JTAG (0) 
+            // 0x00002000 [13]    CLK_SYS_IO   (0) 
+            // 0x00001000 [12]    CLK_SYS_I2C1 (0) 
+            // 0x00000800 [11]    CLK_SYS_I2C0 (0) 
+            // 0x00000400 [10]    CLK_SYS_HSTX (0) 
+            // 0x00000200 [9]     CLK_HSTX     (0) 
+            // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (0) 
+            // 0x00000080 [7]     CLK_SYS_DMA  (0) 
+            // 0x00000040 [6]     CLK_SYS_BUSFABRIC (0) 
+            // 0x00000020 [5]     CLK_SYS_BUSCTRL (0) 
+            // 0x00000010 [4]     CLK_SYS_BOOTRAM (0) 
+            // 0x00000008 [3]     CLK_SYS_ADC  (0) 
+            // 0x00000004 [2]     CLK_ADC      (0) 
+            // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (0) 
+            // 0x00000001 [0]     CLK_SYS_CLOCKS (0) 
+            io_ro_32 enabled0; 
+
+            _REG_(CLOCKS_ENABLED1_OFFSET) // CLOCKS_ENABLED1
+            // indicates the state of the clock enable
+            // 0x40000000 [30]    CLK_SYS_XOSC (0) 
+            // 0x20000000 [29]    CLK_SYS_XIP  (0) 
+            // 0x10000000 [28]    CLK_SYS_WATCHDOG (0) 
+            // 0x08000000 [27]    CLK_USB      (0) 
+            // 0x04000000 [26]    CLK_SYS_USBCTRL (0) 
+            // 0x02000000 [25]    CLK_SYS_UART1 (0) 
+            // 0x01000000 [24]    CLK_PERI_UART1 (0) 
+            // 0x00800000 [23]    CLK_SYS_UART0 (0) 
+            // 0x00400000 [22]    CLK_PERI_UART0 (0) 
+            // 0x00200000 [21]    CLK_SYS_TRNG (0) 
+            // 0x00100000 [20]    CLK_SYS_TIMER1 (0) 
+            // 0x00080000 [19]    CLK_SYS_TIMER0 (0) 
+            // 0x00040000 [18]    CLK_SYS_TICKS (0) 
+            // 0x00020000 [17]    CLK_REF_TICKS (0) 
+            // 0x00010000 [16]    CLK_SYS_TBMAN (0) 
+            // 0x00008000 [15]    CLK_SYS_SYSINFO (0) 
+            // 0x00004000 [14]    CLK_SYS_SYSCFG (0) 
+            // 0x00002000 [13]    CLK_SYS_SRAM9 (0) 
+            // 0x00001000 [12]    CLK_SYS_SRAM8 (0) 
+            // 0x00000800 [11]    CLK_SYS_SRAM7 (0) 
+            // 0x00000400 [10]    CLK_SYS_SRAM6 (0) 
+            // 0x00000200 [9]     CLK_SYS_SRAM5 (0) 
+            // 0x00000100 [8]     CLK_SYS_SRAM4 (0) 
+            // 0x00000080 [7]     CLK_SYS_SRAM3 (0) 
+            // 0x00000040 [6]     CLK_SYS_SRAM2 (0) 
+            // 0x00000020 [5]     CLK_SYS_SRAM1 (0) 
+            // 0x00000010 [4]     CLK_SYS_SRAM0 (0) 
+            // 0x00000008 [3]     CLK_SYS_SPI1 (0) 
+            // 0x00000004 [2]     CLK_PERI_SPI1 (0) 
+            // 0x00000002 [1]     CLK_SYS_SPI0 (0) 
+            // 0x00000001 [0]     CLK_PERI_SPI0 (0) 
+            io_ro_32 enabled1; 
+        };
+        // (Description copied from array index 0 register CLOCKS_ENABLED0 applies similarly to other array indexes)
+        _REG_(CLOCKS_ENABLED0_OFFSET) // CLOCKS_ENABLED0
+        // indicates the state of the clock enable
+        // 0x80000000 [31]    CLK_SYS_SIO  (0) 
+        // 0x40000000 [30]    CLK_SYS_SHA256 (0) 
+        // 0x20000000 [29]    CLK_SYS_PSM  (0) 
+        // 0x10000000 [28]    CLK_SYS_ROSC (0) 
+        // 0x08000000 [27]    CLK_SYS_ROM  (0) 
+        // 0x04000000 [26]    CLK_SYS_RESETS (0) 
+        // 0x02000000 [25]    CLK_SYS_PWM  (0) 
+        // 0x01000000 [24]    CLK_SYS_POWMAN (0) 
+        // 0x00800000 [23]    CLK_REF_POWMAN (0) 
+        // 0x00400000 [22]    CLK_SYS_PLL_USB (0) 
+        // 0x00200000 [21]    CLK_SYS_PLL_SYS (0) 
+        // 0x00100000 [20]    CLK_SYS_PIO2 (0) 
+        // 0x00080000 [19]    CLK_SYS_PIO1 (0) 
+        // 0x00040000 [18]    CLK_SYS_PIO0 (0) 
+        // 0x00020000 [17]    CLK_SYS_PADS (0) 
+        // 0x00010000 [16]    CLK_SYS_OTP  (0) 
+        // 0x00008000 [15]    CLK_REF_OTP  (0) 
+        // 0x00004000 [14]    CLK_SYS_JTAG (0) 
+        // 0x00002000 [13]    CLK_SYS_IO   (0) 
+        // 0x00001000 [12]    CLK_SYS_I2C1 (0) 
+        // 0x00000800 [11]    CLK_SYS_I2C0 (0) 
+        // 0x00000400 [10]    CLK_SYS_HSTX (0) 
+        // 0x00000200 [9]     CLK_HSTX     (0) 
+        // 0x00000100 [8]     CLK_SYS_GLITCH_DETECTOR (0) 
+        // 0x00000080 [7]     CLK_SYS_DMA  (0) 
+        // 0x00000040 [6]     CLK_SYS_BUSFABRIC (0) 
+        // 0x00000020 [5]     CLK_SYS_BUSCTRL (0) 
+        // 0x00000010 [4]     CLK_SYS_BOOTRAM (0) 
+        // 0x00000008 [3]     CLK_SYS_ADC  (0) 
+        // 0x00000004 [2]     CLK_ADC      (0) 
+        // 0x00000002 [1]     CLK_SYS_ACCESSCTRL (0) 
+        // 0x00000001 [0]     CLK_SYS_CLOCKS (0) 
+        io_ro_32 enabled[2];
+    };
+ 
+    _REG_(CLOCKS_INTR_OFFSET) // CLOCKS_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_ro_32 intr;
+ 
+    _REG_(CLOCKS_INTE_OFFSET) // CLOCKS_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_rw_32 inte;
+ 
+    _REG_(CLOCKS_INTF_OFFSET) // CLOCKS_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_rw_32 intf;
+ 
+    _REG_(CLOCKS_INTS_OFFSET) // CLOCKS_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     CLK_SYS_RESUS (0) 
+    io_ro_32 ints;
+} clocks_hw_t;
+
+#define clocks_hw ((clocks_hw_t *)CLOCKS_BASE)
+static_assert(sizeof (clocks_hw_t) == 0x00d4, "");
+
+#endif // _HARDWARE_STRUCTS_CLOCKS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/coresight_trace.h b/lib/pico-sdk/rp2350/hardware/structs/coresight_trace.h
new file mode 100644
index 0000000..61ffb06
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/coresight_trace.h
@@ -0,0 +1,43 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_CORESIGHT_TRACE_H
+#define _HARDWARE_STRUCTS_CORESIGHT_TRACE_H
+
+/**
+ * \file rp2350/coresight_trace.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/coresight_trace.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_coresight_trace
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/coresight_trace.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(CORESIGHT_TRACE_CTRL_STATUS_OFFSET) // CORESIGHT_TRACE_CTRL_STATUS
+    // Control and status register
+    // 0x00000002 [1]     TRACE_CAPTURE_FIFO_OVERFLOW (0) This status flag is set high when trace data has been...
+    // 0x00000001 [0]     TRACE_CAPTURE_FIFO_FLUSH (1) Set to 1 to continuously hold the trace FIFO in a...
+    io_rw_32 ctrl_status;
+ 
+    _REG_(CORESIGHT_TRACE_TRACE_CAPTURE_FIFO_OFFSET) // CORESIGHT_TRACE_TRACE_CAPTURE_FIFO
+    // FIFO for trace data captured from the TPIU
+    // 0xffffffff [31:0]  RDATA        (0x00000000) Read from an 8 x 32-bit FIFO containing trace data...
+    io_ro_32 trace_capture_fifo;
+} coresight_trace_hw_t;
+
+#define coresight_trace_hw ((coresight_trace_hw_t *)CORESIGHT_TRACE_BASE)
+static_assert(sizeof (coresight_trace_hw_t) == 0x0008, "");
+
+#endif // _HARDWARE_STRUCTS_CORESIGHT_TRACE_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/dma.h b/lib/pico-sdk/rp2350/hardware/structs/dma.h
new file mode 100644
index 0000000..6097a98
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/dma.h
@@ -0,0 +1,336 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_DMA_H
+#define _HARDWARE_STRUCTS_DMA_H
+
+/**
+ * \file rp2350/dma.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/dma.h"
+#include "hardware/structs/dma_debug.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_dma
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/dma.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(DMA_CH0_READ_ADDR_OFFSET) // DMA_CH0_READ_ADDR
+    // DMA Channel 0 Read Address pointer
+    // 0xffffffff [31:0]  CH0_READ_ADDR (0x00000000) This register updates automatically each time a read completes
+    io_rw_32 read_addr;
+ 
+    _REG_(DMA_CH0_WRITE_ADDR_OFFSET) // DMA_CH0_WRITE_ADDR
+    // DMA Channel 0 Write Address pointer
+    // 0xffffffff [31:0]  CH0_WRITE_ADDR (0x00000000) This register updates automatically each time a write completes
+    io_rw_32 write_addr;
+ 
+    _REG_(DMA_CH0_TRANS_COUNT_OFFSET) // DMA_CH0_TRANS_COUNT
+    // DMA Channel 0 Transfer Count
+    // 0xf0000000 [31:28] MODE         (0x0) When MODE is 0x0, the transfer count decrements with...
+    // 0x0fffffff [27:0]  COUNT        (0x0000000) 28-bit transfer count (256 million transfers maximum)
+    io_rw_32 transfer_count;
+ 
+    _REG_(DMA_CH0_CTRL_TRIG_OFFSET) // DMA_CH0_CTRL_TRIG
+    // DMA Channel 0 Control and Status
+    // 0x80000000 [31]    AHB_ERROR    (0) Logical OR of the READ_ERROR and WRITE_ERROR flags
+    // 0x40000000 [30]    READ_ERROR   (0) If 1, the channel received a read bus error
+    // 0x20000000 [29]    WRITE_ERROR  (0) If 1, the channel received a write bus error
+    // 0x04000000 [26]    BUSY         (0) This flag goes high when the channel starts a new...
+    // 0x02000000 [25]    SNIFF_EN     (0) If 1, this channel's data transfers are visible to the...
+    // 0x01000000 [24]    BSWAP        (0) Apply byte-swap transformation to DMA data
+    // 0x00800000 [23]    IRQ_QUIET    (0) In QUIET mode, the channel does not generate IRQs at the...
+    // 0x007e0000 [22:17] TREQ_SEL     (0x00) Select a Transfer Request signal
+    // 0x0001e000 [16:13] CHAIN_TO     (0x0) When this channel completes, it will trigger the channel...
+    // 0x00001000 [12]    RING_SEL     (0) Select whether RING_SIZE applies to read or write addresses
+    // 0x00000f00 [11:8]  RING_SIZE    (0x0) Size of address wrap region
+    // 0x00000080 [7]     INCR_WRITE_REV (0) If 1, and INCR_WRITE is 1, the write address is...
+    // 0x00000040 [6]     INCR_WRITE   (0) If 1, the write address increments with each transfer
+    // 0x00000020 [5]     INCR_READ_REV (0) If 1, and INCR_READ is 1, the read address is...
+    // 0x00000010 [4]     INCR_READ    (0) If 1, the read address increments with each transfer
+    // 0x0000000c [3:2]   DATA_SIZE    (0x0) Set the size of each bus transfer (byte/halfword/word)
+    // 0x00000002 [1]     HIGH_PRIORITY (0) HIGH_PRIORITY gives a channel preferential treatment in...
+    // 0x00000001 [0]     EN           (0) DMA Channel Enable
+    io_rw_32 ctrl_trig;
+ 
+    _REG_(DMA_CH0_AL1_CTRL_OFFSET) // DMA_CH0_AL1_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL1_CTRL (-) 
+    io_rw_32 al1_ctrl;
+ 
+    _REG_(DMA_CH0_AL1_READ_ADDR_OFFSET) // DMA_CH0_AL1_READ_ADDR
+    // Alias for channel 0 READ_ADDR register
+    // 0xffffffff [31:0]  CH0_AL1_READ_ADDR (-) 
+    io_rw_32 al1_read_addr;
+ 
+    _REG_(DMA_CH0_AL1_WRITE_ADDR_OFFSET) // DMA_CH0_AL1_WRITE_ADDR
+    // Alias for channel 0 WRITE_ADDR register
+    // 0xffffffff [31:0]  CH0_AL1_WRITE_ADDR (-) 
+    io_rw_32 al1_write_addr;
+ 
+    _REG_(DMA_CH0_AL1_TRANS_COUNT_TRIG_OFFSET) // DMA_CH0_AL1_TRANS_COUNT_TRIG
+    // Alias for channel 0 TRANS_COUNT register +
+    // 0xffffffff [31:0]  CH0_AL1_TRANS_COUNT_TRIG (-) 
+    io_rw_32 al1_transfer_count_trig;
+ 
+    _REG_(DMA_CH0_AL2_CTRL_OFFSET) // DMA_CH0_AL2_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL2_CTRL (-) 
+    io_rw_32 al2_ctrl;
+ 
+    _REG_(DMA_CH0_AL2_TRANS_COUNT_OFFSET) // DMA_CH0_AL2_TRANS_COUNT
+    // Alias for channel 0 TRANS_COUNT register
+    // 0xffffffff [31:0]  CH0_AL2_TRANS_COUNT (-) 
+    io_rw_32 al2_transfer_count;
+ 
+    _REG_(DMA_CH0_AL2_READ_ADDR_OFFSET) // DMA_CH0_AL2_READ_ADDR
+    // Alias for channel 0 READ_ADDR register
+    // 0xffffffff [31:0]  CH0_AL2_READ_ADDR (-) 
+    io_rw_32 al2_read_addr;
+ 
+    _REG_(DMA_CH0_AL2_WRITE_ADDR_TRIG_OFFSET) // DMA_CH0_AL2_WRITE_ADDR_TRIG
+    // Alias for channel 0 WRITE_ADDR register +
+    // 0xffffffff [31:0]  CH0_AL2_WRITE_ADDR_TRIG (-) 
+    io_rw_32 al2_write_addr_trig;
+ 
+    _REG_(DMA_CH0_AL3_CTRL_OFFSET) // DMA_CH0_AL3_CTRL
+    // Alias for channel 0 CTRL register
+    // 0xffffffff [31:0]  CH0_AL3_CTRL (-) 
+    io_rw_32 al3_ctrl;
+ 
+    _REG_(DMA_CH0_AL3_WRITE_ADDR_OFFSET) // DMA_CH0_AL3_WRITE_ADDR
+    // Alias for channel 0 WRITE_ADDR register
+    // 0xffffffff [31:0]  CH0_AL3_WRITE_ADDR (-) 
+    io_rw_32 al3_write_addr;
+ 
+    _REG_(DMA_CH0_AL3_TRANS_COUNT_OFFSET) // DMA_CH0_AL3_TRANS_COUNT
+    // Alias for channel 0 TRANS_COUNT register
+    // 0xffffffff [31:0]  CH0_AL3_TRANS_COUNT (-) 
+    io_rw_32 al3_transfer_count;
+ 
+    _REG_(DMA_CH0_AL3_READ_ADDR_TRIG_OFFSET) // DMA_CH0_AL3_READ_ADDR_TRIG
+    // Alias for channel 0 READ_ADDR register +
+    // 0xffffffff [31:0]  CH0_AL3_READ_ADDR_TRIG (-) 
+    io_rw_32 al3_read_addr_trig;
+} dma_channel_hw_t;
+
+typedef struct {
+    _REG_(DMA_MPU_BAR0_OFFSET) // DMA_MPU_BAR0
+    // Base address register for MPU region 0
+    // 0xffffffe0 [31:5]  ADDR         (0x0000000) This MPU region matches addresses where addr[31:5] (the...
+    io_rw_32 bar;
+ 
+    _REG_(DMA_MPU_LAR0_OFFSET) // DMA_MPU_LAR0
+    // Limit address register for MPU region 0
+    // 0xffffffe0 [31:5]  ADDR         (0x0000000) Limit address bits 31:5
+    // 0x00000004 [2]     S            (0) Determines the Secure/Non-secure (=1/0) status of...
+    // 0x00000002 [1]     P            (0) Determines the Privileged/Unprivileged (=1/0) status of...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 lar;
+} dma_mpu_region_hw_t;
+
+typedef struct {
+    _REG_(DMA_INTR_OFFSET) // DMA_INTR
+    // Interrupt Status (raw)
+    // 0x0000ffff [15:0]  INTR         (0x0000) Raw interrupt status for DMA Channels 0
+    io_rw_32 intr;
+ 
+    _REG_(DMA_INTE0_OFFSET) // DMA_INTE0
+    // Interrupt Enables for IRQ 0
+    // 0x0000ffff [15:0]  INTE0        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 0
+    io_rw_32 inte;
+ 
+    _REG_(DMA_INTF0_OFFSET) // DMA_INTF0
+    // Force Interrupts
+    // 0x0000ffff [15:0]  INTF0        (0x0000) Write 1s to force the corresponding bits in INTS0
+    io_rw_32 intf;
+ 
+    _REG_(DMA_INTS0_OFFSET) // DMA_INTS0
+    // Interrupt Status for IRQ 0
+    // 0x0000ffff [15:0]  INTS0        (0x0000) Indicates active channel interrupt requests which are...
+    io_rw_32 ints;
+} dma_irq_ctrl_hw_t;
+
+typedef struct {
+    dma_channel_hw_t ch[16];
+ 
+    union {
+        struct {
+            _REG_(DMA_INTR_OFFSET) // DMA_INTR
+            // Interrupt Status (raw)
+            // 0x0000ffff [15:0]  INTR         (0x0000) Raw interrupt status for DMA Channels 0
+            io_rw_32 intr;
+
+            _REG_(DMA_INTE0_OFFSET) // DMA_INTE0
+            // Interrupt Enables for IRQ 0
+            // 0x0000ffff [15:0]  INTE0        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 0
+            io_rw_32 inte0;
+
+            _REG_(DMA_INTF0_OFFSET) // DMA_INTF0
+            // Force Interrupts
+            // 0x0000ffff [15:0]  INTF0        (0x0000) Write 1s to force the corresponding bits in INTE0     
+            io_rw_32 intf0;
+
+            _REG_(DMA_INTS0_OFFSET) // DMA_INTS0
+            // Interrupt Status for IRQ 0
+            // 0x0000ffff [15:0]  INTS0        (0x0000) Indicates active channel interrupt requests which are...
+            io_rw_32 ints0;
+
+            uint32_t __pad0;
+
+            _REG_(DMA_INTE1_OFFSET) // DMA_INTE1
+            // Interrupt Enables for IRQ 1
+            // 0x0000ffff [15:0]  INTE1        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 1
+            io_rw_32 inte1;
+
+            _REG_(DMA_INTF1_OFFSET) // DMA_INTF1
+            // Force Interrupts for IRQ 1
+            // 0x0000ffff [15:0]  INTF1        (0x0000) Write 1s to force the corresponding bits in INTF1
+            io_rw_32 intf1;
+
+            _REG_(DMA_INTS1_OFFSET) // DMA_INTS1
+            // Interrupt Status (masked) for IRQ 1
+            // 0x0000ffff [15:0]  INTS1        (0x0000) Indicates active channel interrupt requests which are...
+            io_rw_32 ints1;
+
+            uint32_t __pad1;
+
+            _REG_(DMA_INTE2_OFFSET) // DMA_INTE2
+            // Interrupt Enables for IRQ 2
+            // 0x0000ffff [15:0]  INTE2        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 2
+            io_rw_32 inte2;
+
+            _REG_(DMA_INTF2_OFFSET) // DMA_INTF2
+            // Force Interrupts for IRQ 2
+            // 0x0000ffff [15:0]  INTF2        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 2
+            io_rw_32 intf2;
+
+            _REG_(DMA_INTS2_OFFSET) // DMA_INTS2
+            // Interrupt Status (masked) for IRQ 2
+            // 0x0000ffff [15:0]  INTS2        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 2
+            io_rw_32 ints2;
+
+            uint32_t __pad2;
+
+            _REG_(DMA_INTE3_OFFSET) // DMA_INTE3
+            // Interrupt Enables for IRQ 3
+            // 0x0000ffff [15:0]  INTE3        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 3
+            io_rw_32 inte3;
+
+            _REG_(DMA_INTF3_OFFSET) // DMA_INTF3
+            // Force Interrupts for IRQ 3
+            // 0x0000ffff [15:0]  INTF3        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 3
+            io_rw_32 intf3;
+
+            _REG_(DMA_INTS3_OFFSET) // DMA_INTS3
+            // Interrupt Status (masked) for IRQ 3
+            // 0x0000ffff [15:0]  INTS3        (0x0000) Set bit n to pass interrupts from channel n to DMA IRQ 3
+            io_rw_32 ints3;
+        };
+        dma_irq_ctrl_hw_t irq_ctrl[4];
+    };
+ 
+    // (Description copied from array index 0 register DMA_TIMER0 applies similarly to other array indexes)
+    _REG_(DMA_TIMER0_OFFSET) // DMA_TIMER0
+    // Pacing timer (generate periodic TREQs)
+    // 0xffff0000 [31:16] X            (0x0000) Pacing Timer Dividend
+    // 0x0000ffff [15:0]  Y            (0x0000) Pacing Timer Divisor
+    io_rw_32 timer[4];
+ 
+    _REG_(DMA_MULTI_CHAN_TRIGGER_OFFSET) // DMA_MULTI_CHAN_TRIGGER
+    // Trigger one or more channels simultaneously
+    // 0x0000ffff [15:0]  MULTI_CHAN_TRIGGER (0x0000) Each bit in this register corresponds to a DMA channel
+    io_wo_32 multi_channel_trigger;
+ 
+    _REG_(DMA_SNIFF_CTRL_OFFSET) // DMA_SNIFF_CTRL
+    // Sniffer Control
+    // 0x00000800 [11]    OUT_INV      (0) If set, the result appears inverted (bitwise complement)...
+    // 0x00000400 [10]    OUT_REV      (0) If set, the result appears bit-reversed when read
+    // 0x00000200 [9]     BSWAP        (0) Locally perform a byte reverse on the sniffed data,...
+    // 0x000001e0 [8:5]   CALC         (0x0) 
+    // 0x0000001e [4:1]   DMACH        (0x0) DMA channel for Sniffer to observe
+    // 0x00000001 [0]     EN           (0) Enable sniffer
+    io_rw_32 sniff_ctrl;
+ 
+    _REG_(DMA_SNIFF_DATA_OFFSET) // DMA_SNIFF_DATA
+    // Data accumulator for sniff hardware
+    // 0xffffffff [31:0]  SNIFF_DATA   (0x00000000) Write an initial seed value here before starting a DMA...
+    io_rw_32 sniff_data;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(DMA_FIFO_LEVELS_OFFSET) // DMA_FIFO_LEVELS
+    // Debug RAF, WAF, TDF levels
+    // 0x00ff0000 [23:16] RAF_LVL      (0x00) Current Read-Address-FIFO fill level
+    // 0x0000ff00 [15:8]  WAF_LVL      (0x00) Current Write-Address-FIFO fill level
+    // 0x000000ff [7:0]   TDF_LVL      (0x00) Current Transfer-Data-FIFO fill level
+    io_ro_32 fifo_levels;
+ 
+    _REG_(DMA_CHAN_ABORT_OFFSET) // DMA_CHAN_ABORT
+    // Abort an in-progress transfer sequence on one or more channels
+    // 0x0000ffff [15:0]  CHAN_ABORT   (0x0000) Each bit corresponds to a channel
+    io_wo_32 abort;
+ 
+    _REG_(DMA_N_CHANNELS_OFFSET) // DMA_N_CHANNELS
+    // The number of channels this DMA instance is equipped with
+    // 0x0000001f [4:0]   N_CHANNELS   (-) 
+    io_ro_32 n_channels;
+ 
+    uint32_t _pad1[5];
+ 
+    // (Description copied from array index 0 register DMA_SECCFG_CH0 applies similarly to other array indexes)
+    _REG_(DMA_SECCFG_CH0_OFFSET) // DMA_SECCFG_CH0
+    // Security level configuration for channel 0.
+    // 0x00000004 [2]     LOCK         (0) LOCK is 0 at reset, and is set to 1 automatically upon a...
+    // 0x00000002 [1]     S            (1) Secure channel
+    // 0x00000001 [0]     P            (1) Privileged channel
+    io_rw_32 seccfg_ch[16];
+ 
+    // (Description copied from array index 0 register DMA_SECCFG_IRQ0 applies similarly to other array indexes)
+    _REG_(DMA_SECCFG_IRQ0_OFFSET) // DMA_SECCFG_IRQ0
+    // Security configuration for IRQ 0
+    // 0x00000002 [1]     S            (1) Secure IRQ
+    // 0x00000001 [0]     P            (1) Privileged IRQ
+    io_rw_32 seccfg_irq[4];
+ 
+    _REG_(DMA_SECCFG_MISC_OFFSET) // DMA_SECCFG_MISC
+    // Miscellaneous security configuration
+    // 0x00000200 [9]     TIMER3_S     (1) If 1, the TIMER3 register is only accessible from a...
+    // 0x00000100 [8]     TIMER3_P     (1) If 1, the TIMER3 register is only accessible from a...
+    // 0x00000080 [7]     TIMER2_S     (1) If 1, the TIMER2 register is only accessible from a...
+    // 0x00000040 [6]     TIMER2_P     (1) If 1, the TIMER2 register is only accessible from a...
+    // 0x00000020 [5]     TIMER1_S     (1) If 1, the TIMER1 register is only accessible from a...
+    // 0x00000010 [4]     TIMER1_P     (1) If 1, the TIMER1 register is only accessible from a...
+    // 0x00000008 [3]     TIMER0_S     (1) If 1, the TIMER0 register is only accessible from a...
+    // 0x00000004 [2]     TIMER0_P     (1) If 1, the TIMER0 register is only accessible from a...
+    // 0x00000002 [1]     SNIFF_S      (1) If 1, the sniffer can see data transfers from Secure...
+    // 0x00000001 [0]     SNIFF_P      (1) If 1, the sniffer can see data transfers from Privileged...
+    io_rw_32 seccfg_misc;
+ 
+    uint32_t _pad2[11];
+ 
+    _REG_(DMA_MPU_CTRL_OFFSET) // DMA_MPU_CTRL
+    // Control register for DMA MPU
+    // 0x00000008 [3]     NS_HIDE_ADDR (0) By default, when a region's S bit is clear,...
+    // 0x00000004 [2]     S            (0) Determine whether an address not covered by an active...
+    // 0x00000002 [1]     P            (0) Determine whether an address not covered by an active...
+    io_rw_32 mpu_ctrl;
+ 
+    dma_mpu_region_hw_t mpu_region[8];
+} dma_hw_t;
+
+#define dma_hw ((dma_hw_t *)DMA_BASE)
+static_assert(sizeof (dma_hw_t) == 0x0544, "");
+
+#endif // _HARDWARE_STRUCTS_DMA_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/dma_debug.h b/lib/pico-sdk/rp2350/hardware/structs/dma_debug.h
new file mode 100644
index 0000000..73c8bf4
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/dma_debug.h
@@ -0,0 +1,47 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_DMA_DEBUG_H
+#define _HARDWARE_STRUCTS_DMA_DEBUG_H
+
+/**
+ * \file rp2350/dma_debug.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/dma.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_dma
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/dma.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(DMA_CH0_DBG_CTDREQ_OFFSET) // DMA_CH0_DBG_CTDREQ
+    // Read: get channel DREQ counter (i
+    // 0x0000003f [5:0]   CH0_DBG_CTDREQ (0x00) 
+    io_rw_32 dbg_ctdreq;
+ 
+    _REG_(DMA_CH0_DBG_TCR_OFFSET) // DMA_CH0_DBG_TCR
+    // Read to get channel TRANS_COUNT reload value, i
+    // 0xffffffff [31:0]  CH0_DBG_TCR  (0x00000000) 
+    io_ro_32 dbg_tcr;
+ 
+    uint32_t _pad0[14];
+} dma_debug_channel_hw_t;
+
+typedef struct {
+    dma_debug_channel_hw_t ch[16];
+} dma_debug_hw_t;
+
+#define dma_debug_hw ((dma_debug_hw_t *)(DMA_BASE + DMA_CH0_DBG_CTDREQ_OFFSET))
+
+#endif // _HARDWARE_STRUCTS_DMA_DEBUG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/glitch_detector.h b/lib/pico-sdk/rp2350/hardware/structs/glitch_detector.h
new file mode 100644
index 0000000..f25ebb2
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/glitch_detector.h
@@ -0,0 +1,71 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_GLITCH_DETECTOR_H
+#define _HARDWARE_STRUCTS_GLITCH_DETECTOR_H
+
+/**
+ * \file rp2350/glitch_detector.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/glitch_detector.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_glitch_detector
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/glitch_detector.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(GLITCH_DETECTOR_ARM_OFFSET) // GLITCH_DETECTOR_ARM
+    // Forcibly arm the glitch detectors, if they are not already armed by OTP
+    // 0x0000ffff [15:0]  ARM          (0x5bad) 
+    io_rw_32 arm;
+ 
+    _REG_(GLITCH_DETECTOR_DISARM_OFFSET) // GLITCH_DETECTOR_DISARM
+    // 0x0000ffff [15:0]  DISARM       (0x0000) Forcibly disarm the glitch detectors, if they are armed by OTP
+    io_rw_32 disarm;
+ 
+    _REG_(GLITCH_DETECTOR_SENSITIVITY_OFFSET) // GLITCH_DETECTOR_SENSITIVITY
+    // Adjust the sensitivity of glitch detectors to values other than their OTP-provided defaults
+    // 0xff000000 [31:24] DEFAULT      (0x00) 
+    // 0x0000c000 [15:14] DET3_INV     (0x0) Must be the inverse of DET3, else the default value is used
+    // 0x00003000 [13:12] DET2_INV     (0x0) Must be the inverse of DET2, else the default value is used
+    // 0x00000c00 [11:10] DET1_INV     (0x0) Must be the inverse of DET1, else the default value is used
+    // 0x00000300 [9:8]   DET0_INV     (0x0) Must be the inverse of DET0, else the default value is used
+    // 0x000000c0 [7:6]   DET3         (0x0) Set sensitivity for detector 3
+    // 0x00000030 [5:4]   DET2         (0x0) Set sensitivity for detector 2
+    // 0x0000000c [3:2]   DET1         (0x0) Set sensitivity for detector 1
+    // 0x00000003 [1:0]   DET0         (0x0) Set sensitivity for detector 0
+    io_rw_32 sensitivity;
+ 
+    _REG_(GLITCH_DETECTOR_LOCK_OFFSET) // GLITCH_DETECTOR_LOCK
+    // 0x000000ff [7:0]   LOCK         (0x00) Write any nonzero value to disable writes to ARM,...
+    io_rw_32 lock;
+ 
+    _REG_(GLITCH_DETECTOR_TRIG_STATUS_OFFSET) // GLITCH_DETECTOR_TRIG_STATUS
+    // Set when a detector output triggers
+    // 0x00000008 [3]     DET3         (0) 
+    // 0x00000004 [2]     DET2         (0) 
+    // 0x00000002 [1]     DET1         (0) 
+    // 0x00000001 [0]     DET0         (0) 
+    io_rw_32 trig_status;
+ 
+    _REG_(GLITCH_DETECTOR_TRIG_FORCE_OFFSET) // GLITCH_DETECTOR_TRIG_FORCE
+    // Simulate the firing of one or more detectors
+    // 0x0000000f [3:0]   TRIG_FORCE   (0x0) 
+    io_wo_32 trig_force;
+} glitch_detector_hw_t;
+
+#define glitch_detector_hw ((glitch_detector_hw_t *)GLITCH_DETECTOR_BASE)
+static_assert(sizeof (glitch_detector_hw_t) == 0x0018, "");
+
+#endif // _HARDWARE_STRUCTS_GLITCH_DETECTOR_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/hstx_ctrl.h b/lib/pico-sdk/rp2350/hardware/structs/hstx_ctrl.h
new file mode 100644
index 0000000..735ecee
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/hstx_ctrl.h
@@ -0,0 +1,70 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_HSTX_CTRL_H
+#define _HARDWARE_STRUCTS_HSTX_CTRL_H
+
+/**
+ * \file rp2350/hstx_ctrl.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/hstx_ctrl.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_hstx_ctrl
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/hstx_ctrl.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(HSTX_CTRL_CSR_OFFSET) // HSTX_CTRL_CSR
+    // 0xf0000000 [31:28] CLKDIV       (0x1) Clock period of the generated clock, measured in HSTX...
+    // 0x0f000000 [27:24] CLKPHASE     (0x0) Set the initial phase of the generated clock
+    // 0x001f0000 [20:16] N_SHIFTS     (0x05) Number of times to shift the shift register before...
+    // 0x00001f00 [12:8]  SHIFT        (0x06) How many bits to right-rotate the shift register by each cycle
+    // 0x00000060 [6:5]   COUPLED_SEL  (0x0) Select which PIO to use for coupled mode operation
+    // 0x00000010 [4]     COUPLED_MODE (0) Enable the PIO-to-HSTX 1:1 connection
+    // 0x00000002 [1]     EXPAND_EN    (0) Enable the command expander
+    // 0x00000001 [0]     EN           (0) When EN is 1, the HSTX will shift out data as it appears...
+    io_rw_32 csr;
+ 
+    // (Description copied from array index 0 register HSTX_CTRL_BIT0 applies similarly to other array indexes)
+    _REG_(HSTX_CTRL_BIT0_OFFSET) // HSTX_CTRL_BIT0
+    // Data control register for output bit 0
+    // 0x00020000 [17]    CLK          (0) Connect this output to the generated clock, rather than...
+    // 0x00010000 [16]    INV          (0) Invert this data output (logical NOT)
+    // 0x00001f00 [12:8]  SEL_N        (0x00) Shift register data bit select for the second half of...
+    // 0x0000001f [4:0]   SEL_P        (0x00) Shift register data bit select for the first half of the...
+    io_rw_32 bit[8];
+ 
+    _REG_(HSTX_CTRL_EXPAND_SHIFT_OFFSET) // HSTX_CTRL_EXPAND_SHIFT
+    // Configure the optional shifter inside the command expander
+    // 0x1f000000 [28:24] ENC_N_SHIFTS (0x01) Number of times to consume from the shift register...
+    // 0x001f0000 [20:16] ENC_SHIFT    (0x00) How many bits to right-rotate the shift register by each...
+    // 0x00001f00 [12:8]  RAW_N_SHIFTS (0x01) Number of times to consume from the shift register...
+    // 0x0000001f [4:0]   RAW_SHIFT    (0x00) How many bits to right-rotate the shift register by each...
+    io_rw_32 expand_shift;
+ 
+    _REG_(HSTX_CTRL_EXPAND_TMDS_OFFSET) // HSTX_CTRL_EXPAND_TMDS
+    // Configure the optional TMDS encoder inside the command expander
+    // 0x00e00000 [23:21] L2_NBITS     (0x0) Number of valid data bits for the lane 2 TMDS encoder,...
+    // 0x001f0000 [20:16] L2_ROT       (0x00) Right-rotate applied to the current shifter data before...
+    // 0x0000e000 [15:13] L1_NBITS     (0x0) Number of valid data bits for the lane 1 TMDS encoder,...
+    // 0x00001f00 [12:8]  L1_ROT       (0x00) Right-rotate applied to the current shifter data before...
+    // 0x000000e0 [7:5]   L0_NBITS     (0x0) Number of valid data bits for the lane 0 TMDS encoder,...
+    // 0x0000001f [4:0]   L0_ROT       (0x00) Right-rotate applied to the current shifter data before...
+    io_rw_32 expand_tmds;
+} hstx_ctrl_hw_t;
+
+#define hstx_ctrl_hw ((hstx_ctrl_hw_t *)HSTX_CTRL_BASE)
+static_assert(sizeof (hstx_ctrl_hw_t) == 0x002c, "");
+
+#endif // _HARDWARE_STRUCTS_HSTX_CTRL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/hstx_fifo.h b/lib/pico-sdk/rp2350/hardware/structs/hstx_fifo.h
new file mode 100644
index 0000000..a8399fa
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/hstx_fifo.h
@@ -0,0 +1,45 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_HSTX_FIFO_H
+#define _HARDWARE_STRUCTS_HSTX_FIFO_H
+
+/**
+ * \file rp2350/hstx_fifo.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/hstx_fifo.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_hstx_fifo
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/hstx_fifo.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(HSTX_FIFO_STAT_OFFSET) // HSTX_FIFO_STAT
+    // FIFO status
+    // 0x00000400 [10]    WOF          (0) FIFO was written when full
+    // 0x00000200 [9]     EMPTY        (-) 
+    // 0x00000100 [8]     FULL         (-) 
+    // 0x000000ff [7:0]   LEVEL        (0x00) 
+    io_rw_32 stat;
+ 
+    _REG_(HSTX_FIFO_FIFO_OFFSET) // HSTX_FIFO_FIFO
+    // Write access to FIFO
+    // 0xffffffff [31:0]  FIFO         (0x00000000) 
+    io_wo_32 fifo;
+} hstx_fifo_hw_t;
+
+#define hstx_fifo_hw ((hstx_fifo_hw_t *)HSTX_FIFO_BASE)
+static_assert(sizeof (hstx_fifo_hw_t) == 0x0008, "");
+
+#endif // _HARDWARE_STRUCTS_HSTX_FIFO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/i2c.h b/lib/pico-sdk/rp2350/hardware/structs/i2c.h
new file mode 100644
index 0000000..7cd990d
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/i2c.h
@@ -0,0 +1,338 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_I2C_H
+#define _HARDWARE_STRUCTS_I2C_H
+
+/**
+ * \file rp2350/i2c.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/i2c.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_i2c
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/i2c.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(I2C_IC_CON_OFFSET) // I2C_IC_CON
+    // I2C Control Register
+    // 0x00000400 [10]    STOP_DET_IF_MASTER_ACTIVE (0) Master issues the STOP_DET interrupt irrespective of...
+    // 0x00000200 [9]     RX_FIFO_FULL_HLD_CTRL (0) This bit controls whether DW_apb_i2c should hold the bus...
+    // 0x00000100 [8]     TX_EMPTY_CTRL (0) This bit controls the generation of the TX_EMPTY...
+    // 0x00000080 [7]     STOP_DET_IFADDRESSED (0) In slave mode: - 1'b1:  issues the STOP_DET interrupt...
+    // 0x00000040 [6]     IC_SLAVE_DISABLE (1) This bit controls whether I2C has its slave disabled,...
+    // 0x00000020 [5]     IC_RESTART_EN (1) Determines whether RESTART conditions may be sent when...
+    // 0x00000010 [4]     IC_10BITADDR_MASTER (0) Controls whether the DW_apb_i2c starts its transfers in...
+    // 0x00000008 [3]     IC_10BITADDR_SLAVE (0) When acting as a slave, this bit controls whether the...
+    // 0x00000006 [2:1]   SPEED        (0x2) These bits control at which speed the DW_apb_i2c...
+    // 0x00000001 [0]     MASTER_MODE  (1) This bit controls whether the DW_apb_i2c master is enabled
+    io_rw_32 con;
+ 
+    _REG_(I2C_IC_TAR_OFFSET) // I2C_IC_TAR
+    // I2C Target Address Register
+    // 0x00000800 [11]    SPECIAL      (0) This bit indicates whether software performs a Device-ID...
+    // 0x00000400 [10]    GC_OR_START  (0) If bit 11 (SPECIAL) is set to 1 and bit 13(Device-ID) is...
+    // 0x000003ff [9:0]   IC_TAR       (0x055) This is the target address for any master transaction
+    io_rw_32 tar;
+ 
+    _REG_(I2C_IC_SAR_OFFSET) // I2C_IC_SAR
+    // I2C Slave Address Register
+    // 0x000003ff [9:0]   IC_SAR       (0x055) The IC_SAR holds the slave address when the I2C is...
+    io_rw_32 sar;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(I2C_IC_DATA_CMD_OFFSET) // I2C_IC_DATA_CMD
+    // I2C Rx/Tx Data Buffer and Command Register
+    // 0x00000800 [11]    FIRST_DATA_BYTE (0) Indicates the first data byte received after the address...
+    // 0x00000400 [10]    RESTART      (0) This bit controls whether a RESTART is issued before the...
+    // 0x00000200 [9]     STOP         (0) This bit controls whether a STOP is issued after the...
+    // 0x00000100 [8]     CMD          (0) This bit controls whether a read or a write is performed
+    // 0x000000ff [7:0]   DAT          (0x00) This register contains the data to be transmitted or...
+    io_rw_32 data_cmd;
+ 
+    _REG_(I2C_IC_SS_SCL_HCNT_OFFSET) // I2C_IC_SS_SCL_HCNT
+    // Standard Speed I2C Clock SCL High Count Register
+    // 0x0000ffff [15:0]  IC_SS_SCL_HCNT (0x0028) This register must be set before any I2C bus transaction...
+    io_rw_32 ss_scl_hcnt;
+ 
+    _REG_(I2C_IC_SS_SCL_LCNT_OFFSET) // I2C_IC_SS_SCL_LCNT
+    // Standard Speed I2C Clock SCL Low Count Register
+    // 0x0000ffff [15:0]  IC_SS_SCL_LCNT (0x002f) This register must be set before any I2C bus transaction...
+    io_rw_32 ss_scl_lcnt;
+ 
+    _REG_(I2C_IC_FS_SCL_HCNT_OFFSET) // I2C_IC_FS_SCL_HCNT
+    // Fast Mode or Fast Mode Plus I2C Clock SCL High Count Register
+    // 0x0000ffff [15:0]  IC_FS_SCL_HCNT (0x0006) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_scl_hcnt;
+ 
+    _REG_(I2C_IC_FS_SCL_LCNT_OFFSET) // I2C_IC_FS_SCL_LCNT
+    // Fast Mode or Fast Mode Plus I2C Clock SCL Low Count Register
+    // 0x0000ffff [15:0]  IC_FS_SCL_LCNT (0x000d) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_scl_lcnt;
+ 
+    uint32_t _pad1[2];
+ 
+    _REG_(I2C_IC_INTR_STAT_OFFSET) // I2C_IC_INTR_STAT
+    // I2C Interrupt Status Register
+    // 0x00001000 [12]    R_RESTART_DET (0) See IC_RAW_INTR_STAT for a detailed description of...
+    // 0x00000800 [11]    R_GEN_CALL   (0) See IC_RAW_INTR_STAT for a detailed description of R_GEN_CALL bit
+    // 0x00000400 [10]    R_START_DET  (0) See IC_RAW_INTR_STAT for a detailed description of...
+    // 0x00000200 [9]     R_STOP_DET   (0) See IC_RAW_INTR_STAT for a detailed description of R_STOP_DET bit
+    // 0x00000100 [8]     R_ACTIVITY   (0) See IC_RAW_INTR_STAT for a detailed description of R_ACTIVITY bit
+    // 0x00000080 [7]     R_RX_DONE    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_DONE bit
+    // 0x00000040 [6]     R_TX_ABRT    (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_ABRT bit
+    // 0x00000020 [5]     R_RD_REQ     (0) See IC_RAW_INTR_STAT for a detailed description of R_RD_REQ bit
+    // 0x00000010 [4]     R_TX_EMPTY   (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_EMPTY bit
+    // 0x00000008 [3]     R_TX_OVER    (0) See IC_RAW_INTR_STAT for a detailed description of R_TX_OVER bit
+    // 0x00000004 [2]     R_RX_FULL    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_FULL bit
+    // 0x00000002 [1]     R_RX_OVER    (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_OVER bit
+    // 0x00000001 [0]     R_RX_UNDER   (0) See IC_RAW_INTR_STAT for a detailed description of R_RX_UNDER bit
+    io_ro_32 intr_stat;
+ 
+    _REG_(I2C_IC_INTR_MASK_OFFSET) // I2C_IC_INTR_MASK
+    // I2C Interrupt Mask Register
+    // 0x00001000 [12]    M_RESTART_DET (0) This bit masks the R_RESTART_DET interrupt in...
+    // 0x00000800 [11]    M_GEN_CALL   (1) This bit masks the R_GEN_CALL interrupt in IC_INTR_STAT register
+    // 0x00000400 [10]    M_START_DET  (0) This bit masks the R_START_DET interrupt in IC_INTR_STAT register
+    // 0x00000200 [9]     M_STOP_DET   (0) This bit masks the R_STOP_DET interrupt in IC_INTR_STAT register
+    // 0x00000100 [8]     M_ACTIVITY   (0) This bit masks the R_ACTIVITY interrupt in IC_INTR_STAT register
+    // 0x00000080 [7]     M_RX_DONE    (1) This bit masks the R_RX_DONE interrupt in IC_INTR_STAT register
+    // 0x00000040 [6]     M_TX_ABRT    (1) This bit masks the R_TX_ABRT interrupt in IC_INTR_STAT register
+    // 0x00000020 [5]     M_RD_REQ     (1) This bit masks the R_RD_REQ interrupt in IC_INTR_STAT register
+    // 0x00000010 [4]     M_TX_EMPTY   (1) This bit masks the R_TX_EMPTY interrupt in IC_INTR_STAT register
+    // 0x00000008 [3]     M_TX_OVER    (1) This bit masks the R_TX_OVER interrupt in IC_INTR_STAT register
+    // 0x00000004 [2]     M_RX_FULL    (1) This bit masks the R_RX_FULL interrupt in IC_INTR_STAT register
+    // 0x00000002 [1]     M_RX_OVER    (1) This bit masks the R_RX_OVER interrupt in IC_INTR_STAT register
+    // 0x00000001 [0]     M_RX_UNDER   (1) This bit masks the R_RX_UNDER interrupt in IC_INTR_STAT register
+    io_rw_32 intr_mask;
+ 
+    _REG_(I2C_IC_RAW_INTR_STAT_OFFSET) // I2C_IC_RAW_INTR_STAT
+    // I2C Raw Interrupt Status Register
+    // 0x00001000 [12]    RESTART_DET  (0) Indicates whether a RESTART condition has occurred on...
+    // 0x00000800 [11]    GEN_CALL     (0) Set only when a General Call address is received and it...
+    // 0x00000400 [10]    START_DET    (0) Indicates whether a START or RESTART condition has...
+    // 0x00000200 [9]     STOP_DET     (0) Indicates whether a STOP condition has occurred on the...
+    // 0x00000100 [8]     ACTIVITY     (0) This bit captures DW_apb_i2c activity and stays set...
+    // 0x00000080 [7]     RX_DONE      (0) When the DW_apb_i2c is acting as a slave-transmitter,...
+    // 0x00000040 [6]     TX_ABRT      (0) This bit indicates if DW_apb_i2c, as an I2C transmitter,...
+    // 0x00000020 [5]     RD_REQ       (0) This bit is set to 1 when DW_apb_i2c is acting as a...
+    // 0x00000010 [4]     TX_EMPTY     (0) The behavior of the TX_EMPTY interrupt status differs...
+    // 0x00000008 [3]     TX_OVER      (0) Set during transmit if the transmit buffer is filled to...
+    // 0x00000004 [2]     RX_FULL      (0) Set when the receive buffer reaches or goes above the...
+    // 0x00000002 [1]     RX_OVER      (0) Set if the receive buffer is completely filled to...
+    // 0x00000001 [0]     RX_UNDER     (0) Set if the processor attempts to read the receive buffer...
+    io_ro_32 raw_intr_stat;
+ 
+    _REG_(I2C_IC_RX_TL_OFFSET) // I2C_IC_RX_TL
+    // I2C Receive FIFO Threshold Register
+    // 0x000000ff [7:0]   RX_TL        (0x00) Receive FIFO Threshold Level
+    io_rw_32 rx_tl;
+ 
+    _REG_(I2C_IC_TX_TL_OFFSET) // I2C_IC_TX_TL
+    // I2C Transmit FIFO Threshold Register
+    // 0x000000ff [7:0]   TX_TL        (0x00) Transmit FIFO Threshold Level
+    io_rw_32 tx_tl;
+ 
+    _REG_(I2C_IC_CLR_INTR_OFFSET) // I2C_IC_CLR_INTR
+    // Clear Combined and Individual Interrupt Register
+    // 0x00000001 [0]     CLR_INTR     (0) Read this register to clear the combined interrupt, all...
+    io_ro_32 clr_intr;
+ 
+    _REG_(I2C_IC_CLR_RX_UNDER_OFFSET) // I2C_IC_CLR_RX_UNDER
+    // Clear RX_UNDER Interrupt Register
+    // 0x00000001 [0]     CLR_RX_UNDER (0) Read this register to clear the RX_UNDER interrupt (bit...
+    io_ro_32 clr_rx_under;
+ 
+    _REG_(I2C_IC_CLR_RX_OVER_OFFSET) // I2C_IC_CLR_RX_OVER
+    // Clear RX_OVER Interrupt Register
+    // 0x00000001 [0]     CLR_RX_OVER  (0) Read this register to clear the RX_OVER interrupt (bit...
+    io_ro_32 clr_rx_over;
+ 
+    _REG_(I2C_IC_CLR_TX_OVER_OFFSET) // I2C_IC_CLR_TX_OVER
+    // Clear TX_OVER Interrupt Register
+    // 0x00000001 [0]     CLR_TX_OVER  (0) Read this register to clear the TX_OVER interrupt (bit...
+    io_ro_32 clr_tx_over;
+ 
+    _REG_(I2C_IC_CLR_RD_REQ_OFFSET) // I2C_IC_CLR_RD_REQ
+    // Clear RD_REQ Interrupt Register
+    // 0x00000001 [0]     CLR_RD_REQ   (0) Read this register to clear the RD_REQ interrupt (bit 5)...
+    io_ro_32 clr_rd_req;
+ 
+    _REG_(I2C_IC_CLR_TX_ABRT_OFFSET) // I2C_IC_CLR_TX_ABRT
+    // Clear TX_ABRT Interrupt Register
+    // 0x00000001 [0]     CLR_TX_ABRT  (0) Read this register to clear the TX_ABRT interrupt (bit...
+    io_ro_32 clr_tx_abrt;
+ 
+    _REG_(I2C_IC_CLR_RX_DONE_OFFSET) // I2C_IC_CLR_RX_DONE
+    // Clear RX_DONE Interrupt Register
+    // 0x00000001 [0]     CLR_RX_DONE  (0) Read this register to clear the RX_DONE interrupt (bit...
+    io_ro_32 clr_rx_done;
+ 
+    _REG_(I2C_IC_CLR_ACTIVITY_OFFSET) // I2C_IC_CLR_ACTIVITY
+    // Clear ACTIVITY Interrupt Register
+    // 0x00000001 [0]     CLR_ACTIVITY (0) Reading this register clears the ACTIVITY interrupt if...
+    io_ro_32 clr_activity;
+ 
+    _REG_(I2C_IC_CLR_STOP_DET_OFFSET) // I2C_IC_CLR_STOP_DET
+    // Clear STOP_DET Interrupt Register
+    // 0x00000001 [0]     CLR_STOP_DET (0) Read this register to clear the STOP_DET interrupt (bit...
+    io_ro_32 clr_stop_det;
+ 
+    _REG_(I2C_IC_CLR_START_DET_OFFSET) // I2C_IC_CLR_START_DET
+    // Clear START_DET Interrupt Register
+    // 0x00000001 [0]     CLR_START_DET (0) Read this register to clear the START_DET interrupt (bit...
+    io_ro_32 clr_start_det;
+ 
+    _REG_(I2C_IC_CLR_GEN_CALL_OFFSET) // I2C_IC_CLR_GEN_CALL
+    // Clear GEN_CALL Interrupt Register
+    // 0x00000001 [0]     CLR_GEN_CALL (0) Read this register to clear the GEN_CALL interrupt (bit...
+    io_ro_32 clr_gen_call;
+ 
+    _REG_(I2C_IC_ENABLE_OFFSET) // I2C_IC_ENABLE
+    // I2C ENABLE Register
+    // 0x00000004 [2]     TX_CMD_BLOCK (0) In Master mode: - 1'b1: Blocks the transmission of data...
+    // 0x00000002 [1]     ABORT        (0) When set, the controller initiates the transfer abort
+    // 0x00000001 [0]     ENABLE       (0) Controls whether the DW_apb_i2c is enabled
+    io_rw_32 enable;
+ 
+    _REG_(I2C_IC_STATUS_OFFSET) // I2C_IC_STATUS
+    // I2C STATUS Register
+    // 0x00000040 [6]     SLV_ACTIVITY (0) Slave FSM Activity Status
+    // 0x00000020 [5]     MST_ACTIVITY (0) Master FSM Activity Status
+    // 0x00000010 [4]     RFF          (0) Receive FIFO Completely Full
+    // 0x00000008 [3]     RFNE         (0) Receive FIFO Not Empty
+    // 0x00000004 [2]     TFE          (1) Transmit FIFO Completely Empty
+    // 0x00000002 [1]     TFNF         (1) Transmit FIFO Not Full
+    // 0x00000001 [0]     ACTIVITY     (0) I2C Activity Status
+    io_ro_32 status;
+ 
+    _REG_(I2C_IC_TXFLR_OFFSET) // I2C_IC_TXFLR
+    // I2C Transmit FIFO Level Register
+    // 0x0000001f [4:0]   TXFLR        (0x00) Transmit FIFO Level
+    io_ro_32 txflr;
+ 
+    _REG_(I2C_IC_RXFLR_OFFSET) // I2C_IC_RXFLR
+    // I2C Receive FIFO Level Register
+    // 0x0000001f [4:0]   RXFLR        (0x00) Receive FIFO Level
+    io_ro_32 rxflr;
+ 
+    _REG_(I2C_IC_SDA_HOLD_OFFSET) // I2C_IC_SDA_HOLD
+    // I2C SDA Hold Time Length Register
+    // 0x00ff0000 [23:16] IC_SDA_RX_HOLD (0x00) Sets the required SDA hold time in units of ic_clk...
+    // 0x0000ffff [15:0]  IC_SDA_TX_HOLD (0x0001) Sets the required SDA hold time in units of ic_clk...
+    io_rw_32 sda_hold;
+ 
+    _REG_(I2C_IC_TX_ABRT_SOURCE_OFFSET) // I2C_IC_TX_ABRT_SOURCE
+    // I2C Transmit Abort Source Register
+    // 0xff800000 [31:23] TX_FLUSH_CNT (0x000) This field indicates the number of Tx FIFO Data Commands...
+    // 0x00010000 [16]    ABRT_USER_ABRT (0) This is a master-mode-only bit
+    // 0x00008000 [15]    ABRT_SLVRD_INTX (0) 1: When the processor side responds to a slave mode...
+    // 0x00004000 [14]    ABRT_SLV_ARBLOST (0) This field indicates that a Slave has lost the bus while...
+    // 0x00002000 [13]    ABRT_SLVFLUSH_TXFIFO (0) This field specifies that the Slave has received a read...
+    // 0x00001000 [12]    ARB_LOST     (0) This field specifies that the Master has lost...
+    // 0x00000800 [11]    ABRT_MASTER_DIS (0) This field indicates that the User tries to initiate a...
+    // 0x00000400 [10]    ABRT_10B_RD_NORSTRT (0) This field indicates that the restart is disabled...
+    // 0x00000200 [9]     ABRT_SBYTE_NORSTRT (0) To clear Bit 9, the source of the ABRT_SBYTE_NORSTRT...
+    // 0x00000100 [8]     ABRT_HS_NORSTRT (0) This field indicates that the restart is disabled...
+    // 0x00000080 [7]     ABRT_SBYTE_ACKDET (0) This field indicates that the Master has sent a START...
+    // 0x00000040 [6]     ABRT_HS_ACKDET (0) This field indicates that the Master is in High Speed...
+    // 0x00000020 [5]     ABRT_GCALL_READ (0) This field indicates that DW_apb_i2c in the master mode...
+    // 0x00000010 [4]     ABRT_GCALL_NOACK (0) This field indicates that DW_apb_i2c in master mode has...
+    // 0x00000008 [3]     ABRT_TXDATA_NOACK (0) This field indicates the master-mode only bit
+    // 0x00000004 [2]     ABRT_10ADDR2_NOACK (0) This field indicates that the Master is in 10-bit...
+    // 0x00000002 [1]     ABRT_10ADDR1_NOACK (0) This field indicates that the Master is in 10-bit...
+    // 0x00000001 [0]     ABRT_7B_ADDR_NOACK (0) This field indicates that the Master is in 7-bit...
+    io_ro_32 tx_abrt_source;
+ 
+    _REG_(I2C_IC_SLV_DATA_NACK_ONLY_OFFSET) // I2C_IC_SLV_DATA_NACK_ONLY
+    // Generate Slave Data NACK Register
+    // 0x00000001 [0]     NACK         (0) Generate NACK
+    io_rw_32 slv_data_nack_only;
+ 
+    _REG_(I2C_IC_DMA_CR_OFFSET) // I2C_IC_DMA_CR
+    // DMA Control Register
+    // 0x00000002 [1]     TDMAE        (0) Transmit DMA Enable
+    // 0x00000001 [0]     RDMAE        (0) Receive DMA Enable
+    io_rw_32 dma_cr;
+ 
+    _REG_(I2C_IC_DMA_TDLR_OFFSET) // I2C_IC_DMA_TDLR
+    // DMA Transmit Data Level Register
+    // 0x0000000f [3:0]   DMATDL       (0x0) Transmit Data Level
+    io_rw_32 dma_tdlr;
+ 
+    _REG_(I2C_IC_DMA_RDLR_OFFSET) // I2C_IC_DMA_RDLR
+    // DMA Transmit Data Level Register
+    // 0x0000000f [3:0]   DMARDL       (0x0) Receive Data Level
+    io_rw_32 dma_rdlr;
+ 
+    _REG_(I2C_IC_SDA_SETUP_OFFSET) // I2C_IC_SDA_SETUP
+    // I2C SDA Setup Register
+    // 0x000000ff [7:0]   SDA_SETUP    (0x64) SDA Setup
+    io_rw_32 sda_setup;
+ 
+    _REG_(I2C_IC_ACK_GENERAL_CALL_OFFSET) // I2C_IC_ACK_GENERAL_CALL
+    // I2C ACK General Call Register
+    // 0x00000001 [0]     ACK_GEN_CALL (1) ACK General Call
+    io_rw_32 ack_general_call;
+ 
+    _REG_(I2C_IC_ENABLE_STATUS_OFFSET) // I2C_IC_ENABLE_STATUS
+    // I2C Enable Status Register
+    // 0x00000004 [2]     SLV_RX_DATA_LOST (0) Slave Received Data Lost
+    // 0x00000002 [1]     SLV_DISABLED_WHILE_BUSY (0) Slave Disabled While Busy (Transmit, Receive)
+    // 0x00000001 [0]     IC_EN        (0) ic_en Status
+    io_ro_32 enable_status;
+ 
+    _REG_(I2C_IC_FS_SPKLEN_OFFSET) // I2C_IC_FS_SPKLEN
+    // I2C SS, FS or FM+ spike suppression limit
+    // 0x000000ff [7:0]   IC_FS_SPKLEN (0x07) This register must be set before any I2C bus transaction...
+    io_rw_32 fs_spklen;
+ 
+    uint32_t _pad2;
+ 
+    _REG_(I2C_IC_CLR_RESTART_DET_OFFSET) // I2C_IC_CLR_RESTART_DET
+    // Clear RESTART_DET Interrupt Register
+    // 0x00000001 [0]     CLR_RESTART_DET (0) Read this register to clear the RESTART_DET interrupt...
+    io_ro_32 clr_restart_det;
+ 
+    uint32_t _pad3[18];
+ 
+    _REG_(I2C_IC_COMP_PARAM_1_OFFSET) // I2C_IC_COMP_PARAM_1
+    // Component Parameter Register 1
+    // 0x00ff0000 [23:16] TX_BUFFER_DEPTH (0x00) TX Buffer Depth = 16
+    // 0x0000ff00 [15:8]  RX_BUFFER_DEPTH (0x00) RX Buffer Depth = 16
+    // 0x00000080 [7]     ADD_ENCODED_PARAMS (0) Encoded parameters not visible
+    // 0x00000040 [6]     HAS_DMA      (0) DMA handshaking signals are enabled
+    // 0x00000020 [5]     INTR_IO      (0) COMBINED Interrupt outputs
+    // 0x00000010 [4]     HC_COUNT_VALUES (0) Programmable count values for each mode
+    // 0x0000000c [3:2]   MAX_SPEED_MODE (0x0) MAX SPEED MODE = FAST MODE
+    // 0x00000003 [1:0]   APB_DATA_WIDTH (0x0) APB data bus width is 32 bits
+    io_ro_32 comp_param_1;
+ 
+    _REG_(I2C_IC_COMP_VERSION_OFFSET) // I2C_IC_COMP_VERSION
+    // I2C Component Version Register
+    // 0xffffffff [31:0]  IC_COMP_VERSION (0x3230312a) 
+    io_ro_32 comp_version;
+ 
+    _REG_(I2C_IC_COMP_TYPE_OFFSET) // I2C_IC_COMP_TYPE
+    // I2C Component Type Register
+    // 0xffffffff [31:0]  IC_COMP_TYPE (0x44570140) Designware Component Type number = 0x44_57_01_40
+    io_ro_32 comp_type;
+} i2c_hw_t;
+
+#define i2c0_hw ((i2c_hw_t *)I2C0_BASE)
+#define i2c1_hw ((i2c_hw_t *)I2C1_BASE)
+static_assert(sizeof (i2c_hw_t) == 0x0100, "");
+
+#endif // _HARDWARE_STRUCTS_I2C_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/interp.h b/lib/pico-sdk/rp2350/hardware/structs/interp.h
new file mode 100644
index 0000000..eec0e3d
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/interp.h
@@ -0,0 +1,87 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_INTERP_H
+#define _HARDWARE_STRUCTS_INTERP_H
+
+/**
+ * \file rp2350/interp.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sio.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_sio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    // (Description copied from array index 0 register SIO_INTERP0_ACCUM0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_ACCUM0_OFFSET) // SIO_INTERP0_ACCUM0
+    // Read/write access to accumulator 0
+    // 0xffffffff [31:0]  INTERP0_ACCUM0 (0x00000000) 
+    io_rw_32 accum[2];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_BASE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_BASE0_OFFSET) // SIO_INTERP0_BASE0
+    // Read/write access to BASE0 register
+    // 0xffffffff [31:0]  INTERP0_BASE0 (0x00000000) 
+    io_rw_32 base[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_POP_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_POP_LANE0_OFFSET) // SIO_INTERP0_POP_LANE0
+    // Read LANE0 result, and simultaneously write lane results to both accumulators (POP)
+    // 0xffffffff [31:0]  INTERP0_POP_LANE0 (0x00000000) 
+    io_ro_32 pop[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_PEEK_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_PEEK_LANE0_OFFSET) // SIO_INTERP0_PEEK_LANE0
+    // Read LANE0 result, without altering any internal state (PEEK)
+    // 0xffffffff [31:0]  INTERP0_PEEK_LANE0 (0x00000000) 
+    io_ro_32 peek[3];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_CTRL_LANE0 applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_CTRL_LANE0_OFFSET) // SIO_INTERP0_CTRL_LANE0
+    // Control register for lane 0
+    // 0x02000000 [25]    OVERF        (0) Set if either OVERF0 or OVERF1 is set
+    // 0x01000000 [24]    OVERF1       (0) Indicates if any masked-off MSBs in ACCUM1 are set
+    // 0x00800000 [23]    OVERF0       (0) Indicates if any masked-off MSBs in ACCUM0 are set
+    // 0x00200000 [21]    BLEND        (0) Only present on INTERP0 on each core
+    // 0x00180000 [20:19] FORCE_MSB    (0x0) ORed into bits 29:28 of the lane result presented to the...
+    // 0x00040000 [18]    ADD_RAW      (0) If 1, mask + shift is bypassed for LANE0 result
+    // 0x00020000 [17]    CROSS_RESULT (0) If 1, feed the opposite lane's result into this lane's...
+    // 0x00010000 [16]    CROSS_INPUT  (0) If 1, feed the opposite lane's accumulator into this...
+    // 0x00008000 [15]    SIGNED       (0) If SIGNED is set, the shifted and masked accumulator...
+    // 0x00007c00 [14:10] MASK_MSB     (0x00) The most-significant bit allowed to pass by the mask...
+    // 0x000003e0 [9:5]   MASK_LSB     (0x00) The least-significant bit allowed to pass by the mask (inclusive)
+    // 0x0000001f [4:0]   SHIFT        (0x00) Right-rotate applied to accumulator before masking
+    io_rw_32 ctrl[2];
+ 
+    // (Description copied from array index 0 register SIO_INTERP0_ACCUM0_ADD applies similarly to other array indexes)
+    _REG_(SIO_INTERP0_ACCUM0_ADD_OFFSET) // SIO_INTERP0_ACCUM0_ADD
+    // Values written here are atomically added to ACCUM0
+    // 0x00ffffff [23:0]  INTERP0_ACCUM0_ADD (0x000000) 
+    io_rw_32 add_raw[2];
+ 
+    _REG_(SIO_INTERP0_BASE_1AND0_OFFSET) // SIO_INTERP0_BASE_1AND0
+    // On write, the lower 16 bits go to BASE0, upper bits to BASE1 simultaneously.
+    // 0xffffffff [31:0]  INTERP0_BASE_1AND0 (0x00000000) 
+    io_wo_32 base01;
+} interp_hw_t;
+
+#define interp_hw_array ((interp_hw_t *)(SIO_BASE + SIO_INTERP0_ACCUM0_OFFSET))
+#define interp_hw_array_ns ((interp_hw_t *)(SIO_NONSEC_BASE + SIO_INTERP0_ACCUM0_OFFSET))
+static_assert(sizeof (interp_hw_t) == 0x0040, "");
+#define interp0_hw (&interp_hw_array[0])
+#define interp1_hw (&interp_hw_array[1])
+
+#endif // _HARDWARE_STRUCTS_INTERP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/io_bank0.h b/lib/pico-sdk/rp2350/hardware/structs/io_bank0.h
new file mode 100644
index 0000000..c5020e2
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/io_bank0.h
@@ -0,0 +1,452 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_IO_BANK0_H
+#define _HARDWARE_STRUCTS_IO_BANK0_H
+
+/**
+ * \file rp2350/io_bank0.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/io_bank0.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_io_bank0
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/io_bank0.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/**
+ * \brief GPIO pin function selectors on RP2350 (used as typedef \ref gpio_function_t) 
+ * \ingroup hardware_gpio
+ */
+typedef enum gpio_function_rp2350 {
+    GPIO_FUNC_HSTX = 0, ///< Select HSTX as GPIO pin function
+    GPIO_FUNC_SPI = 1, ///< Select SPI as GPIO pin function
+    GPIO_FUNC_UART = 2, ///< Select UART as GPIO pin function
+    GPIO_FUNC_I2C = 3, ///< Select I2C as GPIO pin function
+    GPIO_FUNC_PWM = 4, ///< Select PWM as GPIO pin function
+    GPIO_FUNC_SIO = 5, ///< Select SIO as GPIO pin function
+    GPIO_FUNC_PIO0 = 6, ///< Select PIO0 as GPIO pin function
+    GPIO_FUNC_PIO1 = 7, ///< Select PIO1 as GPIO pin function
+    GPIO_FUNC_PIO2 = 8, ///< Select PIO2 as GPIO pin function
+    GPIO_FUNC_GPCK = 9, ///< Select GPCK as GPIO pin function
+    GPIO_FUNC_XIP_CS1 = 9, ///< Select XIP CS1 as GPIO pin function
+    GPIO_FUNC_CORESIGHT_TRACE = 9, ///< Select CORESIGHT TRACE as GPIO pin function
+    GPIO_FUNC_USB = 10, ///< Select USB as GPIO pin function
+    GPIO_FUNC_UART_AUX = 11, ///< Select UART_AUX as GPIO pin function
+    GPIO_FUNC_NULL = 0x1f, ///< Select NULL as GPIO pin function
+} gpio_function_t;
+
+typedef struct {
+    _REG_(IO_BANK0_GPIO0_STATUS_OFFSET) // IO_BANK0_GPIO0_STATUS
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before filtering and override are applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    io_ro_32 status;
+ 
+    _REG_(IO_BANK0_GPIO0_CTRL_OFFSET) // IO_BANK0_GPIO0_CTRL
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x0000c000 [15:14] OEOVER       (0x0) 
+    // 0x00003000 [13:12] OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 ctrl;
+} io_bank0_status_ctrl_hw_t;
+
+typedef struct {
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTE0_OFFSET) // IO_BANK0_PROC0_INTE0
+    // Interrupt Enable for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 inte[6];
+ 
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTF0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTF0_OFFSET) // IO_BANK0_PROC0_INTF0
+    // Interrupt Force for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 intf[6];
+ 
+    // (Description copied from array index 0 register IO_BANK0_PROC0_INTS0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_PROC0_INTS0_OFFSET) // IO_BANK0_PROC0_INTS0
+    // Interrupt status after masking & forcing for proc0
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_ro_32 ints[6];
+} io_bank0_irq_ctrl_hw_t;
+
+/// \tag::io_bank0_hw[]
+typedef struct {
+    io_bank0_status_ctrl_hw_t io[48];
+ 
+    uint32_t _pad0[32];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_PROC0_SECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_PROC0_SECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_PROC0_SECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_proc0_secure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_PROC0_NONSECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_proc0_nonsecure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_PROC1_SECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_PROC1_SECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_PROC1_SECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_proc1_secure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_PROC1_NONSECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_proc1_nonsecure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_DORMANT_WAKE_SECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_dormant_wake_secure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0_OFFSET) // IO_BANK0_IRQSUMMARY_DORMANT_WAKE_NONSECURE0
+    // 0x80000000 [31]    GPIO31       (0) 
+    // 0x40000000 [30]    GPIO30       (0) 
+    // 0x20000000 [29]    GPIO29       (0) 
+    // 0x10000000 [28]    GPIO28       (0) 
+    // 0x08000000 [27]    GPIO27       (0) 
+    // 0x04000000 [26]    GPIO26       (0) 
+    // 0x02000000 [25]    GPIO25       (0) 
+    // 0x01000000 [24]    GPIO24       (0) 
+    // 0x00800000 [23]    GPIO23       (0) 
+    // 0x00400000 [22]    GPIO22       (0) 
+    // 0x00200000 [21]    GPIO21       (0) 
+    // 0x00100000 [20]    GPIO20       (0) 
+    // 0x00080000 [19]    GPIO19       (0) 
+    // 0x00040000 [18]    GPIO18       (0) 
+    // 0x00020000 [17]    GPIO17       (0) 
+    // 0x00010000 [16]    GPIO16       (0) 
+    // 0x00008000 [15]    GPIO15       (0) 
+    // 0x00004000 [14]    GPIO14       (0) 
+    // 0x00002000 [13]    GPIO13       (0) 
+    // 0x00001000 [12]    GPIO12       (0) 
+    // 0x00000800 [11]    GPIO11       (0) 
+    // 0x00000400 [10]    GPIO10       (0) 
+    // 0x00000200 [9]     GPIO9        (0) 
+    // 0x00000100 [8]     GPIO8        (0) 
+    // 0x00000080 [7]     GPIO7        (0) 
+    // 0x00000040 [6]     GPIO6        (0) 
+    // 0x00000020 [5]     GPIO5        (0) 
+    // 0x00000010 [4]     GPIO4        (0) 
+    // 0x00000008 [3]     GPIO3        (0) 
+    // 0x00000004 [2]     GPIO2        (0) 
+    // 0x00000002 [1]     GPIO1        (0) 
+    // 0x00000001 [0]     GPIO0        (0) 
+    io_ro_32 irqsummary_dormant_wake_nonsecure[2];
+ 
+    // (Description copied from array index 0 register IO_BANK0_INTR0 applies similarly to other array indexes)
+    _REG_(IO_BANK0_INTR0_OFFSET) // IO_BANK0_INTR0
+    // Raw Interrupts
+    // 0x80000000 [31]    GPIO7_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO7_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO7_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO7_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO6_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO6_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO6_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO6_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO5_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO5_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO5_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO5_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO4_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO4_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO4_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO4_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO3_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO3_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO3_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO3_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO2_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO2_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO2_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO2_LEVEL_LOW (0) 
+    // 0x00000080 [7]     GPIO1_EDGE_HIGH (0) 
+    // 0x00000040 [6]     GPIO1_EDGE_LOW (0) 
+    // 0x00000020 [5]     GPIO1_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     GPIO1_LEVEL_LOW (0) 
+    // 0x00000008 [3]     GPIO0_EDGE_HIGH (0) 
+    // 0x00000004 [2]     GPIO0_EDGE_LOW (0) 
+    // 0x00000002 [1]     GPIO0_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     GPIO0_LEVEL_LOW (0) 
+    io_rw_32 intr[6];
+ 
+    union {
+        struct {
+            io_bank0_irq_ctrl_hw_t proc0_irq_ctrl;
+            io_bank0_irq_ctrl_hw_t proc1_irq_ctrl;
+            io_bank0_irq_ctrl_hw_t dormant_wake_irq_ctrl;
+        };
+        io_bank0_irq_ctrl_hw_t irq_ctrl[3];
+    };
+} io_bank0_hw_t;
+/// \end::io_bank0_hw[]
+
+#define io_bank0_hw ((io_bank0_hw_t *)IO_BANK0_BASE)
+static_assert(sizeof (io_bank0_hw_t) == 0x0320, "");
+
+#endif // _HARDWARE_STRUCTS_IO_BANK0_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/io_qspi.h b/lib/pico-sdk/rp2350/hardware/structs/io_qspi.h
new file mode 100644
index 0000000..cec2bba
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/io_qspi.h
@@ -0,0 +1,316 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_IO_QSPI_H
+#define _HARDWARE_STRUCTS_IO_QSPI_H
+
+/**
+ * \file rp2350/io_qspi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/io_qspi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_io_qspi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/io_qspi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/**
+ * \brief QSPI pin function selectors on RP2350 (used as typedef \ref gpio_function1_t) 
+ */
+typedef enum gpio_function1_rp2350 {
+    GPIO_FUNC1_XIP = 0, ///< Select XIP as QSPI pin function
+    GPIO_FUNC1_UART = 2, ///< Select UART as QSPI pin function
+    GPIO_FUNC1_I2C = 3, ///< Select I2C as QSPI pin function
+    GPIO_FUNC1_SIO = 5, ///< Select SIO as QSPI pin function
+    GPIO_FUNC1_UART_AUX = 11, ///< Select UART_AUX as QSPI pin function
+    GPIO_FUNC1_NULL = 0x1f, ///< Select NULL as QSPI pin function
+} gpio_function1_t;
+
+typedef struct {
+    _REG_(IO_QSPI_GPIO_QSPI_SCLK_STATUS_OFFSET) // IO_QSPI_GPIO_QSPI_SCLK_STATUS
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before filtering and override are applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    io_ro_32 status;
+ 
+    _REG_(IO_QSPI_GPIO_QSPI_SCLK_CTRL_OFFSET) // IO_QSPI_GPIO_QSPI_SCLK_CTRL
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x0000c000 [15:14] OEOVER       (0x0) 
+    // 0x00003000 [13:12] OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 ctrl;
+} io_qspi_status_ctrl_hw_t;
+
+typedef struct {
+    _REG_(IO_QSPI_PROC0_INTE_OFFSET) // IO_QSPI_PROC0_INTE
+    // Interrupt Enable for proc0
+    // 0x80000000 [31]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    // 0x00000080 [7]     USBPHY_DM_EDGE_HIGH (0) 
+    // 0x00000040 [6]     USBPHY_DM_EDGE_LOW (0) 
+    // 0x00000020 [5]     USBPHY_DM_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     USBPHY_DM_LEVEL_LOW (0) 
+    // 0x00000008 [3]     USBPHY_DP_EDGE_HIGH (0) 
+    // 0x00000004 [2]     USBPHY_DP_EDGE_LOW (0) 
+    // 0x00000002 [1]     USBPHY_DP_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     USBPHY_DP_LEVEL_LOW (0) 
+    io_rw_32 inte;
+ 
+    _REG_(IO_QSPI_PROC0_INTF_OFFSET) // IO_QSPI_PROC0_INTF
+    // Interrupt Force for proc0
+    // 0x80000000 [31]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    // 0x00000080 [7]     USBPHY_DM_EDGE_HIGH (0) 
+    // 0x00000040 [6]     USBPHY_DM_EDGE_LOW (0) 
+    // 0x00000020 [5]     USBPHY_DM_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     USBPHY_DM_LEVEL_LOW (0) 
+    // 0x00000008 [3]     USBPHY_DP_EDGE_HIGH (0) 
+    // 0x00000004 [2]     USBPHY_DP_EDGE_LOW (0) 
+    // 0x00000002 [1]     USBPHY_DP_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     USBPHY_DP_LEVEL_LOW (0) 
+    io_rw_32 intf;
+ 
+    _REG_(IO_QSPI_PROC0_INTS_OFFSET) // IO_QSPI_PROC0_INTS
+    // Interrupt status after masking & forcing for proc0
+    // 0x80000000 [31]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    // 0x00000080 [7]     USBPHY_DM_EDGE_HIGH (0) 
+    // 0x00000040 [6]     USBPHY_DM_EDGE_LOW (0) 
+    // 0x00000020 [5]     USBPHY_DM_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     USBPHY_DM_LEVEL_LOW (0) 
+    // 0x00000008 [3]     USBPHY_DP_EDGE_HIGH (0) 
+    // 0x00000004 [2]     USBPHY_DP_EDGE_LOW (0) 
+    // 0x00000002 [1]     USBPHY_DP_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     USBPHY_DP_LEVEL_LOW (0) 
+    io_ro_32 ints;
+} io_qspi_irq_ctrl_hw_t;
+
+typedef struct {
+    _REG_(IO_QSPI_USBPHY_DP_STATUS_OFFSET) // IO_QSPI_USBPHY_DP_STATUS
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before filtering and override are applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    io_ro_32 usbphy_dp_status;
+ 
+    _REG_(IO_QSPI_USBPHY_DP_CTRL_OFFSET) // IO_QSPI_USBPHY_DP_CTRL
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x0000c000 [15:14] OEOVER       (0x0) 
+    // 0x00003000 [13:12] OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 usbphy_dp_ctrl;
+ 
+    _REG_(IO_QSPI_USBPHY_DM_STATUS_OFFSET) // IO_QSPI_USBPHY_DM_STATUS
+    // 0x04000000 [26]    IRQTOPROC    (0) interrupt to processors, after override is applied
+    // 0x00020000 [17]    INFROMPAD    (0) input signal from pad, before filtering and override are applied
+    // 0x00002000 [13]    OETOPAD      (0) output enable to pad after register override is applied
+    // 0x00000200 [9]     OUTTOPAD     (0) output signal to pad after register override is applied
+    io_ro_32 usbphy_dm_status;
+ 
+    _REG_(IO_QSPI_USBPHY_DM_CTRL_OFFSET) // IO_QSPI_USBPHY_DM_CTRL
+    // 0x30000000 [29:28] IRQOVER      (0x0) 
+    // 0x00030000 [17:16] INOVER       (0x0) 
+    // 0x0000c000 [15:14] OEOVER       (0x0) 
+    // 0x00003000 [13:12] OUTOVER      (0x0) 
+    // 0x0000001f [4:0]   FUNCSEL      (0x1f) 0-31 -> selects pin function according to the gpio table +
+    io_rw_32 usbphy_dm_ctrl;
+ 
+    io_qspi_status_ctrl_hw_t io[6];
+ 
+    uint32_t _pad0[112];
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_PROC0_SECURE_OFFSET) // IO_QSPI_IRQSUMMARY_PROC0_SECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_proc0_secure;
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_PROC0_NONSECURE_OFFSET) // IO_QSPI_IRQSUMMARY_PROC0_NONSECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_proc0_nonsecure;
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_PROC1_SECURE_OFFSET) // IO_QSPI_IRQSUMMARY_PROC1_SECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_proc1_secure;
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_PROC1_NONSECURE_OFFSET) // IO_QSPI_IRQSUMMARY_PROC1_NONSECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_proc1_nonsecure;
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE_OFFSET) // IO_QSPI_IRQSUMMARY_DORMANT_WAKE_SECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_dormant_wake_secure;
+ 
+    _REG_(IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE_OFFSET) // IO_QSPI_IRQSUMMARY_DORMANT_WAKE_NONSECURE
+    // 0x00000080 [7]     GPIO_QSPI_SD3 (0) 
+    // 0x00000040 [6]     GPIO_QSPI_SD2 (0) 
+    // 0x00000020 [5]     GPIO_QSPI_SD1 (0) 
+    // 0x00000010 [4]     GPIO_QSPI_SD0 (0) 
+    // 0x00000008 [3]     GPIO_QSPI_SS (0) 
+    // 0x00000004 [2]     GPIO_QSPI_SCLK (0) 
+    // 0x00000002 [1]     USBPHY_DM    (0) 
+    // 0x00000001 [0]     USBPHY_DP    (0) 
+    io_ro_32 irqsummary_dormant_wake_nonsecure;
+ 
+    _REG_(IO_QSPI_INTR_OFFSET) // IO_QSPI_INTR
+    // Raw Interrupts
+    // 0x80000000 [31]    GPIO_QSPI_SD3_EDGE_HIGH (0) 
+    // 0x40000000 [30]    GPIO_QSPI_SD3_EDGE_LOW (0) 
+    // 0x20000000 [29]    GPIO_QSPI_SD3_LEVEL_HIGH (0) 
+    // 0x10000000 [28]    GPIO_QSPI_SD3_LEVEL_LOW (0) 
+    // 0x08000000 [27]    GPIO_QSPI_SD2_EDGE_HIGH (0) 
+    // 0x04000000 [26]    GPIO_QSPI_SD2_EDGE_LOW (0) 
+    // 0x02000000 [25]    GPIO_QSPI_SD2_LEVEL_HIGH (0) 
+    // 0x01000000 [24]    GPIO_QSPI_SD2_LEVEL_LOW (0) 
+    // 0x00800000 [23]    GPIO_QSPI_SD1_EDGE_HIGH (0) 
+    // 0x00400000 [22]    GPIO_QSPI_SD1_EDGE_LOW (0) 
+    // 0x00200000 [21]    GPIO_QSPI_SD1_LEVEL_HIGH (0) 
+    // 0x00100000 [20]    GPIO_QSPI_SD1_LEVEL_LOW (0) 
+    // 0x00080000 [19]    GPIO_QSPI_SD0_EDGE_HIGH (0) 
+    // 0x00040000 [18]    GPIO_QSPI_SD0_EDGE_LOW (0) 
+    // 0x00020000 [17]    GPIO_QSPI_SD0_LEVEL_HIGH (0) 
+    // 0x00010000 [16]    GPIO_QSPI_SD0_LEVEL_LOW (0) 
+    // 0x00008000 [15]    GPIO_QSPI_SS_EDGE_HIGH (0) 
+    // 0x00004000 [14]    GPIO_QSPI_SS_EDGE_LOW (0) 
+    // 0x00002000 [13]    GPIO_QSPI_SS_LEVEL_HIGH (0) 
+    // 0x00001000 [12]    GPIO_QSPI_SS_LEVEL_LOW (0) 
+    // 0x00000800 [11]    GPIO_QSPI_SCLK_EDGE_HIGH (0) 
+    // 0x00000400 [10]    GPIO_QSPI_SCLK_EDGE_LOW (0) 
+    // 0x00000200 [9]     GPIO_QSPI_SCLK_LEVEL_HIGH (0) 
+    // 0x00000100 [8]     GPIO_QSPI_SCLK_LEVEL_LOW (0) 
+    // 0x00000080 [7]     USBPHY_DM_EDGE_HIGH (0) 
+    // 0x00000040 [6]     USBPHY_DM_EDGE_LOW (0) 
+    // 0x00000020 [5]     USBPHY_DM_LEVEL_HIGH (0) 
+    // 0x00000010 [4]     USBPHY_DM_LEVEL_LOW (0) 
+    // 0x00000008 [3]     USBPHY_DP_EDGE_HIGH (0) 
+    // 0x00000004 [2]     USBPHY_DP_EDGE_LOW (0) 
+    // 0x00000002 [1]     USBPHY_DP_LEVEL_HIGH (0) 
+    // 0x00000001 [0]     USBPHY_DP_LEVEL_LOW (0) 
+    io_rw_32 intr;
+ 
+    union {
+        struct {
+            io_qspi_irq_ctrl_hw_t proc0_irq_ctrl;
+            io_qspi_irq_ctrl_hw_t proc1_irq_ctrl;
+            io_qspi_irq_ctrl_hw_t dormant_wake_irq_ctrl;
+        };
+        io_qspi_irq_ctrl_hw_t irq_ctrl[3];
+    };
+} io_qspi_hw_t;
+
+#define io_qspi_hw ((io_qspi_hw_t *)IO_QSPI_BASE)
+static_assert(sizeof (io_qspi_hw_t) == 0x0240, "");
+
+#endif // _HARDWARE_STRUCTS_IO_QSPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/iobank0.h b/lib/pico-sdk/rp2350/hardware/structs/iobank0.h
new file mode 100644
index 0000000..2dc31e3
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/iobank0.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/io_bank0.h"
+#define iobank0_hw io_bank0_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2350/hardware/structs/ioqspi.h b/lib/pico-sdk/rp2350/hardware/structs/ioqspi.h
new file mode 100644
index 0000000..20cc74c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/ioqspi.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/io_qspi.h"
+#define ioqspi_hw io_qspi_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2350/hardware/structs/m33.h b/lib/pico-sdk/rp2350/hardware/structs/m33.h
new file mode 100644
index 0000000..d527c91
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/m33.h
@@ -0,0 +1,1651 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_M33_H
+#define _HARDWARE_STRUCTS_M33_H
+
+/**
+ * \file rp2350/m33.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    // (Description copied from array index 0 register M33_ITM_STIM0 applies similarly to other array indexes)
+    _REG_(M33_ITM_STIM0_OFFSET) // M33_ITM_STIM0
+    // ITM Stimulus Port Register 0
+    // 0xffffffff [31:0]  STIMULUS     (0x00000000) Data to write to the Stimulus Port FIFO, for forwarding...
+    io_rw_32 itm_stim[32];
+ 
+    uint32_t _pad0[864];
+ 
+    _REG_(M33_ITM_TER0_OFFSET) // M33_ITM_TER0
+    // Provide an individual enable bit for each ITM_STIM register
+    // 0xffffffff [31:0]  STIMENA      (0x00000000) For STIMENA[m] in ITM_TER*n, controls whether...
+    io_rw_32 itm_ter0;
+ 
+    uint32_t _pad1[15];
+ 
+    _REG_(M33_ITM_TPR_OFFSET) // M33_ITM_TPR
+    // Controls which stimulus ports can be accessed by unprivileged code
+    // 0x0000000f [3:0]   PRIVMASK     (0x0) Bit mask to enable tracing on ITM stimulus ports
+    io_rw_32 itm_tpr;
+ 
+    uint32_t _pad2[15];
+ 
+    _REG_(M33_ITM_TCR_OFFSET) // M33_ITM_TCR
+    // Configures and controls transfers through the ITM interface
+    // 0x00800000 [23]    BUSY         (0) Indicates whether the ITM is currently processing events
+    // 0x007f0000 [22:16] TRACEBUSID   (0x00) Identifier for multi-source trace stream formatting
+    // 0x00000c00 [11:10] GTSFREQ      (0x0) Defines how often the ITM generates a global timestamp,...
+    // 0x00000300 [9:8]   TSPRESCALE   (0x0) Local timestamp prescaler, used with the trace packet...
+    // 0x00000020 [5]     STALLENA     (0) Stall the PE to guarantee delivery of Data Trace packets
+    // 0x00000010 [4]     SWOENA       (0) Enables asynchronous clocking of the timestamp counter
+    // 0x00000008 [3]     TXENA        (0) Enables forwarding of hardware event packet from the DWT...
+    // 0x00000004 [2]     SYNCENA      (0) Enables Synchronization packet transmission for a...
+    // 0x00000002 [1]     TSENA        (0) Enables Local timestamp generation
+    // 0x00000001 [0]     ITMENA       (0) Enables the ITM
+    io_rw_32 itm_tcr;
+ 
+    uint32_t _pad3[27];
+ 
+    _REG_(M33_INT_ATREADY_OFFSET) // M33_INT_ATREADY
+    // Integration Mode: Read ATB Ready
+    // 0x00000002 [1]     AFVALID      (0) A read of this bit returns the value of AFVALID
+    // 0x00000001 [0]     ATREADY      (0) A read of this bit returns the value of ATREADY
+    io_ro_32 int_atready;
+ 
+    uint32_t _pad4;
+ 
+    _REG_(M33_INT_ATVALID_OFFSET) // M33_INT_ATVALID
+    // Integration Mode: Write ATB Valid
+    // 0x00000002 [1]     AFREADY      (0) A write to this bit gives the value of AFREADY
+    // 0x00000001 [0]     ATREADY      (0) A write to this bit gives the value of ATVALID
+    io_rw_32 int_atvalid;
+ 
+    uint32_t _pad5;
+ 
+    _REG_(M33_ITM_ITCTRL_OFFSET) // M33_ITM_ITCTRL
+    // Integration Mode Control Register
+    // 0x00000001 [0]     IME          (0) Integration mode enable bit - The possible values are: ...
+    io_rw_32 itm_itctrl;
+ 
+    uint32_t _pad6[46];
+ 
+    _REG_(M33_ITM_DEVARCH_OFFSET) // M33_ITM_DEVARCH
+    // Provides CoreSight discovery information for the ITM
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) Defines the architect of the component
+    // 0x00100000 [20]    PRESENT      (1) Defines that the DEVARCH register is present
+    // 0x000f0000 [19:16] REVISION     (0x0) Defines the architecture revision of the component
+    // 0x0000f000 [15:12] ARCHVER      (0x1) Defines the architecture version of the component
+    // 0x00000fff [11:0]  ARCHPART     (0xa01) Defines the architecture of the component
+    io_ro_32 itm_devarch;
+ 
+    uint32_t _pad7[3];
+ 
+    _REG_(M33_ITM_DEVTYPE_OFFSET) // M33_ITM_DEVTYPE
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000f0 [7:4]   SUB          (0x4) Component sub-type
+    // 0x0000000f [3:0]   MAJOR        (0x3) Component major type
+    io_ro_32 itm_devtype;
+ 
+    _REG_(M33_ITM_PIDR4_OFFSET) // M33_ITM_PIDR4
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000f0 [7:4]   SIZE         (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   DES_2        (0x4) See CoreSight Architecture Specification
+    io_ro_32 itm_pidr4;
+ 
+    _REG_(M33_ITM_PIDR5_OFFSET) // M33_ITM_PIDR5
+    // Provides CoreSight discovery information for the ITM
+    // 0x00000000 [31:0]  ITM_PIDR5    (0x00000000) 
+    io_rw_32 itm_pidr5;
+ 
+    _REG_(M33_ITM_PIDR6_OFFSET) // M33_ITM_PIDR6
+    // Provides CoreSight discovery information for the ITM
+    // 0x00000000 [31:0]  ITM_PIDR6    (0x00000000) 
+    io_rw_32 itm_pidr6;
+ 
+    _REG_(M33_ITM_PIDR7_OFFSET) // M33_ITM_PIDR7
+    // Provides CoreSight discovery information for the ITM
+    // 0x00000000 [31:0]  ITM_PIDR7    (0x00000000) 
+    io_rw_32 itm_pidr7;
+ 
+    _REG_(M33_ITM_PIDR0_OFFSET) // M33_ITM_PIDR0
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000ff [7:0]   PART_0       (0x21) See CoreSight Architecture Specification
+    io_ro_32 itm_pidr0;
+ 
+    _REG_(M33_ITM_PIDR1_OFFSET) // M33_ITM_PIDR1
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000f0 [7:4]   DES_0        (0xb) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   PART_1       (0xd) See CoreSight Architecture Specification
+    io_ro_32 itm_pidr1;
+ 
+    _REG_(M33_ITM_PIDR2_OFFSET) // M33_ITM_PIDR2
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000f0 [7:4]   REVISION     (0x0) See CoreSight Architecture Specification
+    // 0x00000008 [3]     JEDEC        (1) See CoreSight Architecture Specification
+    // 0x00000007 [2:0]   DES_1        (0x3) See CoreSight Architecture Specification
+    io_ro_32 itm_pidr2;
+ 
+    _REG_(M33_ITM_PIDR3_OFFSET) // M33_ITM_PIDR3
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000f0 [7:4]   REVAND       (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   CMOD         (0x0) See CoreSight Architecture Specification
+    io_ro_32 itm_pidr3;
+ 
+    // (Description copied from array index 0 register M33_ITM_CIDR0 applies similarly to other array indexes)
+    _REG_(M33_ITM_CIDR0_OFFSET) // M33_ITM_CIDR0
+    // Provides CoreSight discovery information for the ITM
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) See CoreSight Architecture Specification
+    io_ro_32 itm_cidr[4];
+ 
+    _REG_(M33_DWT_CTRL_OFFSET) // M33_DWT_CTRL
+    // Provides configuration and status information for the DWT unit, and used to control features of the unit
+    // 0xf0000000 [31:28] NUMCOMP      (0x7) Number of DWT comparators implemented
+    // 0x08000000 [27]    NOTRCPKT     (0) Indicates whether the implementation does not support trace
+    // 0x04000000 [26]    NOEXTTRIG    (0) Reserved, RAZ
+    // 0x02000000 [25]    NOCYCCNT     (1) Indicates whether the implementation does not include a...
+    // 0x01000000 [24]    NOPRFCNT     (1) Indicates whether the implementation does not include...
+    // 0x00800000 [23]    CYCDISS      (0) Controls whether the cycle counter is disabled in Secure state
+    // 0x00400000 [22]    CYCEVTENA    (1) Enables Event Counter packet generation on POSTCNT underflow
+    // 0x00200000 [21]    FOLDEVTENA   (1) Enables DWT_FOLDCNT counter
+    // 0x00100000 [20]    LSUEVTENA    (1) Enables DWT_LSUCNT counter
+    // 0x00080000 [19]    SLEEPEVTENA  (0) Enable DWT_SLEEPCNT counter
+    // 0x00040000 [18]    EXCEVTENA    (1) Enables DWT_EXCCNT counter
+    // 0x00020000 [17]    CPIEVTENA    (0) Enables DWT_CPICNT counter
+    // 0x00010000 [16]    EXTTRCENA    (0) Enables generation of Exception Trace packets
+    // 0x00001000 [12]    PCSAMPLENA   (1) Enables use of POSTCNT counter as a timer for Periodic...
+    // 0x00000c00 [11:10] SYNCTAP      (0x2) Selects the position of the synchronization packet...
+    // 0x00000200 [9]     CYCTAP       (0) Selects the position of the POSTCNT tap on the CYCCNT counter
+    // 0x000001e0 [8:5]   POSTINIT     (0x1) Initial value for the POSTCNT counter
+    // 0x0000001e [4:1]   POSTPRESET   (0x2) Reload value for the POSTCNT counter
+    // 0x00000001 [0]     CYCCNTENA    (0) Enables CYCCNT
+    io_rw_32 dwt_ctrl;
+ 
+    _REG_(M33_DWT_CYCCNT_OFFSET) // M33_DWT_CYCCNT
+    // Shows or sets the value of the processor cycle counter, CYCCNT
+    // 0xffffffff [31:0]  CYCCNT       (0x00000000) Increments one on each processor clock cycle when DWT_CTRL
+    io_rw_32 dwt_cyccnt;
+ 
+    uint32_t _pad8;
+ 
+    _REG_(M33_DWT_EXCCNT_OFFSET) // M33_DWT_EXCCNT
+    // Counts the total cycles spent in exception processing
+    // 0x000000ff [7:0]   EXCCNT       (0x00) Counts one on each cycle when all of the following are...
+    io_rw_32 dwt_exccnt;
+ 
+    uint32_t _pad9;
+ 
+    _REG_(M33_DWT_LSUCNT_OFFSET) // M33_DWT_LSUCNT
+    // Increments on the additional cycles required to execute all load or store instructions
+    // 0x000000ff [7:0]   LSUCNT       (0x00) Counts one on each cycle when all of the following are...
+    io_rw_32 dwt_lsucnt;
+ 
+    _REG_(M33_DWT_FOLDCNT_OFFSET) // M33_DWT_FOLDCNT
+    // Increments on the additional cycles required to execute all load or store instructions
+    // 0x000000ff [7:0]   FOLDCNT      (0x00) Counts on each cycle when all of the following are true:...
+    io_rw_32 dwt_foldcnt;
+ 
+    uint32_t _pad10;
+ 
+    _REG_(M33_DWT_COMP0_OFFSET) // M33_DWT_COMP0
+    // Provides a reference value for use by watchpoint comparator 0
+    // 0xffffffff [31:0]  DWT_COMP0    (0x00000000) 
+    io_rw_32 dwt_comp0;
+ 
+    uint32_t _pad11;
+ 
+    _REG_(M33_DWT_FUNCTION0_OFFSET) // M33_DWT_FUNCTION0
+    // Controls the operation of watchpoint comparator 0
+    // 0xf8000000 [31:27] ID           (0x0b) Identifies the capabilities for MATCH for comparator *n
+    // 0x01000000 [24]    MATCHED      (0) Set to 1 when the comparator matches
+    // 0x00000c00 [11:10] DATAVSIZE    (0x0) Defines the size of the object being watched for by Data...
+    // 0x00000030 [5:4]   ACTION       (0x0) Defines the action on a match
+    // 0x0000000f [3:0]   MATCH        (0x0) Controls the type of match generated by this comparator
+    io_rw_32 dwt_function0;
+ 
+    uint32_t _pad12;
+ 
+    _REG_(M33_DWT_COMP1_OFFSET) // M33_DWT_COMP1
+    // Provides a reference value for use by watchpoint comparator 1
+    // 0xffffffff [31:0]  DWT_COMP1    (0x00000000) 
+    io_rw_32 dwt_comp1;
+ 
+    uint32_t _pad13;
+ 
+    _REG_(M33_DWT_FUNCTION1_OFFSET) // M33_DWT_FUNCTION1
+    // Controls the operation of watchpoint comparator 1
+    // 0xf8000000 [31:27] ID           (0x11) Identifies the capabilities for MATCH for comparator *n
+    // 0x01000000 [24]    MATCHED      (1) Set to 1 when the comparator matches
+    // 0x00000c00 [11:10] DATAVSIZE    (0x2) Defines the size of the object being watched for by Data...
+    // 0x00000030 [5:4]   ACTION       (0x2) Defines the action on a match
+    // 0x0000000f [3:0]   MATCH        (0x8) Controls the type of match generated by this comparator
+    io_rw_32 dwt_function1;
+ 
+    uint32_t _pad14;
+ 
+    _REG_(M33_DWT_COMP2_OFFSET) // M33_DWT_COMP2
+    // Provides a reference value for use by watchpoint comparator 2
+    // 0xffffffff [31:0]  DWT_COMP2    (0x00000000) 
+    io_rw_32 dwt_comp2;
+ 
+    uint32_t _pad15;
+ 
+    _REG_(M33_DWT_FUNCTION2_OFFSET) // M33_DWT_FUNCTION2
+    // Controls the operation of watchpoint comparator 2
+    // 0xf8000000 [31:27] ID           (0x0a) Identifies the capabilities for MATCH for comparator *n
+    // 0x01000000 [24]    MATCHED      (0) Set to 1 when the comparator matches
+    // 0x00000c00 [11:10] DATAVSIZE    (0x0) Defines the size of the object being watched for by Data...
+    // 0x00000030 [5:4]   ACTION       (0x0) Defines the action on a match
+    // 0x0000000f [3:0]   MATCH        (0x0) Controls the type of match generated by this comparator
+    io_rw_32 dwt_function2;
+ 
+    uint32_t _pad16;
+ 
+    _REG_(M33_DWT_COMP3_OFFSET) // M33_DWT_COMP3
+    // Provides a reference value for use by watchpoint comparator 3
+    // 0xffffffff [31:0]  DWT_COMP3    (0x00000000) 
+    io_rw_32 dwt_comp3;
+ 
+    uint32_t _pad17;
+ 
+    _REG_(M33_DWT_FUNCTION3_OFFSET) // M33_DWT_FUNCTION3
+    // Controls the operation of watchpoint comparator 3
+    // 0xf8000000 [31:27] ID           (0x04) Identifies the capabilities for MATCH for comparator *n
+    // 0x01000000 [24]    MATCHED      (0) Set to 1 when the comparator matches
+    // 0x00000c00 [11:10] DATAVSIZE    (0x2) Defines the size of the object being watched for by Data...
+    // 0x00000030 [5:4]   ACTION       (0x0) Defines the action on a match
+    // 0x0000000f [3:0]   MATCH        (0x0) Controls the type of match generated by this comparator
+    io_rw_32 dwt_function3;
+ 
+    uint32_t _pad18[984];
+ 
+    _REG_(M33_DWT_DEVARCH_OFFSET) // M33_DWT_DEVARCH
+    // Provides CoreSight discovery information for the DWT
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) Defines the architect of the component
+    // 0x00100000 [20]    PRESENT      (1) Defines that the DEVARCH register is present
+    // 0x000f0000 [19:16] REVISION     (0x0) Defines the architecture revision of the component
+    // 0x0000f000 [15:12] ARCHVER      (0x1) Defines the architecture version of the component
+    // 0x00000fff [11:0]  ARCHPART     (0xa02) Defines the architecture of the component
+    io_ro_32 dwt_devarch;
+ 
+    uint32_t _pad19[3];
+ 
+    _REG_(M33_DWT_DEVTYPE_OFFSET) // M33_DWT_DEVTYPE
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000f0 [7:4]   SUB          (0x0) Component sub-type
+    // 0x0000000f [3:0]   MAJOR        (0x0) Component major type
+    io_ro_32 dwt_devtype;
+ 
+    _REG_(M33_DWT_PIDR4_OFFSET) // M33_DWT_PIDR4
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000f0 [7:4]   SIZE         (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   DES_2        (0x4) See CoreSight Architecture Specification
+    io_ro_32 dwt_pidr4;
+ 
+    _REG_(M33_DWT_PIDR5_OFFSET) // M33_DWT_PIDR5
+    // Provides CoreSight discovery information for the DWT
+    // 0x00000000 [31:0]  DWT_PIDR5    (0x00000000) 
+    io_rw_32 dwt_pidr5;
+ 
+    _REG_(M33_DWT_PIDR6_OFFSET) // M33_DWT_PIDR6
+    // Provides CoreSight discovery information for the DWT
+    // 0x00000000 [31:0]  DWT_PIDR6    (0x00000000) 
+    io_rw_32 dwt_pidr6;
+ 
+    _REG_(M33_DWT_PIDR7_OFFSET) // M33_DWT_PIDR7
+    // Provides CoreSight discovery information for the DWT
+    // 0x00000000 [31:0]  DWT_PIDR7    (0x00000000) 
+    io_rw_32 dwt_pidr7;
+ 
+    _REG_(M33_DWT_PIDR0_OFFSET) // M33_DWT_PIDR0
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000ff [7:0]   PART_0       (0x21) See CoreSight Architecture Specification
+    io_ro_32 dwt_pidr0;
+ 
+    _REG_(M33_DWT_PIDR1_OFFSET) // M33_DWT_PIDR1
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000f0 [7:4]   DES_0        (0xb) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   PART_1       (0xd) See CoreSight Architecture Specification
+    io_ro_32 dwt_pidr1;
+ 
+    _REG_(M33_DWT_PIDR2_OFFSET) // M33_DWT_PIDR2
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000f0 [7:4]   REVISION     (0x0) See CoreSight Architecture Specification
+    // 0x00000008 [3]     JEDEC        (1) See CoreSight Architecture Specification
+    // 0x00000007 [2:0]   DES_1        (0x3) See CoreSight Architecture Specification
+    io_ro_32 dwt_pidr2;
+ 
+    _REG_(M33_DWT_PIDR3_OFFSET) // M33_DWT_PIDR3
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000f0 [7:4]   REVAND       (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   CMOD         (0x0) See CoreSight Architecture Specification
+    io_ro_32 dwt_pidr3;
+ 
+    // (Description copied from array index 0 register M33_DWT_CIDR0 applies similarly to other array indexes)
+    _REG_(M33_DWT_CIDR0_OFFSET) // M33_DWT_CIDR0
+    // Provides CoreSight discovery information for the DWT
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) See CoreSight Architecture Specification
+    io_ro_32 dwt_cidr[4];
+ 
+    _REG_(M33_FP_CTRL_OFFSET) // M33_FP_CTRL
+    // Provides FPB implementation information, and the global enable for the FPB unit
+    // 0xf0000000 [31:28] REV          (0x6) Flash Patch and Breakpoint Unit architecture revision
+    // 0x00007000 [14:12] NUM_CODE_14_12_ (0x5) Indicates the number of implemented instruction address...
+    // 0x00000f00 [11:8]  NUM_LIT      (0x5) Indicates the number of implemented literal address comparators
+    // 0x000000f0 [7:4]   NUM_CODE_7_4_ (0x8) Indicates the number of implemented instruction address...
+    // 0x00000002 [1]     KEY          (0) Writes to the FP_CTRL are ignored unless KEY is...
+    // 0x00000001 [0]     ENABLE       (0) Enables the FPB
+    io_rw_32 fp_ctrl;
+ 
+    _REG_(M33_FP_REMAP_OFFSET) // M33_FP_REMAP
+    // Indicates whether the implementation supports Flash Patch remap and, if it does, holds the...
+    // 0x20000000 [29]    RMPSPT       (0) Indicates whether the FPB unit supports the Flash Patch...
+    // 0x1fffffe0 [28:5]  REMAP        (0x000000) Holds the bits[28:5] of the Flash Patch remap address
+    io_ro_32 fp_remap;
+ 
+    // (Description copied from array index 0 register M33_FP_COMP0 applies similarly to other array indexes)
+    _REG_(M33_FP_COMP0_OFFSET) // M33_FP_COMP0
+    // Holds an address for comparison
+    // 0x00000001 [0]     BE           (0) Selects between flashpatch and breakpoint functionality
+    io_rw_32 fp_comp[8];
+ 
+    uint32_t _pad20[997];
+ 
+    _REG_(M33_FP_DEVARCH_OFFSET) // M33_FP_DEVARCH
+    // Provides CoreSight discovery information for the FPB
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) Defines the architect of the component
+    // 0x00100000 [20]    PRESENT      (1) Defines that the DEVARCH register is present
+    // 0x000f0000 [19:16] REVISION     (0x0) Defines the architecture revision of the component
+    // 0x0000f000 [15:12] ARCHVER      (0x1) Defines the architecture version of the component
+    // 0x00000fff [11:0]  ARCHPART     (0xa03) Defines the architecture of the component
+    io_ro_32 fp_devarch;
+ 
+    uint32_t _pad21[3];
+ 
+    _REG_(M33_FP_DEVTYPE_OFFSET) // M33_FP_DEVTYPE
+    // Provides CoreSight discovery information for the FPB
+    // 0x000000f0 [7:4]   SUB          (0x0) Component sub-type
+    // 0x0000000f [3:0]   MAJOR        (0x0) Component major type
+    io_ro_32 fp_devtype;
+ 
+    _REG_(M33_FP_PIDR4_OFFSET) // M33_FP_PIDR4
+    // Provides CoreSight discovery information for the FP
+    // 0x000000f0 [7:4]   SIZE         (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   DES_2        (0x4) See CoreSight Architecture Specification
+    io_ro_32 fp_pidr4;
+ 
+    _REG_(M33_FP_PIDR5_OFFSET) // M33_FP_PIDR5
+    // Provides CoreSight discovery information for the FP
+    // 0x00000000 [31:0]  FP_PIDR5     (0x00000000) 
+    io_rw_32 fp_pidr5;
+ 
+    _REG_(M33_FP_PIDR6_OFFSET) // M33_FP_PIDR6
+    // Provides CoreSight discovery information for the FP
+    // 0x00000000 [31:0]  FP_PIDR6     (0x00000000) 
+    io_rw_32 fp_pidr6;
+ 
+    _REG_(M33_FP_PIDR7_OFFSET) // M33_FP_PIDR7
+    // Provides CoreSight discovery information for the FP
+    // 0x00000000 [31:0]  FP_PIDR7     (0x00000000) 
+    io_rw_32 fp_pidr7;
+ 
+    _REG_(M33_FP_PIDR0_OFFSET) // M33_FP_PIDR0
+    // Provides CoreSight discovery information for the FP
+    // 0x000000ff [7:0]   PART_0       (0x21) See CoreSight Architecture Specification
+    io_ro_32 fp_pidr0;
+ 
+    _REG_(M33_FP_PIDR1_OFFSET) // M33_FP_PIDR1
+    // Provides CoreSight discovery information for the FP
+    // 0x000000f0 [7:4]   DES_0        (0xb) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   PART_1       (0xd) See CoreSight Architecture Specification
+    io_ro_32 fp_pidr1;
+ 
+    _REG_(M33_FP_PIDR2_OFFSET) // M33_FP_PIDR2
+    // Provides CoreSight discovery information for the FP
+    // 0x000000f0 [7:4]   REVISION     (0x0) See CoreSight Architecture Specification
+    // 0x00000008 [3]     JEDEC        (1) See CoreSight Architecture Specification
+    // 0x00000007 [2:0]   DES_1        (0x3) See CoreSight Architecture Specification
+    io_ro_32 fp_pidr2;
+ 
+    _REG_(M33_FP_PIDR3_OFFSET) // M33_FP_PIDR3
+    // Provides CoreSight discovery information for the FP
+    // 0x000000f0 [7:4]   REVAND       (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   CMOD         (0x0) See CoreSight Architecture Specification
+    io_ro_32 fp_pidr3;
+ 
+    // (Description copied from array index 0 register M33_FP_CIDR0 applies similarly to other array indexes)
+    _REG_(M33_FP_CIDR0_OFFSET) // M33_FP_CIDR0
+    // Provides CoreSight discovery information for the FP
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) See CoreSight Architecture Specification
+    io_ro_32 fp_cidr[4];
+ 
+    uint32_t _pad22[11265];
+ 
+    _REG_(M33_ICTR_OFFSET) // M33_ICTR
+    // Provides information about the interrupt controller
+    // 0x0000000f [3:0]   INTLINESNUM  (0x1) Indicates the number of the highest implemented register...
+    io_ro_32 ictr;
+ 
+    _REG_(M33_ACTLR_OFFSET) // M33_ACTLR
+    // Provides IMPLEMENTATION DEFINED configuration and control options
+    // 0x20000000 [29]    EXTEXCLALL   (0) External Exclusives Allowed with no MPU
+    // 0x00001000 [12]    DISITMATBFLUSH (0) Disable ATB Flush
+    // 0x00000400 [10]    FPEXCODIS    (0) Disable FPU exception outputs
+    // 0x00000200 [9]     DISOOFP      (0) Disable out-of-order FP instruction completion
+    // 0x00000004 [2]     DISFOLD      (0) Disable dual-issue
+    // 0x00000001 [0]     DISMCYCINT   (0) Disable dual-issue
+    io_rw_32 actlr;
+ 
+    uint32_t _pad23;
+ 
+    _REG_(M33_SYST_CSR_OFFSET) // M33_SYST_CSR
+    // SysTick Control and Status Register
+    // 0x00010000 [16]    COUNTFLAG    (0) Returns 1 if timer counted to 0 since last time this was read
+    // 0x00000004 [2]     CLKSOURCE    (0) SysTick clock source
+    // 0x00000002 [1]     TICKINT      (0) Enables SysTick exception request: +
+    // 0x00000001 [0]     ENABLE       (0) Enable SysTick counter: +
+    io_rw_32 syst_csr;
+ 
+    _REG_(M33_SYST_RVR_OFFSET) // M33_SYST_RVR
+    // SysTick Reload Value Register
+    // 0x00ffffff [23:0]  RELOAD       (0x000000) Value to load into the SysTick Current Value Register...
+    io_rw_32 syst_rvr;
+ 
+    _REG_(M33_SYST_CVR_OFFSET) // M33_SYST_CVR
+    // SysTick Current Value Register
+    // 0x00ffffff [23:0]  CURRENT      (0x000000) Reads return the current value of the SysTick counter
+    io_rw_32 syst_cvr;
+ 
+    _REG_(M33_SYST_CALIB_OFFSET) // M33_SYST_CALIB
+    // SysTick Calibration Value Register
+    // 0x80000000 [31]    NOREF        (0) If reads as 1, the Reference clock is not provided - the...
+    // 0x40000000 [30]    SKEW         (0) If reads as 1, the calibration value for 10ms is inexact...
+    // 0x00ffffff [23:0]  TENMS        (0x000000) An optional Reload value to be used for 10ms (100Hz)...
+    io_ro_32 syst_calib;
+ 
+    uint32_t _pad24[56];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ISER0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ISER0_OFFSET) // M33_NVIC_ISER0
+    // Enables or reads the enabled state of each group of 32 interrupts
+    // 0xffffffff [31:0]  SETENA       (0x00000000) For SETENA[m] in NVIC_ISER*n, indicates whether...
+    io_rw_32 nvic_iser[2];
+ 
+    uint32_t _pad25[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ICER0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ICER0_OFFSET) // M33_NVIC_ICER0
+    // Clears or reads the enabled state of each group of 32 interrupts
+    // 0xffffffff [31:0]  CLRENA       (0x00000000) For CLRENA[m] in NVIC_ICER*n, indicates whether...
+    io_rw_32 nvic_icer[2];
+ 
+    uint32_t _pad26[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ISPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ISPR0_OFFSET) // M33_NVIC_ISPR0
+    // Enables or reads the pending state of each group of 32 interrupts
+    // 0xffffffff [31:0]  SETPEND      (0x00000000) For SETPEND[m] in NVIC_ISPR*n, indicates whether...
+    io_rw_32 nvic_ispr[2];
+ 
+    uint32_t _pad27[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ICPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ICPR0_OFFSET) // M33_NVIC_ICPR0
+    // Clears or reads the pending state of each group of 32 interrupts
+    // 0xffffffff [31:0]  CLRPEND      (0x00000000) For CLRPEND[m] in NVIC_ICPR*n, indicates whether...
+    io_rw_32 nvic_icpr[2];
+ 
+    uint32_t _pad28[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_IABR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_IABR0_OFFSET) // M33_NVIC_IABR0
+    // For each group of 32 interrupts, shows the active state of each interrupt
+    // 0xffffffff [31:0]  ACTIVE       (0x00000000) For ACTIVE[m] in NVIC_IABR*n, indicates the active state...
+    io_rw_32 nvic_iabr[2];
+ 
+    uint32_t _pad29[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ITNS0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ITNS0_OFFSET) // M33_NVIC_ITNS0
+    // For each group of 32 interrupts, determines whether each interrupt targets Non-secure or Secure state
+    // 0xffffffff [31:0]  ITNS         (0x00000000) For ITNS[m] in NVIC_ITNS*n, `IAAMO the target Security...
+    io_rw_32 nvic_itns[2];
+ 
+    uint32_t _pad30[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_IPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_IPR0_OFFSET) // M33_NVIC_IPR0
+    // Sets or reads interrupt priorities
+    // 0xf0000000 [31:28] PRI_N3       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x00f00000 [23:20] PRI_N2       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x0000f000 [15:12] PRI_N1       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x000000f0 [7:4]   PRI_N0       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    io_rw_32 nvic_ipr[16];
+ 
+    uint32_t _pad31[560];
+ 
+    _REG_(M33_CPUID_OFFSET) // M33_CPUID
+    // Provides identification information for the PE, including an implementer code for the device and...
+    // 0xff000000 [31:24] IMPLEMENTER  (0x41) This field must hold an implementer code that has been...
+    // 0x00f00000 [23:20] VARIANT      (0x1) IMPLEMENTATION DEFINED variant number
+    // 0x000f0000 [19:16] ARCHITECTURE (0xf) Defines the Architecture implemented by the PE
+    // 0x0000fff0 [15:4]  PARTNO       (0xd21) IMPLEMENTATION DEFINED primary part number for the device
+    // 0x0000000f [3:0]   REVISION     (0x0) IMPLEMENTATION DEFINED revision number for the device
+    io_ro_32 cpuid;
+ 
+    _REG_(M33_ICSR_OFFSET) // M33_ICSR
+    // Controls and provides status information for NMI, PendSV, SysTick and interrupts
+    // 0x80000000 [31]    PENDNMISET   (0) Indicates whether the NMI exception is pending
+    // 0x40000000 [30]    PENDNMICLR   (0) Allows the NMI exception pend state to be cleared
+    // 0x10000000 [28]    PENDSVSET    (0) Indicates whether the PendSV `FTSSS exception is pending
+    // 0x08000000 [27]    PENDSVCLR    (0) Allows the PendSV exception pend state to be cleared `FTSSS
+    // 0x04000000 [26]    PENDSTSET    (0) Indicates whether the SysTick `FTSSS exception is pending
+    // 0x02000000 [25]    PENDSTCLR    (0) Allows the SysTick exception pend state to be cleared `FTSSS
+    // 0x01000000 [24]    STTNS        (0) Controls whether in a single SysTick implementation, the...
+    // 0x00800000 [23]    ISRPREEMPT   (0) Indicates whether a pending exception will be serviced...
+    // 0x00400000 [22]    ISRPENDING   (0) Indicates whether an external interrupt, generated by...
+    // 0x001ff000 [20:12] VECTPENDING  (0x000) The exception number of the highest priority pending and...
+    // 0x00000800 [11]    RETTOBASE    (0) In Handler mode, indicates whether there is more than...
+    // 0x000001ff [8:0]   VECTACTIVE   (0x000) The exception number of the current executing exception
+    io_rw_32 icsr;
+ 
+    _REG_(M33_VTOR_OFFSET) // M33_VTOR
+    // Vector Table Offset Register
+    // 0xffffff80 [31:7]  TBLOFF       (0x0000000) Vector table base offset field
+    io_rw_32 vtor;
+ 
+    _REG_(M33_AIRCR_OFFSET) // M33_AIRCR
+    // Application Interrupt and Reset Control Register
+    // 0xffff0000 [31:16] VECTKEY      (0x0000) Register key: +
+    // 0x00008000 [15]    ENDIANESS    (0) Data endianness implemented: +
+    // 0x00004000 [14]    PRIS         (0) Prioritize Secure exceptions
+    // 0x00002000 [13]    BFHFNMINS    (0) BusFault, HardFault, and NMI Non-secure enable
+    // 0x00000700 [10:8]  PRIGROUP     (0x0) Interrupt priority grouping field
+    // 0x00000008 [3]     SYSRESETREQS (0) System reset request, Secure state only
+    // 0x00000004 [2]     SYSRESETREQ  (0) Writing 1 to this bit causes the SYSRESETREQ signal to...
+    // 0x00000002 [1]     VECTCLRACTIVE (0) Clears all active state information for fixed and...
+    io_rw_32 aircr;
+ 
+    _REG_(M33_SCR_OFFSET) // M33_SCR
+    // System Control Register
+    // 0x00000010 [4]     SEVONPEND    (0) Send Event on Pending bit: +
+    // 0x00000008 [3]     SLEEPDEEPS   (0) 0 SLEEPDEEP is available to both security states +
+    // 0x00000004 [2]     SLEEPDEEP    (0) Controls whether the processor uses sleep or deep sleep...
+    // 0x00000002 [1]     SLEEPONEXIT  (0) Indicates sleep-on-exit when returning from Handler mode...
+    io_rw_32 scr;
+ 
+    _REG_(M33_CCR_OFFSET) // M33_CCR
+    // Sets or returns configuration and control data
+    // 0x00040000 [18]    BP           (0) Enables program flow prediction `FTSSS
+    // 0x00020000 [17]    IC           (0) This is a global enable bit for instruction caches in...
+    // 0x00010000 [16]    DC           (0) Enables data caching of all data accesses to Normal memory `FTSSS
+    // 0x00000400 [10]    STKOFHFNMIGN (0) Controls the effect of a stack limit violation while...
+    // 0x00000200 [9]     RES1         (1) Reserved, RES1
+    // 0x00000100 [8]     BFHFNMIGN    (0) Determines the effect of precise BusFaults on handlers...
+    // 0x00000010 [4]     DIV_0_TRP    (0) Controls the generation of a DIVBYZERO UsageFault when...
+    // 0x00000008 [3]     UNALIGN_TRP  (0) Controls the trapping of unaligned word or halfword accesses
+    // 0x00000002 [1]     USERSETMPEND (0) Determines whether unprivileged accesses are permitted...
+    // 0x00000001 [0]     RES1_1       (1) Reserved, RES1
+    io_rw_32 ccr;
+ 
+    // (Description copied from array index 0 register M33_SHPR1 applies similarly to other array indexes)
+    _REG_(M33_SHPR1_OFFSET) // M33_SHPR1
+    // Sets or returns priority for system handlers 4 - 7
+    // 0xe0000000 [31:29] PRI_7_3      (0x0) Priority of system handler 7, SecureFault
+    // 0x00e00000 [23:21] PRI_6_3      (0x0) Priority of system handler 6, SecureFault
+    // 0x0000e000 [15:13] PRI_5_3      (0x0) Priority of system handler 5, SecureFault
+    // 0x000000e0 [7:5]   PRI_4_3      (0x0) Priority of system handler 4, SecureFault
+    io_rw_32 shpr[3];
+ 
+    _REG_(M33_SHCSR_OFFSET) // M33_SHCSR
+    // Provides access to the active and pending status of system exceptions
+    // 0x00200000 [21]    HARDFAULTPENDED (0) `IAAMO the pending state of the HardFault exception `CTTSSS
+    // 0x00100000 [20]    SECUREFAULTPENDED (0) `IAAMO the pending state of the SecureFault exception
+    // 0x00080000 [19]    SECUREFAULTENA (0) `DW the SecureFault exception is enabled
+    // 0x00040000 [18]    USGFAULTENA  (0) `DW the UsageFault exception is enabled `FTSSS
+    // 0x00020000 [17]    BUSFAULTENA  (0) `DW the BusFault exception is enabled
+    // 0x00010000 [16]    MEMFAULTENA  (0) `DW the MemManage exception is enabled `FTSSS
+    // 0x00008000 [15]    SVCALLPENDED (0) `IAAMO the pending state of the SVCall exception `FTSSS
+    // 0x00004000 [14]    BUSFAULTPENDED (0) `IAAMO the pending state of the BusFault exception
+    // 0x00002000 [13]    MEMFAULTPENDED (0) `IAAMO the pending state of the MemManage exception `FTSSS
+    // 0x00001000 [12]    USGFAULTPENDED (0) The UsageFault exception is banked between Security...
+    // 0x00000800 [11]    SYSTICKACT   (0) `IAAMO the active state of the SysTick exception `FTSSS
+    // 0x00000400 [10]    PENDSVACT    (0) `IAAMO the active state of the PendSV exception `FTSSS
+    // 0x00000100 [8]     MONITORACT   (0) `IAAMO the active state of the DebugMonitor exception
+    // 0x00000080 [7]     SVCALLACT    (0) `IAAMO the active state of the SVCall exception `FTSSS
+    // 0x00000020 [5]     NMIACT       (0) `IAAMO the active state of the NMI exception
+    // 0x00000010 [4]     SECUREFAULTACT (0) `IAAMO the active state of the SecureFault exception
+    // 0x00000008 [3]     USGFAULTACT  (0) `IAAMO the active state of the UsageFault exception `FTSSS
+    // 0x00000004 [2]     HARDFAULTACT (0) Indicates and allows limited modification of the active...
+    // 0x00000002 [1]     BUSFAULTACT  (0) `IAAMO the active state of the BusFault exception
+    // 0x00000001 [0]     MEMFAULTACT  (0) `IAAMO the active state of the MemManage exception `FTSSS
+    io_rw_32 shcsr;
+ 
+    _REG_(M33_CFSR_OFFSET) // M33_CFSR
+    // Contains the three Configurable Fault Status Registers
+    // 0x02000000 [25]    UFSR_DIVBYZERO (0) Sticky flag indicating whether an integer division by...
+    // 0x01000000 [24]    UFSR_UNALIGNED (0) Sticky flag indicating whether an unaligned access error...
+    // 0x00100000 [20]    UFSR_STKOF   (0) Sticky flag indicating whether a stack overflow error...
+    // 0x00080000 [19]    UFSR_NOCP    (0) Sticky flag indicating whether a coprocessor disabled or...
+    // 0x00040000 [18]    UFSR_INVPC   (0) Sticky flag indicating whether an integrity check error...
+    // 0x00020000 [17]    UFSR_INVSTATE (0) Sticky flag indicating whether an EPSR
+    // 0x00010000 [16]    UFSR_UNDEFINSTR (0) Sticky flag indicating whether an undefined instruction...
+    // 0x00008000 [15]    BFSR_BFARVALID (0) Indicates validity of the contents of the BFAR register
+    // 0x00002000 [13]    BFSR_LSPERR  (0) Records whether a BusFault occurred during FP lazy state...
+    // 0x00001000 [12]    BFSR_STKERR  (0) Records whether a derived BusFault occurred during...
+    // 0x00000800 [11]    BFSR_UNSTKERR (0) Records whether a derived BusFault occurred during...
+    // 0x00000400 [10]    BFSR_IMPRECISERR (0) Records whether an imprecise data access error has occurred
+    // 0x00000200 [9]     BFSR_PRECISERR (0) Records whether a precise data access error has occurred
+    // 0x00000100 [8]     BFSR_IBUSERR (0) Records whether a BusFault on an instruction prefetch...
+    // 0x000000ff [7:0]   MMFSR        (0x00) Provides information on MemManage exceptions
+    io_rw_32 cfsr;
+ 
+    _REG_(M33_HFSR_OFFSET) // M33_HFSR
+    // Shows the cause of any HardFaults
+    // 0x80000000 [31]    DEBUGEVT     (0) Indicates when a Debug event has occurred
+    // 0x40000000 [30]    FORCED       (0) Indicates that a fault with configurable priority has...
+    // 0x00000002 [1]     VECTTBL      (0) Indicates when a fault has occurred because of a vector...
+    io_rw_32 hfsr;
+ 
+    _REG_(M33_DFSR_OFFSET) // M33_DFSR
+    // Shows which debug event occurred
+    // 0x00000010 [4]     EXTERNAL     (0) Sticky flag indicating whether an External debug request...
+    // 0x00000008 [3]     VCATCH       (0) Sticky flag indicating whether a Vector catch debug...
+    // 0x00000004 [2]     DWTTRAP      (0) Sticky flag indicating whether a Watchpoint debug event...
+    // 0x00000002 [1]     BKPT         (0) Sticky flag indicating whether a Breakpoint debug event...
+    // 0x00000001 [0]     HALTED       (0) Sticky flag indicating that a Halt request debug event...
+    io_rw_32 dfsr;
+ 
+    _REG_(M33_MMFAR_OFFSET) // M33_MMFAR
+    // Shows the address of the memory location that caused an MPU fault
+    // 0xffffffff [31:0]  ADDRESS      (0x00000000) This register is updated with the address of a location...
+    io_rw_32 mmfar;
+ 
+    _REG_(M33_BFAR_OFFSET) // M33_BFAR
+    // Shows the address associated with a precise data access BusFault
+    // 0xffffffff [31:0]  ADDRESS      (0x00000000) This register is updated with the address of a location...
+    io_rw_32 bfar;
+ 
+    uint32_t _pad32;
+ 
+    // (Description copied from array index 0 register M33_ID_PFR0 applies similarly to other array indexes)
+    _REG_(M33_ID_PFR0_OFFSET) // M33_ID_PFR0
+    // Gives top-level information about the instruction set supported by the PE
+    // 0x000000f0 [7:4]   STATE1       (0x3) T32 instruction set support
+    // 0x0000000f [3:0]   STATE0       (0x0) A32 instruction set support
+    io_ro_32 id_pfr[2];
+ 
+    _REG_(M33_ID_DFR0_OFFSET) // M33_ID_DFR0
+    // Provides top level information about the debug system
+    // 0x00f00000 [23:20] MPROFDBG     (0x2) Indicates the supported M-profile debug architecture
+    io_ro_32 id_dfr0;
+ 
+    _REG_(M33_ID_AFR0_OFFSET) // M33_ID_AFR0
+    // Provides information about the IMPLEMENTATION DEFINED features of the PE
+    // 0x0000f000 [15:12] IMPDEF3      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x00000f00 [11:8]  IMPDEF2      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x000000f0 [7:4]   IMPDEF1      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x0000000f [3:0]   IMPDEF0      (0x0) IMPLEMENTATION DEFINED meaning
+    io_ro_32 id_afr0;
+ 
+    // (Description copied from array index 0 register M33_ID_MMFR0 applies similarly to other array indexes)
+    _REG_(M33_ID_MMFR0_OFFSET) // M33_ID_MMFR0
+    // Provides information about the implemented memory model and memory management support
+    // 0x00f00000 [23:20] AUXREG       (0x1) Indicates support for Auxiliary Control Registers
+    // 0x000f0000 [19:16] TCM          (0x0) Indicates support for tightly coupled memories (TCMs)
+    // 0x0000f000 [15:12] SHARELVL     (0x1) Indicates the number of shareability levels implemented
+    // 0x00000f00 [11:8]  OUTERSHR     (0xf) Indicates the outermost shareability domain implemented
+    // 0x000000f0 [7:4]   PMSA         (0x4) Indicates support for the protected memory system...
+    io_ro_32 id_mmfr[4];
+ 
+    // (Description copied from array index 0 register M33_ID_ISAR0 applies similarly to other array indexes)
+    _REG_(M33_ID_ISAR0_OFFSET) // M33_ID_ISAR0
+    // Provides information about the instruction set implemented by the PE
+    // 0x0f000000 [27:24] DIVIDE       (0x8) Indicates the supported Divide instructions
+    // 0x00f00000 [23:20] DEBUG        (0x0) Indicates the implemented Debug instructions
+    // 0x000f0000 [19:16] COPROC       (0x9) Indicates the supported Coprocessor instructions
+    // 0x0000f000 [15:12] CMPBRANCH    (0x2) Indicates the supported combined Compare and Branch instructions
+    // 0x00000f00 [11:8]  BITFIELD     (0x3) Indicates the supported bit field instructions
+    // 0x000000f0 [7:4]   BITCOUNT     (0x0) Indicates the supported bit count instructions
+    io_ro_32 id_isar[6];
+ 
+    uint32_t _pad33;
+ 
+    _REG_(M33_CTR_OFFSET) // M33_CTR
+    // Provides information about the architecture of the caches
+    // 0x80000000 [31]    RES1         (1) Reserved, RES1
+    // 0x0f000000 [27:24] CWG          (0x0) Log2 of the number of words of the maximum size of...
+    // 0x00f00000 [23:20] ERG          (0x0) Log2 of the number of words of the maximum size of the...
+    // 0x000f0000 [19:16] DMINLINE     (0x0) Log2 of the number of words in the smallest cache line...
+    // 0x0000c000 [15:14] RES1_1       (0x3) Reserved, RES1
+    // 0x0000000f [3:0]   IMINLINE     (0x0) Log2 of the number of words in the smallest cache line...
+    io_ro_32 ctr;
+ 
+    uint32_t _pad34[2];
+ 
+    _REG_(M33_CPACR_OFFSET) // M33_CPACR
+    // Specifies the access privileges for coprocessors and the FP Extension
+    // 0x00c00000 [23:22] CP11         (0x0) The value in this field is ignored
+    // 0x00300000 [21:20] CP10         (0x0) Defines the access rights for the floating-point functionality
+    // 0x0000c000 [15:14] CP7          (0x0) Controls access privileges for coprocessor 7
+    // 0x00003000 [13:12] CP6          (0x0) Controls access privileges for coprocessor 6
+    // 0x00000c00 [11:10] CP5          (0x0) Controls access privileges for coprocessor 5
+    // 0x00000300 [9:8]   CP4          (0x0) Controls access privileges for coprocessor 4
+    // 0x000000c0 [7:6]   CP3          (0x0) Controls access privileges for coprocessor 3
+    // 0x00000030 [5:4]   CP2          (0x0) Controls access privileges for coprocessor 2
+    // 0x0000000c [3:2]   CP1          (0x0) Controls access privileges for coprocessor 1
+    // 0x00000003 [1:0]   CP0          (0x0) Controls access privileges for coprocessor 0
+    io_rw_32 cpacr;
+ 
+    _REG_(M33_NSACR_OFFSET) // M33_NSACR
+    // Defines the Non-secure access permissions for both the FP Extension and coprocessors CP0 to CP7
+    // 0x00000800 [11]    CP11         (0) Enables Non-secure access to the Floating-point Extension
+    // 0x00000400 [10]    CP10         (0) Enables Non-secure access to the Floating-point Extension
+    // 0x00000080 [7]     CP7          (0) Enables Non-secure access to coprocessor CP7
+    // 0x00000040 [6]     CP6          (0) Enables Non-secure access to coprocessor CP6
+    // 0x00000020 [5]     CP5          (0) Enables Non-secure access to coprocessor CP5
+    // 0x00000010 [4]     CP4          (0) Enables Non-secure access to coprocessor CP4
+    // 0x00000008 [3]     CP3          (0) Enables Non-secure access to coprocessor CP3
+    // 0x00000004 [2]     CP2          (0) Enables Non-secure access to coprocessor CP2
+    // 0x00000002 [1]     CP1          (0) Enables Non-secure access to coprocessor CP1
+    // 0x00000001 [0]     CP0          (0) Enables Non-secure access to coprocessor CP0
+    io_rw_32 nsacr;
+ 
+    _REG_(M33_MPU_TYPE_OFFSET) // M33_MPU_TYPE
+    // The MPU Type Register indicates how many regions the MPU `FTSSS supports
+    // 0x0000ff00 [15:8]  DREGION      (0x08) Number of regions supported by the MPU
+    // 0x00000001 [0]     SEPARATE     (0) Indicates support for separate instructions and data...
+    io_ro_32 mpu_type;
+ 
+    _REG_(M33_MPU_CTRL_OFFSET) // M33_MPU_CTRL
+    // Enables the MPU and, when the MPU is enabled, controls whether the default memory map is enabled...
+    // 0x00000004 [2]     PRIVDEFENA   (0) Controls whether the default memory map is enabled for...
+    // 0x00000002 [1]     HFNMIENA     (0) Controls whether handlers executing with priority less...
+    // 0x00000001 [0]     ENABLE       (0) Enables the MPU
+    io_rw_32 mpu_ctrl;
+ 
+    _REG_(M33_MPU_RNR_OFFSET) // M33_MPU_RNR
+    // Selects the region currently accessed by MPU_RBAR and MPU_RLAR
+    // 0x00000007 [2:0]   REGION       (0x0) Indicates the memory region accessed by MPU_RBAR and MPU_RLAR
+    io_rw_32 mpu_rnr;
+ 
+    _REG_(M33_MPU_RBAR_OFFSET) // M33_MPU_RBAR
+    // Provides indirect read and write access to the base address of the currently selected MPU region `FTSSS
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 mpu_rbar;
+ 
+    _REG_(M33_MPU_RLAR_OFFSET) // M33_MPU_RLAR
+    // Provides indirect read and write access to the limit address of the currently selected MPU region `FTSSS
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 mpu_rlar;
+ 
+    _REG_(M33_MPU_RBAR_A1_OFFSET) // M33_MPU_RBAR_A1
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 mpu_rbar_a1;
+ 
+    _REG_(M33_MPU_RLAR_A1_OFFSET) // M33_MPU_RLAR_A1
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 mpu_rlar_a1;
+ 
+    _REG_(M33_MPU_RBAR_A2_OFFSET) // M33_MPU_RBAR_A2
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 mpu_rbar_a2;
+ 
+    _REG_(M33_MPU_RLAR_A2_OFFSET) // M33_MPU_RLAR_A2
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 mpu_rlar_a2;
+ 
+    _REG_(M33_MPU_RBAR_A3_OFFSET) // M33_MPU_RBAR_A3
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 mpu_rbar_a3;
+ 
+    _REG_(M33_MPU_RLAR_A3_OFFSET) // M33_MPU_RLAR_A3
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 mpu_rlar_a3;
+ 
+    uint32_t _pad35;
+ 
+    // (Description copied from array index 0 register M33_MPU_MAIR0 applies similarly to other array indexes)
+    _REG_(M33_MPU_MAIR0_OFFSET) // M33_MPU_MAIR0
+    // Along with MPU_MAIR1, provides the memory attribute encodings corresponding to the AttrIndex values
+    // 0xff000000 [31:24] ATTR3        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 3
+    // 0x00ff0000 [23:16] ATTR2        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 2
+    // 0x0000ff00 [15:8]  ATTR1        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 1
+    // 0x000000ff [7:0]   ATTR0        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 0
+    io_rw_32 mpu_mair[2];
+ 
+    uint32_t _pad36[2];
+ 
+    _REG_(M33_SAU_CTRL_OFFSET) // M33_SAU_CTRL
+    // Allows enabling of the Security Attribution Unit
+    // 0x00000002 [1]     ALLNS        (0) When SAU_CTRL
+    // 0x00000001 [0]     ENABLE       (0) Enables the SAU
+    io_rw_32 sau_ctrl;
+ 
+    _REG_(M33_SAU_TYPE_OFFSET) // M33_SAU_TYPE
+    // Indicates the number of regions implemented by the Security Attribution Unit
+    // 0x000000ff [7:0]   SREGION      (0x08) The number of implemented SAU regions
+    io_ro_32 sau_type;
+ 
+    _REG_(M33_SAU_RNR_OFFSET) // M33_SAU_RNR
+    // Selects the region currently accessed by SAU_RBAR and SAU_RLAR
+    // 0x000000ff [7:0]   REGION       (0x00) Indicates the SAU region accessed by SAU_RBAR and SAU_RLAR
+    io_rw_32 sau_rnr;
+ 
+    _REG_(M33_SAU_RBAR_OFFSET) // M33_SAU_RBAR
+    // Provides indirect read and write access to the base address of the currently selected SAU region
+    // 0xffffffe0 [31:5]  BADDR        (0x0000000) Holds bits [31:5] of the base address for the selected SAU region
+    io_rw_32 sau_rbar;
+ 
+    _REG_(M33_SAU_RLAR_OFFSET) // M33_SAU_RLAR
+    // Provides indirect read and write access to the limit address of the currently selected SAU region
+    // 0xffffffe0 [31:5]  LADDR        (0x0000000) Holds bits [31:5] of the limit address for the selected...
+    // 0x00000002 [1]     NSC          (0) Controls whether Non-secure state is permitted to...
+    // 0x00000001 [0]     ENABLE       (0) SAU region enable
+    io_rw_32 sau_rlar;
+ 
+    _REG_(M33_SFSR_OFFSET) // M33_SFSR
+    // Provides information about any security related faults
+    // 0x00000080 [7]     LSERR        (0) Sticky flag indicating that an error occurred during...
+    // 0x00000040 [6]     SFARVALID    (0) This bit is set when the SFAR register contains a valid value
+    // 0x00000020 [5]     LSPERR       (0) Stick flag indicating that an SAU or IDAU violation...
+    // 0x00000010 [4]     INVTRAN      (0) Sticky flag indicating that an exception was raised due...
+    // 0x00000008 [3]     AUVIOL       (0) Sticky flag indicating that an attempt was made to...
+    // 0x00000004 [2]     INVER        (0) This can be caused by EXC_RETURN
+    // 0x00000002 [1]     INVIS        (0) This bit is set if the integrity signature in an...
+    // 0x00000001 [0]     INVEP        (0) This bit is set if a function call from the Non-secure...
+    io_rw_32 sfsr;
+ 
+    _REG_(M33_SFAR_OFFSET) // M33_SFAR
+    // Shows the address of the memory location that caused a Security violation
+    // 0xffffffff [31:0]  ADDRESS      (0x00000000) The address of an access that caused a attribution unit violation
+    io_rw_32 sfar;
+ 
+    uint32_t _pad37;
+ 
+    _REG_(M33_DHCSR_OFFSET) // M33_DHCSR
+    // Controls halting debug
+    // 0x04000000 [26]    S_RESTART_ST (0) Indicates the PE has processed a request to clear DHCSR
+    // 0x02000000 [25]    S_RESET_ST   (0) Indicates whether the PE has been reset since the last...
+    // 0x01000000 [24]    S_RETIRE_ST  (0) Set to 1 every time the PE retires one of more instructions
+    // 0x00100000 [20]    S_SDE        (0) Indicates whether Secure invasive debug is allowed
+    // 0x00080000 [19]    S_LOCKUP     (0) Indicates whether the PE is in Lockup state
+    // 0x00040000 [18]    S_SLEEP      (0) Indicates whether the PE is sleeping
+    // 0x00020000 [17]    S_HALT       (0) Indicates whether the PE is in Debug state
+    // 0x00010000 [16]    S_REGRDY     (0) Handshake flag to transfers through the DCRDR
+    // 0x00000020 [5]     C_SNAPSTALL  (0) Allow imprecise entry to Debug state
+    // 0x00000008 [3]     C_MASKINTS   (0) When debug is enabled, the debugger can write to this...
+    // 0x00000004 [2]     C_STEP       (0) Enable single instruction step
+    // 0x00000002 [1]     C_HALT       (0) PE enter Debug state halt request
+    // 0x00000001 [0]     C_DEBUGEN    (0) Enable Halting debug
+    io_rw_32 dhcsr;
+ 
+    _REG_(M33_DCRSR_OFFSET) // M33_DCRSR
+    // With the DCRDR, provides debug access to the general-purpose registers, special-purpose...
+    // 0x00010000 [16]    REGWNR       (0) Specifies the access type for the transfer
+    // 0x0000007f [6:0]   REGSEL       (0x00) Specifies the general-purpose register, special-purpose...
+    io_rw_32 dcrsr;
+ 
+    _REG_(M33_DCRDR_OFFSET) // M33_DCRDR
+    // With the DCRSR, provides debug access to the general-purpose registers, special-purpose...
+    // 0xffffffff [31:0]  DBGTMP       (0x00000000) Provides debug access for reading and writing the...
+    io_rw_32 dcrdr;
+ 
+    _REG_(M33_DEMCR_OFFSET) // M33_DEMCR
+    // Manages vector catch behavior and DebugMonitor handling when debugging
+    // 0x01000000 [24]    TRCENA       (0) Global enable for all DWT and ITM features
+    // 0x00100000 [20]    SDME         (0) Indicates whether the DebugMonitor targets the Secure or...
+    // 0x00080000 [19]    MON_REQ      (0) DebugMonitor semaphore bit
+    // 0x00040000 [18]    MON_STEP     (0) Enable DebugMonitor stepping
+    // 0x00020000 [17]    MON_PEND     (0) Sets or clears the pending state of the DebugMonitor exception
+    // 0x00010000 [16]    MON_EN       (0) Enable the DebugMonitor exception
+    // 0x00000800 [11]    VC_SFERR     (0) SecureFault exception halting debug vector catch enable
+    // 0x00000400 [10]    VC_HARDERR   (0) HardFault exception halting debug vector catch enable
+    // 0x00000200 [9]     VC_INTERR    (0) Enable halting debug vector catch for faults during...
+    // 0x00000100 [8]     VC_BUSERR    (0) BusFault exception halting debug vector catch enable
+    // 0x00000080 [7]     VC_STATERR   (0) Enable halting debug trap on a UsageFault exception...
+    // 0x00000040 [6]     VC_CHKERR    (0) Enable halting debug trap on a UsageFault exception...
+    // 0x00000020 [5]     VC_NOCPERR   (0) Enable halting debug trap on a UsageFault caused by an...
+    // 0x00000010 [4]     VC_MMERR     (0) Enable halting debug trap on a MemManage exception
+    // 0x00000001 [0]     VC_CORERESET (0) Enable Reset Vector Catch
+    io_rw_32 demcr;
+ 
+    uint32_t _pad38[2];
+ 
+    _REG_(M33_DSCSR_OFFSET) // M33_DSCSR
+    // Provides control and status information for Secure debug
+    // 0x00020000 [17]    CDSKEY       (0) Writes to the CDS bit are ignored unless CDSKEY is...
+    // 0x00010000 [16]    CDS          (0) This field indicates the current Security state of the processor
+    // 0x00000002 [1]     SBRSEL       (0) If SBRSELEN is 1 this bit selects whether the Non-secure...
+    // 0x00000001 [0]     SBRSELEN     (0) Controls whether the SBRSEL field or the current...
+    io_rw_32 dscsr;
+ 
+    uint32_t _pad39[61];
+ 
+    _REG_(M33_STIR_OFFSET) // M33_STIR
+    // Provides a mechanism for software to generate an interrupt
+    // 0x000001ff [8:0]   INTID        (0x000) Indicates the interrupt to be pended
+    io_rw_32 stir;
+ 
+    uint32_t _pad40[12];
+ 
+    _REG_(M33_FPCCR_OFFSET) // M33_FPCCR
+    // Holds control data for the Floating-point extension
+    // 0x80000000 [31]    ASPEN        (0) When this bit is set to 1, execution of a floating-point...
+    // 0x40000000 [30]    LSPEN        (0) Enables lazy context save of floating-point state
+    // 0x20000000 [29]    LSPENS       (1) This bit controls whether the LSPEN bit is writeable...
+    // 0x10000000 [28]    CLRONRET     (0) Clear floating-point caller saved registers on exception return
+    // 0x08000000 [27]    CLRONRETS    (0) This bit controls whether the CLRONRET bit is writeable...
+    // 0x04000000 [26]    TS           (0) Treat floating-point registers as Secure enable
+    // 0x00000400 [10]    UFRDY        (1) Indicates whether the software executing when the PE...
+    // 0x00000200 [9]     SPLIMVIOL    (0) This bit is banked between the Security states and...
+    // 0x00000100 [8]     MONRDY       (0) Indicates whether the software executing when the PE...
+    // 0x00000080 [7]     SFRDY        (0) Indicates whether the software executing when the PE...
+    // 0x00000040 [6]     BFRDY        (1) Indicates whether the software executing when the PE...
+    // 0x00000020 [5]     MMRDY        (1) Indicates whether the software executing when the PE...
+    // 0x00000010 [4]     HFRDY        (1) Indicates whether the software executing when the PE...
+    // 0x00000008 [3]     THREAD       (0) Indicates the PE mode when it allocated the...
+    // 0x00000004 [2]     S            (0) Security status of the floating-point context
+    // 0x00000002 [1]     USER         (1) Indicates the privilege level of the software executing...
+    // 0x00000001 [0]     LSPACT       (0) Indicates whether lazy preservation of the...
+    io_rw_32 fpccr;
+ 
+    _REG_(M33_FPCAR_OFFSET) // M33_FPCAR
+    // Holds the location of the unpopulated floating-point register space allocated on an exception stack frame
+    // 0xfffffff8 [31:3]  ADDRESS      (0x00000000) The location of the unpopulated floating-point register...
+    io_rw_32 fpcar;
+ 
+    _REG_(M33_FPDSCR_OFFSET) // M33_FPDSCR
+    // Holds the default values for the floating-point status control data that the PE assigns to the...
+    // 0x04000000 [26]    AHP          (0) Default value for FPSCR
+    // 0x02000000 [25]    DN           (0) Default value for FPSCR
+    // 0x01000000 [24]    FZ           (0) Default value for FPSCR
+    // 0x00c00000 [23:22] RMODE        (0x0) Default value for FPSCR
+    io_rw_32 fpdscr;
+ 
+    // (Description copied from array index 0 register M33_MVFR0 applies similarly to other array indexes)
+    _REG_(M33_MVFR0_OFFSET) // M33_MVFR0
+    // Describes the features provided by the Floating-point Extension
+    // 0xf0000000 [31:28] FPROUND      (0x6) Indicates the rounding modes supported by the FP Extension
+    // 0x00f00000 [23:20] FPSQRT       (0x5) Indicates the support for FP square root operations
+    // 0x000f0000 [19:16] FPDIVIDE     (0x4) Indicates the support for FP divide operations
+    // 0x00000f00 [11:8]  FPDP         (0x6) Indicates support for FP double-precision operations
+    // 0x000000f0 [7:4]   FPSP         (0x0) Indicates support for FP single-precision operations
+    // 0x0000000f [3:0]   SIMDREG      (0x1) Indicates size of FP register file
+    io_ro_32 mvfr[3];
+ 
+    uint32_t _pad41[28];
+ 
+    _REG_(M33_DDEVARCH_OFFSET) // M33_DDEVARCH
+    // Provides CoreSight discovery information for the SCS
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) Defines the architect of the component
+    // 0x00100000 [20]    PRESENT      (1) Defines that the DEVARCH register is present
+    // 0x000f0000 [19:16] REVISION     (0x0) Defines the architecture revision of the component
+    // 0x0000f000 [15:12] ARCHVER      (0x2) Defines the architecture version of the component
+    // 0x00000fff [11:0]  ARCHPART     (0xa04) Defines the architecture of the component
+    io_ro_32 ddevarch;
+ 
+    uint32_t _pad42[3];
+ 
+    _REG_(M33_DDEVTYPE_OFFSET) // M33_DDEVTYPE
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000f0 [7:4]   SUB          (0x0) Component sub-type
+    // 0x0000000f [3:0]   MAJOR        (0x0) CoreSight major type
+    io_ro_32 ddevtype;
+ 
+    _REG_(M33_DPIDR4_OFFSET) // M33_DPIDR4
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000f0 [7:4]   SIZE         (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   DES_2        (0x4) See CoreSight Architecture Specification
+    io_ro_32 dpidr4;
+ 
+    _REG_(M33_DPIDR5_OFFSET) // M33_DPIDR5
+    // Provides CoreSight discovery information for the SCS
+    // 0x00000000 [31:0]  DPIDR5       (0x00000000) 
+    io_rw_32 dpidr5;
+ 
+    _REG_(M33_DPIDR6_OFFSET) // M33_DPIDR6
+    // Provides CoreSight discovery information for the SCS
+    // 0x00000000 [31:0]  DPIDR6       (0x00000000) 
+    io_rw_32 dpidr6;
+ 
+    _REG_(M33_DPIDR7_OFFSET) // M33_DPIDR7
+    // Provides CoreSight discovery information for the SCS
+    // 0x00000000 [31:0]  DPIDR7       (0x00000000) 
+    io_rw_32 dpidr7;
+ 
+    _REG_(M33_DPIDR0_OFFSET) // M33_DPIDR0
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000ff [7:0]   PART_0       (0x21) See CoreSight Architecture Specification
+    io_ro_32 dpidr0;
+ 
+    _REG_(M33_DPIDR1_OFFSET) // M33_DPIDR1
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000f0 [7:4]   DES_0        (0xb) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   PART_1       (0xd) See CoreSight Architecture Specification
+    io_ro_32 dpidr1;
+ 
+    _REG_(M33_DPIDR2_OFFSET) // M33_DPIDR2
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000f0 [7:4]   REVISION     (0x0) See CoreSight Architecture Specification
+    // 0x00000008 [3]     JEDEC        (1) See CoreSight Architecture Specification
+    // 0x00000007 [2:0]   DES_1        (0x3) See CoreSight Architecture Specification
+    io_ro_32 dpidr2;
+ 
+    _REG_(M33_DPIDR3_OFFSET) // M33_DPIDR3
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000f0 [7:4]   REVAND       (0x0) See CoreSight Architecture Specification
+    // 0x0000000f [3:0]   CMOD         (0x0) See CoreSight Architecture Specification
+    io_ro_32 dpidr3;
+ 
+    // (Description copied from array index 0 register M33_DCIDR0 applies similarly to other array indexes)
+    _REG_(M33_DCIDR0_OFFSET) // M33_DCIDR0
+    // Provides CoreSight discovery information for the SCS
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) See CoreSight Architecture Specification
+    io_ro_32 dcidr[4];
+ 
+    uint32_t _pad43[51201];
+ 
+    _REG_(M33_TRCPRGCTLR_OFFSET) // M33_TRCPRGCTLR
+    // Programming Control Register
+    // 0x00000001 [0]     EN           (0) Trace Unit Enable
+    io_rw_32 trcprgctlr;
+ 
+    uint32_t _pad44;
+ 
+    _REG_(M33_TRCSTATR_OFFSET) // M33_TRCSTATR
+    // The TRCSTATR indicates the ETM-Teal status
+    // 0x00000002 [1]     PMSTABLE     (0) Indicates whether the ETM-Teal registers are stable and...
+    // 0x00000001 [0]     IDLE         (0) Indicates that the trace unit is inactive
+    io_ro_32 trcstatr;
+ 
+    _REG_(M33_TRCCONFIGR_OFFSET) // M33_TRCCONFIGR
+    // The TRCCONFIGR sets the basic tracing options for the trace unit
+    // 0x00001000 [12]    RS           (0) Return stack enable
+    // 0x00000800 [11]    TS           (0) Global timestamp tracing
+    // 0x000007e0 [10:5]  COND         (0x00) Conditional instruction tracing
+    // 0x00000010 [4]     CCI          (0) Cycle counting in instruction trace
+    // 0x00000008 [3]     BB           (0) Branch broadcast mode
+    io_rw_32 trcconfigr;
+ 
+    uint32_t _pad45[3];
+ 
+    _REG_(M33_TRCEVENTCTL0R_OFFSET) // M33_TRCEVENTCTL0R
+    // The TRCEVENTCTL0R controls the tracing of events in the trace stream
+    // 0x00008000 [15]    TYPE1        (0) Selects the resource type for event 1
+    // 0x00000700 [10:8]  SEL1         (0x0) Selects the resource number, based on the value of...
+    // 0x00000080 [7]     TYPE0        (0) Selects the resource type for event 0
+    // 0x00000007 [2:0]   SEL0         (0x0) Selects the resource number, based on the value of...
+    io_rw_32 trceventctl0r;
+ 
+    _REG_(M33_TRCEVENTCTL1R_OFFSET) // M33_TRCEVENTCTL1R
+    // The TRCEVENTCTL1R controls how the events selected by TRCEVENTCTL0R behave
+    // 0x00001000 [12]    LPOVERRIDE   (0) Low power state behavior override
+    // 0x00000800 [11]    ATB          (0) ATB enabled
+    // 0x00000002 [1]     INSTEN1      (0) One bit per event, to enable generation of an event...
+    // 0x00000001 [0]     INSTEN0      (0) One bit per event, to enable generation of an event...
+    io_rw_32 trceventctl1r;
+ 
+    uint32_t _pad46;
+ 
+    _REG_(M33_TRCSTALLCTLR_OFFSET) // M33_TRCSTALLCTLR
+    // The TRCSTALLCTLR enables ETM-Teal to stall the processor if the ETM-Teal FIFO goes over the...
+    // 0x00000400 [10]    INSTPRIORITY (0) Reserved, RES0
+    // 0x00000100 [8]     ISTALL       (0) Stall processor based on instruction trace buffer space
+    // 0x0000000c [3:2]   LEVEL        (0x0) Threshold at which stalling becomes active
+    io_rw_32 trcstallctlr;
+ 
+    _REG_(M33_TRCTSCTLR_OFFSET) // M33_TRCTSCTLR
+    // The TRCTSCTLR controls the insertion of global timestamps into the trace stream
+    // 0x00000080 [7]     TYPE0        (0) Selects the resource type for event 0
+    // 0x00000003 [1:0]   SEL0         (0x0) Selects the resource number, based on the value of...
+    io_rw_32 trctsctlr;
+ 
+    _REG_(M33_TRCSYNCPR_OFFSET) // M33_TRCSYNCPR
+    // The TRCSYNCPR specifies the period of trace synchronization of the trace streams
+    // 0x0000001f [4:0]   PERIOD       (0x0a) Defines the number of bytes of trace between trace...
+    io_ro_32 trcsyncpr;
+ 
+    _REG_(M33_TRCCCCTLR_OFFSET) // M33_TRCCCCTLR
+    // The TRCCCCTLR sets the threshold value for instruction trace cycle counting
+    // 0x00000fff [11:0]  THRESHOLD    (0x000) Instruction trace cycle count threshold
+    io_rw_32 trcccctlr;
+ 
+    uint32_t _pad47[17];
+ 
+    _REG_(M33_TRCVICTLR_OFFSET) // M33_TRCVICTLR
+    // The TRCVICTLR controls instruction trace filtering
+    // 0x00080000 [19]    EXLEVEL_S3   (0) In Secure state, each bit controls whether instruction...
+    // 0x00010000 [16]    EXLEVEL_S0   (0) In Secure state, each bit controls whether instruction...
+    // 0x00000800 [11]    TRCERR       (0) Selects whether a system error exception must always be traced
+    // 0x00000400 [10]    TRCRESET     (0) Selects whether a reset exception must always be traced
+    // 0x00000200 [9]     SSSTATUS     (0) Indicates the current status of the start/stop logic
+    // 0x00000080 [7]     TYPE0        (0) Selects the resource type for event 0
+    // 0x00000003 [1:0]   SEL0         (0x0) Selects the resource number, based on the value of...
+    io_rw_32 trcvictlr;
+ 
+    uint32_t _pad48[47];
+ 
+    _REG_(M33_TRCCNTRLDVR0_OFFSET) // M33_TRCCNTRLDVR0
+    // The TRCCNTRLDVR defines the reload value for the reduced function counter
+    // 0x0000ffff [15:0]  VALUE        (0x0000) Defines the reload value for the counter
+    io_rw_32 trccntrldvr0;
+ 
+    uint32_t _pad49[15];
+ 
+    _REG_(M33_TRCIDR8_OFFSET) // M33_TRCIDR8
+    // TRCIDR8
+    // 0xffffffff [31:0]  MAXSPEC      (0x00000000) reads as `ImpDef
+    io_ro_32 trcidr8;
+ 
+    _REG_(M33_TRCIDR9_OFFSET) // M33_TRCIDR9
+    // TRCIDR9
+    // 0xffffffff [31:0]  NUMP0KEY     (0x00000000) reads as `ImpDef
+    io_ro_32 trcidr9;
+ 
+    _REG_(M33_TRCIDR10_OFFSET) // M33_TRCIDR10
+    // TRCIDR10
+    // 0xffffffff [31:0]  NUMP1KEY     (0x00000000) reads as `ImpDef
+    io_ro_32 trcidr10;
+ 
+    _REG_(M33_TRCIDR11_OFFSET) // M33_TRCIDR11
+    // TRCIDR11
+    // 0xffffffff [31:0]  NUMP1SPC     (0x00000000) reads as `ImpDef
+    io_ro_32 trcidr11;
+ 
+    _REG_(M33_TRCIDR12_OFFSET) // M33_TRCIDR12
+    // TRCIDR12
+    // 0xffffffff [31:0]  NUMCONDKEY   (0x00000001) reads as `ImpDef
+    io_ro_32 trcidr12;
+ 
+    _REG_(M33_TRCIDR13_OFFSET) // M33_TRCIDR13
+    // TRCIDR13
+    // 0xffffffff [31:0]  NUMCONDSPC   (0x00000000) reads as `ImpDef
+    io_ro_32 trcidr13;
+ 
+    uint32_t _pad50[10];
+ 
+    _REG_(M33_TRCIMSPEC_OFFSET) // M33_TRCIMSPEC
+    // The TRCIMSPEC shows the presence of any IMPLEMENTATION SPECIFIC features, and enables any...
+    // 0x0000000f [3:0]   SUPPORT      (0x0) Reserved, RES0
+    io_ro_32 trcimspec;
+ 
+    uint32_t _pad51[7];
+ 
+    _REG_(M33_TRCIDR0_OFFSET) // M33_TRCIDR0
+    // TRCIDR0
+    // 0x20000000 [29]    COMMOPT      (1) reads as `ImpDef
+    // 0x1f000000 [28:24] TSSIZE       (0x08) reads as `ImpDef
+    // 0x00020000 [17]    TRCEXDATA    (0) reads as `ImpDef
+    // 0x00018000 [16:15] QSUPP        (0x0) reads as `ImpDef
+    // 0x00004000 [14]    QFILT        (0) reads as `ImpDef
+    // 0x00003000 [13:12] CONDTYPE     (0x0) reads as `ImpDef
+    // 0x00000c00 [11:10] NUMEVENT     (0x1) reads as `ImpDef
+    // 0x00000200 [9]     RETSTACK     (1) reads as `ImpDef
+    // 0x00000080 [7]     TRCCCI       (1) reads as `ImpDef
+    // 0x00000040 [6]     TRCCOND      (1) reads as `ImpDef
+    // 0x00000020 [5]     TRCBB        (1) reads as `ImpDef
+    // 0x00000018 [4:3]   TRCDATA      (0x0) reads as `ImpDef
+    // 0x00000006 [2:1]   INSTP0       (0x0) reads as `ImpDef
+    // 0x00000001 [0]     RES1         (1) Reserved, RES1
+    io_ro_32 trcidr0;
+ 
+    _REG_(M33_TRCIDR1_OFFSET) // M33_TRCIDR1
+    // TRCIDR1
+    // 0xff000000 [31:24] DESIGNER     (0x41) reads as `ImpDef
+    // 0x0000f000 [15:12] RES1         (0xf) Reserved, RES1
+    // 0x00000f00 [11:8]  TRCARCHMAJ   (0x4) reads as 0b0100
+    // 0x000000f0 [7:4]   TRCARCHMIN   (0x2) reads as 0b0000
+    // 0x0000000f [3:0]   REVISION     (0x1) reads as `ImpDef
+    io_ro_32 trcidr1;
+ 
+    _REG_(M33_TRCIDR2_OFFSET) // M33_TRCIDR2
+    // TRCIDR2
+    // 0x1e000000 [28:25] CCSIZE       (0x0) reads as `ImpDef
+    // 0x01f00000 [24:20] DVSIZE       (0x00) reads as `ImpDef
+    // 0x000f8000 [19:15] DASIZE       (0x00) reads as `ImpDef
+    // 0x00007c00 [14:10] VMIDSIZE     (0x00) reads as `ImpDef
+    // 0x000003e0 [9:5]   CIDSIZE      (0x00) reads as `ImpDef
+    // 0x0000001f [4:0]   IASIZE       (0x04) reads as `ImpDef
+    io_ro_32 trcidr2;
+ 
+    _REG_(M33_TRCIDR3_OFFSET) // M33_TRCIDR3
+    // TRCIDR3
+    // 0x80000000 [31]    NOOVERFLOW   (0) reads as `ImpDef
+    // 0x70000000 [30:28] NUMPROC      (0x0) reads as `ImpDef
+    // 0x08000000 [27]    SYSSTALL     (1) reads as `ImpDef
+    // 0x04000000 [26]    STALLCTL     (1) reads as `ImpDef
+    // 0x02000000 [25]    SYNCPR       (1) reads as `ImpDef
+    // 0x01000000 [24]    TRCERR       (1) reads as `ImpDef
+    // 0x00f00000 [23:20] EXLEVEL_NS   (0x0) reads as `ImpDef
+    // 0x000f0000 [19:16] EXLEVEL_S    (0x9) reads as `ImpDef
+    // 0x00000fff [11:0]  CCITMIN      (0x004) reads as `ImpDef
+    io_ro_32 trcidr3;
+ 
+    _REG_(M33_TRCIDR4_OFFSET) // M33_TRCIDR4
+    // TRCIDR4
+    // 0xf0000000 [31:28] NUMVMIDC     (0x0) reads as `ImpDef
+    // 0x0f000000 [27:24] NUMCIDC      (0x0) reads as `ImpDef
+    // 0x00f00000 [23:20] NUMSSCC      (0x1) reads as `ImpDef
+    // 0x000f0000 [19:16] NUMRSPAIR    (0x1) reads as `ImpDef
+    // 0x0000f000 [15:12] NUMPC        (0x4) reads as `ImpDef
+    // 0x00000100 [8]     SUPPDAC      (0) reads as `ImpDef
+    // 0x000000f0 [7:4]   NUMDVC       (0x0) reads as `ImpDef
+    // 0x0000000f [3:0]   NUMACPAIRS   (0x0) reads as `ImpDef
+    io_ro_32 trcidr4;
+ 
+    _REG_(M33_TRCIDR5_OFFSET) // M33_TRCIDR5
+    // TRCIDR5
+    // 0x80000000 [31]    REDFUNCNTR   (1) reads as `ImpDef
+    // 0x70000000 [30:28] NUMCNTR      (0x1) reads as `ImpDef
+    // 0x0e000000 [27:25] NUMSEQSTATE  (0x0) reads as `ImpDef
+    // 0x00800000 [23]    LPOVERRIDE   (1) reads as `ImpDef
+    // 0x00400000 [22]    ATBTRIG      (1) reads as `ImpDef
+    // 0x003f0000 [21:16] TRACEIDSIZE  (0x07) reads as 0x07
+    // 0x00000e00 [11:9]  NUMEXTINSEL  (0x0) reads as `ImpDef
+    // 0x000001ff [8:0]   NUMEXTIN     (0x004) reads as `ImpDef
+    io_ro_32 trcidr5;
+ 
+    _REG_(M33_TRCIDR6_OFFSET) // M33_TRCIDR6
+    // TRCIDR6
+    // 0x00000000 [31:0]  TRCIDR6      (0x00000000) 
+    io_rw_32 trcidr6;
+ 
+    _REG_(M33_TRCIDR7_OFFSET) // M33_TRCIDR7
+    // TRCIDR7
+    // 0x00000000 [31:0]  TRCIDR7      (0x00000000) 
+    io_rw_32 trcidr7;
+ 
+    uint32_t _pad52[2];
+ 
+    // (Description copied from array index 0 register M33_TRCRSCTLR2 applies similarly to other array indexes)
+    _REG_(M33_TRCRSCTLR2_OFFSET) // M33_TRCRSCTLR2
+    // The TRCRSCTLR controls the trace resources
+    // 0x00200000 [21]    PAIRINV      (0) Inverts the result of a combined pair of resources
+    // 0x00100000 [20]    INV          (0) Inverts the selected resources
+    // 0x00070000 [18:16] GROUP        (0x0) Selects a group of resource
+    // 0x000000ff [7:0]   SELECT       (0x00) Selects one or more resources from the wanted group
+    io_rw_32 trcrsctlr[2];
+ 
+    uint32_t _pad53[36];
+ 
+    _REG_(M33_TRCSSCSR_OFFSET) // M33_TRCSSCSR
+    // Controls the corresponding single-shot comparator resource
+    // 0x80000000 [31]    STATUS       (0) Single-shot status bit
+    // 0x00000008 [3]     PC           (0) Reserved, RES1
+    // 0x00000004 [2]     DV           (0) Reserved, RES0
+    // 0x00000002 [1]     DA           (0) Reserved, RES0
+    // 0x00000001 [0]     INST         (0) Reserved, RES0
+    io_rw_32 trcsscsr;
+ 
+    uint32_t _pad54[7];
+ 
+    _REG_(M33_TRCSSPCICR_OFFSET) // M33_TRCSSPCICR
+    // Selects the PE comparator inputs for Single-shot control
+    // 0x0000000f [3:0]   PC           (0x0) Selects one or more PE comparator inputs for Single-shot control
+    io_rw_32 trcsspcicr;
+ 
+    uint32_t _pad55[19];
+ 
+    _REG_(M33_TRCPDCR_OFFSET) // M33_TRCPDCR
+    // Requests the system to provide power to the trace unit
+    // 0x00000008 [3]     PU           (0) Powerup request bit:
+    io_rw_32 trcpdcr;
+ 
+    _REG_(M33_TRCPDSR_OFFSET) // M33_TRCPDSR
+    // Returns the following information about the trace unit: - OS Lock status
+    // 0x00000020 [5]     OSLK         (0) OS Lock status bit:
+    // 0x00000002 [1]     STICKYPD     (1) Sticky powerdown status bit
+    // 0x00000001 [0]     POWER        (1) Power status bit:
+    io_ro_32 trcpdsr;
+ 
+    uint32_t _pad56[755];
+ 
+    _REG_(M33_TRCITATBIDR_OFFSET) // M33_TRCITATBIDR
+    // Trace Integration ATB Identification Register
+    // 0x0000007f [6:0]   ID           (0x00) Trace ID
+    io_rw_32 trcitatbidr;
+ 
+    uint32_t _pad57[3];
+ 
+    _REG_(M33_TRCITIATBINR_OFFSET) // M33_TRCITIATBINR
+    // Trace Integration Instruction ATB In Register
+    // 0x00000002 [1]     AFVALIDM     (0) Integration Mode instruction AFVALIDM in
+    // 0x00000001 [0]     ATREADYM     (0) Integration Mode instruction ATREADYM in
+    io_rw_32 trcitiatbinr;
+ 
+    uint32_t _pad58;
+ 
+    _REG_(M33_TRCITIATBOUTR_OFFSET) // M33_TRCITIATBOUTR
+    // Trace Integration Instruction ATB Out Register
+    // 0x00000002 [1]     AFREADY      (0) Integration Mode instruction AFREADY out
+    // 0x00000001 [0]     ATVALID      (0) Integration Mode instruction ATVALID out
+    io_rw_32 trcitiatboutr;
+ 
+    uint32_t _pad59[40];
+ 
+    _REG_(M33_TRCCLAIMSET_OFFSET) // M33_TRCCLAIMSET
+    // Claim Tag Set Register
+    // 0x00000008 [3]     SET3         (1) When a write to one of these bits occurs, with the value:
+    // 0x00000004 [2]     SET2         (1) When a write to one of these bits occurs, with the value:
+    // 0x00000002 [1]     SET1         (1) When a write to one of these bits occurs, with the value:
+    // 0x00000001 [0]     SET0         (1) When a write to one of these bits occurs, with the value:
+    io_rw_32 trcclaimset;
+ 
+    _REG_(M33_TRCCLAIMCLR_OFFSET) // M33_TRCCLAIMCLR
+    // Claim Tag Clear Register
+    // 0x00000008 [3]     CLR3         (0) When a write to one of these bits occurs, with the value:
+    // 0x00000004 [2]     CLR2         (0) When a write to one of these bits occurs, with the value:
+    // 0x00000002 [1]     CLR1         (0) When a write to one of these bits occurs, with the value:
+    // 0x00000001 [0]     CLR0         (0) When a write to one of these bits occurs, with the value:
+    io_rw_32 trcclaimclr;
+ 
+    uint32_t _pad60[4];
+ 
+    _REG_(M33_TRCAUTHSTATUS_OFFSET) // M33_TRCAUTHSTATUS
+    // Returns the level of tracing that the trace unit can support
+    // 0x000000c0 [7:6]   SNID         (0x0) Indicates whether the system enables the trace unit to...
+    // 0x00000030 [5:4]   SID          (0x0) Indicates whether the trace unit supports Secure invasive debug:
+    // 0x0000000c [3:2]   NSNID        (0x0) Indicates whether the system enables the trace unit to...
+    // 0x00000003 [1:0]   NSID         (0x0) Indicates whether the trace unit supports Non-secure...
+    io_ro_32 trcauthstatus;
+ 
+    _REG_(M33_TRCDEVARCH_OFFSET) // M33_TRCDEVARCH
+    // TRCDEVARCH
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) reads as 0b01000111011
+    // 0x00100000 [20]    PRESENT      (1) reads as 0b1
+    // 0x000f0000 [19:16] REVISION     (0x2) reads as 0b0000
+    // 0x0000ffff [15:0]  ARCHID       (0x4a13) reads as 0b0100101000010011
+    io_ro_32 trcdevarch;
+ 
+    uint32_t _pad61[2];
+ 
+    _REG_(M33_TRCDEVID_OFFSET) // M33_TRCDEVID
+    // TRCDEVID
+    // 0x00000000 [31:0]  TRCDEVID     (0x00000000) 
+    io_rw_32 trcdevid;
+ 
+    _REG_(M33_TRCDEVTYPE_OFFSET) // M33_TRCDEVTYPE
+    // TRCDEVTYPE
+    // 0x000000f0 [7:4]   SUB          (0x1) reads as 0b0001
+    // 0x0000000f [3:0]   MAJOR        (0x3) reads as 0b0011
+    io_ro_32 trcdevtype;
+ 
+    _REG_(M33_TRCPIDR4_OFFSET) // M33_TRCPIDR4
+    // TRCPIDR4
+    // 0x000000f0 [7:4]   SIZE         (0x0) reads as `ImpDef
+    // 0x0000000f [3:0]   DES_2        (0x4) reads as `ImpDef
+    io_ro_32 trcpidr4;
+ 
+    _REG_(M33_TRCPIDR5_OFFSET) // M33_TRCPIDR5
+    // TRCPIDR5
+    // 0x00000000 [31:0]  TRCPIDR5     (0x00000000) 
+    io_rw_32 trcpidr5;
+ 
+    _REG_(M33_TRCPIDR6_OFFSET) // M33_TRCPIDR6
+    // TRCPIDR6
+    // 0x00000000 [31:0]  TRCPIDR6     (0x00000000) 
+    io_rw_32 trcpidr6;
+ 
+    _REG_(M33_TRCPIDR7_OFFSET) // M33_TRCPIDR7
+    // TRCPIDR7
+    // 0x00000000 [31:0]  TRCPIDR7     (0x00000000) 
+    io_rw_32 trcpidr7;
+ 
+    _REG_(M33_TRCPIDR0_OFFSET) // M33_TRCPIDR0
+    // TRCPIDR0
+    // 0x000000ff [7:0]   PART_0       (0x21) reads as `ImpDef
+    io_ro_32 trcpidr0;
+ 
+    _REG_(M33_TRCPIDR1_OFFSET) // M33_TRCPIDR1
+    // TRCPIDR1
+    // 0x000000f0 [7:4]   DES_0        (0xb) reads as `ImpDef
+    // 0x0000000f [3:0]   PART_0       (0xd) reads as `ImpDef
+    io_ro_32 trcpidr1;
+ 
+    _REG_(M33_TRCPIDR2_OFFSET) // M33_TRCPIDR2
+    // TRCPIDR2
+    // 0x000000f0 [7:4]   REVISION     (0x2) reads as `ImpDef
+    // 0x00000008 [3]     JEDEC        (1) reads as 0b1
+    // 0x00000007 [2:0]   DES_0        (0x3) reads as `ImpDef
+    io_ro_32 trcpidr2;
+ 
+    _REG_(M33_TRCPIDR3_OFFSET) // M33_TRCPIDR3
+    // TRCPIDR3
+    // 0x000000f0 [7:4]   REVAND       (0x0) reads as `ImpDef
+    // 0x0000000f [3:0]   CMOD         (0x0) reads as `ImpDef
+    io_ro_32 trcpidr3;
+ 
+    // (Description copied from array index 0 register M33_TRCCIDR0 applies similarly to other array indexes)
+    _REG_(M33_TRCCIDR0_OFFSET) // M33_TRCCIDR0
+    // TRCCIDR0
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) reads as 0b00001101
+    io_ro_32 trccidr[4];
+ 
+    _REG_(M33_CTICONTROL_OFFSET) // M33_CTICONTROL
+    // CTI Control Register
+    // 0x00000001 [0]     GLBEN        (0) Enables or disables the CTI
+    io_rw_32 cticontrol;
+ 
+    uint32_t _pad62[3];
+ 
+    _REG_(M33_CTIINTACK_OFFSET) // M33_CTIINTACK
+    // CTI Interrupt Acknowledge Register
+    // 0x000000ff [7:0]   INTACK       (0x00) Acknowledges the corresponding ctitrigout output
+    io_rw_32 ctiintack;
+ 
+    _REG_(M33_CTIAPPSET_OFFSET) // M33_CTIAPPSET
+    // CTI Application Trigger Set Register
+    // 0x0000000f [3:0]   APPSET       (0x0) Setting a bit HIGH generates a channel event for the...
+    io_rw_32 ctiappset;
+ 
+    _REG_(M33_CTIAPPCLEAR_OFFSET) // M33_CTIAPPCLEAR
+    // CTI Application Trigger Clear Register
+    // 0x0000000f [3:0]   APPCLEAR     (0x0) Sets the corresponding bits in the CTIAPPSET to 0
+    io_rw_32 ctiappclear;
+ 
+    _REG_(M33_CTIAPPPULSE_OFFSET) // M33_CTIAPPPULSE
+    // CTI Application Pulse Register
+    // 0x0000000f [3:0]   APPULSE      (0x0) Setting a bit HIGH generates a channel event pulse for...
+    io_rw_32 ctiapppulse;
+ 
+    // (Description copied from array index 0 register M33_CTIINEN0 applies similarly to other array indexes)
+    _REG_(M33_CTIINEN0_OFFSET) // M33_CTIINEN0
+    // CTI Trigger to Channel Enable Registers
+    // 0x0000000f [3:0]   TRIGINEN     (0x0) Enables a cross trigger event to the corresponding...
+    io_rw_32 ctiinen[8];
+ 
+    uint32_t _pad63[24];
+ 
+    // (Description copied from array index 0 register M33_CTIOUTEN0 applies similarly to other array indexes)
+    _REG_(M33_CTIOUTEN0_OFFSET) // M33_CTIOUTEN0
+    // CTI Trigger to Channel Enable Registers
+    // 0x0000000f [3:0]   TRIGOUTEN    (0x0) Enables a cross trigger event to ctitrigout when the...
+    io_rw_32 ctiouten[8];
+ 
+    uint32_t _pad64[28];
+ 
+    _REG_(M33_CTITRIGINSTATUS_OFFSET) // M33_CTITRIGINSTATUS
+    // CTI Trigger to Channel Enable Registers
+    // 0x000000ff [7:0]   TRIGINSTATUS (0x00) Shows the status of the ctitrigin inputs
+    io_ro_32 ctitriginstatus;
+ 
+    _REG_(M33_CTITRIGOUTSTATUS_OFFSET) // M33_CTITRIGOUTSTATUS
+    // CTI Trigger In Status Register
+    // 0x000000ff [7:0]   TRIGOUTSTATUS (0x00) Shows the status of the ctitrigout outputs
+    io_ro_32 ctitrigoutstatus;
+ 
+    _REG_(M33_CTICHINSTATUS_OFFSET) // M33_CTICHINSTATUS
+    // CTI Channel In Status Register
+    // 0x0000000f [3:0]   CTICHOUTSTATUS (0x0) Shows the status of the ctichout outputs
+    io_ro_32 ctichinstatus;
+ 
+    uint32_t _pad65;
+ 
+    _REG_(M33_CTIGATE_OFFSET) // M33_CTIGATE
+    // Enable CTI Channel Gate register
+    // 0x00000008 [3]     CTIGATEEN3   (1) Enable ctichout3
+    // 0x00000004 [2]     CTIGATEEN2   (1) Enable ctichout2
+    // 0x00000002 [1]     CTIGATEEN1   (1) Enable ctichout1
+    // 0x00000001 [0]     CTIGATEEN0   (1) Enable ctichout0
+    io_rw_32 ctigate;
+ 
+    _REG_(M33_ASICCTL_OFFSET) // M33_ASICCTL
+    // External Multiplexer Control register
+    // 0x00000000 [31:0]  ASICCTL      (0x00000000) 
+    io_rw_32 asicctl;
+ 
+    uint32_t _pad66[871];
+ 
+    _REG_(M33_ITCHOUT_OFFSET) // M33_ITCHOUT
+    // Integration Test Channel Output register
+    // 0x0000000f [3:0]   CTCHOUT      (0x0) Sets the value of the ctichout outputs
+    io_rw_32 itchout;
+ 
+    _REG_(M33_ITTRIGOUT_OFFSET) // M33_ITTRIGOUT
+    // Integration Test Trigger Output register
+    // 0x000000ff [7:0]   CTTRIGOUT    (0x00) Sets the value of the ctitrigout outputs
+    io_rw_32 ittrigout;
+ 
+    uint32_t _pad67[2];
+ 
+    _REG_(M33_ITCHIN_OFFSET) // M33_ITCHIN
+    // Integration Test Channel Input register
+    // 0x0000000f [3:0]   CTCHIN       (0x0) Reads the value of the ctichin inputs
+    io_ro_32 itchin;
+ 
+    uint32_t _pad68[2];
+ 
+    _REG_(M33_ITCTRL_OFFSET) // M33_ITCTRL
+    // Integration Mode Control register
+    // 0x00000001 [0]     IME          (0) Integration Mode Enable
+    io_rw_32 itctrl;
+ 
+    uint32_t _pad69[46];
+ 
+    _REG_(M33_DEVARCH_OFFSET) // M33_DEVARCH
+    // Device Architecture register
+    // 0xffe00000 [31:21] ARCHITECT    (0x23b) Indicates the component architect
+    // 0x00100000 [20]    PRESENT      (1) Indicates whether the DEVARCH register is present
+    // 0x000f0000 [19:16] REVISION     (0x0) Indicates the architecture revision
+    // 0x0000ffff [15:0]  ARCHID       (0x1a14) Indicates the component
+    io_ro_32 devarch;
+ 
+    uint32_t _pad70[2];
+ 
+    _REG_(M33_DEVID_OFFSET) // M33_DEVID
+    // Device Configuration register
+    // 0x000f0000 [19:16] NUMCH        (0x4) Number of ECT channels available
+    // 0x0000ff00 [15:8]  NUMTRIG      (0x08) Number of ECT triggers available
+    // 0x0000001f [4:0]   EXTMUXNUM    (0x00) Indicates the number of multiplexers available on...
+    io_ro_32 devid;
+ 
+    _REG_(M33_DEVTYPE_OFFSET) // M33_DEVTYPE
+    // Device Type Identifier register
+    // 0x000000f0 [7:4]   SUB          (0x1) Sub-classification of the type of the debug component as...
+    // 0x0000000f [3:0]   MAJOR        (0x4) Major classification of the type of the debug component...
+    io_ro_32 devtype;
+ 
+    _REG_(M33_PIDR4_OFFSET) // M33_PIDR4
+    // CoreSight Peripheral ID4
+    // 0x000000f0 [7:4]   SIZE         (0x0) Always 0b0000
+    // 0x0000000f [3:0]   DES_2        (0x4) Together, PIDR1
+    io_ro_32 pidr4;
+ 
+    _REG_(M33_PIDR5_OFFSET) // M33_PIDR5
+    // CoreSight Peripheral ID5
+    // 0x00000000 [31:0]  PIDR5        (0x00000000) 
+    io_rw_32 pidr5;
+ 
+    _REG_(M33_PIDR6_OFFSET) // M33_PIDR6
+    // CoreSight Peripheral ID6
+    // 0x00000000 [31:0]  PIDR6        (0x00000000) 
+    io_rw_32 pidr6;
+ 
+    _REG_(M33_PIDR7_OFFSET) // M33_PIDR7
+    // CoreSight Peripheral ID7
+    // 0x00000000 [31:0]  PIDR7        (0x00000000) 
+    io_rw_32 pidr7;
+ 
+    _REG_(M33_PIDR0_OFFSET) // M33_PIDR0
+    // CoreSight Peripheral ID0
+    // 0x000000ff [7:0]   PART_0       (0x21) Bits[7:0] of the 12-bit part number of the component
+    io_ro_32 pidr0;
+ 
+    _REG_(M33_PIDR1_OFFSET) // M33_PIDR1
+    // CoreSight Peripheral ID1
+    // 0x000000f0 [7:4]   DES_0        (0xb) Together, PIDR1
+    // 0x0000000f [3:0]   PART_1       (0xd) Bits[11:8] of the 12-bit part number of the component
+    io_ro_32 pidr1;
+ 
+    _REG_(M33_PIDR2_OFFSET) // M33_PIDR2
+    // CoreSight Peripheral ID2
+    // 0x000000f0 [7:4]   REVISION     (0x0) This device is at r1p0
+    // 0x00000008 [3]     JEDEC        (1) Always 1
+    // 0x00000007 [2:0]   DES_1        (0x3) Together, PIDR1
+    io_ro_32 pidr2;
+ 
+    _REG_(M33_PIDR3_OFFSET) // M33_PIDR3
+    // CoreSight Peripheral ID3
+    // 0x000000f0 [7:4]   REVAND       (0x0) Indicates minor errata fixes specific to the revision of...
+    // 0x0000000f [3:0]   CMOD         (0x0) Customer Modified
+    io_ro_32 pidr3;
+ 
+    // (Description copied from array index 0 register M33_CIDR0 applies similarly to other array indexes)
+    _REG_(M33_CIDR0_OFFSET) // M33_CIDR0
+    // CoreSight Component ID0
+    // 0x000000ff [7:0]   PRMBL_0      (0x0d) Preamble[0]
+    io_ro_32 cidr[4];
+} m33_hw_t;
+
+#define m33_hw ((m33_hw_t *)PPB_BASE)
+#define m33_ns_hw ((m33_hw_t *)PPB_NONSEC_BASE)
+static_assert(sizeof (m33_hw_t) == 0x43000, "");
+
+#endif // _HARDWARE_STRUCTS_M33_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/m33_eppb.h b/lib/pico-sdk/rp2350/hardware/structs/m33_eppb.h
new file mode 100644
index 0000000..3b271e6
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/m33_eppb.h
@@ -0,0 +1,50 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_M33_EPPB_H
+#define _HARDWARE_STRUCTS_M33_EPPB_H
+
+/**
+ * \file rp2350/m33_eppb.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33_eppb.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33_eppb
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33_eppb.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+  
+
+typedef struct {
+    // (Description copied from array index 0 register M33_EPPB_NMI_MASK0 applies similarly to other array indexes)
+    _REG_(M33_EPPB_NMI_MASK0_OFFSET) // M33_EPPB_NMI_MASK0
+    // NMI mask for IRQs 0 through 31
+    // 0xffffffff [31:0]  NMI_MASK0    (0x00000000) 
+    io_rw_32 nmi_mask[2];
+ 
+    _REG_(M33_EPPB_SLEEPCTRL_OFFSET) // M33_EPPB_SLEEPCTRL
+    // Nonstandard sleep control register
+    // 0x00000004 [2]     WICENACK     (0) Status signal from the processor's interrupt controller
+    // 0x00000002 [1]     WICENREQ     (1) Request that the next processor deep sleep is a WIC sleep
+    // 0x00000001 [0]     LIGHT_SLEEP  (0) By default, any processor sleep will deassert the...
+    io_rw_32 sleepctrl;
+} m33_eppb_hw_t;
+
+#define eppb_hw ((m33_eppb_hw_t *)EPPB_BASE)
+static_assert(sizeof (m33_eppb_hw_t) == 0x000c, "");
+
+#endif // _HARDWARE_STRUCTS_M33_EPPB_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/mpu.h b/lib/pico-sdk/rp2350/hardware/structs/mpu.h
new file mode 100644
index 0000000..e3bf920
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/mpu.h
@@ -0,0 +1,126 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_MPU_H
+#define _HARDWARE_STRUCTS_MPU_H
+
+/**
+ * \file rp2350/mpu.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    _REG_(M33_MPU_TYPE_OFFSET) // M33_MPU_TYPE
+    // The MPU Type Register indicates how many regions the MPU `FTSSS supports
+    // 0x0000ff00 [15:8]  DREGION      (0x08) Number of regions supported by the MPU
+    // 0x00000001 [0]     SEPARATE     (0) Indicates support for separate instructions and data...
+    io_ro_32 type;
+ 
+    _REG_(M33_MPU_CTRL_OFFSET) // M33_MPU_CTRL
+    // Enables the MPU and, when the MPU is enabled, controls whether the default memory map is enabled...
+    // 0x00000004 [2]     PRIVDEFENA   (0) Controls whether the default memory map is enabled for...
+    // 0x00000002 [1]     HFNMIENA     (0) Controls whether handlers executing with priority less...
+    // 0x00000001 [0]     ENABLE       (0) Enables the MPU
+    io_rw_32 ctrl;
+ 
+    _REG_(M33_MPU_RNR_OFFSET) // M33_MPU_RNR
+    // Selects the region currently accessed by MPU_RBAR and MPU_RLAR
+    // 0x00000007 [2:0]   REGION       (0x0) Indicates the memory region accessed by MPU_RBAR and MPU_RLAR
+    io_rw_32 rnr;
+ 
+    _REG_(M33_MPU_RBAR_OFFSET) // M33_MPU_RBAR
+    // Provides indirect read and write access to the base address of the currently selected MPU region `FTSSS
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 rbar;
+ 
+    _REG_(M33_MPU_RLAR_OFFSET) // M33_MPU_RLAR
+    // Provides indirect read and write access to the limit address of the currently selected MPU region `FTSSS
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 rlar;
+ 
+    _REG_(M33_MPU_RBAR_A1_OFFSET) // M33_MPU_RBAR_A1
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 rbar_a1;
+ 
+    _REG_(M33_MPU_RLAR_A1_OFFSET) // M33_MPU_RLAR_A1
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 rlar_a1;
+ 
+    _REG_(M33_MPU_RBAR_A2_OFFSET) // M33_MPU_RBAR_A2
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 rbar_a2;
+ 
+    _REG_(M33_MPU_RLAR_A2_OFFSET) // M33_MPU_RLAR_A2
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 rlar_a2;
+ 
+    _REG_(M33_MPU_RBAR_A3_OFFSET) // M33_MPU_RBAR_A3
+    // Provides indirect read and write access to the base address of the MPU region selected by...
+    // 0xffffffe0 [31:5]  BASE         (0x0000000) Contains bits [31:5] of the lower inclusive limit of the...
+    // 0x00000018 [4:3]   SH           (0x0) Defines the Shareability domain of this region for Normal memory
+    // 0x00000006 [2:1]   AP           (0x0) Defines the access permissions for this region
+    // 0x00000001 [0]     XN           (0) Defines whether code can be executed from this region
+    io_rw_32 rbar_a3;
+ 
+    _REG_(M33_MPU_RLAR_A3_OFFSET) // M33_MPU_RLAR_A3
+    // Provides indirect read and write access to the limit address of the currently selected MPU...
+    // 0xffffffe0 [31:5]  LIMIT        (0x0000000) Contains bits [31:5] of the upper inclusive limit of the...
+    // 0x0000000e [3:1]   ATTRINDX     (0x0) Associates a set of attributes in the MPU_MAIR0 and...
+    // 0x00000001 [0]     EN           (0) Region enable
+    io_rw_32 rlar_a3;
+ 
+    uint32_t _pad0;
+ 
+    // (Description copied from array index 0 register M33_MPU_MAIR0 applies similarly to other array indexes)
+    _REG_(M33_MPU_MAIR0_OFFSET) // M33_MPU_MAIR0
+    // Along with MPU_MAIR1, provides the memory attribute encodings corresponding to the AttrIndex values
+    // 0xff000000 [31:24] ATTR3        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 3
+    // 0x00ff0000 [23:16] ATTR2        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 2
+    // 0x0000ff00 [15:8]  ATTR1        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 1
+    // 0x000000ff [7:0]   ATTR0        (0x00) Memory attribute encoding for MPU regions with an AttrIndex of 0
+    io_rw_32 mair[2];
+} mpu_hw_t;
+
+#define mpu_hw ((mpu_hw_t *)(PPB_BASE + M33_MPU_TYPE_OFFSET))
+#define mpu_ns_hw ((mpu_hw_t *)(PPB_NONSEC_BASE + M33_MPU_TYPE_OFFSET))
+static_assert(sizeof (mpu_hw_t) == 0x0038, "");
+
+#endif // _HARDWARE_STRUCTS_MPU_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/nvic.h b/lib/pico-sdk/rp2350/hardware/structs/nvic.h
new file mode 100644
index 0000000..c0c7b76
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/nvic.h
@@ -0,0 +1,94 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_NVIC_H
+#define _HARDWARE_STRUCTS_NVIC_H
+
+/**
+ * \file rp2350/nvic.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    // (Description copied from array index 0 register M33_NVIC_ISER0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ISER0_OFFSET) // M33_NVIC_ISER0
+    // Enables or reads the enabled state of each group of 32 interrupts
+    // 0xffffffff [31:0]  SETENA       (0x00000000) For SETENA[m] in NVIC_ISER*n, indicates whether...
+    io_rw_32 iser[2];
+ 
+    uint32_t _pad0[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ICER0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ICER0_OFFSET) // M33_NVIC_ICER0
+    // Clears or reads the enabled state of each group of 32 interrupts
+    // 0xffffffff [31:0]  CLRENA       (0x00000000) For CLRENA[m] in NVIC_ICER*n, indicates whether...
+    io_rw_32 icer[2];
+ 
+    uint32_t _pad1[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ISPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ISPR0_OFFSET) // M33_NVIC_ISPR0
+    // Enables or reads the pending state of each group of 32 interrupts
+    // 0xffffffff [31:0]  SETPEND      (0x00000000) For SETPEND[m] in NVIC_ISPR*n, indicates whether...
+    io_rw_32 ispr[2];
+ 
+    uint32_t _pad2[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ICPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ICPR0_OFFSET) // M33_NVIC_ICPR0
+    // Clears or reads the pending state of each group of 32 interrupts
+    // 0xffffffff [31:0]  CLRPEND      (0x00000000) For CLRPEND[m] in NVIC_ICPR*n, indicates whether...
+    io_rw_32 icpr[2];
+ 
+    uint32_t _pad3[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_IABR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_IABR0_OFFSET) // M33_NVIC_IABR0
+    // For each group of 32 interrupts, shows the active state of each interrupt
+    // 0xffffffff [31:0]  ACTIVE       (0x00000000) For ACTIVE[m] in NVIC_IABR*n, indicates the active state...
+    io_rw_32 iabr[2];
+ 
+    uint32_t _pad4[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_ITNS0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_ITNS0_OFFSET) // M33_NVIC_ITNS0
+    // For each group of 32 interrupts, determines whether each interrupt targets Non-secure or Secure state
+    // 0xffffffff [31:0]  ITNS         (0x00000000) For ITNS[m] in NVIC_ITNS*n, `IAAMO the target Security...
+    io_rw_32 itns[2];
+ 
+    uint32_t _pad5[30];
+ 
+    // (Description copied from array index 0 register M33_NVIC_IPR0 applies similarly to other array indexes)
+    _REG_(M33_NVIC_IPR0_OFFSET) // M33_NVIC_IPR0
+    // Sets or reads interrupt priorities
+    // 0xf0000000 [31:28] PRI_N3       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x00f00000 [23:20] PRI_N2       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x0000f000 [15:12] PRI_N1       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    // 0x000000f0 [7:4]   PRI_N0       (0x0) For register NVIC_IPRn, the priority of interrupt number...
+    io_rw_32 ipr[16];
+} nvic_hw_t;
+
+#define nvic_hw ((nvic_hw_t *)(PPB_BASE + M33_NVIC_ISER0_OFFSET))
+#define nvic_ns_hw ((nvic_hw_t *)(PPB_NONSEC_BASE + M33_NVIC_ISER0_OFFSET))
+static_assert(sizeof (nvic_hw_t) == 0x0340, "");
+
+#endif // _HARDWARE_STRUCTS_NVIC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/otp.h b/lib/pico-sdk/rp2350/hardware/structs/otp.h
new file mode 100644
index 0000000..803643b
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/otp.h
@@ -0,0 +1,192 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_OTP_H
+#define _HARDWARE_STRUCTS_OTP_H
+
+/**
+ * \file rp2350/otp.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/otp.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_otp
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/otp.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    // (Description copied from array index 0 register OTP_SW_LOCK0 applies similarly to other array indexes)
+    _REG_(OTP_SW_LOCK0_OFFSET) // OTP_SW_LOCK0
+    // Software lock register for page 0.
+    // 0x0000000c [3:2]   NSEC         (-) Non-secure lock status
+    // 0x00000003 [1:0]   SEC          (-) Secure lock status
+    io_rw_32 sw_lock[64];
+ 
+    _REG_(OTP_SBPI_INSTR_OFFSET) // OTP_SBPI_INSTR
+    // Dispatch instructions to the SBPI interface, used for programming the OTP fuses
+    // 0x40000000 [30]    EXEC         (0) Execute instruction
+    // 0x20000000 [29]    IS_WR        (0) Payload type is write
+    // 0x10000000 [28]    HAS_PAYLOAD  (0) Instruction has payload (data to be written or to be read)
+    // 0x0f000000 [27:24] PAYLOAD_SIZE_M1 (0x0) Instruction payload size in bytes minus 1
+    // 0x00ff0000 [23:16] TARGET       (0x00) Instruction target, it can be PMC (0x3a) or DAP (0x02)
+    // 0x0000ff00 [15:8]  CMD          (0x00) 
+    // 0x000000ff [7:0]   SHORT_WDATA  (0x00) wdata to be used only when payload_size_m1=0
+    io_rw_32 sbpi_instr;
+ 
+    // (Description copied from array index 0 register OTP_SBPI_WDATA_0 applies similarly to other array indexes)
+    _REG_(OTP_SBPI_WDATA_0_OFFSET) // OTP_SBPI_WDATA_0
+    // SBPI write payload bytes 3
+    // 0xffffffff [31:0]  SBPI_WDATA_0 (0x00000000) 
+    io_rw_32 sbpi_wdata[4];
+ 
+    // (Description copied from array index 0 register OTP_SBPI_RDATA_0 applies similarly to other array indexes)
+    _REG_(OTP_SBPI_RDATA_0_OFFSET) // OTP_SBPI_RDATA_0
+    // Read payload bytes 3
+    // 0xffffffff [31:0]  SBPI_RDATA_0 (0x00000000) 
+    io_ro_32 sbpi_rdata[4];
+ 
+    _REG_(OTP_SBPI_STATUS_OFFSET) // OTP_SBPI_STATUS
+    // 0x00ff0000 [23:16] MISO         (-) SBPI MISO (master in - slave out): response from SBPI
+    // 0x00001000 [12]    FLAG         (-) SBPI flag
+    // 0x00000100 [8]     INSTR_MISS   (0) Last instruction missed (dropped), as the previous has...
+    // 0x00000010 [4]     INSTR_DONE   (0) Last instruction done
+    // 0x00000001 [0]     RDATA_VLD    (0) Read command has returned data
+    io_rw_32 sbpi_status;
+ 
+    _REG_(OTP_USR_OFFSET) // OTP_USR
+    // Controls for APB data read interface (USER interface)
+    // 0x00000010 [4]     PD           (0) Power-down; 1 disables current reference
+    // 0x00000001 [0]     DCTRL        (1) 1 enables USER interface; 0 disables USER interface...
+    io_rw_32 usr;
+ 
+    _REG_(OTP_DBG_OFFSET) // OTP_DBG
+    // Debug for OTP power-on state machine
+    // 0x00001000 [12]    CUSTOMER_RMA_FLAG (-) The chip is in RMA mode
+    // 0x000000f0 [7:4]   PSM_STATE    (-) Monitor the PSM FSM's state
+    // 0x00000008 [3]     ROSC_UP      (-) Ring oscillator is up and running
+    // 0x00000004 [2]     ROSC_UP_SEEN (0) Ring oscillator was seen up and running
+    // 0x00000002 [1]     BOOT_DONE    (-) PSM boot done status flag
+    // 0x00000001 [0]     PSM_DONE     (-) PSM done status flag
+    io_rw_32 dbg;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(OTP_BIST_OFFSET) // OTP_BIST
+    // During BIST, count address locations that have at least one leaky bit
+    // 0x40000000 [30]    CNT_FAIL     (-) Flag if the count of address locations with at least one...
+    // 0x20000000 [29]    CNT_CLR      (0) Clear counter before use
+    // 0x10000000 [28]    CNT_ENA      (0) Enable the counter before the BIST function is initiated
+    // 0x0fff0000 [27:16] CNT_MAX      (0xfff) The cnt_fail flag will be set if the number of leaky...
+    // 0x00001fff [12:0]  CNT          (-) Number of locations that have at least one leaky bit
+    io_rw_32 bist;
+ 
+    // (Description copied from array index 0 register OTP_CRT_KEY_W0 applies similarly to other array indexes)
+    _REG_(OTP_CRT_KEY_W0_OFFSET) // OTP_CRT_KEY_W0
+    // Word 0 (bits 31
+    // 0xffffffff [31:0]  CRT_KEY_W0   (0x00000000) 
+    io_wo_32 crt_key_w[4];
+ 
+    _REG_(OTP_CRITICAL_OFFSET) // OTP_CRITICAL
+    // Quickly check values of critical flags read during boot up
+    // 0x00020000 [17]    RISCV_DISABLE (0) 
+    // 0x00010000 [16]    ARM_DISABLE  (0) 
+    // 0x00000060 [6:5]   GLITCH_DETECTOR_SENS (0x0) 
+    // 0x00000010 [4]     GLITCH_DETECTOR_ENABLE (0) 
+    // 0x00000008 [3]     DEFAULT_ARCHSEL (0) 
+    // 0x00000004 [2]     DEBUG_DISABLE (0) 
+    // 0x00000002 [1]     SECURE_DEBUG_DISABLE (0) 
+    // 0x00000001 [0]     SECURE_BOOT_ENABLE (0) 
+    io_ro_32 critical;
+ 
+    _REG_(OTP_KEY_VALID_OFFSET) // OTP_KEY_VALID
+    // Which keys were valid (enrolled) at boot time
+    // 0x000000ff [7:0]   KEY_VALID    (0x00) 
+    io_ro_32 key_valid;
+ 
+    _REG_(OTP_DEBUGEN_OFFSET) // OTP_DEBUGEN
+    // Enable a debug feature that has been disabled. Debug features are disabled if one of the relevant critical boot flags is set in OTP (DEBUG_DISABLE or SECURE_DEBUG_DISABLE), OR if a debug key is marked valid in OTP, and the matching key value has not been supplied over SWD.
+    // 0x00000100 [8]     MISC         (0) Enable other debug components
+    // 0x00000008 [3]     PROC1_SECURE (0) Permit core 1's Mem-AP to generate Secure accesses,...
+    // 0x00000004 [2]     PROC1        (0) Enable core 1's Mem-AP if it is currently disabled
+    // 0x00000002 [1]     PROC0_SECURE (0) Permit core 0's Mem-AP to generate Secure accesses,...
+    // 0x00000001 [0]     PROC0        (0) Enable core 0's Mem-AP if it is currently disabled
+    io_rw_32 debugen;
+ 
+    _REG_(OTP_DEBUGEN_LOCK_OFFSET) // OTP_DEBUGEN_LOCK
+    // Write 1s to lock corresponding bits in DEBUGEN
+    // 0x00000100 [8]     MISC         (0) Write 1 to lock the MISC bit of DEBUGEN
+    // 0x00000008 [3]     PROC1_SECURE (0) Write 1 to lock the PROC1_SECURE bit of DEBUGEN
+    // 0x00000004 [2]     PROC1        (0) Write 1 to lock the PROC1 bit of DEBUGEN
+    // 0x00000002 [1]     PROC0_SECURE (0) Write 1 to lock the PROC0_SECURE bit of DEBUGEN
+    // 0x00000001 [0]     PROC0        (0) Write 1 to lock the PROC0 bit of DEBUGEN
+    io_rw_32 debugen_lock;
+ 
+    _REG_(OTP_ARCHSEL_OFFSET) // OTP_ARCHSEL
+    // Architecture select (Arm/RISC-V), applied on next processor reset. The default and allowable values of this register are constrained by the critical boot flags.
+    // 0x00000002 [1]     CORE1        (0) Select architecture for core 1
+    // 0x00000001 [0]     CORE0        (0) Select architecture for core 0
+    io_rw_32 archsel;
+ 
+    _REG_(OTP_ARCHSEL_STATUS_OFFSET) // OTP_ARCHSEL_STATUS
+    // Get the current architecture select state of each core
+    // 0x00000002 [1]     CORE1        (0) Current architecture for core 0
+    // 0x00000001 [0]     CORE0        (0) Current architecture for core 0
+    io_ro_32 archsel_status;
+ 
+    _REG_(OTP_BOOTDIS_OFFSET) // OTP_BOOTDIS
+    // Tell the bootrom to ignore scratch register boot vectors (both power manager and watchdog) on the next power up.
+    // 0x00000002 [1]     NEXT         (0) This flag always ORs writes into its current contents
+    // 0x00000001 [0]     NOW          (0) When the core is powered down, the current value of...
+    io_rw_32 bootdis;
+ 
+    _REG_(OTP_INTR_OFFSET) // OTP_INTR
+    // Raw Interrupts
+    // 0x00000010 [4]     APB_RD_NSEC_FAIL (0) 
+    // 0x00000008 [3]     APB_RD_SEC_FAIL (0) 
+    // 0x00000004 [2]     APB_DCTRL_FAIL (0) 
+    // 0x00000002 [1]     SBPI_WR_FAIL (0) 
+    // 0x00000001 [0]     SBPI_FLAG_N  (0) 
+    io_rw_32 intr;
+ 
+    _REG_(OTP_INTE_OFFSET) // OTP_INTE
+    // Interrupt Enable
+    // 0x00000010 [4]     APB_RD_NSEC_FAIL (0) 
+    // 0x00000008 [3]     APB_RD_SEC_FAIL (0) 
+    // 0x00000004 [2]     APB_DCTRL_FAIL (0) 
+    // 0x00000002 [1]     SBPI_WR_FAIL (0) 
+    // 0x00000001 [0]     SBPI_FLAG_N  (0) 
+    io_rw_32 inte;
+ 
+    _REG_(OTP_INTF_OFFSET) // OTP_INTF
+    // Interrupt Force
+    // 0x00000010 [4]     APB_RD_NSEC_FAIL (0) 
+    // 0x00000008 [3]     APB_RD_SEC_FAIL (0) 
+    // 0x00000004 [2]     APB_DCTRL_FAIL (0) 
+    // 0x00000002 [1]     SBPI_WR_FAIL (0) 
+    // 0x00000001 [0]     SBPI_FLAG_N  (0) 
+    io_rw_32 intf;
+ 
+    _REG_(OTP_INTS_OFFSET) // OTP_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000010 [4]     APB_RD_NSEC_FAIL (0) 
+    // 0x00000008 [3]     APB_RD_SEC_FAIL (0) 
+    // 0x00000004 [2]     APB_DCTRL_FAIL (0) 
+    // 0x00000002 [1]     SBPI_WR_FAIL (0) 
+    // 0x00000001 [0]     SBPI_FLAG_N  (0) 
+    io_ro_32 ints;
+} otp_hw_t;
+
+#define otp_hw ((otp_hw_t *)OTP_BASE)
+static_assert(sizeof (otp_hw_t) == 0x0174, "");
+
+#endif // _HARDWARE_STRUCTS_OTP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/pads_bank0.h b/lib/pico-sdk/rp2350/hardware/structs/pads_bank0.h
new file mode 100644
index 0000000..bf0f4a5
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/pads_bank0.h
@@ -0,0 +1,49 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PADS_BANK0_H
+#define _HARDWARE_STRUCTS_PADS_BANK0_H
+
+/**
+ * \file rp2350/pads_bank0.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pads_bank0.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_pads_bank0
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pads_bank0.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PADS_BANK0_VOLTAGE_SELECT_OFFSET) // PADS_BANK0_VOLTAGE_SELECT
+    // Voltage select
+    // 0x00000001 [0]     VOLTAGE_SELECT (0) 
+    io_rw_32 voltage_select;
+ 
+    // (Description copied from array index 0 register PADS_BANK0_GPIO0 applies similarly to other array indexes)
+    _REG_(PADS_BANK0_GPIO0_OFFSET) // PADS_BANK0_GPIO0
+    // 0x00000100 [8]     ISO          (1) Pad isolation control
+    // 0x00000080 [7]     OD           (0) Output disable
+    // 0x00000040 [6]     IE           (0) Input enable
+    // 0x00000030 [5:4]   DRIVE        (0x1) Drive strength
+    // 0x00000008 [3]     PUE          (0) Pull up enable
+    // 0x00000004 [2]     PDE          (1) Pull down enable
+    // 0x00000002 [1]     SCHMITT      (1) Enable schmitt trigger
+    // 0x00000001 [0]     SLEWFAST     (0) Slew rate control
+    io_rw_32 io[48];
+} pads_bank0_hw_t;
+
+#define pads_bank0_hw ((pads_bank0_hw_t *)PADS_BANK0_BASE)
+static_assert(sizeof (pads_bank0_hw_t) == 0x00c4, "");
+
+#endif // _HARDWARE_STRUCTS_PADS_BANK0_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/pads_qspi.h b/lib/pico-sdk/rp2350/hardware/structs/pads_qspi.h
new file mode 100644
index 0000000..e6b0f68
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/pads_qspi.h
@@ -0,0 +1,49 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PADS_QSPI_H
+#define _HARDWARE_STRUCTS_PADS_QSPI_H
+
+/**
+ * \file rp2350/pads_qspi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pads_qspi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_pads_qspi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pads_qspi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PADS_QSPI_VOLTAGE_SELECT_OFFSET) // PADS_QSPI_VOLTAGE_SELECT
+    // Voltage select
+    // 0x00000001 [0]     VOLTAGE_SELECT (0) 
+    io_rw_32 voltage_select;
+ 
+    // (Description copied from array index 0 register PADS_QSPI_GPIO_QSPI_SCLK applies similarly to other array indexes)
+    _REG_(PADS_QSPI_GPIO_QSPI_SCLK_OFFSET) // PADS_QSPI_GPIO_QSPI_SCLK
+    // 0x00000100 [8]     ISO          (1) Pad isolation control
+    // 0x00000080 [7]     OD           (0) Output disable
+    // 0x00000040 [6]     IE           (1) Input enable
+    // 0x00000030 [5:4]   DRIVE        (0x1) Drive strength
+    // 0x00000008 [3]     PUE          (0) Pull up enable
+    // 0x00000004 [2]     PDE          (1) Pull down enable
+    // 0x00000002 [1]     SCHMITT      (1) Enable schmitt trigger
+    // 0x00000001 [0]     SLEWFAST     (0) Slew rate control
+    io_rw_32 io[6];
+} pads_qspi_hw_t;
+
+#define pads_qspi_hw ((pads_qspi_hw_t *)PADS_QSPI_BASE)
+static_assert(sizeof (pads_qspi_hw_t) == 0x001c, "");
+
+#endif // _HARDWARE_STRUCTS_PADS_QSPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/padsbank0.h b/lib/pico-sdk/rp2350/hardware/structs/padsbank0.h
new file mode 100644
index 0000000..cb14e79
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/padsbank0.h
@@ -0,0 +1,9 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/pads_bank0.h"
+#define padsbank0_hw pads_bank0_hw
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2350/hardware/structs/pio.h b/lib/pico-sdk/rp2350/hardware/structs/pio.h
new file mode 100644
index 0000000..68e5bac
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/pio.h
@@ -0,0 +1,380 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PIO_H
+#define _HARDWARE_STRUCTS_PIO_H
+
+/**
+ * \file rp2350/pio.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pio.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_pio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PIO_SM0_CLKDIV_OFFSET) // PIO_SM0_CLKDIV
+    // Clock divisor register for state machine 0 +
+    // 0xffff0000 [31:16] INT          (0x0001) Effective frequency is sysclk/(int + frac/256)
+    // 0x0000ff00 [15:8]  FRAC         (0x00) Fractional part of clock divisor
+    io_rw_32 clkdiv;
+ 
+    _REG_(PIO_SM0_EXECCTRL_OFFSET) // PIO_SM0_EXECCTRL
+    // Execution/behavioural settings for state machine 0
+    // 0x80000000 [31]    EXEC_STALLED (0) If 1, an instruction written to SMx_INSTR is stalled,...
+    // 0x40000000 [30]    SIDE_EN      (0) If 1, the MSB of the Delay/Side-set instruction field is...
+    // 0x20000000 [29]    SIDE_PINDIR  (0) If 1, side-set data is asserted to pin directions,...
+    // 0x1f000000 [28:24] JMP_PIN      (0x00) The GPIO number to use as condition for JMP PIN
+    // 0x00f80000 [23:19] OUT_EN_SEL   (0x00) Which data bit to use for inline OUT enable
+    // 0x00040000 [18]    INLINE_OUT_EN (0) If 1, use a bit of OUT data as an auxiliary write enable +
+    // 0x00020000 [17]    OUT_STICKY   (0) Continuously assert the most recent OUT/SET to the pins
+    // 0x0001f000 [16:12] WRAP_TOP     (0x1f) After reaching this address, execution is wrapped to wrap_bottom
+    // 0x00000f80 [11:7]  WRAP_BOTTOM  (0x00) After reaching wrap_top, execution is wrapped to this address
+    // 0x00000060 [6:5]   STATUS_SEL   (0x0) Comparison used for the MOV x, STATUS instruction
+    // 0x0000001f [4:0]   STATUS_N     (0x00) Comparison level or IRQ index for the MOV x, STATUS instruction
+    io_rw_32 execctrl;
+ 
+    _REG_(PIO_SM0_SHIFTCTRL_OFFSET) // PIO_SM0_SHIFTCTRL
+    // Control behaviour of the input/output shift registers for state machine 0
+    // 0x80000000 [31]    FJOIN_RX     (0) When 1, RX FIFO steals the TX FIFO's storage, and...
+    // 0x40000000 [30]    FJOIN_TX     (0) When 1, TX FIFO steals the RX FIFO's storage, and...
+    // 0x3e000000 [29:25] PULL_THRESH  (0x00) Number of bits shifted out of OSR before autopull, or...
+    // 0x01f00000 [24:20] PUSH_THRESH  (0x00) Number of bits shifted into ISR before autopush, or...
+    // 0x00080000 [19]    OUT_SHIFTDIR (1) 1 = shift out of output shift register to right
+    // 0x00040000 [18]    IN_SHIFTDIR  (1) 1 = shift input shift register to right (data enters from left)
+    // 0x00020000 [17]    AUTOPULL     (0) Pull automatically when the output shift register is emptied, i
+    // 0x00010000 [16]    AUTOPUSH     (0) Push automatically when the input shift register is filled, i
+    // 0x00008000 [15]    FJOIN_RX_PUT (0) If 1, disable this state machine's RX FIFO, make its...
+    // 0x00004000 [14]    FJOIN_RX_GET (0) If 1, disable this state machine's RX FIFO, make its...
+    // 0x0000001f [4:0]   IN_COUNT     (0x00) Set the number of pins which are not masked to 0 when...
+    io_rw_32 shiftctrl;
+ 
+    _REG_(PIO_SM0_ADDR_OFFSET) // PIO_SM0_ADDR
+    // Current instruction address of state machine 0
+    // 0x0000001f [4:0]   SM0_ADDR     (0x00) 
+    io_ro_32 addr;
+ 
+    _REG_(PIO_SM0_INSTR_OFFSET) // PIO_SM0_INSTR
+    // Read to see the instruction currently addressed by state machine 0's program counter +
+    // 0x0000ffff [15:0]  SM0_INSTR    (-) 
+    io_rw_32 instr;
+ 
+    _REG_(PIO_SM0_PINCTRL_OFFSET) // PIO_SM0_PINCTRL
+    // State machine pin control
+    // 0xe0000000 [31:29] SIDESET_COUNT (0x0) The number of MSBs of the Delay/Side-set instruction...
+    // 0x1c000000 [28:26] SET_COUNT    (0x5) The number of pins asserted by a SET
+    // 0x03f00000 [25:20] OUT_COUNT    (0x00) The number of pins asserted by an OUT PINS, OUT PINDIRS...
+    // 0x000f8000 [19:15] IN_BASE      (0x00) The pin which is mapped to the least-significant bit of...
+    // 0x00007c00 [14:10] SIDESET_BASE (0x00) The lowest-numbered pin that will be affected by a...
+    // 0x000003e0 [9:5]   SET_BASE     (0x00) The lowest-numbered pin that will be affected by a SET...
+    // 0x0000001f [4:0]   OUT_BASE     (0x00) The lowest-numbered pin that will be affected by an OUT...
+    io_rw_32 pinctrl;
+} pio_sm_hw_t;
+
+typedef struct {
+    _REG_(PIO_IRQ0_INTE_OFFSET) // PIO_IRQ0_INTE
+    // Interrupt Enable for irq0
+    // 0x00008000 [15]    SM7          (0) 
+    // 0x00004000 [14]    SM6          (0) 
+    // 0x00002000 [13]    SM5          (0) 
+    // 0x00001000 [12]    SM4          (0) 
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_rw_32 inte;
+ 
+    _REG_(PIO_IRQ0_INTF_OFFSET) // PIO_IRQ0_INTF
+    // Interrupt Force for irq0
+    // 0x00008000 [15]    SM7          (0) 
+    // 0x00004000 [14]    SM6          (0) 
+    // 0x00002000 [13]    SM5          (0) 
+    // 0x00001000 [12]    SM4          (0) 
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_rw_32 intf;
+ 
+    _REG_(PIO_IRQ0_INTS_OFFSET) // PIO_IRQ0_INTS
+    // Interrupt status after masking & forcing for irq0
+    // 0x00008000 [15]    SM7          (0) 
+    // 0x00004000 [14]    SM6          (0) 
+    // 0x00002000 [13]    SM5          (0) 
+    // 0x00001000 [12]    SM4          (0) 
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_ro_32 ints;
+} pio_irq_ctrl_hw_t;
+
+typedef struct {
+    _REG_(PIO_CTRL_OFFSET) // PIO_CTRL
+    // PIO control register
+    // 0x04000000 [26]    NEXTPREV_CLKDIV_RESTART (0) Write 1 to restart the clock dividers of state machines...
+    // 0x02000000 [25]    NEXTPREV_SM_DISABLE (0) Write 1 to disable state machines in neighbouring PIO...
+    // 0x01000000 [24]    NEXTPREV_SM_ENABLE (0) Write 1 to enable state machines in neighbouring PIO...
+    // 0x00f00000 [23:20] NEXT_PIO_MASK (0x0) A mask of state machines in the neighbouring...
+    // 0x000f0000 [19:16] PREV_PIO_MASK (0x0) A mask of state machines in the neighbouring...
+    // 0x00000f00 [11:8]  CLKDIV_RESTART (0x0) Restart a state machine's clock divider from an initial...
+    // 0x000000f0 [7:4]   SM_RESTART   (0x0) Write 1 to instantly clear internal SM state which may...
+    // 0x0000000f [3:0]   SM_ENABLE    (0x0) Enable/disable each of the four state machines by...
+    io_rw_32 ctrl;
+ 
+    _REG_(PIO_FSTAT_OFFSET) // PIO_FSTAT
+    // FIFO status register
+    // 0x0f000000 [27:24] TXEMPTY      (0xf) State machine TX FIFO is empty
+    // 0x000f0000 [19:16] TXFULL       (0x0) State machine TX FIFO is full
+    // 0x00000f00 [11:8]  RXEMPTY      (0xf) State machine RX FIFO is empty
+    // 0x0000000f [3:0]   RXFULL       (0x0) State machine RX FIFO is full
+    io_ro_32 fstat;
+ 
+    _REG_(PIO_FDEBUG_OFFSET) // PIO_FDEBUG
+    // FIFO debug register
+    // 0x0f000000 [27:24] TXSTALL      (0x0) State machine has stalled on empty TX FIFO during a...
+    // 0x000f0000 [19:16] TXOVER       (0x0) TX FIFO overflow (i
+    // 0x00000f00 [11:8]  RXUNDER      (0x0) RX FIFO underflow (i
+    // 0x0000000f [3:0]   RXSTALL      (0x0) State machine has stalled on full RX FIFO during a...
+    io_rw_32 fdebug;
+ 
+    _REG_(PIO_FLEVEL_OFFSET) // PIO_FLEVEL
+    // FIFO levels
+    // 0xf0000000 [31:28] RX3          (0x0) 
+    // 0x0f000000 [27:24] TX3          (0x0) 
+    // 0x00f00000 [23:20] RX2          (0x0) 
+    // 0x000f0000 [19:16] TX2          (0x0) 
+    // 0x0000f000 [15:12] RX1          (0x0) 
+    // 0x00000f00 [11:8]  TX1          (0x0) 
+    // 0x000000f0 [7:4]   RX0          (0x0) 
+    // 0x0000000f [3:0]   TX0          (0x0) 
+    io_ro_32 flevel;
+ 
+    // (Description copied from array index 0 register PIO_TXF0 applies similarly to other array indexes)
+    _REG_(PIO_TXF0_OFFSET) // PIO_TXF0
+    // Direct write access to the TX FIFO for this state machine
+    // 0xffffffff [31:0]  TXF0         (0x00000000) 
+    io_wo_32 txf[4];
+ 
+    // (Description copied from array index 0 register PIO_RXF0 applies similarly to other array indexes)
+    _REG_(PIO_RXF0_OFFSET) // PIO_RXF0
+    // Direct read access to the RX FIFO for this state machine
+    // 0xffffffff [31:0]  RXF0         (-) 
+    io_ro_32 rxf[4];
+ 
+    _REG_(PIO_IRQ_OFFSET) // PIO_IRQ
+    // State machine IRQ flags register
+    // 0x000000ff [7:0]   IRQ          (0x00) 
+    io_rw_32 irq;
+ 
+    _REG_(PIO_IRQ_FORCE_OFFSET) // PIO_IRQ_FORCE
+    // Writing a 1 to each of these bits will forcibly assert the corresponding IRQ
+    // 0x000000ff [7:0]   IRQ_FORCE    (0x00) 
+    io_wo_32 irq_force;
+ 
+    _REG_(PIO_INPUT_SYNC_BYPASS_OFFSET) // PIO_INPUT_SYNC_BYPASS
+    // There is a 2-flipflop synchronizer on each GPIO input, which protects PIO logic from metastabilities
+    // 0xffffffff [31:0]  INPUT_SYNC_BYPASS (0x00000000) 
+    io_rw_32 input_sync_bypass;
+ 
+    _REG_(PIO_DBG_PADOUT_OFFSET) // PIO_DBG_PADOUT
+    // Read to sample the pad output values PIO is currently driving to the GPIOs
+    // 0xffffffff [31:0]  DBG_PADOUT   (0x00000000) 
+    io_ro_32 dbg_padout;
+ 
+    _REG_(PIO_DBG_PADOE_OFFSET) // PIO_DBG_PADOE
+    // Read to sample the pad output enables (direction) PIO is currently driving to the GPIOs
+    // 0xffffffff [31:0]  DBG_PADOE    (0x00000000) 
+    io_ro_32 dbg_padoe;
+ 
+    _REG_(PIO_DBG_CFGINFO_OFFSET) // PIO_DBG_CFGINFO
+    // The PIO hardware has some free parameters that may vary between chip products
+    // 0xf0000000 [31:28] VERSION      (0x1) Version of the core PIO hardware
+    // 0x003f0000 [21:16] IMEM_SIZE    (-) The size of the instruction memory, measured in units of...
+    // 0x00000f00 [11:8]  SM_COUNT     (-) The number of state machines this PIO instance is equipped with
+    // 0x0000003f [5:0]   FIFO_DEPTH   (-) The depth of the state machine TX/RX FIFOs, measured in words
+    io_ro_32 dbg_cfginfo;
+ 
+    // (Description copied from array index 0 register PIO_INSTR_MEM0 applies similarly to other array indexes)
+    _REG_(PIO_INSTR_MEM0_OFFSET) // PIO_INSTR_MEM0
+    // Write-only access to instruction memory location 0
+    // 0x0000ffff [15:0]  INSTR_MEM0   (0x0000) 
+    io_wo_32 instr_mem[32];
+ 
+    pio_sm_hw_t sm[4];
+ 
+    // (Description copied from array index 0 register PIO_RXF0_PUTGET0 applies similarly to other array indexes)
+    _REG_(PIO_RXF0_PUTGET0_OFFSET) // PIO_RXF0_PUTGET0
+    // Direct read/write access to the RX FIFO on all SMs, if SHIFTCTRL_FJOIN_RX_PUT xor SHIFTCTRL_FJOIN_RX_GET is set
+    // 0xffffffff [31:0]  RXF0_PUTGET0 (0x00000000) 
+    io_rw_32 rxf_putget[4][4];
+ 
+    _REG_(PIO_GPIOBASE_OFFSET) // PIO_GPIOBASE
+    // Relocate GPIO 0 (from PIO's point of view) in the system GPIO numbering, to access more than 32...
+    // 0x00000010 [4]     GPIOBASE     (0) 
+    io_rw_32 gpiobase;
+ 
+    _REG_(PIO_INTR_OFFSET) // PIO_INTR
+    // Raw Interrupts
+    // 0x00008000 [15]    SM7          (0) 
+    // 0x00004000 [14]    SM6          (0) 
+    // 0x00002000 [13]    SM5          (0) 
+    // 0x00001000 [12]    SM4          (0) 
+    // 0x00000800 [11]    SM3          (0) 
+    // 0x00000400 [10]    SM2          (0) 
+    // 0x00000200 [9]     SM1          (0) 
+    // 0x00000100 [8]     SM0          (0) 
+    // 0x00000080 [7]     SM3_TXNFULL  (0) 
+    // 0x00000040 [6]     SM2_TXNFULL  (0) 
+    // 0x00000020 [5]     SM1_TXNFULL  (0) 
+    // 0x00000010 [4]     SM0_TXNFULL  (0) 
+    // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+    // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+    // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+    // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+    io_ro_32 intr;
+ 
+    union {
+        struct {
+            _REG_(PIO_IRQ0_INTE_OFFSET) // PIO_IRQ0_INTE
+            // Interrupt Enable for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 inte0;
+
+            _REG_(PIO_IRQ0_INTF_OFFSET) // PIO_IRQ0_INTF
+            // Interrupt Force for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 intf0;
+
+            _REG_(PIO_IRQ0_INTS_OFFSET) // PIO_IRQ0_INTS
+            // Interrupt status after masking & forcing for irq0
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_ro_32 ints0;
+
+            _REG_(PIO_IRQ1_INTE_OFFSET) // PIO_IRQ1_INTE
+            // Interrupt Enable for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 inte1;
+
+            _REG_(PIO_IRQ1_INTF_OFFSET) // PIO_IRQ1_INTF
+            // Interrupt Force for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_rw_32 intf1;
+
+            _REG_(PIO_IRQ1_INTS_OFFSET) // PIO_IRQ1_INTS
+            // Interrupt status after masking & forcing for irq1
+            // 0x00000800 [11]    SM3          (0) 
+            // 0x00000400 [10]    SM2          (0) 
+            // 0x00000200 [9]     SM1          (0) 
+            // 0x00000100 [8]     SM0          (0) 
+            // 0x00000080 [7]     SM3_TXNFULL  (0) 
+            // 0x00000040 [6]     SM2_TXNFULL  (0) 
+            // 0x00000020 [5]     SM1_TXNFULL  (0) 
+            // 0x00000010 [4]     SM0_TXNFULL  (0) 
+            // 0x00000008 [3]     SM3_RXNEMPTY (0) 
+            // 0x00000004 [2]     SM2_RXNEMPTY (0) 
+            // 0x00000002 [1]     SM1_RXNEMPTY (0) 
+            // 0x00000001 [0]     SM0_RXNEMPTY (0) 
+            io_ro_32 ints1;
+        };
+        pio_irq_ctrl_hw_t irq_ctrl[2];
+    };
+} pio_hw_t;
+
+#define pio0_hw ((pio_hw_t *)PIO0_BASE)
+#define pio1_hw ((pio_hw_t *)PIO1_BASE)
+#define pio2_hw ((pio_hw_t *)PIO2_BASE)
+static_assert(sizeof (pio_hw_t) == 0x0188, "");
+
+#endif // _HARDWARE_STRUCTS_PIO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/pll.h b/lib/pico-sdk/rp2350/hardware/structs/pll.h
new file mode 100644
index 0000000..8a72760
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/pll.h
@@ -0,0 +1,82 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PLL_H
+#define _HARDWARE_STRUCTS_PLL_H
+
+/**
+ * \file rp2350/pll.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pll.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_pll
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pll.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/// \tag::pll_hw[]
+typedef struct {
+    _REG_(PLL_CS_OFFSET) // PLL_CS
+    // Control and Status
+    // 0x80000000 [31]    LOCK         (0) PLL is locked
+    // 0x40000000 [30]    LOCK_N       (0) PLL is not locked +
+    // 0x00000100 [8]     BYPASS       (0) Passes the reference clock to the output instead of the...
+    // 0x0000003f [5:0]   REFDIV       (0x01) Divides the PLL input reference clock
+    io_rw_32 cs;
+ 
+    _REG_(PLL_PWR_OFFSET) // PLL_PWR
+    // Controls the PLL power modes
+    // 0x00000020 [5]     VCOPD        (1) PLL VCO powerdown +
+    // 0x00000008 [3]     POSTDIVPD    (1) PLL post divider powerdown +
+    // 0x00000004 [2]     DSMPD        (1) PLL DSM powerdown +
+    // 0x00000001 [0]     PD           (1) PLL powerdown +
+    io_rw_32 pwr;
+ 
+    _REG_(PLL_FBDIV_INT_OFFSET) // PLL_FBDIV_INT
+    // Feedback divisor
+    // 0x00000fff [11:0]  FBDIV_INT    (0x000) see ctrl reg description for constraints
+    io_rw_32 fbdiv_int;
+ 
+    _REG_(PLL_PRIM_OFFSET) // PLL_PRIM
+    // Controls the PLL post dividers for the primary output
+    // 0x00070000 [18:16] POSTDIV1     (0x7) divide by 1-7
+    // 0x00007000 [14:12] POSTDIV2     (0x7) divide by 1-7
+    io_rw_32 prim;
+ 
+    _REG_(PLL_INTR_OFFSET) // PLL_INTR
+    // Raw Interrupts
+    // 0x00000001 [0]     LOCK_N_STICKY (0) 
+    io_rw_32 intr;
+ 
+    _REG_(PLL_INTE_OFFSET) // PLL_INTE
+    // Interrupt Enable
+    // 0x00000001 [0]     LOCK_N_STICKY (0) 
+    io_rw_32 inte;
+ 
+    _REG_(PLL_INTF_OFFSET) // PLL_INTF
+    // Interrupt Force
+    // 0x00000001 [0]     LOCK_N_STICKY (0) 
+    io_rw_32 intf;
+ 
+    _REG_(PLL_INTS_OFFSET) // PLL_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000001 [0]     LOCK_N_STICKY (0) 
+    io_ro_32 ints;
+} pll_hw_t;
+/// \end::pll_hw[]
+
+#define pll_sys_hw ((pll_hw_t *)PLL_SYS_BASE)
+#define pll_usb_hw ((pll_hw_t *)PLL_USB_BASE)
+static_assert(sizeof (pll_hw_t) == 0x0020, "");
+
+#endif // _HARDWARE_STRUCTS_PLL_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/powman.h b/lib/pico-sdk/rp2350/hardware/structs/powman.h
new file mode 100644
index 0000000..a81890e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/powman.h
@@ -0,0 +1,338 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_POWMAN_H
+#define _HARDWARE_STRUCTS_POWMAN_H
+
+/**
+ * \file rp2350/powman.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/powman.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_powman
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/powman.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(POWMAN_BADPASSWD_OFFSET) // POWMAN_BADPASSWD
+    // Indicates a bad password has been used
+    // 0x00000001 [0]     BADPASSWD    (0) 
+    io_rw_32 badpasswd;
+ 
+    _REG_(POWMAN_VREG_CTRL_OFFSET) // POWMAN_VREG_CTRL
+    // Voltage Regulator Control
+    // 0x00008000 [15]    RST_N        (1) returns the regulator to its startup settings +
+    // 0x00002000 [13]    UNLOCK       (0) unlocks the VREG control interface after power up +
+    // 0x00001000 [12]    ISOLATE      (0) isolates the VREG control interface +
+    // 0x00000100 [8]     DISABLE_VOLTAGE_LIMIT (0) 0=not disabled, 1=enabled
+    // 0x00000070 [6:4]   HT_TH        (0x5) high temperature protection threshold +
+    io_rw_32 vreg_ctrl;
+ 
+    _REG_(POWMAN_VREG_STS_OFFSET) // POWMAN_VREG_STS
+    // Voltage Regulator Status
+    // 0x00000010 [4]     VOUT_OK      (0) output regulation status +
+    // 0x00000001 [0]     STARTUP      (0) startup status +
+    io_ro_32 vreg_sts;
+ 
+    _REG_(POWMAN_VREG_OFFSET) // POWMAN_VREG
+    // Voltage Regulator Settings
+    // 0x00008000 [15]    UPDATE_IN_PROGRESS (0) regulator state is being updated +
+    // 0x000001f0 [8:4]   VSEL         (0x0b) output voltage select +
+    // 0x00000002 [1]     HIZ          (0) high impedance mode select +
+    io_rw_32 vreg;
+ 
+    _REG_(POWMAN_VREG_LP_ENTRY_OFFSET) // POWMAN_VREG_LP_ENTRY
+    // Voltage Regulator Low Power Entry Settings
+    // 0x000001f0 [8:4]   VSEL         (0x0b) output voltage select +
+    // 0x00000004 [2]     MODE         (1) selects either normal (switching) mode or low power...
+    // 0x00000002 [1]     HIZ          (0) high impedance mode select +
+    io_rw_32 vreg_lp_entry;
+ 
+    _REG_(POWMAN_VREG_LP_EXIT_OFFSET) // POWMAN_VREG_LP_EXIT
+    // Voltage Regulator Low Power Exit Settings
+    // 0x000001f0 [8:4]   VSEL         (0x0b) output voltage select +
+    // 0x00000004 [2]     MODE         (0) selects either normal (switching) mode or low power...
+    // 0x00000002 [1]     HIZ          (0) high impedance mode select +
+    io_rw_32 vreg_lp_exit;
+ 
+    _REG_(POWMAN_BOD_CTRL_OFFSET) // POWMAN_BOD_CTRL
+    // Brown-out Detection Control
+    // 0x00001000 [12]    ISOLATE      (0) isolates the brown-out detection control interface +
+    io_rw_32 bod_ctrl;
+ 
+    _REG_(POWMAN_BOD_OFFSET) // POWMAN_BOD
+    // Brown-out Detection Settings
+    // 0x000001f0 [8:4]   VSEL         (0x0b) threshold select +
+    // 0x00000001 [0]     EN           (1) enable brown-out detection +
+    io_rw_32 bod;
+ 
+    _REG_(POWMAN_BOD_LP_ENTRY_OFFSET) // POWMAN_BOD_LP_ENTRY
+    // Brown-out Detection Low Power Entry Settings
+    // 0x000001f0 [8:4]   VSEL         (0x0b) threshold select +
+    // 0x00000001 [0]     EN           (0) enable brown-out detection +
+    io_rw_32 bod_lp_entry;
+ 
+    _REG_(POWMAN_BOD_LP_EXIT_OFFSET) // POWMAN_BOD_LP_EXIT
+    // Brown-out Detection Low Power Exit Settings
+    // 0x000001f0 [8:4]   VSEL         (0x0b) threshold select +
+    // 0x00000001 [0]     EN           (1) enable brown-out detection +
+    io_rw_32 bod_lp_exit;
+ 
+    _REG_(POWMAN_LPOSC_OFFSET) // POWMAN_LPOSC
+    // Low power oscillator control register
+    // 0x000003f0 [9:4]   TRIM         (0x20) Frequency trim - the trim step is typically 1% of the...
+    // 0x00000003 [1:0]   MODE         (0x3) This feature has been removed
+    io_rw_32 lposc;
+ 
+    _REG_(POWMAN_CHIP_RESET_OFFSET) // POWMAN_CHIP_RESET
+    // Chip reset control and status
+    // 0x10000000 [28]    HAD_WATCHDOG_RESET_RSM (0) Last reset was a watchdog timeout which was configured...
+    // 0x08000000 [27]    HAD_HZD_SYS_RESET_REQ (0) Last reset was a system reset from the hazard debugger +
+    // 0x04000000 [26]    HAD_GLITCH_DETECT (0) Last reset was due to a power supply glitch +
+    // 0x02000000 [25]    HAD_SWCORE_PD (0) Last reset was a switched core powerdown +
+    // 0x01000000 [24]    HAD_WATCHDOG_RESET_SWCORE (0) Last reset was a watchdog timeout which was configured...
+    // 0x00800000 [23]    HAD_WATCHDOG_RESET_POWMAN (0) Last reset was a watchdog timeout which was configured...
+    // 0x00400000 [22]    HAD_WATCHDOG_RESET_POWMAN_ASYNC (0) Last reset was a watchdog timeout which was configured...
+    // 0x00200000 [21]    HAD_RESCUE   (0) Last reset was a rescue reset from the debugger +
+    // 0x00080000 [19]    HAD_DP_RESET_REQ (0) Last reset was an reset request from the arm debugger +
+    // 0x00040000 [18]    HAD_RUN_LOW  (0) Last reset was from the RUN pin +
+    // 0x00020000 [17]    HAD_BOR      (0) Last reset was from the brown-out detection block +
+    // 0x00010000 [16]    HAD_POR      (0) Last reset was from the power-on reset +
+    // 0x00000010 [4]     RESCUE_FLAG  (0) This is set by a rescue reset from the RP-AP
+    // 0x00000001 [0]     DOUBLE_TAP   (0) This flag is set by double-tapping RUN
+    io_rw_32 chip_reset;
+ 
+    _REG_(POWMAN_WDSEL_OFFSET) // POWMAN_WDSEL
+    // Allows a watchdog reset to reset the internal state of powman in addition to the power-on state...
+    // 0x00001000 [12]    RESET_RSM    (0) If set to 1, a watchdog reset will run the full power-on...
+    // 0x00000100 [8]     RESET_SWCORE (0) If set to 1, a watchdog reset will reset the switched...
+    // 0x00000010 [4]     RESET_POWMAN (0) If set to 1, a watchdog reset will restore powman...
+    // 0x00000001 [0]     RESET_POWMAN_ASYNC (0) If set to 1, a watchdog reset will restore powman...
+    io_rw_32 wdsel;
+ 
+    _REG_(POWMAN_SEQ_CFG_OFFSET) // POWMAN_SEQ_CFG
+    // For configuration of the power sequencer +
+    // 0x00100000 [20]    USING_FAST_POWCK (1) 0 indicates the POWMAN clock is running from the low...
+    // 0x00020000 [17]    USING_BOD_LP (0) Indicates the brown-out detector (BOD) mode +
+    // 0x00010000 [16]    USING_VREG_LP (0) Indicates the voltage regulator (VREG) mode +
+    // 0x00001000 [12]    USE_FAST_POWCK (1) selects the reference clock (clk_ref) as the source of...
+    // 0x00000100 [8]     RUN_LPOSC_IN_LP (1) Set to 0 to stop the low power osc when the...
+    // 0x00000080 [7]     USE_BOD_HP   (1) Set to 0 to prevent automatic switching to bod high...
+    // 0x00000040 [6]     USE_BOD_LP   (1) Set to 0 to prevent automatic switching to bod low power...
+    // 0x00000020 [5]     USE_VREG_HP  (1) Set to 0 to prevent automatic switching to vreg high...
+    // 0x00000010 [4]     USE_VREG_LP  (1) Set to 0 to prevent automatic switching to vreg low...
+    // 0x00000002 [1]     HW_PWRUP_SRAM0 (0) Specifies the power state of SRAM0 when powering up...
+    // 0x00000001 [0]     HW_PWRUP_SRAM1 (0) Specifies the power state of SRAM1 when powering up...
+    io_rw_32 seq_cfg;
+ 
+    _REG_(POWMAN_STATE_OFFSET) // POWMAN_STATE
+    // This register controls the power state of the 4 power domains
+    // 0x00002000 [13]    CHANGING     (0) 
+    // 0x00001000 [12]    WAITING      (0) 
+    // 0x00000800 [11]    BAD_HW_REQ   (0) Bad hardware initiated state request
+    // 0x00000400 [10]    BAD_SW_REQ   (0) Bad software initiated state request
+    // 0x00000200 [9]     PWRUP_WHILE_WAITING (0) Request ignored because of a pending pwrup request
+    // 0x00000100 [8]     REQ_IGNORED  (0) 
+    // 0x000000f0 [7:4]   REQ          (0x0) 
+    // 0x0000000f [3:0]   CURRENT      (0xf) 
+    io_rw_32 state;
+ 
+    _REG_(POWMAN_POW_FASTDIV_OFFSET) // POWMAN_POW_FASTDIV
+    // 0x000007ff [10:0]  POW_FASTDIV  (0x040) divides the POWMAN clock to provide a tick for the delay...
+    io_rw_32 pow_fastdiv;
+ 
+    _REG_(POWMAN_POW_DELAY_OFFSET) // POWMAN_POW_DELAY
+    // power state machine delays
+    // 0x0000ff00 [15:8]  SRAM_STEP    (0x20) timing between the sram0 and sram1 power state machine steps +
+    // 0x000000f0 [7:4]   XIP_STEP     (0x1) timing between the xip power state machine steps +
+    // 0x0000000f [3:0]   SWCORE_STEP  (0x1) timing between the swcore power state machine steps +
+    io_rw_32 pow_delay;
+ 
+    // (Description copied from array index 0 register POWMAN_EXT_CTRL0 applies similarly to other array indexes)
+    _REG_(POWMAN_EXT_CTRL0_OFFSET) // POWMAN_EXT_CTRL0
+    // Configures a gpio as a power mode aware control output
+    // 0x00004000 [14]    LP_EXIT_STATE (0) output level when exiting the low power state
+    // 0x00002000 [13]    LP_ENTRY_STATE (0) output level when entering the low power state
+    // 0x00001000 [12]    INIT_STATE   (0) 
+    // 0x00000100 [8]     INIT         (0) 
+    // 0x0000003f [5:0]   GPIO_SELECT  (0x3f) selects from gpio 0->30 +
+    io_rw_32 ext_ctrl[2];
+ 
+    _REG_(POWMAN_EXT_TIME_REF_OFFSET) // POWMAN_EXT_TIME_REF
+    // Select a GPIO to use as a time reference, the source can be used to drive the low power clock at...
+    // 0x00000010 [4]     DRIVE_LPCK   (0) Use the selected GPIO to drive the 32kHz low power...
+    // 0x00000003 [1:0]   SOURCE_SEL   (0x0) 0 ->  gpio12 +
+    io_rw_32 ext_time_ref;
+ 
+    _REG_(POWMAN_LPOSC_FREQ_KHZ_INT_OFFSET) // POWMAN_LPOSC_FREQ_KHZ_INT
+    // Informs the AON Timer of the integer component of the clock frequency when running off the LPOSC
+    // 0x0000003f [5:0]   LPOSC_FREQ_KHZ_INT (0x20) Integer component of the LPOSC or GPIO clock source...
+    io_rw_32 lposc_freq_khz_int;
+ 
+    _REG_(POWMAN_LPOSC_FREQ_KHZ_FRAC_OFFSET) // POWMAN_LPOSC_FREQ_KHZ_FRAC
+    // Informs the AON Timer of the fractional component of the clock frequency when running off the LPOSC
+    // 0x0000ffff [15:0]  LPOSC_FREQ_KHZ_FRAC (0xc49c) Fractional component of the LPOSC or GPIO clock source...
+    io_rw_32 lposc_freq_khz_frac;
+ 
+    _REG_(POWMAN_XOSC_FREQ_KHZ_INT_OFFSET) // POWMAN_XOSC_FREQ_KHZ_INT
+    // Informs the AON Timer of the integer component of the clock frequency when running off the XOSC
+    // 0x0000ffff [15:0]  XOSC_FREQ_KHZ_INT (0x2ee0) Integer component of the XOSC frequency in kHz
+    io_rw_32 xosc_freq_khz_int;
+ 
+    _REG_(POWMAN_XOSC_FREQ_KHZ_FRAC_OFFSET) // POWMAN_XOSC_FREQ_KHZ_FRAC
+    // Informs the AON Timer of the fractional component of the clock frequency when running off the XOSC
+    // 0x0000ffff [15:0]  XOSC_FREQ_KHZ_FRAC (0x0000) Fractional component of the XOSC frequency in kHz
+    io_rw_32 xosc_freq_khz_frac;
+ 
+    _REG_(POWMAN_SET_TIME_63TO48_OFFSET) // POWMAN_SET_TIME_63TO48
+    // 0x0000ffff [15:0]  SET_TIME_63TO48 (0x0000) For setting the time, do not use for reading the time,...
+    io_rw_32 set_time_63to48;
+ 
+    _REG_(POWMAN_SET_TIME_47TO32_OFFSET) // POWMAN_SET_TIME_47TO32
+    // 0x0000ffff [15:0]  SET_TIME_47TO32 (0x0000) For setting the time, do not use for reading the time,...
+    io_rw_32 set_time_47to32;
+ 
+    _REG_(POWMAN_SET_TIME_31TO16_OFFSET) // POWMAN_SET_TIME_31TO16
+    // 0x0000ffff [15:0]  SET_TIME_31TO16 (0x0000) For setting the time, do not use for reading the time,...
+    io_rw_32 set_time_31to16;
+ 
+    _REG_(POWMAN_SET_TIME_15TO0_OFFSET) // POWMAN_SET_TIME_15TO0
+    // 0x0000ffff [15:0]  SET_TIME_15TO0 (0x0000) For setting the time, do not use for reading the time,...
+    io_rw_32 set_time_15to0;
+ 
+    _REG_(POWMAN_READ_TIME_UPPER_OFFSET) // POWMAN_READ_TIME_UPPER
+    // 0xffffffff [31:0]  READ_TIME_UPPER (0x00000000) For reading bits 63:32 of the timer
+    io_ro_32 read_time_upper;
+ 
+    _REG_(POWMAN_READ_TIME_LOWER_OFFSET) // POWMAN_READ_TIME_LOWER
+    // 0xffffffff [31:0]  READ_TIME_LOWER (0x00000000) For reading bits 31:0 of the timer
+    io_ro_32 read_time_lower;
+ 
+    _REG_(POWMAN_ALARM_TIME_63TO48_OFFSET) // POWMAN_ALARM_TIME_63TO48
+    // 0x0000ffff [15:0]  ALARM_TIME_63TO48 (0x0000) This field must only be written when POWMAN_ALARM_ENAB=0
+    io_rw_32 alarm_time_63to48;
+ 
+    _REG_(POWMAN_ALARM_TIME_47TO32_OFFSET) // POWMAN_ALARM_TIME_47TO32
+    // 0x0000ffff [15:0]  ALARM_TIME_47TO32 (0x0000) This field must only be written when POWMAN_ALARM_ENAB=0
+    io_rw_32 alarm_time_47to32;
+ 
+    _REG_(POWMAN_ALARM_TIME_31TO16_OFFSET) // POWMAN_ALARM_TIME_31TO16
+    // 0x0000ffff [15:0]  ALARM_TIME_31TO16 (0x0000) This field must only be written when POWMAN_ALARM_ENAB=0
+    io_rw_32 alarm_time_31to16;
+ 
+    _REG_(POWMAN_ALARM_TIME_15TO0_OFFSET) // POWMAN_ALARM_TIME_15TO0
+    // 0x0000ffff [15:0]  ALARM_TIME_15TO0 (0x0000) This field must only be written when POWMAN_ALARM_ENAB=0
+    io_rw_32 alarm_time_15to0;
+ 
+    _REG_(POWMAN_TIMER_OFFSET) // POWMAN_TIMER
+    // 0x00080000 [19]    USING_GPIO_1HZ (0) Timer is synchronised to a 1hz gpio source
+    // 0x00040000 [18]    USING_GPIO_1KHZ (0) Timer is running from a 1khz gpio source
+    // 0x00020000 [17]    USING_LPOSC  (0) Timer is running from lposc
+    // 0x00010000 [16]    USING_XOSC   (0) Timer is running from xosc
+    // 0x00002000 [13]    USE_GPIO_1HZ (0) Selects the gpio source as the reference for the sec counter
+    // 0x00000400 [10]    USE_GPIO_1KHZ (0) switch to gpio as the source of the 1kHz timer tick
+    // 0x00000200 [9]     USE_XOSC     (0) switch to xosc as the source of the 1kHz timer tick
+    // 0x00000100 [8]     USE_LPOSC    (0) Switch to lposc as the source of the 1kHz timer tick
+    // 0x00000040 [6]     ALARM        (0) Alarm has fired
+    // 0x00000020 [5]     PWRUP_ON_ALARM (0) Alarm wakes the chip from low power mode
+    // 0x00000010 [4]     ALARM_ENAB   (0) Enables the alarm
+    // 0x00000004 [2]     CLEAR        (0) Clears the timer, does not disable the timer and does...
+    // 0x00000002 [1]     RUN          (0) Timer enable
+    // 0x00000001 [0]     NONSEC_WRITE (0) Control whether Non-secure software can write to the...
+    io_rw_32 timer;
+ 
+    // (Description copied from array index 0 register POWMAN_PWRUP0 applies similarly to other array indexes)
+    _REG_(POWMAN_PWRUP0_OFFSET) // POWMAN_PWRUP0
+    // 4 GPIO powerup events can be configured to wake the chip up from a low power state
+    // 0x00000400 [10]    RAW_STATUS   (0) Value of selected gpio pin (only if enable == 1)
+    // 0x00000200 [9]     STATUS       (0) Status of gpio wakeup
+    // 0x00000100 [8]     MODE         (0) Edge or level detect
+    // 0x00000080 [7]     DIRECTION    (0) 
+    // 0x00000040 [6]     ENABLE       (0) Set to 1 to enable the wakeup source
+    // 0x0000003f [5:0]   SOURCE       (0x3f) 
+    io_rw_32 pwrup[4];
+ 
+    _REG_(POWMAN_CURRENT_PWRUP_REQ_OFFSET) // POWMAN_CURRENT_PWRUP_REQ
+    // Indicates current powerup request state +
+    // 0x0000007f [6:0]   CURRENT_PWRUP_REQ (0x00) 
+    io_ro_32 current_pwrup_req;
+ 
+    _REG_(POWMAN_LAST_SWCORE_PWRUP_OFFSET) // POWMAN_LAST_SWCORE_PWRUP
+    // Indicates which pwrup source triggered the last switched-core power up +
+    // 0x0000007f [6:0]   LAST_SWCORE_PWRUP (0x00) 
+    io_ro_32 last_swcore_pwrup;
+ 
+    _REG_(POWMAN_DBG_PWRCFG_OFFSET) // POWMAN_DBG_PWRCFG
+    // 0x00000001 [0]     IGNORE       (0) Ignore pwrup req from debugger
+    io_rw_32 dbg_pwrcfg;
+ 
+    _REG_(POWMAN_BOOTDIS_OFFSET) // POWMAN_BOOTDIS
+    // Tell the bootrom to ignore the BOOT0
+    // 0x00000002 [1]     NEXT         (0) This flag always ORs writes into its current contents
+    // 0x00000001 [0]     NOW          (0) When powman resets the RSM, the current value of...
+    io_rw_32 bootdis;
+ 
+    _REG_(POWMAN_DBGCONFIG_OFFSET) // POWMAN_DBGCONFIG
+    // 0x0000000f [3:0]   DP_INSTID    (0x0) Configure DP instance ID for SWD multidrop selection
+    io_rw_32 dbgconfig;
+ 
+    // (Description copied from array index 0 register POWMAN_SCRATCH0 applies similarly to other array indexes)
+    _REG_(POWMAN_SCRATCH0_OFFSET) // POWMAN_SCRATCH0
+    // Scratch register
+    // 0xffffffff [31:0]  SCRATCH0     (0x00000000) 
+    io_rw_32 scratch[8];
+ 
+    // (Description copied from array index 0 register POWMAN_BOOT0 applies similarly to other array indexes)
+    _REG_(POWMAN_BOOT0_OFFSET) // POWMAN_BOOT0
+    // Scratch register
+    // 0xffffffff [31:0]  BOOT0        (0x00000000) 
+    io_rw_32 boot[4];
+ 
+    _REG_(POWMAN_INTR_OFFSET) // POWMAN_INTR
+    // Raw Interrupts
+    // 0x00000008 [3]     PWRUP_WHILE_WAITING (0) Source is state
+    // 0x00000004 [2]     STATE_REQ_IGNORED (0) Source is state
+    // 0x00000002 [1]     TIMER        (0) 
+    // 0x00000001 [0]     VREG_OUTPUT_LOW (0) 
+    io_rw_32 intr;
+ 
+    _REG_(POWMAN_INTE_OFFSET) // POWMAN_INTE
+    // Interrupt Enable
+    // 0x00000008 [3]     PWRUP_WHILE_WAITING (0) Source is state
+    // 0x00000004 [2]     STATE_REQ_IGNORED (0) Source is state
+    // 0x00000002 [1]     TIMER        (0) 
+    // 0x00000001 [0]     VREG_OUTPUT_LOW (0) 
+    io_rw_32 inte;
+ 
+    _REG_(POWMAN_INTF_OFFSET) // POWMAN_INTF
+    // Interrupt Force
+    // 0x00000008 [3]     PWRUP_WHILE_WAITING (0) Source is state
+    // 0x00000004 [2]     STATE_REQ_IGNORED (0) Source is state
+    // 0x00000002 [1]     TIMER        (0) 
+    // 0x00000001 [0]     VREG_OUTPUT_LOW (0) 
+    io_rw_32 intf;
+ 
+    _REG_(POWMAN_INTS_OFFSET) // POWMAN_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000008 [3]     PWRUP_WHILE_WAITING (0) Source is state
+    // 0x00000004 [2]     STATE_REQ_IGNORED (0) Source is state
+    // 0x00000002 [1]     TIMER        (0) 
+    // 0x00000001 [0]     VREG_OUTPUT_LOW (0) 
+    io_ro_32 ints;
+} powman_hw_t;
+
+#define powman_hw ((powman_hw_t *)POWMAN_BASE)
+static_assert(sizeof (powman_hw_t) == 0x00f0, "");
+
+#endif // _HARDWARE_STRUCTS_POWMAN_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/psm.h b/lib/pico-sdk/rp2350/hardware/structs/psm.h
new file mode 100644
index 0000000..92144ac
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/psm.h
@@ -0,0 +1,148 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PSM_H
+#define _HARDWARE_STRUCTS_PSM_H
+
+/**
+ * \file rp2350/psm.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/psm.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_psm
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/psm.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PSM_FRCE_ON_OFFSET) // PSM_FRCE_ON
+    // Force block out of reset (i
+    // 0x01000000 [24]    PROC1        (0) 
+    // 0x00800000 [23]    PROC0        (0) 
+    // 0x00400000 [22]    ACCESSCTRL   (0) 
+    // 0x00200000 [21]    SIO          (0) 
+    // 0x00100000 [20]    XIP          (0) 
+    // 0x00080000 [19]    SRAM9        (0) 
+    // 0x00040000 [18]    SRAM8        (0) 
+    // 0x00020000 [17]    SRAM7        (0) 
+    // 0x00010000 [16]    SRAM6        (0) 
+    // 0x00008000 [15]    SRAM5        (0) 
+    // 0x00004000 [14]    SRAM4        (0) 
+    // 0x00002000 [13]    SRAM3        (0) 
+    // 0x00001000 [12]    SRAM2        (0) 
+    // 0x00000800 [11]    SRAM1        (0) 
+    // 0x00000400 [10]    SRAM0        (0) 
+    // 0x00000200 [9]     BOOTRAM      (0) 
+    // 0x00000100 [8]     ROM          (0) 
+    // 0x00000080 [7]     BUSFABRIC    (0) 
+    // 0x00000040 [6]     PSM_READY    (0) 
+    // 0x00000020 [5]     CLOCKS       (0) 
+    // 0x00000010 [4]     RESETS       (0) 
+    // 0x00000008 [3]     XOSC         (0) 
+    // 0x00000004 [2]     ROSC         (0) 
+    // 0x00000002 [1]     OTP          (0) 
+    // 0x00000001 [0]     PROC_COLD    (0) 
+    io_rw_32 frce_on;
+ 
+    _REG_(PSM_FRCE_OFF_OFFSET) // PSM_FRCE_OFF
+    // Force into reset (i
+    // 0x01000000 [24]    PROC1        (0) 
+    // 0x00800000 [23]    PROC0        (0) 
+    // 0x00400000 [22]    ACCESSCTRL   (0) 
+    // 0x00200000 [21]    SIO          (0) 
+    // 0x00100000 [20]    XIP          (0) 
+    // 0x00080000 [19]    SRAM9        (0) 
+    // 0x00040000 [18]    SRAM8        (0) 
+    // 0x00020000 [17]    SRAM7        (0) 
+    // 0x00010000 [16]    SRAM6        (0) 
+    // 0x00008000 [15]    SRAM5        (0) 
+    // 0x00004000 [14]    SRAM4        (0) 
+    // 0x00002000 [13]    SRAM3        (0) 
+    // 0x00001000 [12]    SRAM2        (0) 
+    // 0x00000800 [11]    SRAM1        (0) 
+    // 0x00000400 [10]    SRAM0        (0) 
+    // 0x00000200 [9]     BOOTRAM      (0) 
+    // 0x00000100 [8]     ROM          (0) 
+    // 0x00000080 [7]     BUSFABRIC    (0) 
+    // 0x00000040 [6]     PSM_READY    (0) 
+    // 0x00000020 [5]     CLOCKS       (0) 
+    // 0x00000010 [4]     RESETS       (0) 
+    // 0x00000008 [3]     XOSC         (0) 
+    // 0x00000004 [2]     ROSC         (0) 
+    // 0x00000002 [1]     OTP          (0) 
+    // 0x00000001 [0]     PROC_COLD    (0) 
+    io_rw_32 frce_off;
+ 
+    _REG_(PSM_WDSEL_OFFSET) // PSM_WDSEL
+    // Set to 1 if the watchdog should reset this
+    // 0x01000000 [24]    PROC1        (0) 
+    // 0x00800000 [23]    PROC0        (0) 
+    // 0x00400000 [22]    ACCESSCTRL   (0) 
+    // 0x00200000 [21]    SIO          (0) 
+    // 0x00100000 [20]    XIP          (0) 
+    // 0x00080000 [19]    SRAM9        (0) 
+    // 0x00040000 [18]    SRAM8        (0) 
+    // 0x00020000 [17]    SRAM7        (0) 
+    // 0x00010000 [16]    SRAM6        (0) 
+    // 0x00008000 [15]    SRAM5        (0) 
+    // 0x00004000 [14]    SRAM4        (0) 
+    // 0x00002000 [13]    SRAM3        (0) 
+    // 0x00001000 [12]    SRAM2        (0) 
+    // 0x00000800 [11]    SRAM1        (0) 
+    // 0x00000400 [10]    SRAM0        (0) 
+    // 0x00000200 [9]     BOOTRAM      (0) 
+    // 0x00000100 [8]     ROM          (0) 
+    // 0x00000080 [7]     BUSFABRIC    (0) 
+    // 0x00000040 [6]     PSM_READY    (0) 
+    // 0x00000020 [5]     CLOCKS       (0) 
+    // 0x00000010 [4]     RESETS       (0) 
+    // 0x00000008 [3]     XOSC         (0) 
+    // 0x00000004 [2]     ROSC         (0) 
+    // 0x00000002 [1]     OTP          (0) 
+    // 0x00000001 [0]     PROC_COLD    (0) 
+    io_rw_32 wdsel;
+ 
+    _REG_(PSM_DONE_OFFSET) // PSM_DONE
+    // Is the subsystem ready?
+    // 0x01000000 [24]    PROC1        (0) 
+    // 0x00800000 [23]    PROC0        (0) 
+    // 0x00400000 [22]    ACCESSCTRL   (0) 
+    // 0x00200000 [21]    SIO          (0) 
+    // 0x00100000 [20]    XIP          (0) 
+    // 0x00080000 [19]    SRAM9        (0) 
+    // 0x00040000 [18]    SRAM8        (0) 
+    // 0x00020000 [17]    SRAM7        (0) 
+    // 0x00010000 [16]    SRAM6        (0) 
+    // 0x00008000 [15]    SRAM5        (0) 
+    // 0x00004000 [14]    SRAM4        (0) 
+    // 0x00002000 [13]    SRAM3        (0) 
+    // 0x00001000 [12]    SRAM2        (0) 
+    // 0x00000800 [11]    SRAM1        (0) 
+    // 0x00000400 [10]    SRAM0        (0) 
+    // 0x00000200 [9]     BOOTRAM      (0) 
+    // 0x00000100 [8]     ROM          (0) 
+    // 0x00000080 [7]     BUSFABRIC    (0) 
+    // 0x00000040 [6]     PSM_READY    (0) 
+    // 0x00000020 [5]     CLOCKS       (0) 
+    // 0x00000010 [4]     RESETS       (0) 
+    // 0x00000008 [3]     XOSC         (0) 
+    // 0x00000004 [2]     ROSC         (0) 
+    // 0x00000002 [1]     OTP          (0) 
+    // 0x00000001 [0]     PROC_COLD    (0) 
+    io_ro_32 done;
+} psm_hw_t;
+
+#define psm_hw ((psm_hw_t *)PSM_BASE)
+static_assert(sizeof (psm_hw_t) == 0x0010, "");
+
+#endif // _HARDWARE_STRUCTS_PSM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/pwm.h b/lib/pico-sdk/rp2350/hardware/structs/pwm.h
new file mode 100644
index 0000000..be0e24e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/pwm.h
@@ -0,0 +1,252 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_PWM_H
+#define _HARDWARE_STRUCTS_PWM_H
+
+/**
+ * \file rp2350/pwm.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/pwm.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_pwm
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/pwm.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(PWM_CH0_CSR_OFFSET) // PWM_CH0_CSR
+    // Control and status register
+    // 0x00000080 [7]     PH_ADV       (0) Advance the phase of the counter by 1 count, while it is running
+    // 0x00000040 [6]     PH_RET       (0) Retard the phase of the counter by 1 count, while it is running
+    // 0x00000030 [5:4]   DIVMODE      (0x0) 
+    // 0x00000008 [3]     B_INV        (0) Invert output B
+    // 0x00000004 [2]     A_INV        (0) Invert output A
+    // 0x00000002 [1]     PH_CORRECT   (0) 1: Enable phase-correct modulation
+    // 0x00000001 [0]     EN           (0) Enable the PWM channel
+    io_rw_32 csr;
+ 
+    _REG_(PWM_CH0_DIV_OFFSET) // PWM_CH0_DIV
+    // INT and FRAC form a fixed-point fractional number
+    // 0x00000ff0 [11:4]  INT          (0x01) 
+    // 0x0000000f [3:0]   FRAC         (0x0) 
+    io_rw_32 div;
+ 
+    _REG_(PWM_CH0_CTR_OFFSET) // PWM_CH0_CTR
+    // Direct access to the PWM counter
+    // 0x0000ffff [15:0]  CH0_CTR      (0x0000) 
+    io_rw_32 ctr;
+ 
+    _REG_(PWM_CH0_CC_OFFSET) // PWM_CH0_CC
+    // Counter compare values
+    // 0xffff0000 [31:16] B            (0x0000) 
+    // 0x0000ffff [15:0]  A            (0x0000) 
+    io_rw_32 cc;
+ 
+    _REG_(PWM_CH0_TOP_OFFSET) // PWM_CH0_TOP
+    // Counter wrap value
+    // 0x0000ffff [15:0]  CH0_TOP      (0xffff) 
+    io_rw_32 top;
+} pwm_slice_hw_t;
+
+typedef struct {
+    _REG_(PWM_IRQ0_INTE_OFFSET) // PWM_IRQ0_INTE
+    // Interrupt Enable for irq0
+    // 0x00000800 [11]    CH11         (0) 
+    // 0x00000400 [10]    CH10         (0) 
+    // 0x00000200 [9]     CH9          (0) 
+    // 0x00000100 [8]     CH8          (0) 
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 inte;
+ 
+    _REG_(PWM_IRQ0_INTF_OFFSET) // PWM_IRQ0_INTF
+    // Interrupt Force for irq0
+    // 0x00000800 [11]    CH11         (0) 
+    // 0x00000400 [10]    CH10         (0) 
+    // 0x00000200 [9]     CH9          (0) 
+    // 0x00000100 [8]     CH8          (0) 
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 intf;
+ 
+    _REG_(PWM_IRQ0_INTS_OFFSET) // PWM_IRQ0_INTS
+    // Interrupt status after masking & forcing for irq0
+    // 0x00000800 [11]    CH11         (0) 
+    // 0x00000400 [10]    CH10         (0) 
+    // 0x00000200 [9]     CH9          (0) 
+    // 0x00000100 [8]     CH8          (0) 
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_ro_32 ints;
+} pwm_irq_ctrl_hw_t;
+
+typedef struct {
+    pwm_slice_hw_t slice[12];
+ 
+    _REG_(PWM_EN_OFFSET) // PWM_EN
+    // This register aliases the CSR_EN bits for all channels
+    // 0x00000800 [11]    CH11         (0) 
+    // 0x00000400 [10]    CH10         (0) 
+    // 0x00000200 [9]     CH9          (0) 
+    // 0x00000100 [8]     CH8          (0) 
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 en;
+ 
+    _REG_(PWM_INTR_OFFSET) // PWM_INTR
+    // Raw Interrupts
+    // 0x00000800 [11]    CH11         (0) 
+    // 0x00000400 [10]    CH10         (0) 
+    // 0x00000200 [9]     CH9          (0) 
+    // 0x00000100 [8]     CH8          (0) 
+    // 0x00000080 [7]     CH7          (0) 
+    // 0x00000040 [6]     CH6          (0) 
+    // 0x00000020 [5]     CH5          (0) 
+    // 0x00000010 [4]     CH4          (0) 
+    // 0x00000008 [3]     CH3          (0) 
+    // 0x00000004 [2]     CH2          (0) 
+    // 0x00000002 [1]     CH1          (0) 
+    // 0x00000001 [0]     CH0          (0) 
+    io_rw_32 intr;
+ 
+    union {
+        struct {
+            _REG_(PWM_IRQ0_INTE_OFFSET) // PWM_IRQ0_INTE
+            // Interrupt Enable for irq0
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 inte;
+
+            _REG_(PWM_IRQ0_INTF_OFFSET) // PWM_IRQ0_INTF
+            // Interrupt Force for irq0
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 intf;
+
+            _REG_(PWM_IRQ0_INTS_OFFSET) // PWM_IRQ0_INTS
+            // Interrupt status after masking & forcing for irq0
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 ints;
+
+            _REG_(PWM_IRQ1_INTE_OFFSET) // PWM_IRQ1_INTE
+            // Interrupt Enable for irq1
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 inte1;
+
+            _REG_(PWM_IRQ1_INTF_OFFSET) // PWM_IRQ1_INTF
+            // Interrupt Force for irq1
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0) 
+            io_rw_32 intf1;
+
+            _REG_(PWM_IRQ1_INTS_OFFSET) // PWM_IRQ1_INTS
+            // Interrupt status after masking & forcing for irq1
+            // 0x00000800 [11]    CH11         (0) 
+            // 0x00000400 [10]    CH10         (0) 
+            // 0x00000200 [9]     CH9          (0) 
+            // 0x00000100 [8]     CH8          (0) 
+            // 0x00000080 [7]     CH7          (0) 
+            // 0x00000040 [6]     CH6          (0) 
+            // 0x00000020 [5]     CH5          (0) 
+            // 0x00000010 [4]     CH4          (0) 
+            // 0x00000008 [3]     CH3          (0) 
+            // 0x00000004 [2]     CH2          (0) 
+            // 0x00000002 [1]     CH1          (0) 
+            // 0x00000001 [0]     CH0          (0)                   
+            io_rw_32 ints1;
+        };
+        pwm_irq_ctrl_hw_t irq_ctrl[2];
+    };
+} pwm_hw_t;
+
+#define pwm_hw ((pwm_hw_t *)PWM_BASE)
+static_assert(sizeof (pwm_hw_t) == 0x0110, "");
+
+#endif // _HARDWARE_STRUCTS_PWM_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/qmi.h b/lib/pico-sdk/rp2350/hardware/structs/qmi.h
new file mode 100644
index 0000000..bbcbd76
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/qmi.h
@@ -0,0 +1,125 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_QMI_H
+#define _HARDWARE_STRUCTS_QMI_H
+
+/**
+ * \file rp2350/qmi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/qmi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_qmi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/qmi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(QMI_M0_TIMING_OFFSET) // QMI_M0_TIMING
+    // Timing configuration register for memory address window 0
+    // 0xc0000000 [31:30] COOLDOWN     (0x1) Chip select cooldown period
+    // 0x30000000 [29:28] PAGEBREAK    (0x0) When page break is enabled, chip select will...
+    // 0x02000000 [25]    SELECT_SETUP (0) Add up to one additional system clock cycle of setup...
+    // 0x01800000 [24:23] SELECT_HOLD  (0x0) Add up to three additional system clock cycles of active...
+    // 0x007e0000 [22:17] MAX_SELECT   (0x00) Enforce a maximum assertion duration for this window's...
+    // 0x0001f000 [16:12] MIN_DESELECT (0x00) After this window's chip select is deasserted, it...
+    // 0x00000700 [10:8]  RXDELAY      (0x0) Delay the read data sample timing, in units of one half...
+    // 0x000000ff [7:0]   CLKDIV       (0x04) Clock divisor
+    io_rw_32 timing;
+ 
+    _REG_(QMI_M0_RFMT_OFFSET) // QMI_M0_RFMT
+    // Read transfer format configuration for memory address window 0.
+    // 0x10000000 [28]    DTR          (0) Enable double transfer rate (DTR) for read commands:...
+    // 0x00070000 [18:16] DUMMY_LEN    (0x0) Length of dummy phase between command suffix and data...
+    // 0x0000c000 [15:14] SUFFIX_LEN   (0x0) Length of post-address command suffix, in units of 4 bits
+    // 0x00001000 [12]    PREFIX_LEN   (1) Length of command prefix, in units of 8 bits
+    // 0x00000300 [9:8]   DATA_WIDTH   (0x0) The width used for the data transfer
+    // 0x000000c0 [7:6]   DUMMY_WIDTH  (0x0) The width used for the dummy phase, if any
+    // 0x00000030 [5:4]   SUFFIX_WIDTH (0x0) The width used for the post-address command suffix, if any
+    // 0x0000000c [3:2]   ADDR_WIDTH   (0x0) The transfer width used for the address
+    // 0x00000003 [1:0]   PREFIX_WIDTH (0x0) The transfer width used for the command prefix, if any
+    io_rw_32 rfmt;
+ 
+    _REG_(QMI_M0_RCMD_OFFSET) // QMI_M0_RCMD
+    // Command constants used for reads from memory address window 0.
+    // 0x0000ff00 [15:8]  SUFFIX       (0xa0) The command suffix bits following the address, if...
+    // 0x000000ff [7:0]   PREFIX       (0x03) The command prefix bits to prepend on each new transfer,...
+    io_rw_32 rcmd;
+ 
+    _REG_(QMI_M0_WFMT_OFFSET) // QMI_M0_WFMT
+    // Write transfer format configuration for memory address window 0.
+    // 0x10000000 [28]    DTR          (0) Enable double transfer rate (DTR) for write commands:...
+    // 0x00070000 [18:16] DUMMY_LEN    (0x0) Length of dummy phase between command suffix and data...
+    // 0x0000c000 [15:14] SUFFIX_LEN   (0x0) Length of post-address command suffix, in units of 4 bits
+    // 0x00001000 [12]    PREFIX_LEN   (1) Length of command prefix, in units of 8 bits
+    // 0x00000300 [9:8]   DATA_WIDTH   (0x0) The width used for the data transfer
+    // 0x000000c0 [7:6]   DUMMY_WIDTH  (0x0) The width used for the dummy phase, if any
+    // 0x00000030 [5:4]   SUFFIX_WIDTH (0x0) The width used for the post-address command suffix, if any
+    // 0x0000000c [3:2]   ADDR_WIDTH   (0x0) The transfer width used for the address
+    // 0x00000003 [1:0]   PREFIX_WIDTH (0x0) The transfer width used for the command prefix, if any
+    io_rw_32 wfmt;
+ 
+    _REG_(QMI_M0_WCMD_OFFSET) // QMI_M0_WCMD
+    // Command constants used for writes to memory address window 0.
+    // 0x0000ff00 [15:8]  SUFFIX       (0xa0) The command suffix bits following the address, if...
+    // 0x000000ff [7:0]   PREFIX       (0x02) The command prefix bits to prepend on each new transfer,...
+    io_rw_32 wcmd;
+} qmi_mem_hw_t;
+
+typedef struct {
+    _REG_(QMI_DIRECT_CSR_OFFSET) // QMI_DIRECT_CSR
+    // Control and status for direct serial mode
+    // 0xc0000000 [31:30] RXDELAY      (0x0) Delay the read data sample timing, in units of one half...
+    // 0x3fc00000 [29:22] CLKDIV       (0x06) Clock divisor for direct serial mode
+    // 0x001c0000 [20:18] RXLEVEL      (0x0) Current level of DIRECT_RX FIFO
+    // 0x00020000 [17]    RXFULL       (0) When 1, the DIRECT_RX FIFO is currently full
+    // 0x00010000 [16]    RXEMPTY      (0) When 1, the DIRECT_RX FIFO is currently empty
+    // 0x00007000 [14:12] TXLEVEL      (0x0) Current level of DIRECT_TX FIFO
+    // 0x00000800 [11]    TXEMPTY      (0) When 1, the DIRECT_TX FIFO is currently empty
+    // 0x00000400 [10]    TXFULL       (0) When 1, the DIRECT_TX FIFO is currently full
+    // 0x00000080 [7]     AUTO_CS1N    (0) When 1, automatically assert the CS1n chip select line...
+    // 0x00000040 [6]     AUTO_CS0N    (0) When 1, automatically assert the CS0n chip select line...
+    // 0x00000008 [3]     ASSERT_CS1N  (0) When 1, assert (i
+    // 0x00000004 [2]     ASSERT_CS0N  (0) When 1, assert (i
+    // 0x00000002 [1]     BUSY         (0) Direct mode busy flag
+    // 0x00000001 [0]     EN           (0) Enable direct mode
+    io_rw_32 direct_csr;
+ 
+    _REG_(QMI_DIRECT_TX_OFFSET) // QMI_DIRECT_TX
+    // Transmit FIFO for direct mode
+    // 0x00100000 [20]    NOPUSH       (0) Inhibit the RX FIFO push that would correspond to this...
+    // 0x00080000 [19]    OE           (0) Output enable (active-high)
+    // 0x00040000 [18]    DWIDTH       (0) Data width
+    // 0x00030000 [17:16] IWIDTH       (0x0) Configure whether this FIFO record is transferred with...
+    // 0x0000ffff [15:0]  DATA         (0x0000) Data pushed here will be clocked out falling edges of...
+    io_wo_32 direct_tx;
+ 
+    _REG_(QMI_DIRECT_RX_OFFSET) // QMI_DIRECT_RX
+    // Receive FIFO for direct mode
+    // 0x0000ffff [15:0]  DIRECT_RX    (0x0000) With each byte clocked out on the serial interface, one...
+    io_ro_32 direct_rx;
+ 
+    qmi_mem_hw_t m[2];
+ 
+    // (Description copied from array index 0 register QMI_ATRANS0 applies similarly to other array indexes)
+    _REG_(QMI_ATRANS0_OFFSET) // QMI_ATRANS0
+    // Configure address translation for XIP virtual addresses 0x000000 through 0x3fffff (a 4 MiB window starting at +0 MiB).
+    // 0x07ff0000 [26:16] SIZE         (0x400) Translation aperture size for this virtual address...
+    // 0x00000fff [11:0]  BASE         (0x000) Physical address base for this virtual address range, in...
+    io_rw_32 atrans[8];
+} qmi_hw_t;
+
+#define qmi_hw ((qmi_hw_t *)XIP_QMI_BASE)
+static_assert(sizeof (qmi_hw_t) == 0x0054, "");
+
+#endif // _HARDWARE_STRUCTS_QMI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/resets.h b/lib/pico-sdk/rp2350/hardware/structs/resets.h
new file mode 100644
index 0000000..5d5d0e6
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/resets.h
@@ -0,0 +1,166 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_RESETS_H
+#define _HARDWARE_STRUCTS_RESETS_H
+
+/**
+ * \file rp2350/resets.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/resets.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_resets
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/resets.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/** \brief Resettable component numbers on RP2350 (used as typedef \ref reset_num_t)
+ *  \ingroup hardware_resets
+ */
+typedef enum reset_num_rp2350 {
+    RESET_ADC = 0, ///< Select ADC to be reset
+    RESET_BUSCTRL = 1, ///< Select BUSCTRL to be reset
+    RESET_DMA = 2, ///< Select DMA to be reset
+    RESET_HSTX = 3, ///< Select HSTX to be reset
+    RESET_I2C0 = 4, ///< Select I2C0 to be reset
+    RESET_I2C1 = 5, ///< Select I2C1 to be reset
+    RESET_IO_BANK0 = 6, ///< Select IO_BANK0 to be reset
+    RESET_IO_QSPI = 7, ///< Select IO_QSPI to be reset
+    RESET_JTAG = 8, ///< Select JTAG to be reset
+    RESET_PADS_BANK0 = 9, ///< Select PADS_BANK0 to be reset
+    RESET_PADS_QSPI = 10, ///< Select PADS_QSPI to be reset
+    RESET_PIO0 = 11, ///< Select PIO0 to be reset
+    RESET_PIO1 = 12, ///< Select PIO1 to be reset
+    RESET_PIO2 = 13, ///< Select PIO2 to be reset
+    RESET_PLL_SYS = 14, ///< Select PLL_SYS to be reset
+    RESET_PLL_USB = 15, ///< Select PLL_USB to be reset
+    RESET_PWM = 16, ///< Select PWM to be reset
+    RESET_SHA256 = 17, ///< Select SHA256 to be reset
+    RESET_SPI0 = 18, ///< Select SPI0 to be reset
+    RESET_SPI1 = 19, ///< Select SPI1 to be reset
+    RESET_SYSCFG = 20, ///< Select SYSCFG to be reset
+    RESET_SYSINFO = 21, ///< Select SYSINFO to be reset
+    RESET_TBMAN = 22, ///< Select TBMAN to be reset
+    RESET_TIMER0 = 23, ///< Select TIMER0 to be reset
+    RESET_TIMER1 = 24, ///< Select TIMER1 to be reset
+    RESET_TRNG = 25, ///< Select TRNG to be reset
+    RESET_UART0 = 26, ///< Select UART0 to be reset
+    RESET_UART1 = 27, ///< Select UART1 to be reset
+    RESET_USBCTRL = 28, ///< Select USBCTRL to be reset
+    RESET_COUNT
+} reset_num_t;
+
+/// \tag::resets_hw[]
+typedef struct {
+    _REG_(RESETS_RESET_OFFSET) // RESETS_RESET
+    // 0x10000000 [28]    USBCTRL      (1) 
+    // 0x08000000 [27]    UART1        (1) 
+    // 0x04000000 [26]    UART0        (1) 
+    // 0x02000000 [25]    TRNG         (1) 
+    // 0x01000000 [24]    TIMER1       (1) 
+    // 0x00800000 [23]    TIMER0       (1) 
+    // 0x00400000 [22]    TBMAN        (1) 
+    // 0x00200000 [21]    SYSINFO      (1) 
+    // 0x00100000 [20]    SYSCFG       (1) 
+    // 0x00080000 [19]    SPI1         (1) 
+    // 0x00040000 [18]    SPI0         (1) 
+    // 0x00020000 [17]    SHA256       (1) 
+    // 0x00010000 [16]    PWM          (1) 
+    // 0x00008000 [15]    PLL_USB      (1) 
+    // 0x00004000 [14]    PLL_SYS      (1) 
+    // 0x00002000 [13]    PIO2         (1) 
+    // 0x00001000 [12]    PIO1         (1) 
+    // 0x00000800 [11]    PIO0         (1) 
+    // 0x00000400 [10]    PADS_QSPI    (1) 
+    // 0x00000200 [9]     PADS_BANK0   (1) 
+    // 0x00000100 [8]     JTAG         (1) 
+    // 0x00000080 [7]     IO_QSPI      (1) 
+    // 0x00000040 [6]     IO_BANK0     (1) 
+    // 0x00000020 [5]     I2C1         (1) 
+    // 0x00000010 [4]     I2C0         (1) 
+    // 0x00000008 [3]     HSTX         (1) 
+    // 0x00000004 [2]     DMA          (1) 
+    // 0x00000002 [1]     BUSCTRL      (1) 
+    // 0x00000001 [0]     ADC          (1) 
+    io_rw_32 reset;
+ 
+    _REG_(RESETS_WDSEL_OFFSET) // RESETS_WDSEL
+    // 0x10000000 [28]    USBCTRL      (0) 
+    // 0x08000000 [27]    UART1        (0) 
+    // 0x04000000 [26]    UART0        (0) 
+    // 0x02000000 [25]    TRNG         (0) 
+    // 0x01000000 [24]    TIMER1       (0) 
+    // 0x00800000 [23]    TIMER0       (0) 
+    // 0x00400000 [22]    TBMAN        (0) 
+    // 0x00200000 [21]    SYSINFO      (0) 
+    // 0x00100000 [20]    SYSCFG       (0) 
+    // 0x00080000 [19]    SPI1         (0) 
+    // 0x00040000 [18]    SPI0         (0) 
+    // 0x00020000 [17]    SHA256       (0) 
+    // 0x00010000 [16]    PWM          (0) 
+    // 0x00008000 [15]    PLL_USB      (0) 
+    // 0x00004000 [14]    PLL_SYS      (0) 
+    // 0x00002000 [13]    PIO2         (0) 
+    // 0x00001000 [12]    PIO1         (0) 
+    // 0x00000800 [11]    PIO0         (0) 
+    // 0x00000400 [10]    PADS_QSPI    (0) 
+    // 0x00000200 [9]     PADS_BANK0   (0) 
+    // 0x00000100 [8]     JTAG         (0) 
+    // 0x00000080 [7]     IO_QSPI      (0) 
+    // 0x00000040 [6]     IO_BANK0     (0) 
+    // 0x00000020 [5]     I2C1         (0) 
+    // 0x00000010 [4]     I2C0         (0) 
+    // 0x00000008 [3]     HSTX         (0) 
+    // 0x00000004 [2]     DMA          (0) 
+    // 0x00000002 [1]     BUSCTRL      (0) 
+    // 0x00000001 [0]     ADC          (0) 
+    io_rw_32 wdsel;
+ 
+    _REG_(RESETS_RESET_DONE_OFFSET) // RESETS_RESET_DONE
+    // 0x10000000 [28]    USBCTRL      (0) 
+    // 0x08000000 [27]    UART1        (0) 
+    // 0x04000000 [26]    UART0        (0) 
+    // 0x02000000 [25]    TRNG         (0) 
+    // 0x01000000 [24]    TIMER1       (0) 
+    // 0x00800000 [23]    TIMER0       (0) 
+    // 0x00400000 [22]    TBMAN        (0) 
+    // 0x00200000 [21]    SYSINFO      (0) 
+    // 0x00100000 [20]    SYSCFG       (0) 
+    // 0x00080000 [19]    SPI1         (0) 
+    // 0x00040000 [18]    SPI0         (0) 
+    // 0x00020000 [17]    SHA256       (0) 
+    // 0x00010000 [16]    PWM          (0) 
+    // 0x00008000 [15]    PLL_USB      (0) 
+    // 0x00004000 [14]    PLL_SYS      (0) 
+    // 0x00002000 [13]    PIO2         (0) 
+    // 0x00001000 [12]    PIO1         (0) 
+    // 0x00000800 [11]    PIO0         (0) 
+    // 0x00000400 [10]    PADS_QSPI    (0) 
+    // 0x00000200 [9]     PADS_BANK0   (0) 
+    // 0x00000100 [8]     JTAG         (0) 
+    // 0x00000080 [7]     IO_QSPI      (0) 
+    // 0x00000040 [6]     IO_BANK0     (0) 
+    // 0x00000020 [5]     I2C1         (0) 
+    // 0x00000010 [4]     I2C0         (0) 
+    // 0x00000008 [3]     HSTX         (0) 
+    // 0x00000004 [2]     DMA          (0) 
+    // 0x00000002 [1]     BUSCTRL      (0) 
+    // 0x00000001 [0]     ADC          (0) 
+    io_ro_32 reset_done;
+} resets_hw_t;
+/// \end::resets_hw[]
+
+#define resets_hw ((resets_hw_t *)RESETS_BASE)
+static_assert(sizeof (resets_hw_t) == 0x000c, "");
+
+#endif // _HARDWARE_STRUCTS_RESETS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/rosc.h b/lib/pico-sdk/rp2350/hardware/structs/rosc.h
new file mode 100644
index 0000000..73503cc
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/rosc.h
@@ -0,0 +1,99 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_ROSC_H
+#define _HARDWARE_STRUCTS_ROSC_H
+
+/**
+ * \file rp2350/rosc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/rosc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_rosc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/rosc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(ROSC_CTRL_OFFSET) // ROSC_CTRL
+    // Ring Oscillator control
+    // 0x00fff000 [23:12] ENABLE       (-) On power-up this field is initialised to ENABLE +
+    // 0x00000fff [11:0]  FREQ_RANGE   (0xaa0) Controls the number of delay stages in the ROSC ring +
+    io_rw_32 ctrl;
+ 
+    _REG_(ROSC_FREQA_OFFSET) // ROSC_FREQA
+    // Ring Oscillator frequency control A
+    // 0xffff0000 [31:16] PASSWD       (0x0000) Set to 0x9696 to apply the settings +
+    // 0x00007000 [14:12] DS3          (0x0) Stage 3 drive strength
+    // 0x00000700 [10:8]  DS2          (0x0) Stage 2 drive strength
+    // 0x00000080 [7]     DS1_RANDOM   (0) Randomises the stage 1 drive strength
+    // 0x00000070 [6:4]   DS1          (0x0) Stage 1 drive strength
+    // 0x00000008 [3]     DS0_RANDOM   (0) Randomises the stage 0 drive strength
+    // 0x00000007 [2:0]   DS0          (0x0) Stage 0 drive strength
+    io_rw_32 freqa;
+ 
+    _REG_(ROSC_FREQB_OFFSET) // ROSC_FREQB
+    // Ring Oscillator frequency control B
+    // 0xffff0000 [31:16] PASSWD       (0x0000) Set to 0x9696 to apply the settings +
+    // 0x00007000 [14:12] DS7          (0x0) Stage 7 drive strength
+    // 0x00000700 [10:8]  DS6          (0x0) Stage 6 drive strength
+    // 0x00000070 [6:4]   DS5          (0x0) Stage 5 drive strength
+    // 0x00000007 [2:0]   DS4          (0x0) Stage 4 drive strength
+    io_rw_32 freqb;
+ 
+    _REG_(ROSC_RANDOM_OFFSET) // ROSC_RANDOM
+    // Loads a value to the LFSR randomiser
+    // 0xffffffff [31:0]  SEED         (0x3f04b16d) 
+    io_rw_32 random;
+ 
+    _REG_(ROSC_DORMANT_OFFSET) // ROSC_DORMANT
+    // Ring Oscillator pause control
+    // 0xffffffff [31:0]  DORMANT      (-) This is used to save power by pausing the ROSC +
+    io_rw_32 dormant;
+ 
+    _REG_(ROSC_DIV_OFFSET) // ROSC_DIV
+    // Controls the output divider
+    // 0x0000ffff [15:0]  DIV          (-) set to 0xaa00 + div where +
+    io_rw_32 div;
+ 
+    _REG_(ROSC_PHASE_OFFSET) // ROSC_PHASE
+    // Controls the phase shifted output
+    // 0x00000ff0 [11:4]  PASSWD       (0x00) set to 0xaa +
+    // 0x00000008 [3]     ENABLE       (1) enable the phase-shifted output +
+    // 0x00000004 [2]     FLIP         (0) invert the phase-shifted output +
+    // 0x00000003 [1:0]   SHIFT        (0x0) phase shift the phase-shifted output by SHIFT input clocks +
+    io_rw_32 phase;
+ 
+    _REG_(ROSC_STATUS_OFFSET) // ROSC_STATUS
+    // Ring Oscillator Status
+    // 0x80000000 [31]    STABLE       (0) Oscillator is running and stable
+    // 0x01000000 [24]    BADWRITE     (0) An invalid value has been written to CTRL_ENABLE or...
+    // 0x00010000 [16]    DIV_RUNNING  (-) post-divider is running +
+    // 0x00001000 [12]    ENABLED      (-) Oscillator is enabled but not necessarily running and stable +
+    io_rw_32 status;
+ 
+    _REG_(ROSC_RANDOMBIT_OFFSET) // ROSC_RANDOMBIT
+    // Returns a 1 bit random value
+    // 0x00000001 [0]     RANDOMBIT    (1) 
+    io_ro_32 randombit;
+ 
+    _REG_(ROSC_COUNT_OFFSET) // ROSC_COUNT
+    // A down counter running at the ROSC frequency which counts to zero and stops.
+    // 0x0000ffff [15:0]  COUNT        (0x0000) 
+    io_rw_32 count;
+} rosc_hw_t;
+
+#define rosc_hw ((rosc_hw_t *)ROSC_BASE)
+static_assert(sizeof (rosc_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_ROSC_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/sau.h b/lib/pico-sdk/rp2350/hardware/structs/sau.h
new file mode 100644
index 0000000..803f356
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/sau.h
@@ -0,0 +1,65 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SAU_H
+#define _HARDWARE_STRUCTS_SAU_H
+
+/**
+ * \file rp2350/sau.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    _REG_(M33_SAU_CTRL_OFFSET) // M33_SAU_CTRL
+    // Allows enabling of the Security Attribution Unit
+    // 0x00000002 [1]     ALLNS        (0) When SAU_CTRL
+    // 0x00000001 [0]     ENABLE       (0) Enables the SAU
+    io_rw_32 ctrl;
+ 
+    _REG_(M33_SAU_TYPE_OFFSET) // M33_SAU_TYPE
+    // Indicates the number of regions implemented by the Security Attribution Unit
+    // 0x000000ff [7:0]   SREGION      (0x08) The number of implemented SAU regions
+    io_ro_32 type;
+ 
+    _REG_(M33_SAU_RNR_OFFSET) // M33_SAU_RNR
+    // Selects the region currently accessed by SAU_RBAR and SAU_RLAR
+    // 0x000000ff [7:0]   REGION       (0x00) Indicates the SAU region accessed by SAU_RBAR and SAU_RLAR
+    io_rw_32 rnr;
+ 
+    _REG_(M33_SAU_RBAR_OFFSET) // M33_SAU_RBAR
+    // Provides indirect read and write access to the base address of the currently selected SAU region
+    // 0xffffffe0 [31:5]  BADDR        (0x0000000) Holds bits [31:5] of the base address for the selected SAU region
+    io_rw_32 rbar;
+ 
+    _REG_(M33_SAU_RLAR_OFFSET) // M33_SAU_RLAR
+    // Provides indirect read and write access to the limit address of the currently selected SAU region
+    // 0xffffffe0 [31:5]  LADDR        (0x0000000) Holds bits [31:5] of the limit address for the selected...
+    // 0x00000002 [1]     NSC          (0) Controls whether Non-secure state is permitted to...
+    // 0x00000001 [0]     ENABLE       (0) SAU region enable
+    io_rw_32 rlar;
+} armv8m_sau_hw_t;
+
+#define sau_hw ((armv8m_sau_hw_t *)(PPB_BASE + M33_SAU_CTRL_OFFSET))
+#define sau_ns_hw ((armv8m_sau_hw_t *)(PPB_NONSEC_BASE + M33_SAU_CTRL_OFFSET))
+static_assert(sizeof (armv8m_sau_hw_t) == 0x0014, "");
+
+#endif // _HARDWARE_STRUCTS_SAU_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/scb.h b/lib/pico-sdk/rp2350/hardware/structs/scb.h
new file mode 100644
index 0000000..9777023
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/scb.h
@@ -0,0 +1,264 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SCB_H
+#define _HARDWARE_STRUCTS_SCB_H
+
+/**
+ * \file rp2350/scb.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    _REG_(M33_CPUID_OFFSET) // M33_CPUID
+    // Provides identification information for the PE, including an implementer code for the device and...
+    // 0xff000000 [31:24] IMPLEMENTER  (0x41) This field must hold an implementer code that has been...
+    // 0x00f00000 [23:20] VARIANT      (0x1) IMPLEMENTATION DEFINED variant number
+    // 0x000f0000 [19:16] ARCHITECTURE (0xf) Defines the Architecture implemented by the PE
+    // 0x0000fff0 [15:4]  PARTNO       (0xd21) IMPLEMENTATION DEFINED primary part number for the device
+    // 0x0000000f [3:0]   REVISION     (0x0) IMPLEMENTATION DEFINED revision number for the device
+    io_ro_32 cpuid;
+ 
+    _REG_(M33_ICSR_OFFSET) // M33_ICSR
+    // Controls and provides status information for NMI, PendSV, SysTick and interrupts
+    // 0x80000000 [31]    PENDNMISET   (0) Indicates whether the NMI exception is pending
+    // 0x40000000 [30]    PENDNMICLR   (0) Allows the NMI exception pend state to be cleared
+    // 0x10000000 [28]    PENDSVSET    (0) Indicates whether the PendSV `FTSSS exception is pending
+    // 0x08000000 [27]    PENDSVCLR    (0) Allows the PendSV exception pend state to be cleared `FTSSS
+    // 0x04000000 [26]    PENDSTSET    (0) Indicates whether the SysTick `FTSSS exception is pending
+    // 0x02000000 [25]    PENDSTCLR    (0) Allows the SysTick exception pend state to be cleared `FTSSS
+    // 0x01000000 [24]    STTNS        (0) Controls whether in a single SysTick implementation, the...
+    // 0x00800000 [23]    ISRPREEMPT   (0) Indicates whether a pending exception will be serviced...
+    // 0x00400000 [22]    ISRPENDING   (0) Indicates whether an external interrupt, generated by...
+    // 0x001ff000 [20:12] VECTPENDING  (0x000) The exception number of the highest priority pending and...
+    // 0x00000800 [11]    RETTOBASE    (0) In Handler mode, indicates whether there is more than...
+    // 0x000001ff [8:0]   VECTACTIVE   (0x000) The exception number of the current executing exception
+    io_rw_32 icsr;
+ 
+    _REG_(M33_VTOR_OFFSET) // M33_VTOR
+    // Vector Table Offset Register
+    // 0xffffff80 [31:7]  TBLOFF       (0x0000000) Vector table base offset field
+    io_rw_32 vtor;
+ 
+    _REG_(M33_AIRCR_OFFSET) // M33_AIRCR
+    // Application Interrupt and Reset Control Register
+    // 0xffff0000 [31:16] VECTKEY      (0x0000) Register key: +
+    // 0x00008000 [15]    ENDIANESS    (0) Data endianness implemented: +
+    // 0x00004000 [14]    PRIS         (0) Prioritize Secure exceptions
+    // 0x00002000 [13]    BFHFNMINS    (0) BusFault, HardFault, and NMI Non-secure enable
+    // 0x00000700 [10:8]  PRIGROUP     (0x0) Interrupt priority grouping field
+    // 0x00000008 [3]     SYSRESETREQS (0) System reset request, Secure state only
+    // 0x00000004 [2]     SYSRESETREQ  (0) Writing 1 to this bit causes the SYSRESETREQ signal to...
+    // 0x00000002 [1]     VECTCLRACTIVE (0) Clears all active state information for fixed and...
+    io_rw_32 aircr;
+ 
+    _REG_(M33_SCR_OFFSET) // M33_SCR
+    // System Control Register
+    // 0x00000010 [4]     SEVONPEND    (0) Send Event on Pending bit: +
+    // 0x00000008 [3]     SLEEPDEEPS   (0) 0 SLEEPDEEP is available to both security states +
+    // 0x00000004 [2]     SLEEPDEEP    (0) Controls whether the processor uses sleep or deep sleep...
+    // 0x00000002 [1]     SLEEPONEXIT  (0) Indicates sleep-on-exit when returning from Handler mode...
+    io_rw_32 scr;
+ 
+    _REG_(M33_CCR_OFFSET) // M33_CCR
+    // Sets or returns configuration and control data
+    // 0x00040000 [18]    BP           (0) Enables program flow prediction `FTSSS
+    // 0x00020000 [17]    IC           (0) This is a global enable bit for instruction caches in...
+    // 0x00010000 [16]    DC           (0) Enables data caching of all data accesses to Normal memory `FTSSS
+    // 0x00000400 [10]    STKOFHFNMIGN (0) Controls the effect of a stack limit violation while...
+    // 0x00000200 [9]     RES1         (1) Reserved, RES1
+    // 0x00000100 [8]     BFHFNMIGN    (0) Determines the effect of precise BusFaults on handlers...
+    // 0x00000010 [4]     DIV_0_TRP    (0) Controls the generation of a DIVBYZERO UsageFault when...
+    // 0x00000008 [3]     UNALIGN_TRP  (0) Controls the trapping of unaligned word or halfword accesses
+    // 0x00000002 [1]     USERSETMPEND (0) Determines whether unprivileged accesses are permitted...
+    // 0x00000001 [0]     RES1_1       (1) Reserved, RES1
+    io_rw_32 ccr;
+ 
+    // (Description copied from array index 0 register M33_SHPR1 applies similarly to other array indexes)
+    _REG_(M33_SHPR1_OFFSET) // M33_SHPR1
+    // Sets or returns priority for system handlers 4 - 7
+    // 0xe0000000 [31:29] PRI_7_3      (0x0) Priority of system handler 7, SecureFault
+    // 0x00e00000 [23:21] PRI_6_3      (0x0) Priority of system handler 6, SecureFault
+    // 0x0000e000 [15:13] PRI_5_3      (0x0) Priority of system handler 5, SecureFault
+    // 0x000000e0 [7:5]   PRI_4_3      (0x0) Priority of system handler 4, SecureFault
+    io_rw_32 shpr[3];
+ 
+    _REG_(M33_SHCSR_OFFSET) // M33_SHCSR
+    // Provides access to the active and pending status of system exceptions
+    // 0x00200000 [21]    HARDFAULTPENDED (0) `IAAMO the pending state of the HardFault exception `CTTSSS
+    // 0x00100000 [20]    SECUREFAULTPENDED (0) `IAAMO the pending state of the SecureFault exception
+    // 0x00080000 [19]    SECUREFAULTENA (0) `DW the SecureFault exception is enabled
+    // 0x00040000 [18]    USGFAULTENA  (0) `DW the UsageFault exception is enabled `FTSSS
+    // 0x00020000 [17]    BUSFAULTENA  (0) `DW the BusFault exception is enabled
+    // 0x00010000 [16]    MEMFAULTENA  (0) `DW the MemManage exception is enabled `FTSSS
+    // 0x00008000 [15]    SVCALLPENDED (0) `IAAMO the pending state of the SVCall exception `FTSSS
+    // 0x00004000 [14]    BUSFAULTPENDED (0) `IAAMO the pending state of the BusFault exception
+    // 0x00002000 [13]    MEMFAULTPENDED (0) `IAAMO the pending state of the MemManage exception `FTSSS
+    // 0x00001000 [12]    USGFAULTPENDED (0) The UsageFault exception is banked between Security...
+    // 0x00000800 [11]    SYSTICKACT   (0) `IAAMO the active state of the SysTick exception `FTSSS
+    // 0x00000400 [10]    PENDSVACT    (0) `IAAMO the active state of the PendSV exception `FTSSS
+    // 0x00000100 [8]     MONITORACT   (0) `IAAMO the active state of the DebugMonitor exception
+    // 0x00000080 [7]     SVCALLACT    (0) `IAAMO the active state of the SVCall exception `FTSSS
+    // 0x00000020 [5]     NMIACT       (0) `IAAMO the active state of the NMI exception
+    // 0x00000010 [4]     SECUREFAULTACT (0) `IAAMO the active state of the SecureFault exception
+    // 0x00000008 [3]     USGFAULTACT  (0) `IAAMO the active state of the UsageFault exception `FTSSS
+    // 0x00000004 [2]     HARDFAULTACT (0) Indicates and allows limited modification of the active...
+    // 0x00000002 [1]     BUSFAULTACT  (0) `IAAMO the active state of the BusFault exception
+    // 0x00000001 [0]     MEMFAULTACT  (0) `IAAMO the active state of the MemManage exception `FTSSS
+    io_rw_32 shcsr;
+ 
+    _REG_(M33_CFSR_OFFSET) // M33_CFSR
+    // Contains the three Configurable Fault Status Registers
+    // 0x02000000 [25]    UFSR_DIVBYZERO (0) Sticky flag indicating whether an integer division by...
+    // 0x01000000 [24]    UFSR_UNALIGNED (0) Sticky flag indicating whether an unaligned access error...
+    // 0x00100000 [20]    UFSR_STKOF   (0) Sticky flag indicating whether a stack overflow error...
+    // 0x00080000 [19]    UFSR_NOCP    (0) Sticky flag indicating whether a coprocessor disabled or...
+    // 0x00040000 [18]    UFSR_INVPC   (0) Sticky flag indicating whether an integrity check error...
+    // 0x00020000 [17]    UFSR_INVSTATE (0) Sticky flag indicating whether an EPSR
+    // 0x00010000 [16]    UFSR_UNDEFINSTR (0) Sticky flag indicating whether an undefined instruction...
+    // 0x00008000 [15]    BFSR_BFARVALID (0) Indicates validity of the contents of the BFAR register
+    // 0x00002000 [13]    BFSR_LSPERR  (0) Records whether a BusFault occurred during FP lazy state...
+    // 0x00001000 [12]    BFSR_STKERR  (0) Records whether a derived BusFault occurred during...
+    // 0x00000800 [11]    BFSR_UNSTKERR (0) Records whether a derived BusFault occurred during...
+    // 0x00000400 [10]    BFSR_IMPRECISERR (0) Records whether an imprecise data access error has occurred
+    // 0x00000200 [9]     BFSR_PRECISERR (0) Records whether a precise data access error has occurred
+    // 0x00000100 [8]     BFSR_IBUSERR (0) Records whether a BusFault on an instruction prefetch...
+    // 0x000000ff [7:0]   MMFSR        (0x00) Provides information on MemManage exceptions
+    io_rw_32 cfsr;
+ 
+    _REG_(M33_HFSR_OFFSET) // M33_HFSR
+    // Shows the cause of any HardFaults
+    // 0x80000000 [31]    DEBUGEVT     (0) Indicates when a Debug event has occurred
+    // 0x40000000 [30]    FORCED       (0) Indicates that a fault with configurable priority has...
+    // 0x00000002 [1]     VECTTBL      (0) Indicates when a fault has occurred because of a vector...
+    io_rw_32 hfsr;
+ 
+    _REG_(M33_DFSR_OFFSET) // M33_DFSR
+    // Shows which debug event occurred
+    // 0x00000010 [4]     EXTERNAL     (0) Sticky flag indicating whether an External debug request...
+    // 0x00000008 [3]     VCATCH       (0) Sticky flag indicating whether a Vector catch debug...
+    // 0x00000004 [2]     DWTTRAP      (0) Sticky flag indicating whether a Watchpoint debug event...
+    // 0x00000002 [1]     BKPT         (0) Sticky flag indicating whether a Breakpoint debug event...
+    // 0x00000001 [0]     HALTED       (0) Sticky flag indicating that a Halt request debug event...
+    io_rw_32 dfsr;
+ 
+    _REG_(M33_MMFAR_OFFSET) // M33_MMFAR
+    // Shows the address of the memory location that caused an MPU fault
+    // 0xffffffff [31:0]  ADDRESS      (0x00000000) This register is updated with the address of a location...
+    io_rw_32 mmfar;
+ 
+    _REG_(M33_BFAR_OFFSET) // M33_BFAR
+    // Shows the address associated with a precise data access BusFault
+    // 0xffffffff [31:0]  ADDRESS      (0x00000000) This register is updated with the address of a location...
+    io_rw_32 bfar;
+ 
+    uint32_t _pad0;
+ 
+    // (Description copied from array index 0 register M33_ID_PFR0 applies similarly to other array indexes)
+    _REG_(M33_ID_PFR0_OFFSET) // M33_ID_PFR0
+    // Gives top-level information about the instruction set supported by the PE
+    // 0x000000f0 [7:4]   STATE1       (0x3) T32 instruction set support
+    // 0x0000000f [3:0]   STATE0       (0x0) A32 instruction set support
+    io_ro_32 id_pfr[2];
+ 
+    _REG_(M33_ID_DFR0_OFFSET) // M33_ID_DFR0
+    // Provides top level information about the debug system
+    // 0x00f00000 [23:20] MPROFDBG     (0x2) Indicates the supported M-profile debug architecture
+    io_ro_32 id_dfr0;
+ 
+    _REG_(M33_ID_AFR0_OFFSET) // M33_ID_AFR0
+    // Provides information about the IMPLEMENTATION DEFINED features of the PE
+    // 0x0000f000 [15:12] IMPDEF3      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x00000f00 [11:8]  IMPDEF2      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x000000f0 [7:4]   IMPDEF1      (0x0) IMPLEMENTATION DEFINED meaning
+    // 0x0000000f [3:0]   IMPDEF0      (0x0) IMPLEMENTATION DEFINED meaning
+    io_ro_32 id_afr0;
+ 
+    // (Description copied from array index 0 register M33_ID_MMFR0 applies similarly to other array indexes)
+    _REG_(M33_ID_MMFR0_OFFSET) // M33_ID_MMFR0
+    // Provides information about the implemented memory model and memory management support
+    // 0x00f00000 [23:20] AUXREG       (0x1) Indicates support for Auxiliary Control Registers
+    // 0x000f0000 [19:16] TCM          (0x0) Indicates support for tightly coupled memories (TCMs)
+    // 0x0000f000 [15:12] SHARELVL     (0x1) Indicates the number of shareability levels implemented
+    // 0x00000f00 [11:8]  OUTERSHR     (0xf) Indicates the outermost shareability domain implemented
+    // 0x000000f0 [7:4]   PMSA         (0x4) Indicates support for the protected memory system...
+    io_ro_32 id_mmfr[4];
+ 
+    // (Description copied from array index 0 register M33_ID_ISAR0 applies similarly to other array indexes)
+    _REG_(M33_ID_ISAR0_OFFSET) // M33_ID_ISAR0
+    // Provides information about the instruction set implemented by the PE
+    // 0x0f000000 [27:24] DIVIDE       (0x8) Indicates the supported Divide instructions
+    // 0x00f00000 [23:20] DEBUG        (0x0) Indicates the implemented Debug instructions
+    // 0x000f0000 [19:16] COPROC       (0x9) Indicates the supported Coprocessor instructions
+    // 0x0000f000 [15:12] CMPBRANCH    (0x2) Indicates the supported combined Compare and Branch instructions
+    // 0x00000f00 [11:8]  BITFIELD     (0x3) Indicates the supported bit field instructions
+    // 0x000000f0 [7:4]   BITCOUNT     (0x0) Indicates the supported bit count instructions
+    io_ro_32 id_isar[6];
+ 
+    uint32_t _pad1;
+ 
+    _REG_(M33_CTR_OFFSET) // M33_CTR
+    // Provides information about the architecture of the caches
+    // 0x80000000 [31]    RES1         (1) Reserved, RES1
+    // 0x0f000000 [27:24] CWG          (0x0) Log2 of the number of words of the maximum size of...
+    // 0x00f00000 [23:20] ERG          (0x0) Log2 of the number of words of the maximum size of the...
+    // 0x000f0000 [19:16] DMINLINE     (0x0) Log2 of the number of words in the smallest cache line...
+    // 0x0000c000 [15:14] RES1_1       (0x3) Reserved, RES1
+    // 0x0000000f [3:0]   IMINLINE     (0x0) Log2 of the number of words in the smallest cache line...
+    io_ro_32 ctr;
+ 
+    uint32_t _pad2[2];
+ 
+    _REG_(M33_CPACR_OFFSET) // M33_CPACR
+    // Specifies the access privileges for coprocessors and the FP Extension
+    // 0x00c00000 [23:22] CP11         (0x0) The value in this field is ignored
+    // 0x00300000 [21:20] CP10         (0x0) Defines the access rights for the floating-point functionality
+    // 0x0000c000 [15:14] CP7          (0x0) Controls access privileges for coprocessor 7
+    // 0x00003000 [13:12] CP6          (0x0) Controls access privileges for coprocessor 6
+    // 0x00000c00 [11:10] CP5          (0x0) Controls access privileges for coprocessor 5
+    // 0x00000300 [9:8]   CP4          (0x0) Controls access privileges for coprocessor 4
+    // 0x000000c0 [7:6]   CP3          (0x0) Controls access privileges for coprocessor 3
+    // 0x00000030 [5:4]   CP2          (0x0) Controls access privileges for coprocessor 2
+    // 0x0000000c [3:2]   CP1          (0x0) Controls access privileges for coprocessor 1
+    // 0x00000003 [1:0]   CP0          (0x0) Controls access privileges for coprocessor 0
+    io_rw_32 cpacr;
+ 
+    _REG_(M33_NSACR_OFFSET) // M33_NSACR
+    // Defines the Non-secure access permissions for both the FP Extension and coprocessors CP0 to CP7
+    // 0x00000800 [11]    CP11         (0) Enables Non-secure access to the Floating-point Extension
+    // 0x00000400 [10]    CP10         (0) Enables Non-secure access to the Floating-point Extension
+    // 0x00000080 [7]     CP7          (0) Enables Non-secure access to coprocessor CP7
+    // 0x00000040 [6]     CP6          (0) Enables Non-secure access to coprocessor CP6
+    // 0x00000020 [5]     CP5          (0) Enables Non-secure access to coprocessor CP5
+    // 0x00000010 [4]     CP4          (0) Enables Non-secure access to coprocessor CP4
+    // 0x00000008 [3]     CP3          (0) Enables Non-secure access to coprocessor CP3
+    // 0x00000004 [2]     CP2          (0) Enables Non-secure access to coprocessor CP2
+    // 0x00000002 [1]     CP1          (0) Enables Non-secure access to coprocessor CP1
+    // 0x00000001 [0]     CP0          (0) Enables Non-secure access to coprocessor CP0
+    io_rw_32 nsacr;
+} armv8m_scb_hw_t;
+
+#define scb_hw ((armv8m_scb_hw_t *)(PPB_BASE + M33_CPUID_OFFSET))
+#define scb_ns_hw ((armv8m_scb_hw_t *)(PPB_NONSEC_BASE + M33_CPUID_OFFSET))
+static_assert(sizeof (armv8m_scb_hw_t) == 0x0090, "");
+
+#endif // _HARDWARE_STRUCTS_SCB_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/sha256.h b/lib/pico-sdk/rp2350/hardware/structs/sha256.h
new file mode 100644
index 0000000..248a00a
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/sha256.h
@@ -0,0 +1,53 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SHA256_H
+#define _HARDWARE_STRUCTS_SHA256_H
+
+/**
+ * \file rp2350/sha256.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sha256.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_sha256
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sha256.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SHA256_CSR_OFFSET) // SHA256_CSR
+    // Control and status register
+    // 0x00001000 [12]    BSWAP        (1) Enable byte swapping of 32-bit values at the point they...
+    // 0x00000300 [9:8]   DMA_SIZE     (0x2) Configure DREQ logic for the correct DMA data size
+    // 0x00000010 [4]     ERR_WDATA_NOT_RDY (0) Set when a write occurs whilst the SHA-256 core is not...
+    // 0x00000004 [2]     SUM_VLD      (1) If 1, the SHA-256 checksum presented in registers SUM0...
+    // 0x00000002 [1]     WDATA_RDY    (1) If 1, the SHA-256 core is ready to accept more data...
+    // 0x00000001 [0]     START        (0) Write 1 to prepare the SHA-256 core for a new checksum
+    io_rw_32 csr;
+ 
+    _REG_(SHA256_WDATA_OFFSET) // SHA256_WDATA
+    // Write data register
+    // 0xffffffff [31:0]  WDATA        (0x00000000) After pulsing START and writing 16 words of data to this...
+    io_wo_32 wdata;
+ 
+    // (Description copied from array index 0 register SHA256_SUM0 applies similarly to other array indexes)
+    _REG_(SHA256_SUM0_OFFSET) // SHA256_SUM0
+    // 256-bit checksum result
+    // 0xffffffff [31:0]  SUM0         (0x00000000) 
+    io_ro_32 sum[8];
+} sha256_hw_t;
+
+#define sha256_hw ((sha256_hw_t *)SHA256_BASE)
+static_assert(sizeof (sha256_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_SHA256_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/sio.h b/lib/pico-sdk/rp2350/hardware/structs/sio.h
new file mode 100644
index 0000000..49a452c
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/sio.h
@@ -0,0 +1,336 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SIO_H
+#define _HARDWARE_STRUCTS_SIO_H
+
+/**
+ * \file rp2350/sio.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sio.h"
+#include "hardware/structs/interp.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_sio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+
+typedef struct {
+    _REG_(SIO_CPUID_OFFSET) // SIO_CPUID
+    // Processor core identifier
+    // 0xffffffff [31:0]  CPUID        (-) Value is 0 when read from processor core 0, and 1 when...
+    io_ro_32 cpuid;
+ 
+    _REG_(SIO_GPIO_IN_OFFSET) // SIO_GPIO_IN
+    // Input value for GPIO0
+    // 0xffffffff [31:0]  GPIO_IN      (0x00000000) 
+    io_ro_32 gpio_in;
+ 
+    _REG_(SIO_GPIO_HI_IN_OFFSET) // SIO_GPIO_HI_IN
+    // Input value on GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) Input value on QSPI SD0 (MOSI), SD1 (MISO), SD2 and SD3 pins
+    // 0x08000000 [27]    QSPI_CSN     (0) Input value on QSPI CSn pin
+    // 0x04000000 [26]    QSPI_SCK     (0) Input value on QSPI SCK pin
+    // 0x02000000 [25]    USB_DM       (0) Input value on USB D- pin
+    // 0x01000000 [24]    USB_DP       (0) Input value on USB D+ pin
+    // 0x0000ffff [15:0]  GPIO         (0x0000) Input value on GPIO32
+    io_ro_32 gpio_hi_in;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(SIO_GPIO_OUT_OFFSET) // SIO_GPIO_OUT
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OUT     (0x00000000) Set output level (1/0 -> high/low) for GPIO0
+    io_rw_32 gpio_out;
+ 
+    _REG_(SIO_GPIO_HI_OUT_OFFSET) // SIO_GPIO_HI_OUT
+    // Output value for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) Output value for QSPI SD0 (MOSI), SD1 (MISO), SD2 and SD3 pins
+    // 0x08000000 [27]    QSPI_CSN     (0) Output value for QSPI CSn pin
+    // 0x04000000 [26]    QSPI_SCK     (0) Output value for QSPI SCK pin
+    // 0x02000000 [25]    USB_DM       (0) Output value for USB D- pin
+    // 0x01000000 [24]    USB_DP       (0) Output value for USB D+ pin
+    // 0x0000ffff [15:0]  GPIO         (0x0000) Output value for GPIO32
+    io_rw_32 gpio_hi_out;
+ 
+    _REG_(SIO_GPIO_OUT_SET_OFFSET) // SIO_GPIO_OUT_SET
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OUT_SET (0x00000000) Perform an atomic bit-set on GPIO_OUT, i
+    io_wo_32 gpio_set;
+ 
+    _REG_(SIO_GPIO_HI_OUT_SET_OFFSET) // SIO_GPIO_HI_OUT_SET
+    // Output value set for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_set;
+ 
+    _REG_(SIO_GPIO_OUT_CLR_OFFSET) // SIO_GPIO_OUT_CLR
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OUT_CLR (0x00000000) Perform an atomic bit-clear on GPIO_OUT, i
+    io_wo_32 gpio_clr;
+ 
+    _REG_(SIO_GPIO_HI_OUT_CLR_OFFSET) // SIO_GPIO_HI_OUT_CLR
+    // Output value clear for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_clr;
+ 
+    _REG_(SIO_GPIO_OUT_XOR_OFFSET) // SIO_GPIO_OUT_XOR
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OUT_XOR (0x00000000) Perform an atomic bitwise XOR on GPIO_OUT, i
+    io_wo_32 gpio_togl;
+ 
+    _REG_(SIO_GPIO_HI_OUT_XOR_OFFSET) // SIO_GPIO_HI_OUT_XOR
+    // Output value XOR for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_togl;
+ 
+    _REG_(SIO_GPIO_OE_OFFSET) // SIO_GPIO_OE
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OE      (0x00000000) Set output enable (1/0 -> output/input) for GPIO0
+    io_rw_32 gpio_oe;
+ 
+    _REG_(SIO_GPIO_HI_OE_OFFSET) // SIO_GPIO_HI_OE
+    // Output enable value for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) Output enable value for QSPI SD0 (MOSI), SD1 (MISO), SD2...
+    // 0x08000000 [27]    QSPI_CSN     (0) Output enable value for QSPI CSn pin
+    // 0x04000000 [26]    QSPI_SCK     (0) Output enable value for QSPI SCK pin
+    // 0x02000000 [25]    USB_DM       (0) Output enable value for USB D- pin
+    // 0x01000000 [24]    USB_DP       (0) Output enable value for USB D+ pin
+    // 0x0000ffff [15:0]  GPIO         (0x0000) Output enable value for GPIO32
+    io_rw_32 gpio_hi_oe;
+ 
+    _REG_(SIO_GPIO_OE_SET_OFFSET) // SIO_GPIO_OE_SET
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OE_SET  (0x00000000) Perform an atomic bit-set on GPIO_OE, i
+    io_wo_32 gpio_oe_set;
+ 
+    _REG_(SIO_GPIO_HI_OE_SET_OFFSET) // SIO_GPIO_HI_OE_SET
+    // Output enable set for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_oe_set;
+ 
+    _REG_(SIO_GPIO_OE_CLR_OFFSET) // SIO_GPIO_OE_CLR
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OE_CLR  (0x00000000) Perform an atomic bit-clear on GPIO_OE, i
+    io_wo_32 gpio_oe_clr;
+ 
+    _REG_(SIO_GPIO_HI_OE_CLR_OFFSET) // SIO_GPIO_HI_OE_CLR
+    // Output enable clear for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_oe_clr;
+ 
+    _REG_(SIO_GPIO_OE_XOR_OFFSET) // SIO_GPIO_OE_XOR
+    // GPIO0
+    // 0xffffffff [31:0]  GPIO_OE_XOR  (0x00000000) Perform an atomic bitwise XOR on GPIO_OE, i
+    io_wo_32 gpio_oe_togl;
+ 
+    _REG_(SIO_GPIO_HI_OE_XOR_OFFSET) // SIO_GPIO_HI_OE_XOR
+    // Output enable XOR for GPIO32
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_wo_32 gpio_hi_oe_togl;
+ 
+    _REG_(SIO_FIFO_ST_OFFSET) // SIO_FIFO_ST
+    // Status register for inter-core FIFOs (mailboxes).
+    // 0x00000008 [3]     ROE          (0) Sticky flag indicating the RX FIFO was read when empty
+    // 0x00000004 [2]     WOF          (0) Sticky flag indicating the TX FIFO was written when full
+    // 0x00000002 [1]     RDY          (1) Value is 1 if this core's TX FIFO is not full (i
+    // 0x00000001 [0]     VLD          (0) Value is 1 if this core's RX FIFO is not empty (i
+    io_rw_32 fifo_st;
+ 
+    _REG_(SIO_FIFO_WR_OFFSET) // SIO_FIFO_WR
+    // Write access to this core's TX FIFO
+    // 0xffffffff [31:0]  FIFO_WR      (0x00000000) 
+    io_wo_32 fifo_wr;
+ 
+    _REG_(SIO_FIFO_RD_OFFSET) // SIO_FIFO_RD
+    // Read access to this core's RX FIFO
+    // 0xffffffff [31:0]  FIFO_RD      (-) 
+    io_ro_32 fifo_rd;
+ 
+    _REG_(SIO_SPINLOCK_ST_OFFSET) // SIO_SPINLOCK_ST
+    // Spinlock state
+    // 0xffffffff [31:0]  SPINLOCK_ST  (0x00000000) 
+    io_ro_32 spinlock_st;
+ 
+    uint32_t _pad1[8];
+ 
+    interp_hw_t interp[2];
+ 
+    // (Description copied from array index 0 register SIO_SPINLOCK0 applies similarly to other array indexes)
+    _REG_(SIO_SPINLOCK0_OFFSET) // SIO_SPINLOCK0
+    // Spinlock register 0
+    // 0xffffffff [31:0]  SPINLOCK0    (0x00000000) 
+    io_rw_32 spinlock[32];
+ 
+    _REG_(SIO_DOORBELL_OUT_SET_OFFSET) // SIO_DOORBELL_OUT_SET
+    // Trigger a doorbell interrupt on the opposite core
+    // 0x000000ff [7:0]   DOORBELL_OUT_SET (0x00) 
+    io_rw_32 doorbell_out_set;
+ 
+    _REG_(SIO_DOORBELL_OUT_CLR_OFFSET) // SIO_DOORBELL_OUT_CLR
+    // Clear doorbells which have been posted to the opposite core
+    // 0x000000ff [7:0]   DOORBELL_OUT_CLR (0x00) 
+    io_rw_32 doorbell_out_clr;
+ 
+    _REG_(SIO_DOORBELL_IN_SET_OFFSET) // SIO_DOORBELL_IN_SET
+    // Write 1s to trigger doorbell interrupts on this core
+    // 0x000000ff [7:0]   DOORBELL_IN_SET (0x00) 
+    io_rw_32 doorbell_in_set;
+ 
+    _REG_(SIO_DOORBELL_IN_CLR_OFFSET) // SIO_DOORBELL_IN_CLR
+    // Check and acknowledge doorbells posted to this core
+    // 0x000000ff [7:0]   DOORBELL_IN_CLR (0x00) 
+    io_rw_32 doorbell_in_clr;
+ 
+    _REG_(SIO_PERI_NONSEC_OFFSET) // SIO_PERI_NONSEC
+    // Detach certain core-local peripherals from Secure SIO, and attach them to Non-secure SIO, so...
+    // 0x00000020 [5]     TMDS         (0) IF 1, detach TMDS encoder (of this core) from the Secure...
+    // 0x00000002 [1]     INTERP1      (0) If 1, detach interpolator 1 (of this core) from the...
+    // 0x00000001 [0]     INTERP0      (0) If 1, detach interpolator 0 (of this core) from the...
+    io_rw_32 peri_nonsec;
+ 
+    uint32_t _pad2[3];
+ 
+    _REG_(SIO_RISCV_SOFTIRQ_OFFSET) // SIO_RISCV_SOFTIRQ
+    // Control the assertion of the standard software interrupt (MIP
+    // 0x00000200 [9]     CORE1_CLR    (0) Write 1 to atomically clear the core 1 software interrupt flag
+    // 0x00000100 [8]     CORE0_CLR    (0) Write 1 to atomically clear the core 0 software interrupt flag
+    // 0x00000002 [1]     CORE1_SET    (0) Write 1 to atomically set the core 1 software interrupt flag
+    // 0x00000001 [0]     CORE0_SET    (0) Write 1 to atomically set the core 0 software interrupt flag
+    io_rw_32 riscv_softirq;
+ 
+    _REG_(SIO_MTIME_CTRL_OFFSET) // SIO_MTIME_CTRL
+    // Control register for the RISC-V 64-bit Machine-mode timer
+    // 0x00000008 [3]     DBGPAUSE_CORE1 (1) If 1, the timer pauses when core 1 is in the debug halt state
+    // 0x00000004 [2]     DBGPAUSE_CORE0 (1) If 1, the timer pauses when core 0 is in the debug halt state
+    // 0x00000002 [1]     FULLSPEED    (0) If 1, increment the timer every cycle (i
+    // 0x00000001 [0]     EN           (1) Timer enable bit
+    io_rw_32 mtime_ctrl;
+ 
+    uint32_t _pad3[2];
+ 
+    _REG_(SIO_MTIME_OFFSET) // SIO_MTIME
+    // Read/write access to the high half of RISC-V Machine-mode timer
+    // 0xffffffff [31:0]  MTIME        (0x00000000) 
+    io_rw_32 mtime;
+ 
+    _REG_(SIO_MTIMEH_OFFSET) // SIO_MTIMEH
+    // Read/write access to the high half of RISC-V Machine-mode timer
+    // 0xffffffff [31:0]  MTIMEH       (0x00000000) 
+    io_rw_32 mtimeh;
+ 
+    _REG_(SIO_MTIMECMP_OFFSET) // SIO_MTIMECMP
+    // Low half of RISC-V Machine-mode timer comparator
+    // 0xffffffff [31:0]  MTIMECMP     (0xffffffff) 
+    io_rw_32 mtimecmp;
+ 
+    _REG_(SIO_MTIMECMPH_OFFSET) // SIO_MTIMECMPH
+    // High half of RISC-V Machine-mode timer comparator
+    // 0xffffffff [31:0]  MTIMECMPH    (0xffffffff) 
+    io_rw_32 mtimecmph;
+ 
+    _REG_(SIO_TMDS_CTRL_OFFSET) // SIO_TMDS_CTRL
+    // Control register for TMDS encoder
+    // 0x10000000 [28]    CLEAR_BALANCE (0) Clear the running DC balance state of the TMDS encoders
+    // 0x08000000 [27]    PIX2_NOSHIFT (0) When encoding two pixels's worth of symbols in one cycle...
+    // 0x07000000 [26:24] PIX_SHIFT    (0x0) Shift applied to the colour data register with each read...
+    // 0x00800000 [23]    INTERLEAVE   (0) Enable lane interleaving for reads of PEEK_SINGLE/POP_SINGLE
+    // 0x001c0000 [20:18] L2_NBITS     (0x0) Number of valid colour MSBs for lane 2 (1-8 bits,...
+    // 0x00038000 [17:15] L1_NBITS     (0x0) Number of valid colour MSBs for lane 1 (1-8 bits,...
+    // 0x00007000 [14:12] L0_NBITS     (0x0) Number of valid colour MSBs for lane 0 (1-8 bits,...
+    // 0x00000f00 [11:8]  L2_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    // 0x000000f0 [7:4]   L1_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    // 0x0000000f [3:0]   L0_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    io_rw_32 tmds_ctrl;
+ 
+    _REG_(SIO_TMDS_WDATA_OFFSET) // SIO_TMDS_WDATA
+    // Write-only access to the TMDS colour data register
+    // 0xffffffff [31:0]  TMDS_WDATA   (0x00000000) 
+    io_wo_32 tmds_wdata;
+ 
+    _REG_(SIO_TMDS_PEEK_SINGLE_OFFSET) // SIO_TMDS_PEEK_SINGLE
+    // Get the encoding of one pixel's worth of colour data, packed into a 32-bit value (3x10-bit symbols)
+    // 0xffffffff [31:0]  TMDS_PEEK_SINGLE (0x00000000) 
+    io_ro_32 tmds_peek_single;
+ 
+    _REG_(SIO_TMDS_POP_SINGLE_OFFSET) // SIO_TMDS_POP_SINGLE
+    // Get the encoding of one pixel's worth of colour data, packed into a 32-bit value
+    // 0xffffffff [31:0]  TMDS_POP_SINGLE (0x00000000) 
+    io_ro_32 tmds_pop_single;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L0_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L0
+    // Get lane 0 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L0 (0x00000000) 
+    io_ro_32 tmds_peek_double_l0;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L0_OFFSET) // SIO_TMDS_POP_DOUBLE_L0
+    // Get lane 0 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L0 (0x00000000) 
+    io_ro_32 tmds_pop_double_l0;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L1_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L1
+    // Get lane 1 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L1 (0x00000000) 
+    io_ro_32 tmds_peek_double_l1;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L1_OFFSET) // SIO_TMDS_POP_DOUBLE_L1
+    // Get lane 1 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L1 (0x00000000) 
+    io_ro_32 tmds_pop_double_l1;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L2_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L2
+    // Get lane 2 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L2 (0x00000000) 
+    io_ro_32 tmds_peek_double_l2;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L2_OFFSET) // SIO_TMDS_POP_DOUBLE_L2
+    // Get lane 2 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L2 (0x00000000) 
+    io_ro_32 tmds_pop_double_l2;
+} sio_hw_t;
+
+#define sio_hw ((sio_hw_t *)SIO_BASE)
+#define sio_ns_hw ((sio_hw_t *)SIO_NONSEC_BASE)
+static_assert(sizeof (sio_hw_t) == 0x01e8, "");
+
+#endif // _HARDWARE_STRUCTS_SIO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/spi.h b/lib/pico-sdk/rp2350/hardware/structs/spi.h
new file mode 100644
index 0000000..454128e
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/spi.h
@@ -0,0 +1,105 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SPI_H
+#define _HARDWARE_STRUCTS_SPI_H
+
+/**
+ * \file rp2350/spi.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/spi.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_spi
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/spi.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SPI_SSPCR0_OFFSET) // SPI_SSPCR0
+    // Control register 0, SSPCR0 on page 3-4
+    // 0x0000ff00 [15:8]  SCR          (0x00) Serial clock rate
+    // 0x00000080 [7]     SPH          (0) SSPCLKOUT phase, applicable to Motorola SPI frame format only
+    // 0x00000040 [6]     SPO          (0) SSPCLKOUT polarity, applicable to Motorola SPI frame format only
+    // 0x00000030 [5:4]   FRF          (0x0) Frame format: 00 Motorola SPI frame format
+    // 0x0000000f [3:0]   DSS          (0x0) Data Size Select: 0000 Reserved, undefined operation
+    io_rw_32 cr0;
+ 
+    _REG_(SPI_SSPCR1_OFFSET) // SPI_SSPCR1
+    // Control register 1, SSPCR1 on page 3-5
+    // 0x00000008 [3]     SOD          (0) Slave-mode output disable
+    // 0x00000004 [2]     MS           (0) Master or slave mode select
+    // 0x00000002 [1]     SSE          (0) Synchronous serial port enable: 0 SSP operation disabled
+    // 0x00000001 [0]     LBM          (0) Loop back mode: 0 Normal serial port operation enabled
+    io_rw_32 cr1;
+ 
+    _REG_(SPI_SSPDR_OFFSET) // SPI_SSPDR
+    // Data register, SSPDR on page 3-6
+    // 0x0000ffff [15:0]  DATA         (-) Transmit/Receive FIFO: Read Receive FIFO
+    io_rw_32 dr;
+ 
+    _REG_(SPI_SSPSR_OFFSET) // SPI_SSPSR
+    // Status register, SSPSR on page 3-7
+    // 0x00000010 [4]     BSY          (0) PrimeCell SSP busy flag, RO: 0 SSP is idle
+    // 0x00000008 [3]     RFF          (0) Receive FIFO full, RO: 0 Receive FIFO is not full
+    // 0x00000004 [2]     RNE          (0) Receive FIFO not empty, RO: 0 Receive FIFO is empty
+    // 0x00000002 [1]     TNF          (1) Transmit FIFO not full, RO: 0 Transmit FIFO is full
+    // 0x00000001 [0]     TFE          (1) Transmit FIFO empty, RO: 0 Transmit FIFO is not empty
+    io_ro_32 sr;
+ 
+    _REG_(SPI_SSPCPSR_OFFSET) // SPI_SSPCPSR
+    // Clock prescale register, SSPCPSR on page 3-8
+    // 0x000000ff [7:0]   CPSDVSR      (0x00) Clock prescale divisor
+    io_rw_32 cpsr;
+ 
+    _REG_(SPI_SSPIMSC_OFFSET) // SPI_SSPIMSC
+    // Interrupt mask set or clear register, SSPIMSC on page 3-9
+    // 0x00000008 [3]     TXIM         (0) Transmit FIFO interrupt mask: 0 Transmit FIFO half empty...
+    // 0x00000004 [2]     RXIM         (0) Receive FIFO interrupt mask: 0 Receive FIFO half full or...
+    // 0x00000002 [1]     RTIM         (0) Receive timeout interrupt mask: 0 Receive FIFO not empty...
+    // 0x00000001 [0]     RORIM        (0) Receive overrun interrupt mask: 0 Receive FIFO written...
+    io_rw_32 imsc;
+ 
+    _REG_(SPI_SSPRIS_OFFSET) // SPI_SSPRIS
+    // Raw interrupt status register, SSPRIS on page 3-10
+    // 0x00000008 [3]     TXRIS        (1) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000004 [2]     RXRIS        (0) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000002 [1]     RTRIS        (0) Gives the raw interrupt state, prior to masking, of the...
+    // 0x00000001 [0]     RORRIS       (0) Gives the raw interrupt state, prior to masking, of the...
+    io_ro_32 ris;
+ 
+    _REG_(SPI_SSPMIS_OFFSET) // SPI_SSPMIS
+    // Masked interrupt status register, SSPMIS on page 3-11
+    // 0x00000008 [3]     TXMIS        (0) Gives the transmit FIFO masked interrupt state, after...
+    // 0x00000004 [2]     RXMIS        (0) Gives the receive FIFO masked interrupt state, after...
+    // 0x00000002 [1]     RTMIS        (0) Gives the receive timeout masked interrupt state, after...
+    // 0x00000001 [0]     RORMIS       (0) Gives the receive over run masked interrupt status,...
+    io_ro_32 mis;
+ 
+    _REG_(SPI_SSPICR_OFFSET) // SPI_SSPICR
+    // Interrupt clear register, SSPICR on page 3-11
+    // 0x00000002 [1]     RTIC         (0) Clears the SSPRTINTR interrupt
+    // 0x00000001 [0]     RORIC        (0) Clears the SSPRORINTR interrupt
+    io_rw_32 icr;
+ 
+    _REG_(SPI_SSPDMACR_OFFSET) // SPI_SSPDMACR
+    // DMA control register, SSPDMACR on page 3-12
+    // 0x00000002 [1]     TXDMAE       (0) Transmit DMA Enable
+    // 0x00000001 [0]     RXDMAE       (0) Receive DMA Enable
+    io_rw_32 dmacr;
+} spi_hw_t;
+
+#define spi0_hw ((spi_hw_t *)SPI0_BASE)
+#define spi1_hw ((spi_hw_t *)SPI1_BASE)
+static_assert(sizeof (spi_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_SPI_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/syscfg.h b/lib/pico-sdk/rp2350/hardware/structs/syscfg.h
new file mode 100644
index 0000000..8909c0d
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/syscfg.h
@@ -0,0 +1,83 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSCFG_H
+#define _HARDWARE_STRUCTS_SYSCFG_H
+
+/**
+ * \file rp2350/syscfg.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/syscfg.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_syscfg
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/syscfg.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SYSCFG_PROC_CONFIG_OFFSET) // SYSCFG_PROC_CONFIG
+    // Configuration for processors
+    // 0x00000002 [1]     PROC1_HALTED (0) Indication that proc1 has halted
+    // 0x00000001 [0]     PROC0_HALTED (0) Indication that proc0 has halted
+    io_ro_32 proc_config;
+ 
+    _REG_(SYSCFG_PROC_IN_SYNC_BYPASS_OFFSET) // SYSCFG_PROC_IN_SYNC_BYPASS
+    // For each bit, if 1, bypass the input synchronizer between that GPIO +
+    // 0xffffffff [31:0]  GPIO         (0x00000000) 
+    io_rw_32 proc_in_sync_bypass;
+ 
+    _REG_(SYSCFG_PROC_IN_SYNC_BYPASS_HI_OFFSET) // SYSCFG_PROC_IN_SYNC_BYPASS_HI
+    // For each bit, if 1, bypass the input synchronizer between that GPIO +
+    // 0xf0000000 [31:28] QSPI_SD      (0x0) 
+    // 0x08000000 [27]    QSPI_CSN     (0) 
+    // 0x04000000 [26]    QSPI_SCK     (0) 
+    // 0x02000000 [25]    USB_DM       (0) 
+    // 0x01000000 [24]    USB_DP       (0) 
+    // 0x0000ffff [15:0]  GPIO         (0x0000) 
+    io_rw_32 proc_in_sync_bypass_hi;
+ 
+    _REG_(SYSCFG_DBGFORCE_OFFSET) // SYSCFG_DBGFORCE
+    // Directly control the chip SWD debug port
+    // 0x00000008 [3]     ATTACH       (0) Attach chip debug port to syscfg controls, and...
+    // 0x00000004 [2]     SWCLK        (1) Directly drive SWCLK, if ATTACH is set
+    // 0x00000002 [1]     SWDI         (1) Directly drive SWDIO input, if ATTACH is set
+    // 0x00000001 [0]     SWDO         (-) Observe the value of SWDIO output
+    io_rw_32 dbgforce;
+ 
+    _REG_(SYSCFG_MEMPOWERDOWN_OFFSET) // SYSCFG_MEMPOWERDOWN
+    // Control PD pins to memories
+    // 0x00001000 [12]    BOOTRAM      (0) 
+    // 0x00000800 [11]    ROM          (0) 
+    // 0x00000400 [10]    USB          (0) 
+    // 0x00000200 [9]     SRAM9        (0) 
+    // 0x00000100 [8]     SRAM8        (0) 
+    // 0x00000080 [7]     SRAM7        (0) 
+    // 0x00000040 [6]     SRAM6        (0) 
+    // 0x00000020 [5]     SRAM5        (0) 
+    // 0x00000010 [4]     SRAM4        (0) 
+    // 0x00000008 [3]     SRAM3        (0) 
+    // 0x00000004 [2]     SRAM2        (0) 
+    // 0x00000002 [1]     SRAM1        (0) 
+    // 0x00000001 [0]     SRAM0        (0) 
+    io_rw_32 mempowerdown;
+ 
+    _REG_(SYSCFG_AUXCTRL_OFFSET) // SYSCFG_AUXCTRL
+    // Auxiliary system control register
+    // 0x000000ff [7:0]   AUXCTRL      (0x00) * Bits 7:2: Reserved
+    io_rw_32 auxctrl;
+} syscfg_hw_t;
+
+#define syscfg_hw ((syscfg_hw_t *)SYSCFG_BASE)
+static_assert(sizeof (syscfg_hw_t) == 0x0018, "");
+
+#endif // _HARDWARE_STRUCTS_SYSCFG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/sysinfo.h b/lib/pico-sdk/rp2350/hardware/structs/sysinfo.h
new file mode 100644
index 0000000..688b577
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/sysinfo.h
@@ -0,0 +1,60 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSINFO_H
+#define _HARDWARE_STRUCTS_SYSINFO_H
+
+/**
+ * \file rp2350/sysinfo.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sysinfo.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_sysinfo
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sysinfo.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SYSINFO_CHIP_ID_OFFSET) // SYSINFO_CHIP_ID
+    // JEDEC JEP-106 compliant chip identifier
+    // 0xf0000000 [31:28] REVISION     (-) 
+    // 0x0ffff000 [27:12] PART         (-) 
+    // 0x00000ffe [11:1]  MANUFACTURER (-) 
+    // 0x00000001 [0]     STOP_BIT     (1) 
+    io_ro_32 chip_id;
+ 
+    _REG_(SYSINFO_PACKAGE_SEL_OFFSET) // SYSINFO_PACKAGE_SEL
+    // 0x00000001 [0]     PACKAGE_SEL  (0) 
+    io_ro_32 package_sel;
+ 
+    _REG_(SYSINFO_PLATFORM_OFFSET) // SYSINFO_PLATFORM
+    // Platform register
+    // 0x00000010 [4]     GATESIM      (-) 
+    // 0x00000008 [3]     BATCHSIM     (-) 
+    // 0x00000004 [2]     HDLSIM       (-) 
+    // 0x00000002 [1]     ASIC         (-) 
+    // 0x00000001 [0]     FPGA         (-) 
+    io_ro_32 platform;
+ 
+    uint32_t _pad0[2];
+ 
+    _REG_(SYSINFO_GITREF_RP2350_OFFSET) // SYSINFO_GITREF_RP2350
+    // Git hash of the chip source
+    // 0xffffffff [31:0]  GITREF_RP2350 (-) 
+    io_ro_32 gitref_rp2350;
+} sysinfo_hw_t;
+
+#define sysinfo_hw ((sysinfo_hw_t *)SYSINFO_BASE)
+static_assert(sizeof (sysinfo_hw_t) == 0x0018, "");
+
+#endif // _HARDWARE_STRUCTS_SYSINFO_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/systick.h b/lib/pico-sdk/rp2350/hardware/structs/systick.h
new file mode 100644
index 0000000..f6024b1
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/systick.h
@@ -0,0 +1,62 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_SYSTICK_H
+#define _HARDWARE_STRUCTS_SYSTICK_H
+
+/**
+ * \file rp2350/systick.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/m33.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_m33
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/m33.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+#if defined(__riscv) && PICO_FORBID_ARM_HEADERS_ON_RISCV
+#error "Arm header included in a RISC-V build with PICO_FORBID_ARM_HEADERS_ON_RISCV=1"
+#endif
+
+typedef struct {
+    _REG_(M33_SYST_CSR_OFFSET) // M33_SYST_CSR
+    // SysTick Control and Status Register
+    // 0x00010000 [16]    COUNTFLAG    (0) Returns 1 if timer counted to 0 since last time this was read
+    // 0x00000004 [2]     CLKSOURCE    (0) SysTick clock source
+    // 0x00000002 [1]     TICKINT      (0) Enables SysTick exception request: +
+    // 0x00000001 [0]     ENABLE       (0) Enable SysTick counter: +
+    io_rw_32 csr;
+ 
+    _REG_(M33_SYST_RVR_OFFSET) // M33_SYST_RVR
+    // SysTick Reload Value Register
+    // 0x00ffffff [23:0]  RELOAD       (0x000000) Value to load into the SysTick Current Value Register...
+    io_rw_32 rvr;
+ 
+    _REG_(M33_SYST_CVR_OFFSET) // M33_SYST_CVR
+    // SysTick Current Value Register
+    // 0x00ffffff [23:0]  CURRENT      (0x000000) Reads return the current value of the SysTick counter
+    io_rw_32 cvr;
+ 
+    _REG_(M33_SYST_CALIB_OFFSET) // M33_SYST_CALIB
+    // SysTick Calibration Value Register
+    // 0x80000000 [31]    NOREF        (0) If reads as 1, the Reference clock is not provided - the...
+    // 0x40000000 [30]    SKEW         (0) If reads as 1, the calibration value for 10ms is inexact...
+    // 0x00ffffff [23:0]  TENMS        (0x000000) An optional Reload value to be used for 10ms (100Hz)...
+    io_ro_32 calib;
+} systick_hw_t;
+
+#define systick_hw ((systick_hw_t *)(PPB_BASE + M33_SYST_CSR_OFFSET))
+#define systick_ns_hw ((systick_hw_t *)(PPB_NONSEC_BASE + M33_SYST_CSR_OFFSET))
+static_assert(sizeof (systick_hw_t) == 0x0010, "");
+
+#endif // _HARDWARE_STRUCTS_SYSTICK_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/tbman.h b/lib/pico-sdk/rp2350/hardware/structs/tbman.h
new file mode 100644
index 0000000..58d80dd
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/tbman.h
@@ -0,0 +1,39 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TBMAN_H
+#define _HARDWARE_STRUCTS_TBMAN_H
+
+/**
+ * \file rp2350/tbman.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/tbman.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_tbman
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/tbman.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(TBMAN_PLATFORM_OFFSET) // TBMAN_PLATFORM
+    // Indicates the type of platform in use
+    // 0x00000004 [2]     HDLSIM       (0) Indicates the platform is a simulation
+    // 0x00000002 [1]     FPGA         (0) Indicates the platform is an FPGA
+    // 0x00000001 [0]     ASIC         (1) Indicates the platform is an ASIC
+    io_ro_32 platform;
+} tbman_hw_t;
+
+#define tbman_hw ((tbman_hw_t *)TBMAN_BASE)
+static_assert(sizeof (tbman_hw_t) == 0x0004, "");
+
+#endif // _HARDWARE_STRUCTS_TBMAN_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/ticks.h b/lib/pico-sdk/rp2350/hardware/structs/ticks.h
new file mode 100644
index 0000000..b436484
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/ticks.h
@@ -0,0 +1,63 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TICKS_H
+#define _HARDWARE_STRUCTS_TICKS_H
+
+/**
+ * \file rp2350/ticks.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/ticks.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_ticks
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/ticks.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/*! \brief Tick generator numbers on RP2350 (used as typedef \ref tick_gen_num_t) 
+ *  \ingroup hardware_ticks
+ */
+typedef enum tick_gen_num_rp2350 {
+    TICK_PROC0 = 0,
+    TICK_PROC1 = 1,
+    TICK_TIMER0 = 2,
+    TICK_TIMER1 = 3,
+    TICK_WATCHDOG = 4,
+    TICK_RISCV = 5,
+    TICK_COUNT
+} tick_gen_num_t;
+
+typedef struct {
+    _REG_(TICKS_PROC0_CTRL_OFFSET) // TICKS_PROC0_CTRL
+    // Controls the tick generator
+    // 0x00000002 [1]     RUNNING      (-) Is the tick generator running?
+    // 0x00000001 [0]     ENABLE       (0) start / stop tick generation
+    io_rw_32 ctrl;
+ 
+    _REG_(TICKS_PROC0_CYCLES_OFFSET) // TICKS_PROC0_CYCLES
+    // 0x000001ff [8:0]   PROC0_CYCLES (0x000) Total number of clk_tick cycles before the next tick
+    io_rw_32 cycles;
+ 
+    _REG_(TICKS_PROC0_COUNT_OFFSET) // TICKS_PROC0_COUNT
+    // 0x000001ff [8:0]   PROC0_COUNT  (-) Count down timer: the remaining number clk_tick cycles...
+    io_ro_32 count;
+} ticks_slice_hw_t;
+
+typedef struct {
+    ticks_slice_hw_t ticks[6];
+} ticks_hw_t;
+
+#define ticks_hw ((ticks_hw_t *)TICKS_BASE)
+static_assert(sizeof (ticks_hw_t) == 0x0048, "");
+
+#endif // _HARDWARE_STRUCTS_TICKS_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/timer.h b/lib/pico-sdk/rp2350/hardware/structs/timer.h
new file mode 100644
index 0000000..978dd56
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/timer.h
@@ -0,0 +1,127 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TIMER_H
+#define _HARDWARE_STRUCTS_TIMER_H
+
+/**
+ * \file rp2350/timer.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/timer.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_timer
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/timer.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(TIMER_TIMEHW_OFFSET) // TIMER_TIMEHW
+    // Write to bits 63:32 of time always write timelw before timehw
+    // 0xffffffff [31:0]  TIMEHW       (0x00000000) 
+    io_wo_32 timehw;
+ 
+    _REG_(TIMER_TIMELW_OFFSET) // TIMER_TIMELW
+    // Write to bits 31:0 of time writes do not get copied to time until timehw is written
+    // 0xffffffff [31:0]  TIMELW       (0x00000000) 
+    io_wo_32 timelw;
+ 
+    _REG_(TIMER_TIMEHR_OFFSET) // TIMER_TIMEHR
+    // Read from bits 63:32 of time always read timelr before timehr
+    // 0xffffffff [31:0]  TIMEHR       (0x00000000) 
+    io_ro_32 timehr;
+ 
+    _REG_(TIMER_TIMELR_OFFSET) // TIMER_TIMELR
+    // Read from bits 31:0 of time
+    // 0xffffffff [31:0]  TIMELR       (0x00000000) 
+    io_ro_32 timelr;
+ 
+    // (Description copied from array index 0 register TIMER_ALARM0 applies similarly to other array indexes)
+    _REG_(TIMER_ALARM0_OFFSET) // TIMER_ALARM0
+    // Arm alarm 0, and configure the time it will fire
+    // 0xffffffff [31:0]  ALARM0       (0x00000000) 
+    io_rw_32 alarm[4];
+ 
+    _REG_(TIMER_ARMED_OFFSET) // TIMER_ARMED
+    // Indicates the armed/disarmed status of each alarm
+    // 0x0000000f [3:0]   ARMED        (0x0) 
+    io_rw_32 armed;
+ 
+    _REG_(TIMER_TIMERAWH_OFFSET) // TIMER_TIMERAWH
+    // Raw read from bits 63:32 of time (no side effects)
+    // 0xffffffff [31:0]  TIMERAWH     (0x00000000) 
+    io_ro_32 timerawh;
+ 
+    _REG_(TIMER_TIMERAWL_OFFSET) // TIMER_TIMERAWL
+    // Raw read from bits 31:0 of time (no side effects)
+    // 0xffffffff [31:0]  TIMERAWL     (0x00000000) 
+    io_ro_32 timerawl;
+ 
+    _REG_(TIMER_DBGPAUSE_OFFSET) // TIMER_DBGPAUSE
+    // Set bits high to enable pause when the corresponding debug ports are active
+    // 0x00000004 [2]     DBG1         (1) Pause when processor 1 is in debug mode
+    // 0x00000002 [1]     DBG0         (1) Pause when processor 0 is in debug mode
+    io_rw_32 dbgpause;
+ 
+    _REG_(TIMER_PAUSE_OFFSET) // TIMER_PAUSE
+    // Set high to pause the timer
+    // 0x00000001 [0]     PAUSE        (0) 
+    io_rw_32 pause;
+ 
+    _REG_(TIMER_LOCKED_OFFSET) // TIMER_LOCKED
+    // Set locked bit to disable write access to timer Once set, cannot be cleared (without a reset)
+    // 0x00000001 [0]     LOCKED       (0) 
+    io_rw_32 locked;
+ 
+    _REG_(TIMER_SOURCE_OFFSET) // TIMER_SOURCE
+    // Selects the source for the timer
+    // 0x00000001 [0]     CLK_SYS      (0) 
+    io_rw_32 source;
+ 
+    _REG_(TIMER_INTR_OFFSET) // TIMER_INTR
+    // Raw Interrupts
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 intr;
+ 
+    _REG_(TIMER_INTE_OFFSET) // TIMER_INTE
+    // Interrupt Enable
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 inte;
+ 
+    _REG_(TIMER_INTF_OFFSET) // TIMER_INTF
+    // Interrupt Force
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_rw_32 intf;
+ 
+    _REG_(TIMER_INTS_OFFSET) // TIMER_INTS
+    // Interrupt status after masking & forcing
+    // 0x00000008 [3]     ALARM_3      (0) 
+    // 0x00000004 [2]     ALARM_2      (0) 
+    // 0x00000002 [1]     ALARM_1      (0) 
+    // 0x00000001 [0]     ALARM_0      (0) 
+    io_ro_32 ints;
+} timer_hw_t;
+
+#define timer0_hw ((timer_hw_t *)TIMER0_BASE)
+#define timer1_hw ((timer_hw_t *)TIMER1_BASE)
+static_assert(sizeof (timer_hw_t) == 0x004c, "");
+
+#endif // _HARDWARE_STRUCTS_TIMER_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/tmds_encode.h b/lib/pico-sdk/rp2350/hardware/structs/tmds_encode.h
new file mode 100644
index 0000000..c1213af
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/tmds_encode.h
@@ -0,0 +1,92 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TMDS_ENCODE_H
+#define _HARDWARE_STRUCTS_TMDS_ENCODE_H
+
+/**
+ * \file rp2350/tmds_encode.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/sio.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_sio
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/sio.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(SIO_TMDS_CTRL_OFFSET) // SIO_TMDS_CTRL
+    // Control register for TMDS encoder
+    // 0x10000000 [28]    CLEAR_BALANCE (0) Clear the running DC balance state of the TMDS encoders
+    // 0x08000000 [27]    PIX2_NOSHIFT (0) When encoding two pixels's worth of symbols in one cycle...
+    // 0x07000000 [26:24] PIX_SHIFT    (0x0) Shift applied to the colour data register with each read...
+    // 0x00800000 [23]    INTERLEAVE   (0) Enable lane interleaving for reads of PEEK_SINGLE/POP_SINGLE
+    // 0x001c0000 [20:18] L2_NBITS     (0x0) Number of valid colour MSBs for lane 2 (1-8 bits,...
+    // 0x00038000 [17:15] L1_NBITS     (0x0) Number of valid colour MSBs for lane 1 (1-8 bits,...
+    // 0x00007000 [14:12] L0_NBITS     (0x0) Number of valid colour MSBs for lane 0 (1-8 bits,...
+    // 0x00000f00 [11:8]  L2_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    // 0x000000f0 [7:4]   L1_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    // 0x0000000f [3:0]   L0_ROT       (0x0) Right-rotate the 16 LSBs of the colour accumulator by...
+    io_rw_32 tmds_ctrl;
+ 
+    _REG_(SIO_TMDS_WDATA_OFFSET) // SIO_TMDS_WDATA
+    // Write-only access to the TMDS colour data register
+    // 0xffffffff [31:0]  TMDS_WDATA   (0x00000000) 
+    io_wo_32 tmds_wdata;
+ 
+    _REG_(SIO_TMDS_PEEK_SINGLE_OFFSET) // SIO_TMDS_PEEK_SINGLE
+    // Get the encoding of one pixel's worth of colour data, packed into a 32-bit value (3x10-bit symbols)
+    // 0xffffffff [31:0]  TMDS_PEEK_SINGLE (0x00000000) 
+    io_ro_32 tmds_peek_single;
+ 
+    _REG_(SIO_TMDS_POP_SINGLE_OFFSET) // SIO_TMDS_POP_SINGLE
+    // Get the encoding of one pixel's worth of colour data, packed into a 32-bit value
+    // 0xffffffff [31:0]  TMDS_POP_SINGLE (0x00000000) 
+    io_ro_32 tmds_pop_single;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L0_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L0
+    // Get lane 0 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L0 (0x00000000) 
+    io_ro_32 tmds_peek_double_l0;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L0_OFFSET) // SIO_TMDS_POP_DOUBLE_L0
+    // Get lane 0 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L0 (0x00000000) 
+    io_ro_32 tmds_pop_double_l0;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L1_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L1
+    // Get lane 1 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L1 (0x00000000) 
+    io_ro_32 tmds_peek_double_l1;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L1_OFFSET) // SIO_TMDS_POP_DOUBLE_L1
+    // Get lane 1 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L1 (0x00000000) 
+    io_ro_32 tmds_pop_double_l1;
+ 
+    _REG_(SIO_TMDS_PEEK_DOUBLE_L2_OFFSET) // SIO_TMDS_PEEK_DOUBLE_L2
+    // Get lane 2 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_PEEK_DOUBLE_L2 (0x00000000) 
+    io_ro_32 tmds_peek_double_l2;
+ 
+    _REG_(SIO_TMDS_POP_DOUBLE_L2_OFFSET) // SIO_TMDS_POP_DOUBLE_L2
+    // Get lane 2 of the encoding of two pixels' worth of colour data
+    // 0xffffffff [31:0]  TMDS_POP_DOUBLE_L2 (0x00000000) 
+    io_ro_32 tmds_pop_double_l2;
+} tmds_encode_hw_t;
+
+#define tmds_encode_hw ((tmds_encode_hw_t *)(SIO_BASE + SIO_TMDS_CTRL_OFFSET))
+#define tmds_encode_ns_hw ((tmds_encode_hw_t *)(SIO_NONSEC_BASE + SIO_TMDS_CTRL_OFFSET))
+static_assert(sizeof (tmds_encode_hw_t) == 0x0028, "");
+
+#endif // _HARDWARE_STRUCTS_TMDS_ENCODE_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/trng.h b/lib/pico-sdk/rp2350/hardware/structs/trng.h
new file mode 100644
index 0000000..5ae5929
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/trng.h
@@ -0,0 +1,153 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_TRNG_H
+#define _HARDWARE_STRUCTS_TRNG_H
+
+/**
+ * \file rp2350/trng.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/trng.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_trng
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/trng.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(TRNG_RNG_IMR_OFFSET) // TRNG_RNG_IMR
+    // Interrupt masking
+    // 0xfffffff0 [31:4]  RESERVED     (0x0000000) RESERVED
+    // 0x00000008 [3]     VN_ERR_INT_MASK (1) 1'b1-mask interrupt, no interrupt will be generated
+    // 0x00000004 [2]     CRNGT_ERR_INT_MASK (1) 1'b1-mask interrupt, no interrupt will be generated
+    // 0x00000002 [1]     AUTOCORR_ERR_INT_MASK (1) 1'b1-mask interrupt, no interrupt will be generated
+    // 0x00000001 [0]     EHR_VALID_INT_MASK (1) 1'b1-mask interrupt, no interrupt will be generated
+    io_rw_32 rng_imr;
+ 
+    _REG_(TRNG_RNG_ISR_OFFSET) // TRNG_RNG_ISR
+    // RNG status register
+    // 0xfffffff0 [31:4]  RESERVED     (0x0000000) RESERVED
+    // 0x00000008 [3]     VN_ERR       (0) 1'b1 indicates Von Neuman error
+    // 0x00000004 [2]     CRNGT_ERR    (0) 1'b1 indicates CRNGT in the RNG test failed
+    // 0x00000002 [1]     AUTOCORR_ERR (0) 1'b1 indicates Autocorrelation test failed four times in a row
+    // 0x00000001 [0]     EHR_VALID    (0) 1'b1 indicates that 192 bits have been collected in the...
+    io_ro_32 rng_isr;
+ 
+    _REG_(TRNG_RNG_ICR_OFFSET) // TRNG_RNG_ICR
+    // Interrupt/status bit clear Register
+    // 0xfffffff0 [31:4]  RESERVED     (0x0000000) RESERVED
+    // 0x00000008 [3]     VN_ERR       (0) Write 1'b1 - clear corresponding bit in RNG_ISR
+    // 0x00000004 [2]     CRNGT_ERR    (0) Write 1'b1 - clear corresponding bit in RNG_ISR
+    // 0x00000002 [1]     AUTOCORR_ERR (0) Cannot be cleared by SW! Only RNG reset clears this bit
+    // 0x00000001 [0]     EHR_VALID    (0) Write 1'b1 - clear corresponding bit in RNG_ISR
+    io_rw_32 rng_icr;
+ 
+    _REG_(TRNG_TRNG_CONFIG_OFFSET) // TRNG_TRNG_CONFIG
+    // Selecting the inverter-chain length
+    // 0xfffffffc [31:2]  RESERVED     (0x00000000) RESERVED
+    // 0x00000003 [1:0]   RND_SRC_SEL  (0x0) Selects the number of inverters (out of four possible...
+    io_rw_32 trng_config;
+ 
+    _REG_(TRNG_TRNG_VALID_OFFSET) // TRNG_TRNG_VALID
+    // 192 bit collection indication
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     EHR_VALID    (0) 1'b1 indicates that collection of bits in the RNG is...
+    io_ro_32 trng_valid;
+ 
+    // (Description copied from array index 0 register TRNG_EHR_DATA0 applies similarly to other array indexes)
+    _REG_(TRNG_EHR_DATA0_OFFSET) // TRNG_EHR_DATA0
+    // RNG collected bits
+    // 0xffffffff [31:0]  EHR_DATA0    (0x00000000) Bits [31:0] of Entropy Holding Register (EHR) - RNG...
+    io_ro_32 ehr_data[6];
+ 
+    _REG_(TRNG_RND_SOURCE_ENABLE_OFFSET) // TRNG_RND_SOURCE_ENABLE
+    // Enable signal for the random source
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     RND_SRC_EN   (0) * 1'b1 - entropy source is enabled
+    io_rw_32 rnd_source_enable;
+ 
+    _REG_(TRNG_SAMPLE_CNT1_OFFSET) // TRNG_SAMPLE_CNT1
+    // Counts clocks between sampling of random bit
+    // 0xffffffff [31:0]  SAMPLE_CNTR1 (0x0000ffff) Sets the number of rng_clk cycles between two...
+    io_rw_32 sample_cnt1;
+ 
+    _REG_(TRNG_AUTOCORR_STATISTIC_OFFSET) // TRNG_AUTOCORR_STATISTIC
+    // Statistic about Autocorrelation test activations
+    // 0xffc00000 [31:22] RESERVED     (0x000) RESERVED
+    // 0x003fc000 [21:14] AUTOCORR_FAILS (0x00) Count each time an autocorrelation test fails
+    // 0x00003fff [13:0]  AUTOCORR_TRYS (0x0000) Count each time an autocorrelation test starts
+    io_rw_32 autocorr_statistic;
+ 
+    _REG_(TRNG_TRNG_DEBUG_CONTROL_OFFSET) // TRNG_TRNG_DEBUG_CONTROL
+    // Debug register
+    // 0x00000008 [3]     AUTO_CORRELATE_BYPASS (0) When set, the autocorrelation test in the TRNG module is bypassed
+    // 0x00000004 [2]     TRNG_CRNGT_BYPASS (0) When set, the CRNGT test in the RNG is bypassed
+    // 0x00000002 [1]     VNC_BYPASS   (0) When set, the Von-Neuman balancer is bypassed (including...
+    // 0x00000001 [0]     RESERVED     (0) N/A
+    io_rw_32 trng_debug_control;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(TRNG_TRNG_SW_RESET_OFFSET) // TRNG_TRNG_SW_RESET
+    // Generate internal SW reset within the RNG block
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     TRNG_SW_RESET (0) Writing 1'b1 to this register causes an internal RNG reset
+    io_rw_32 trng_sw_reset;
+ 
+    uint32_t _pad1[28];
+ 
+    _REG_(TRNG_RNG_DEBUG_EN_INPUT_OFFSET) // TRNG_RNG_DEBUG_EN_INPUT
+    // Enable the RNG debug mode
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     RNG_DEBUG_EN (0) * 1'b1 - debug mode is enabled
+    io_rw_32 rng_debug_en_input;
+ 
+    _REG_(TRNG_TRNG_BUSY_OFFSET) // TRNG_TRNG_BUSY
+    // RNG Busy indication
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     TRNG_BUSY    (0) Reflects rng_busy status
+    io_ro_32 trng_busy;
+ 
+    _REG_(TRNG_RST_BITS_COUNTER_OFFSET) // TRNG_RST_BITS_COUNTER
+    // Reset the counter of collected bits in the RNG
+    // 0xfffffffe [31:1]  RESERVED     (0x00000000) RESERVED
+    // 0x00000001 [0]     RST_BITS_COUNTER (0) Writing any value to this address will reset the bits...
+    io_rw_32 rst_bits_counter;
+ 
+    _REG_(TRNG_RNG_VERSION_OFFSET) // TRNG_RNG_VERSION
+    // Displays the version settings of the TRNG
+    // 0xffffff00 [31:8]  RESERVED     (0x000000) RESERVED
+    // 0x00000080 [7]     RNG_USE_5_SBOXES (0) * 1'b1 - 5 SBOX AES
+    // 0x00000040 [6]     RESEEDING_EXISTS (0) * 1'b1 - Exists
+    // 0x00000020 [5]     KAT_EXISTS   (0) * 1'b1 - Exists
+    // 0x00000010 [4]     PRNG_EXISTS  (0) * 1'b1 - Exists
+    // 0x00000008 [3]     TRNG_TESTS_BYPASS_EN (0) * 1'b1 - Exists
+    // 0x00000004 [2]     AUTOCORR_EXISTS (0) * 1'b1 - Exists
+    // 0x00000002 [1]     CRNGT_EXISTS (0) * 1'b1 - Exists
+    // 0x00000001 [0]     EHR_WIDTH_192 (0) * 1'b1 - 192-bit EHR
+    io_ro_32 rng_version;
+ 
+    uint32_t _pad2[7];
+ 
+    // (Description copied from array index 0 register TRNG_RNG_BIST_CNTR_0 applies similarly to other array indexes)
+    _REG_(TRNG_RNG_BIST_CNTR_0_OFFSET) // TRNG_RNG_BIST_CNTR_0
+    // Collected BIST results
+    // 0xffc00000 [31:22] RESERVED     (0x000) RESERVED
+    // 0x003fffff [21:0]  ROSC_CNTR_VAL (0x000000) Reflects the results of RNG BIST counter
+    io_ro_32 rng_bist_cntr[3];
+} trng_hw_t;
+
+#define trng_hw ((trng_hw_t *)(TRNG_BASE + TRNG_RNG_IMR_OFFSET))
+static_assert(sizeof (trng_hw_t) == 0x00ec, "");
+
+#endif // _HARDWARE_STRUCTS_TRNG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/uart.h b/lib/pico-sdk/rp2350/hardware/structs/uart.h
new file mode 100644
index 0000000..47ff324
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/uart.h
@@ -0,0 +1,182 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_UART_H
+#define _HARDWARE_STRUCTS_UART_H
+
+/**
+ * \file rp2350/uart.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/uart.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_uart
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/uart.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(UART_UARTDR_OFFSET) // UART_UARTDR
+    // Data Register, UARTDR
+    // 0x00000800 [11]    OE           (-) Overrun error
+    // 0x00000400 [10]    BE           (-) Break error
+    // 0x00000200 [9]     PE           (-) Parity error
+    // 0x00000100 [8]     FE           (-) Framing error
+    // 0x000000ff [7:0]   DATA         (-) Receive (read) data character
+    io_rw_32 dr;
+ 
+    _REG_(UART_UARTRSR_OFFSET) // UART_UARTRSR
+    // Receive Status Register/Error Clear Register, UARTRSR/UARTECR
+    // 0x00000008 [3]     OE           (0) Overrun error
+    // 0x00000004 [2]     BE           (0) Break error
+    // 0x00000002 [1]     PE           (0) Parity error
+    // 0x00000001 [0]     FE           (0) Framing error
+    io_rw_32 rsr;
+ 
+    uint32_t _pad0[4];
+ 
+    _REG_(UART_UARTFR_OFFSET) // UART_UARTFR
+    // Flag Register, UARTFR
+    // 0x00000100 [8]     RI           (-) Ring indicator
+    // 0x00000080 [7]     TXFE         (1) Transmit FIFO empty
+    // 0x00000040 [6]     RXFF         (0) Receive FIFO full
+    // 0x00000020 [5]     TXFF         (0) Transmit FIFO full
+    // 0x00000010 [4]     RXFE         (1) Receive FIFO empty
+    // 0x00000008 [3]     BUSY         (0) UART busy
+    // 0x00000004 [2]     DCD          (-) Data carrier detect
+    // 0x00000002 [1]     DSR          (-) Data set ready
+    // 0x00000001 [0]     CTS          (-) Clear to send
+    io_ro_32 fr;
+ 
+    uint32_t _pad1;
+ 
+    _REG_(UART_UARTILPR_OFFSET) // UART_UARTILPR
+    // IrDA Low-Power Counter Register, UARTILPR
+    // 0x000000ff [7:0]   ILPDVSR      (0x00) 8-bit low-power divisor value
+    io_rw_32 ilpr;
+ 
+    _REG_(UART_UARTIBRD_OFFSET) // UART_UARTIBRD
+    // Integer Baud Rate Register, UARTIBRD
+    // 0x0000ffff [15:0]  BAUD_DIVINT  (0x0000) The integer baud rate divisor
+    io_rw_32 ibrd;
+ 
+    _REG_(UART_UARTFBRD_OFFSET) // UART_UARTFBRD
+    // Fractional Baud Rate Register, UARTFBRD
+    // 0x0000003f [5:0]   BAUD_DIVFRAC (0x00) The fractional baud rate divisor
+    io_rw_32 fbrd;
+ 
+    _REG_(UART_UARTLCR_H_OFFSET) // UART_UARTLCR_H
+    // Line Control Register, UARTLCR_H
+    // 0x00000080 [7]     SPS          (0) Stick parity select
+    // 0x00000060 [6:5]   WLEN         (0x0) Word length
+    // 0x00000010 [4]     FEN          (0) Enable FIFOs: 0 = FIFOs are disabled (character mode)...
+    // 0x00000008 [3]     STP2         (0) Two stop bits select
+    // 0x00000004 [2]     EPS          (0) Even parity select
+    // 0x00000002 [1]     PEN          (0) Parity enable: 0 = parity is disabled and no parity bit...
+    // 0x00000001 [0]     BRK          (0) Send break
+    io_rw_32 lcr_h;
+ 
+    _REG_(UART_UARTCR_OFFSET) // UART_UARTCR
+    // Control Register, UARTCR
+    // 0x00008000 [15]    CTSEN        (0) CTS hardware flow control enable
+    // 0x00004000 [14]    RTSEN        (0) RTS hardware flow control enable
+    // 0x00002000 [13]    OUT2         (0) This bit is the complement of the UART Out2 (nUARTOut2)...
+    // 0x00001000 [12]    OUT1         (0) This bit is the complement of the UART Out1 (nUARTOut1)...
+    // 0x00000800 [11]    RTS          (0) Request to send
+    // 0x00000400 [10]    DTR          (0) Data transmit ready
+    // 0x00000200 [9]     RXE          (1) Receive enable
+    // 0x00000100 [8]     TXE          (1) Transmit enable
+    // 0x00000080 [7]     LBE          (0) Loopback enable
+    // 0x00000004 [2]     SIRLP        (0) SIR low-power IrDA mode
+    // 0x00000002 [1]     SIREN        (0) SIR enable: 0 = IrDA SIR ENDEC is disabled
+    // 0x00000001 [0]     UARTEN       (0) UART enable: 0 = UART is disabled
+    io_rw_32 cr;
+ 
+    _REG_(UART_UARTIFLS_OFFSET) // UART_UARTIFLS
+    // Interrupt FIFO Level Select Register, UARTIFLS
+    // 0x00000038 [5:3]   RXIFLSEL     (0x2) Receive interrupt FIFO level select
+    // 0x00000007 [2:0]   TXIFLSEL     (0x2) Transmit interrupt FIFO level select
+    io_rw_32 ifls;
+ 
+    _REG_(UART_UARTIMSC_OFFSET) // UART_UARTIMSC
+    // Interrupt Mask Set/Clear Register, UARTIMSC
+    // 0x00000400 [10]    OEIM         (0) Overrun error interrupt mask
+    // 0x00000200 [9]     BEIM         (0) Break error interrupt mask
+    // 0x00000100 [8]     PEIM         (0) Parity error interrupt mask
+    // 0x00000080 [7]     FEIM         (0) Framing error interrupt mask
+    // 0x00000040 [6]     RTIM         (0) Receive timeout interrupt mask
+    // 0x00000020 [5]     TXIM         (0) Transmit interrupt mask
+    // 0x00000010 [4]     RXIM         (0) Receive interrupt mask
+    // 0x00000008 [3]     DSRMIM       (0) nUARTDSR modem interrupt mask
+    // 0x00000004 [2]     DCDMIM       (0) nUARTDCD modem interrupt mask
+    // 0x00000002 [1]     CTSMIM       (0) nUARTCTS modem interrupt mask
+    // 0x00000001 [0]     RIMIM        (0) nUARTRI modem interrupt mask
+    io_rw_32 imsc;
+ 
+    _REG_(UART_UARTRIS_OFFSET) // UART_UARTRIS
+    // Raw Interrupt Status Register, UARTRIS
+    // 0x00000400 [10]    OERIS        (0) Overrun error interrupt status
+    // 0x00000200 [9]     BERIS        (0) Break error interrupt status
+    // 0x00000100 [8]     PERIS        (0) Parity error interrupt status
+    // 0x00000080 [7]     FERIS        (0) Framing error interrupt status
+    // 0x00000040 [6]     RTRIS        (0) Receive timeout interrupt status
+    // 0x00000020 [5]     TXRIS        (0) Transmit interrupt status
+    // 0x00000010 [4]     RXRIS        (0) Receive interrupt status
+    // 0x00000008 [3]     DSRRMIS      (-) nUARTDSR modem interrupt status
+    // 0x00000004 [2]     DCDRMIS      (-) nUARTDCD modem interrupt status
+    // 0x00000002 [1]     CTSRMIS      (-) nUARTCTS modem interrupt status
+    // 0x00000001 [0]     RIRMIS       (-) nUARTRI modem interrupt status
+    io_ro_32 ris;
+ 
+    _REG_(UART_UARTMIS_OFFSET) // UART_UARTMIS
+    // Masked Interrupt Status Register, UARTMIS
+    // 0x00000400 [10]    OEMIS        (0) Overrun error masked interrupt status
+    // 0x00000200 [9]     BEMIS        (0) Break error masked interrupt status
+    // 0x00000100 [8]     PEMIS        (0) Parity error masked interrupt status
+    // 0x00000080 [7]     FEMIS        (0) Framing error masked interrupt status
+    // 0x00000040 [6]     RTMIS        (0) Receive timeout masked interrupt status
+    // 0x00000020 [5]     TXMIS        (0) Transmit masked interrupt status
+    // 0x00000010 [4]     RXMIS        (0) Receive masked interrupt status
+    // 0x00000008 [3]     DSRMMIS      (-) nUARTDSR modem masked interrupt status
+    // 0x00000004 [2]     DCDMMIS      (-) nUARTDCD modem masked interrupt status
+    // 0x00000002 [1]     CTSMMIS      (-) nUARTCTS modem masked interrupt status
+    // 0x00000001 [0]     RIMMIS       (-) nUARTRI modem masked interrupt status
+    io_ro_32 mis;
+ 
+    _REG_(UART_UARTICR_OFFSET) // UART_UARTICR
+    // Interrupt Clear Register, UARTICR
+    // 0x00000400 [10]    OEIC         (-) Overrun error interrupt clear
+    // 0x00000200 [9]     BEIC         (-) Break error interrupt clear
+    // 0x00000100 [8]     PEIC         (-) Parity error interrupt clear
+    // 0x00000080 [7]     FEIC         (-) Framing error interrupt clear
+    // 0x00000040 [6]     RTIC         (-) Receive timeout interrupt clear
+    // 0x00000020 [5]     TXIC         (-) Transmit interrupt clear
+    // 0x00000010 [4]     RXIC         (-) Receive interrupt clear
+    // 0x00000008 [3]     DSRMIC       (-) nUARTDSR modem interrupt clear
+    // 0x00000004 [2]     DCDMIC       (-) nUARTDCD modem interrupt clear
+    // 0x00000002 [1]     CTSMIC       (-) nUARTCTS modem interrupt clear
+    // 0x00000001 [0]     RIMIC        (-) nUARTRI modem interrupt clear
+    io_rw_32 icr;
+ 
+    _REG_(UART_UARTDMACR_OFFSET) // UART_UARTDMACR
+    // DMA Control Register, UARTDMACR
+    // 0x00000004 [2]     DMAONERR     (0) DMA on error
+    // 0x00000002 [1]     TXDMAE       (0) Transmit DMA enable
+    // 0x00000001 [0]     RXDMAE       (0) Receive DMA enable
+    io_rw_32 dmacr;
+} uart_hw_t;
+
+#define uart0_hw ((uart_hw_t *)UART0_BASE)
+#define uart1_hw ((uart_hw_t *)UART1_BASE)
+static_assert(sizeof (uart_hw_t) == 0x004c, "");
+
+#endif // _HARDWARE_STRUCTS_UART_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/usb.h b/lib/pico-sdk/rp2350/hardware/structs/usb.h
new file mode 100644
index 0000000..1c6229b
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/usb.h
@@ -0,0 +1,602 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_USB_H
+#define _HARDWARE_STRUCTS_USB_H
+
+/**
+ * \file rp2350/usb.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/usb.h"
+#include "hardware/structs/usb_dpram.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_usb
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/usb.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(USB_ADDR_ENDP_OFFSET) // USB_ADDR_ENDP
+    // Device address and endpoint control
+    // 0x000f0000 [19:16] ENDPOINT     (0x0) Device endpoint to send data to
+    // 0x0000007f [6:0]   ADDRESS      (0x00) In device mode, the address that the device should respond to
+    io_rw_32 dev_addr_ctrl;
+ 
+    // (Description copied from array index 0 register USB_ADDR_ENDP1 applies similarly to other array indexes)
+    _REG_(USB_ADDR_ENDP1_OFFSET) // USB_ADDR_ENDP1
+    // Interrupt endpoint 1
+    // 0x04000000 [26]    INTEP_PREAMBLE (0) Interrupt EP requires preamble (is a low speed device on...
+    // 0x02000000 [25]    INTEP_DIR    (0) Direction of the interrupt endpoint
+    // 0x000f0000 [19:16] ENDPOINT     (0x0) Endpoint number of the interrupt endpoint
+    // 0x0000007f [6:0]   ADDRESS      (0x00) Device address
+    io_rw_32 int_ep_addr_ctrl[15];
+ 
+    _REG_(USB_MAIN_CTRL_OFFSET) // USB_MAIN_CTRL
+    // Main control register
+    // 0x80000000 [31]    SIM_TIMING   (0) Reduced timings for simulation
+    // 0x00000004 [2]     PHY_ISO      (1) Isolates USB phy after controller power-up +
+    // 0x00000002 [1]     HOST_NDEVICE (0) Device mode = 0, Host mode = 1
+    // 0x00000001 [0]     CONTROLLER_EN (0) Enable controller
+    io_rw_32 main_ctrl;
+ 
+    _REG_(USB_SOF_WR_OFFSET) // USB_SOF_WR
+    // Set the SOF (Start of Frame) frame number in the host controller
+    // 0x000007ff [10:0]  COUNT        (0x000) 
+    io_wo_32 sof_wr;
+ 
+    _REG_(USB_SOF_RD_OFFSET) // USB_SOF_RD
+    // Read the last SOF (Start of Frame) frame number seen
+    // 0x000007ff [10:0]  COUNT        (0x000) 
+    io_ro_32 sof_rd;
+ 
+    _REG_(USB_SIE_CTRL_OFFSET) // USB_SIE_CTRL
+    // SIE control register
+    // 0x80000000 [31]    EP0_INT_STALL (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a STALL
+    // 0x40000000 [30]    EP0_DOUBLE_BUF (0) Device: EP0 single buffered = 0, double buffered = 1
+    // 0x20000000 [29]    EP0_INT_1BUF (0) Device: Set bit in BUFF_STATUS for every buffer completed on EP0
+    // 0x10000000 [28]    EP0_INT_2BUF (0) Device: Set bit in BUFF_STATUS for every 2 buffers...
+    // 0x08000000 [27]    EP0_INT_NAK  (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a NAK
+    // 0x04000000 [26]    DIRECT_EN    (0) Direct bus drive enable
+    // 0x02000000 [25]    DIRECT_DP    (0) Direct control of DP
+    // 0x01000000 [24]    DIRECT_DM    (0) Direct control of DM
+    // 0x00080000 [19]    EP0_STOP_ON_SHORT_PACKET (0) Device: Stop EP0 on a short packet
+    // 0x00040000 [18]    TRANSCEIVER_PD (0) Power down bus transceiver
+    // 0x00020000 [17]    RPU_OPT      (0) Device: Pull-up strength (0=1K2, 1=2k3)
+    // 0x00010000 [16]    PULLUP_EN    (0) Device: Enable pull up resistor
+    // 0x00008000 [15]    PULLDOWN_EN  (1) Host: Enable pull down resistors
+    // 0x00002000 [13]    RESET_BUS    (0) Host: Reset bus
+    // 0x00001000 [12]    RESUME       (0) Device: Remote wakeup
+    // 0x00000800 [11]    VBUS_EN      (0) Host: Enable VBUS
+    // 0x00000400 [10]    KEEP_ALIVE_EN (0) Host: Enable keep alive packet (for low speed bus)
+    // 0x00000200 [9]     SOF_EN       (0) Host: Enable SOF generation (for full speed bus)
+    // 0x00000100 [8]     SOF_SYNC     (0) Host: Delay packet(s) until after SOF
+    // 0x00000040 [6]     PREAMBLE_EN  (0) Host: Preable enable for LS device on FS hub
+    // 0x00000010 [4]     STOP_TRANS   (0) Host: Stop transaction
+    // 0x00000008 [3]     RECEIVE_DATA (0) Host: Receive transaction (IN to host)
+    // 0x00000004 [2]     SEND_DATA    (0) Host: Send transaction (OUT from host)
+    // 0x00000002 [1]     SEND_SETUP   (0) Host: Send Setup packet
+    // 0x00000001 [0]     START_TRANS  (0) Host: Start transaction
+    io_rw_32 sie_ctrl;
+ 
+    _REG_(USB_SIE_STATUS_OFFSET) // USB_SIE_STATUS
+    // SIE status register
+    // 0x80000000 [31]    DATA_SEQ_ERROR (0) Data Sequence Error
+    // 0x40000000 [30]    ACK_REC      (0) ACK received
+    // 0x20000000 [29]    STALL_REC    (0) Host: STALL received
+    // 0x10000000 [28]    NAK_REC      (0) Host: NAK received
+    // 0x08000000 [27]    RX_TIMEOUT   (0) RX timeout is raised by both the host and device if an...
+    // 0x04000000 [26]    RX_OVERFLOW  (0) RX overflow is raised by the Serial RX engine if the...
+    // 0x02000000 [25]    BIT_STUFF_ERROR (0) Bit Stuff Error
+    // 0x01000000 [24]    CRC_ERROR    (0) CRC Error
+    // 0x00800000 [23]    ENDPOINT_ERROR (0) An endpoint has encountered an error
+    // 0x00080000 [19]    BUS_RESET    (0) Device: bus reset received
+    // 0x00040000 [18]    TRANS_COMPLETE (0) Transaction complete
+    // 0x00020000 [17]    SETUP_REC    (0) Device: Setup packet received
+    // 0x00010000 [16]    CONNECTED    (0) Device: connected
+    // 0x00001000 [12]    RX_SHORT_PACKET (0) Device or Host has received a short packet
+    // 0x00000800 [11]    RESUME       (0) Host: Device has initiated a remote resume
+    // 0x00000400 [10]    VBUS_OVER_CURR (0) VBUS over current detected
+    // 0x00000300 [9:8]   SPEED        (0x0) Host: device speed
+    // 0x00000010 [4]     SUSPENDED    (0) Bus in suspended state
+    // 0x0000000c [3:2]   LINE_STATE   (0x0) USB bus line state
+    // 0x00000001 [0]     VBUS_DETECTED (0) Device: VBUS Detected
+    io_rw_32 sie_status;
+ 
+    _REG_(USB_INT_EP_CTRL_OFFSET) // USB_INT_EP_CTRL
+    // interrupt endpoint control register
+    // 0x0000fffe [15:1]  INT_EP_ACTIVE (0x0000) Host: Enable interrupt endpoint 1 -> 15
+    io_rw_32 int_ep_ctrl;
+ 
+    _REG_(USB_BUFF_STATUS_OFFSET) // USB_BUFF_STATUS
+    // Buffer status register
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 buf_status;
+ 
+    _REG_(USB_BUFF_CPU_SHOULD_HANDLE_OFFSET) // USB_BUFF_CPU_SHOULD_HANDLE
+    // Which of the double buffers should be handled
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_ro_32 buf_cpu_should_handle;
+ 
+    _REG_(USB_EP_ABORT_OFFSET) // USB_EP_ABORT
+    // Device only: Can be set to ignore the buffer control register for this endpoint in case you...
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 abort;
+ 
+    _REG_(USB_EP_ABORT_DONE_OFFSET) // USB_EP_ABORT_DONE
+    // Device only: Used in conjunction with `EP_ABORT`
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 abort_done;
+ 
+    _REG_(USB_EP_STALL_ARM_OFFSET) // USB_EP_STALL_ARM
+    // Device: this bit must be set in conjunction with the `STALL` bit in the buffer control register...
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 ep_stall_arm;
+ 
+    _REG_(USB_NAK_POLL_OFFSET) // USB_NAK_POLL
+    // Used by the host controller
+    // 0xf0000000 [31:28] RETRY_COUNT_HI (0x0) Bits 9:6 of nak_retry count
+    // 0x08000000 [27]    EPX_STOPPED_ON_NAK (0) EPX polling has stopped because a nak was received
+    // 0x04000000 [26]    STOP_EPX_ON_NAK (0) Stop polling epx when a nak is received
+    // 0x03ff0000 [25:16] DELAY_FS     (0x010) NAK polling interval for a full speed device
+    // 0x0000fc00 [15:10] RETRY_COUNT_LO (0x00) Bits 5:0 of nak_retry_count
+    // 0x000003ff [9:0]   DELAY_LS     (0x010) NAK polling interval for a low speed device
+    io_rw_32 nak_poll;
+ 
+    _REG_(USB_EP_STATUS_STALL_NAK_OFFSET) // USB_EP_STATUS_STALL_NAK
+    // Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL` bits are set
+    // 0x80000000 [31]    EP15_OUT     (0) 
+    // 0x40000000 [30]    EP15_IN      (0) 
+    // 0x20000000 [29]    EP14_OUT     (0) 
+    // 0x10000000 [28]    EP14_IN      (0) 
+    // 0x08000000 [27]    EP13_OUT     (0) 
+    // 0x04000000 [26]    EP13_IN      (0) 
+    // 0x02000000 [25]    EP12_OUT     (0) 
+    // 0x01000000 [24]    EP12_IN      (0) 
+    // 0x00800000 [23]    EP11_OUT     (0) 
+    // 0x00400000 [22]    EP11_IN      (0) 
+    // 0x00200000 [21]    EP10_OUT     (0) 
+    // 0x00100000 [20]    EP10_IN      (0) 
+    // 0x00080000 [19]    EP9_OUT      (0) 
+    // 0x00040000 [18]    EP9_IN       (0) 
+    // 0x00020000 [17]    EP8_OUT      (0) 
+    // 0x00010000 [16]    EP8_IN       (0) 
+    // 0x00008000 [15]    EP7_OUT      (0) 
+    // 0x00004000 [14]    EP7_IN       (0) 
+    // 0x00002000 [13]    EP6_OUT      (0) 
+    // 0x00001000 [12]    EP6_IN       (0) 
+    // 0x00000800 [11]    EP5_OUT      (0) 
+    // 0x00000400 [10]    EP5_IN       (0) 
+    // 0x00000200 [9]     EP4_OUT      (0) 
+    // 0x00000100 [8]     EP4_IN       (0) 
+    // 0x00000080 [7]     EP3_OUT      (0) 
+    // 0x00000040 [6]     EP3_IN       (0) 
+    // 0x00000020 [5]     EP2_OUT      (0) 
+    // 0x00000010 [4]     EP2_IN       (0) 
+    // 0x00000008 [3]     EP1_OUT      (0) 
+    // 0x00000004 [2]     EP1_IN       (0) 
+    // 0x00000002 [1]     EP0_OUT      (0) 
+    // 0x00000001 [0]     EP0_IN       (0) 
+    io_rw_32 ep_nak_stall_status;
+ 
+    _REG_(USB_USB_MUXING_OFFSET) // USB_USB_MUXING
+    // Where to connect the USB controller
+    // 0x80000000 [31]    SWAP_DPDM    (0) Swap the USB PHY DP and DM pins and all related controls...
+    // 0x00000010 [4]     USBPHY_AS_GPIO (0) Use the usb DP and DM pins as GPIO pins instead of...
+    // 0x00000008 [3]     SOFTCON      (0) 
+    // 0x00000004 [2]     TO_DIGITAL_PAD (0) 
+    // 0x00000002 [1]     TO_EXTPHY    (0) 
+    // 0x00000001 [0]     TO_PHY       (1) 
+    io_rw_32 muxing;
+ 
+    _REG_(USB_USB_PWR_OFFSET) // USB_USB_PWR
+    // Overrides for the power signals in the event that the VBUS signals are not hooked up to GPIO
+    // 0x00000020 [5]     OVERCURR_DETECT_EN (0) 
+    // 0x00000010 [4]     OVERCURR_DETECT (0) 
+    // 0x00000008 [3]     VBUS_DETECT_OVERRIDE_EN (0) 
+    // 0x00000004 [2]     VBUS_DETECT  (0) 
+    // 0x00000002 [1]     VBUS_EN_OVERRIDE_EN (0) 
+    // 0x00000001 [0]     VBUS_EN      (0) 
+    io_rw_32 pwr;
+ 
+    _REG_(USB_USBPHY_DIRECT_OFFSET) // USB_USBPHY_DIRECT
+    // This register allows for direct control of the USB phy
+    // 0x02000000 [25]    RX_DM_OVERRIDE (0) Override rx_dm value into controller
+    // 0x01000000 [24]    RX_DP_OVERRIDE (0) Override rx_dp value into controller
+    // 0x00800000 [23]    RX_DD_OVERRIDE (0) Override rx_dd value into controller
+    // 0x00400000 [22]    DM_OVV       (0) DM over voltage
+    // 0x00200000 [21]    DP_OVV       (0) DP over voltage
+    // 0x00100000 [20]    DM_OVCN      (0) DM overcurrent
+    // 0x00080000 [19]    DP_OVCN      (0) DP overcurrent
+    // 0x00040000 [18]    RX_DM        (0) DPM pin state
+    // 0x00020000 [17]    RX_DP        (0) DPP pin state
+    // 0x00010000 [16]    RX_DD        (0) Differential RX
+    // 0x00008000 [15]    TX_DIFFMODE  (0) TX_DIFFMODE=0: Single ended mode +
+    // 0x00004000 [14]    TX_FSSLEW    (0) TX_FSSLEW=0: Low speed slew rate +
+    // 0x00002000 [13]    TX_PD        (0) TX power down override (if override enable is set)
+    // 0x00001000 [12]    RX_PD        (0) RX power down override (if override enable is set)
+    // 0x00000800 [11]    TX_DM        (0) Output data
+    // 0x00000400 [10]    TX_DP        (0) Output data
+    // 0x00000200 [9]     TX_DM_OE     (0) Output enable
+    // 0x00000100 [8]     TX_DP_OE     (0) Output enable
+    // 0x00000040 [6]     DM_PULLDN_EN (0) DM pull down enable
+    // 0x00000020 [5]     DM_PULLUP_EN (0) DM pull up enable
+    // 0x00000010 [4]     DM_PULLUP_HISEL (0) Enable the second DM pull up resistor
+    // 0x00000004 [2]     DP_PULLDN_EN (0) DP pull down enable
+    // 0x00000002 [1]     DP_PULLUP_EN (0) DP pull up enable
+    // 0x00000001 [0]     DP_PULLUP_HISEL (0) Enable the second DP pull up resistor
+    io_rw_32 phy_direct;
+ 
+    _REG_(USB_USBPHY_DIRECT_OVERRIDE_OFFSET) // USB_USBPHY_DIRECT_OVERRIDE
+    // Override enable for each control in usbphy_direct
+    // 0x00040000 [18]    RX_DM_OVERRIDE_EN (0) 
+    // 0x00020000 [17]    RX_DP_OVERRIDE_EN (0) 
+    // 0x00010000 [16]    RX_DD_OVERRIDE_EN (0) 
+    // 0x00008000 [15]    TX_DIFFMODE_OVERRIDE_EN (0) 
+    // 0x00001000 [12]    DM_PULLUP_OVERRIDE_EN (0) 
+    // 0x00000800 [11]    TX_FSSLEW_OVERRIDE_EN (0) 
+    // 0x00000400 [10]    TX_PD_OVERRIDE_EN (0) 
+    // 0x00000200 [9]     RX_PD_OVERRIDE_EN (0) 
+    // 0x00000100 [8]     TX_DM_OVERRIDE_EN (0) 
+    // 0x00000080 [7]     TX_DP_OVERRIDE_EN (0) 
+    // 0x00000040 [6]     TX_DM_OE_OVERRIDE_EN (0) 
+    // 0x00000020 [5]     TX_DP_OE_OVERRIDE_EN (0) 
+    // 0x00000010 [4]     DM_PULLDN_EN_OVERRIDE_EN (0) 
+    // 0x00000008 [3]     DP_PULLDN_EN_OVERRIDE_EN (0) 
+    // 0x00000004 [2]     DP_PULLUP_EN_OVERRIDE_EN (0) 
+    // 0x00000002 [1]     DM_PULLUP_HISEL_OVERRIDE_EN (0) 
+    // 0x00000001 [0]     DP_PULLUP_HISEL_OVERRIDE_EN (0) 
+    io_rw_32 phy_direct_override;
+ 
+    _REG_(USB_USBPHY_TRIM_OFFSET) // USB_USBPHY_TRIM
+    // Used to adjust trim values of USB phy pull down resistors
+    // 0x00001f00 [12:8]  DM_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
+    // 0x0000001f [4:0]   DP_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
+    io_rw_32 phy_trim;
+ 
+    _REG_(USB_LINESTATE_TUNING_OFFSET) // USB_LINESTATE_TUNING
+    // Used for debug only
+    // 0x00000f00 [11:8]  SPARE_FIX    (0x0) 
+    // 0x00000080 [7]     DEV_LS_WAKE_FIX (1) Device - exit suspend on any non-idle signalling, not...
+    // 0x00000040 [6]     DEV_RX_ERR_QUIESCE (1) Device - suppress repeated errors until the device FSM...
+    // 0x00000020 [5]     SIE_RX_CHATTER_SE0_FIX (1) RX - when recovering from line chatter or bitstuff...
+    // 0x00000010 [4]     SIE_RX_BITSTUFF_FIX (1) RX - when a bitstuff error is signalled by rx_dasm,...
+    // 0x00000008 [3]     DEV_BUFF_CONTROL_DOUBLE_READ_FIX (1) Device - the controller FSM performs two reads of the...
+    // 0x00000004 [2]     MULTI_HUB_FIX (0) Host - increase inter-packet and turnaround timeouts to...
+    // 0x00000002 [1]     LINESTATE_DELAY (0) Device/Host - add an extra 1-bit debounce of linestate sampling
+    // 0x00000001 [0]     RCV_DELAY    (0) Device - register the received data to account for hub...
+    io_rw_32 linestate_tuning;
+ 
+    _REG_(USB_INTR_OFFSET) // USB_INTR
+    // Raw Interrupts
+    // 0x00800000 [23]    EPX_STOPPED_ON_NAK (0) Source: NAK_POLL
+    // 0x00400000 [22]    DEV_SM_WATCHDOG_FIRED (0) Source: DEV_SM_WATCHDOG
+    // 0x00200000 [21]    ENDPOINT_ERROR (0) Source: SIE_STATUS
+    // 0x00100000 [20]    RX_SHORT_PACKET (0) Source: SIE_STATUS
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_ro_32 intr;
+ 
+    _REG_(USB_INTE_OFFSET) // USB_INTE
+    // Interrupt Enable
+    // 0x00800000 [23]    EPX_STOPPED_ON_NAK (0) Source: NAK_POLL
+    // 0x00400000 [22]    DEV_SM_WATCHDOG_FIRED (0) Source: DEV_SM_WATCHDOG
+    // 0x00200000 [21]    ENDPOINT_ERROR (0) Source: SIE_STATUS
+    // 0x00100000 [20]    RX_SHORT_PACKET (0) Source: SIE_STATUS
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_rw_32 inte;
+ 
+    _REG_(USB_INTF_OFFSET) // USB_INTF
+    // Interrupt Force
+    // 0x00800000 [23]    EPX_STOPPED_ON_NAK (0) Source: NAK_POLL
+    // 0x00400000 [22]    DEV_SM_WATCHDOG_FIRED (0) Source: DEV_SM_WATCHDOG
+    // 0x00200000 [21]    ENDPOINT_ERROR (0) Source: SIE_STATUS
+    // 0x00100000 [20]    RX_SHORT_PACKET (0) Source: SIE_STATUS
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_rw_32 intf;
+ 
+    _REG_(USB_INTS_OFFSET) // USB_INTS
+    // Interrupt status after masking & forcing
+    // 0x00800000 [23]    EPX_STOPPED_ON_NAK (0) Source: NAK_POLL
+    // 0x00400000 [22]    DEV_SM_WATCHDOG_FIRED (0) Source: DEV_SM_WATCHDOG
+    // 0x00200000 [21]    ENDPOINT_ERROR (0) Source: SIE_STATUS
+    // 0x00100000 [20]    RX_SHORT_PACKET (0) Source: SIE_STATUS
+    // 0x00080000 [19]    EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
+    // 0x00040000 [18]    ABORT_DONE   (0) Raised when any bit in ABORT_DONE is set
+    // 0x00020000 [17]    DEV_SOF      (0) Set every time the device receives a SOF (Start of Frame) packet
+    // 0x00010000 [16]    SETUP_REQ    (0) Device
+    // 0x00008000 [15]    DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
+    // 0x00004000 [14]    DEV_SUSPEND  (0) Set when the device suspend state changes
+    // 0x00002000 [13]    DEV_CONN_DIS (0) Set when the device connection state changes
+    // 0x00001000 [12]    BUS_RESET    (0) Source: SIE_STATUS
+    // 0x00000800 [11]    VBUS_DETECT  (0) Source: SIE_STATUS
+    // 0x00000400 [10]    STALL        (0) Source: SIE_STATUS
+    // 0x00000200 [9]     ERROR_CRC    (0) Source: SIE_STATUS
+    // 0x00000100 [8]     ERROR_BIT_STUFF (0) Source: SIE_STATUS
+    // 0x00000080 [7]     ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
+    // 0x00000040 [6]     ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
+    // 0x00000020 [5]     ERROR_DATA_SEQ (0) Source: SIE_STATUS
+    // 0x00000010 [4]     BUFF_STATUS  (0) Raised when any bit in BUFF_STATUS is set
+    // 0x00000008 [3]     TRANS_COMPLETE (0) Raised every time SIE_STATUS
+    // 0x00000004 [2]     HOST_SOF     (0) Host: raised every time the host sends a SOF (Start of Frame)
+    // 0x00000002 [1]     HOST_RESUME  (0) Host: raised when a device wakes up the host
+    // 0x00000001 [0]     HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
+    io_ro_32 ints;
+ 
+    uint32_t _pad0[25];
+ 
+    _REG_(USB_SOF_TIMESTAMP_RAW_OFFSET) // USB_SOF_TIMESTAMP_RAW
+    // Device only
+    // 0x001fffff [20:0]  SOF_TIMESTAMP_RAW (0x000000) 
+    io_ro_32 sof_timestamp_raw;
+ 
+    _REG_(USB_SOF_TIMESTAMP_LAST_OFFSET) // USB_SOF_TIMESTAMP_LAST
+    // Device only
+    // 0x001fffff [20:0]  SOF_TIMESTAMP_LAST (0x000000) 
+    io_ro_32 sof_timestamp_last;
+ 
+    _REG_(USB_SM_STATE_OFFSET) // USB_SM_STATE
+    // 0x00000f00 [11:8]  RX_DASM      (0x0) 
+    // 0x000000e0 [7:5]   BC_STATE     (0x0) 
+    // 0x0000001f [4:0]   STATE        (0x00) 
+    io_ro_32 sm_state;
+ 
+    _REG_(USB_EP_TX_ERROR_OFFSET) // USB_EP_TX_ERROR
+    // TX error count for each endpoint
+    // 0xc0000000 [31:30] EP15         (0x0) 
+    // 0x30000000 [29:28] EP14         (0x0) 
+    // 0x0c000000 [27:26] EP13         (0x0) 
+    // 0x03000000 [25:24] EP12         (0x0) 
+    // 0x00c00000 [23:22] EP11         (0x0) 
+    // 0x00300000 [21:20] EP10         (0x0) 
+    // 0x000c0000 [19:18] EP9          (0x0) 
+    // 0x00030000 [17:16] EP8          (0x0) 
+    // 0x0000c000 [15:14] EP7          (0x0) 
+    // 0x00003000 [13:12] EP6          (0x0) 
+    // 0x00000c00 [11:10] EP5          (0x0) 
+    // 0x00000300 [9:8]   EP4          (0x0) 
+    // 0x000000c0 [7:6]   EP3          (0x0) 
+    // 0x00000030 [5:4]   EP2          (0x0) 
+    // 0x0000000c [3:2]   EP1          (0x0) 
+    // 0x00000003 [1:0]   EP0          (0x0) 
+    io_rw_32 ep_tx_error;
+ 
+    _REG_(USB_EP_RX_ERROR_OFFSET) // USB_EP_RX_ERROR
+    // RX error count for each endpoint
+    // 0x80000000 [31]    EP15_SEQ     (0) 
+    // 0x40000000 [30]    EP15_TRANSACTION (0) 
+    // 0x20000000 [29]    EP14_SEQ     (0) 
+    // 0x10000000 [28]    EP14_TRANSACTION (0) 
+    // 0x08000000 [27]    EP13_SEQ     (0) 
+    // 0x04000000 [26]    EP13_TRANSACTION (0) 
+    // 0x02000000 [25]    EP12_SEQ     (0) 
+    // 0x01000000 [24]    EP12_TRANSACTION (0) 
+    // 0x00800000 [23]    EP11_SEQ     (0) 
+    // 0x00400000 [22]    EP11_TRANSACTION (0) 
+    // 0x00200000 [21]    EP10_SEQ     (0) 
+    // 0x00100000 [20]    EP10_TRANSACTION (0) 
+    // 0x00080000 [19]    EP9_SEQ      (0) 
+    // 0x00040000 [18]    EP9_TRANSACTION (0) 
+    // 0x00020000 [17]    EP8_SEQ      (0) 
+    // 0x00010000 [16]    EP8_TRANSACTION (0) 
+    // 0x00008000 [15]    EP7_SEQ      (0) 
+    // 0x00004000 [14]    EP7_TRANSACTION (0) 
+    // 0x00002000 [13]    EP6_SEQ      (0) 
+    // 0x00001000 [12]    EP6_TRANSACTION (0) 
+    // 0x00000800 [11]    EP5_SEQ      (0) 
+    // 0x00000400 [10]    EP5_TRANSACTION (0) 
+    // 0x00000200 [9]     EP4_SEQ      (0) 
+    // 0x00000100 [8]     EP4_TRANSACTION (0) 
+    // 0x00000080 [7]     EP3_SEQ      (0) 
+    // 0x00000040 [6]     EP3_TRANSACTION (0) 
+    // 0x00000020 [5]     EP2_SEQ      (0) 
+    // 0x00000010 [4]     EP2_TRANSACTION (0) 
+    // 0x00000008 [3]     EP1_SEQ      (0) 
+    // 0x00000004 [2]     EP1_TRANSACTION (0) 
+    // 0x00000002 [1]     EP0_SEQ      (0) 
+    // 0x00000001 [0]     EP0_TRANSACTION (0) 
+    io_rw_32 ep_rx_error;
+ 
+    _REG_(USB_DEV_SM_WATCHDOG_OFFSET) // USB_DEV_SM_WATCHDOG
+    // Watchdog that forces the device state machine to idle and raises an interrupt if the device...
+    // 0x00100000 [20]    FIRED        (0) 
+    // 0x00080000 [19]    RESET        (0) Set to 1 to forcibly reset the device state machine on...
+    // 0x00040000 [18]    ENABLE       (0) 
+    // 0x0003ffff [17:0]  LIMIT        (0x00000) 
+    io_rw_32 dev_sm_watchdog;
+} usb_hw_t;
+
+#define usb_hw ((usb_hw_t *)USBCTRL_REGS_BASE)
+static_assert(sizeof (usb_hw_t) == 0x0118, "");
+
+#endif // _HARDWARE_STRUCTS_USB_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/usb_dpram.h b/lib/pico-sdk/rp2350/hardware/structs/usb_dpram.h
new file mode 100644
index 0000000..aaa4ec5
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/usb_dpram.h
@@ -0,0 +1,128 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+#ifndef _HARDWARE_STRUCTS_USB_DPRAM_H
+#define _HARDWARE_STRUCTS_USB_DPRAM_H
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/usb.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_usb
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/usb.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+
+// 0-15
+#define USB_NUM_ENDPOINTS 16
+
+// allow user to restrict number of endpoints available to save RAN
+#ifndef USB_MAX_ENDPOINTS
+#define USB_MAX_ENDPOINTS USB_NUM_ENDPOINTS
+#endif
+
+// 1-15
+#define USB_HOST_INTERRUPT_ENDPOINTS (USB_NUM_ENDPOINTS - 1)
+
+// Endpoint buffer control bits
+#define USB_BUF_CTRL_FULL      0x00008000u
+#define USB_BUF_CTRL_LAST      0x00004000u
+#define USB_BUF_CTRL_DATA0_PID 0x00000000u
+#define USB_BUF_CTRL_DATA1_PID 0x00002000u
+#define USB_BUF_CTRL_SEL       0x00001000u
+#define USB_BUF_CTRL_STALL     0x00000800u
+#define USB_BUF_CTRL_AVAIL     0x00000400u
+#define USB_BUF_CTRL_LEN_MASK  0x000003FFu
+#define USB_BUF_CTRL_LEN_LSB   0
+
+// ep_inout_ctrl bits
+#define EP_CTRL_ENABLE_BITS (1u << 31u)
+#define EP_CTRL_DOUBLE_BUFFERED_BITS (1u << 30)
+#define EP_CTRL_INTERRUPT_PER_BUFFER (1u << 29)
+#define EP_CTRL_INTERRUPT_PER_DOUBLE_BUFFER (1u << 28)
+#define EP_CTRL_INTERRUPT_ON_NAK (1u << 16)
+#define EP_CTRL_INTERRUPT_ON_STALL (1u << 17)
+#define EP_CTRL_BUFFER_TYPE_LSB 26u
+#define EP_CTRL_HOST_INTERRUPT_INTERVAL_LSB 16u
+
+#define USB_DPRAM_SIZE 4096u
+
+// PICO_CONFIG: USB_DPRAM_MAX, Set amount of USB RAM used by USB system, min=0, max=4096, default=4096, group=hardware_usb
+// Allow user to claim some of the USB RAM for themselves
+#ifndef USB_DPRAM_MAX
+#define USB_DPRAM_MAX USB_DPRAM_SIZE
+#endif
+
+// Define maximum packet sizes
+#define USB_MAX_ISO_PACKET_SIZE 1023
+#define USB_MAX_PACKET_SIZE 64
+
+typedef struct {
+    // 4K of DPSRAM at beginning. Note this supports 8, 16, and 32 bit accesses
+    volatile uint8_t setup_packet[8]; // First 8 bytes are always for setup packets
+
+    // Starts at ep1
+    struct usb_device_dpram_ep_ctrl {
+        io_rw_32 in;
+        io_rw_32 out;
+    } ep_ctrl[USB_NUM_ENDPOINTS - 1];
+
+    // Starts at ep0
+    struct usb_device_dpram_ep_buf_ctrl {
+        io_rw_32 in;
+        io_rw_32 out;
+    } ep_buf_ctrl[USB_NUM_ENDPOINTS];
+
+    // EP0 buffers are fixed. Assumes single buffered mode for EP0
+    uint8_t ep0_buf_a[0x40];
+    uint8_t ep0_buf_b[0x40];
+
+    // Rest of DPRAM can be carved up as needed
+    uint8_t epx_data[USB_DPRAM_MAX - 0x180];
+} usb_device_dpram_t;
+
+static_assert(sizeof(usb_device_dpram_t) == USB_DPRAM_MAX, "");
+static_assert(offsetof(usb_device_dpram_t, epx_data) == 0x180, "");
+
+typedef struct {
+    // 4K of DPSRAM at beginning. Note this supports 8, 16, and 32 bit accesses
+    volatile uint8_t setup_packet[8]; // First 8 bytes are always for setup packets
+
+    // Interrupt endpoint control 1 -> 15
+    struct usb_host_dpram_ep_ctrl {
+        io_rw_32 ctrl;
+        io_rw_32 spare;
+    } int_ep_ctrl[USB_HOST_INTERRUPT_ENDPOINTS];
+
+    io_rw_32 epx_buf_ctrl;
+    io_rw_32 _spare0;
+
+    // Interrupt endpoint buffer control
+    struct usb_host_dpram_ep_buf_ctrl {
+        io_rw_32 ctrl;
+        io_rw_32 spare;
+    } int_ep_buffer_ctrl[USB_HOST_INTERRUPT_ENDPOINTS];
+
+    io_rw_32 epx_ctrl;
+
+    uint8_t _spare1[124];
+
+    // Should start at 0x180
+    uint8_t epx_data[USB_DPRAM_MAX - 0x180];
+} usb_host_dpram_t;
+
+static_assert(sizeof(usb_host_dpram_t) == USB_DPRAM_MAX, "");
+static_assert(offsetof(usb_host_dpram_t, epx_data) == 0x180, "");
+
+#define usb_dpram ((usb_device_dpram_t *)USBCTRL_DPRAM_BASE)
+#define usbh_dpram ((usb_host_dpram_t *)USBCTRL_DPRAM_BASE)
+
+static_assert( USB_HOST_INTERRUPT_ENDPOINTS == 15, "");
+
+#endif // _HARDWARE_STRUCTS_USB_DPRAM_H
\ No newline at end of file
diff --git a/lib/pico-sdk/rp2350/hardware/structs/watchdog.h b/lib/pico-sdk/rp2350/hardware/structs/watchdog.h
new file mode 100644
index 0000000..19c7bfa
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/watchdog.h
@@ -0,0 +1,59 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_WATCHDOG_H
+#define _HARDWARE_STRUCTS_WATCHDOG_H
+
+/**
+ * \file rp2350/watchdog.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/watchdog.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_watchdog
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/watchdog.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(WATCHDOG_CTRL_OFFSET) // WATCHDOG_CTRL
+    // Watchdog control +
+    // 0x80000000 [31]    TRIGGER      (0) Trigger a watchdog reset
+    // 0x40000000 [30]    ENABLE       (0) When not enabled the watchdog timer is paused
+    // 0x04000000 [26]    PAUSE_DBG1   (1) Pause the watchdog timer when processor 1 is in debug mode
+    // 0x02000000 [25]    PAUSE_DBG0   (1) Pause the watchdog timer when processor 0 is in debug mode
+    // 0x01000000 [24]    PAUSE_JTAG   (1) Pause the watchdog timer when JTAG is accessing the bus fabric
+    // 0x00ffffff [23:0]  TIME         (0x000000) Indicates the time in usec before a watchdog reset will...
+    io_rw_32 ctrl;
+ 
+    _REG_(WATCHDOG_LOAD_OFFSET) // WATCHDOG_LOAD
+    // Load the watchdog timer
+    // 0x00ffffff [23:0]  LOAD         (0x000000) 
+    io_wo_32 load;
+ 
+    _REG_(WATCHDOG_REASON_OFFSET) // WATCHDOG_REASON
+    // Logs the reason for the last reset
+    // 0x00000002 [1]     FORCE        (0) 
+    // 0x00000001 [0]     TIMER        (0) 
+    io_ro_32 reason;
+ 
+    // (Description copied from array index 0 register WATCHDOG_SCRATCH0 applies similarly to other array indexes)
+    _REG_(WATCHDOG_SCRATCH0_OFFSET) // WATCHDOG_SCRATCH0
+    // Scratch register
+    // 0xffffffff [31:0]  SCRATCH0     (0x00000000) 
+    io_rw_32 scratch[8];
+} watchdog_hw_t;
+
+#define watchdog_hw ((watchdog_hw_t *)WATCHDOG_BASE)
+static_assert(sizeof (watchdog_hw_t) == 0x002c, "");
+
+#endif // _HARDWARE_STRUCTS_WATCHDOG_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/xip.h b/lib/pico-sdk/rp2350/hardware/structs/xip.h
new file mode 100644
index 0000000..ee5cb23
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/xip.h
@@ -0,0 +1,79 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_XIP_H
+#define _HARDWARE_STRUCTS_XIP_H
+
+/**
+ * \file rp2350/xip.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/xip.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_xip
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/xip.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(XIP_CTRL_OFFSET) // XIP_CTRL
+    // Cache control register
+    // 0x00000800 [11]    WRITABLE_M1  (0) If 1, enable writes to XIP memory window 1 (addresses...
+    // 0x00000400 [10]    WRITABLE_M0  (0) If 1, enable writes to XIP memory window 0 (addresses...
+    // 0x00000200 [9]     SPLIT_WAYS   (0) When 1, route all cached+Secure accesses to way 0 of the...
+    // 0x00000100 [8]     MAINT_NONSEC (0) When 0, Non-secure accesses to the cache maintenance...
+    // 0x00000080 [7]     NO_UNTRANSLATED_NONSEC (1) When 1, Non-secure accesses to the uncached,...
+    // 0x00000040 [6]     NO_UNTRANSLATED_SEC (0) When 1, Secure accesses to the uncached, untranslated...
+    // 0x00000020 [5]     NO_UNCACHED_NONSEC (0) When 1, Non-secure accesses to the uncached window...
+    // 0x00000010 [4]     NO_UNCACHED_SEC (0) When 1, Secure accesses to the uncached window...
+    // 0x00000008 [3]     POWER_DOWN   (0) When 1, the cache memories are powered down
+    // 0x00000002 [1]     EN_NONSECURE (1) When 1, enable the cache for Non-secure accesses
+    // 0x00000001 [0]     EN_SECURE    (1) When 1, enable the cache for Secure accesses
+    io_rw_32 ctrl;
+ 
+    uint32_t _pad0;
+ 
+    _REG_(XIP_STAT_OFFSET) // XIP_STAT
+    // 0x00000004 [2]     FIFO_FULL    (0) When 1, indicates the XIP streaming FIFO is completely full
+    // 0x00000002 [1]     FIFO_EMPTY   (1) When 1, indicates the XIP streaming FIFO is completely empty
+    io_ro_32 stat;
+ 
+    _REG_(XIP_CTR_HIT_OFFSET) // XIP_CTR_HIT
+    // Cache Hit counter
+    // 0xffffffff [31:0]  CTR_HIT      (0x00000000) A 32 bit saturating counter that increments upon each...
+    io_rw_32 ctr_hit;
+ 
+    _REG_(XIP_CTR_ACC_OFFSET) // XIP_CTR_ACC
+    // Cache Access counter
+    // 0xffffffff [31:0]  CTR_ACC      (0x00000000) A 32 bit saturating counter that increments upon each...
+    io_rw_32 ctr_acc;
+ 
+    _REG_(XIP_STREAM_ADDR_OFFSET) // XIP_STREAM_ADDR
+    // FIFO stream address
+    // 0xfffffffc [31:2]  STREAM_ADDR  (0x00000000) The address of the next word to be streamed from flash...
+    io_rw_32 stream_addr;
+ 
+    _REG_(XIP_STREAM_CTR_OFFSET) // XIP_STREAM_CTR
+    // FIFO stream control
+    // 0x003fffff [21:0]  STREAM_CTR   (0x000000) Write a nonzero value to start a streaming read
+    io_rw_32 stream_ctr;
+ 
+    _REG_(XIP_STREAM_FIFO_OFFSET) // XIP_STREAM_FIFO
+    // FIFO stream data
+    // 0xffffffff [31:0]  STREAM_FIFO  (0x00000000) Streamed data is buffered here, for retrieval by the system DMA
+    io_ro_32 stream_fifo;
+} xip_ctrl_hw_t;
+
+#define xip_ctrl_hw ((xip_ctrl_hw_t *)XIP_CTRL_BASE)
+static_assert(sizeof (xip_ctrl_hw_t) == 0x0020, "");
+
+#endif // _HARDWARE_STRUCTS_XIP_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/xip_aux.h b/lib/pico-sdk/rp2350/hardware/structs/xip_aux.h
new file mode 100644
index 0000000..1e1caf8
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/xip_aux.h
@@ -0,0 +1,51 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_XIP_AUX_H
+#define _HARDWARE_STRUCTS_XIP_AUX_H
+
+/**
+ * \file rp2350/xip_aux.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/xip_aux.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_xip_aux
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/xip_aux.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+typedef struct {
+    _REG_(XIP_AUX_STREAM_OFFSET) // XIP_AUX_STREAM
+    // Read the XIP stream FIFO (fast bus access to XIP_CTRL_STREAM_FIFO)
+    // 0xffffffff [31:0]  STREAM       (0x00000000) 
+    io_ro_32 stream;
+ 
+    _REG_(XIP_AUX_QMI_DIRECT_TX_OFFSET) // XIP_AUX_QMI_DIRECT_TX
+    // Write to the QMI direct-mode TX FIFO (fast bus access to QMI_DIRECT_TX)
+    // 0x00100000 [20]    NOPUSH       (0) Inhibit the RX FIFO push that would correspond to this...
+    // 0x00080000 [19]    OE           (0) Output enable (active-high)
+    // 0x00040000 [18]    DWIDTH       (0) Data width
+    // 0x00030000 [17:16] IWIDTH       (0x0) Configure whether this FIFO record is transferred with...
+    // 0x0000ffff [15:0]  DATA         (0x0000) Data pushed here will be clocked out falling edges of...
+    io_wo_32 qmi_direct_tx;
+ 
+    _REG_(XIP_AUX_QMI_DIRECT_RX_OFFSET) // XIP_AUX_QMI_DIRECT_RX
+    // Read from the QMI direct-mode RX FIFO (fast bus access to QMI_DIRECT_RX)
+    // 0x0000ffff [15:0]  QMI_DIRECT_RX (0x0000) With each byte clocked out on the serial interface, one...
+    io_ro_32 qmi_direct_rx;
+} xip_aux_hw_t;
+
+#define xip_aux_hw ((xip_aux_hw_t *)XIP_AUX_BASE)
+static_assert(sizeof (xip_aux_hw_t) == 0x000c, "");
+
+#endif // _HARDWARE_STRUCTS_XIP_AUX_H
+
diff --git a/lib/pico-sdk/rp2350/hardware/structs/xip_ctrl.h b/lib/pico-sdk/rp2350/hardware/structs/xip_ctrl.h
new file mode 100644
index 0000000..c31569b
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/xip_ctrl.h
@@ -0,0 +1,11 @@
+/**
+ * Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+
+// Support old header for compatibility (and if included, support old variable name)
+#include "hardware/structs/xip.h"
+#define XIP_STAT_FIFO_FULL XIP_STAT_FIFO_FULL_BITS
+#define XIP_STAT_FIFO_EMPTY XIP_STAT_FIFO_EMPTY_BITS
+#define XIP_STAT_FLUSH_RDY XIP_STAT_FLUSH_READY_BITS
diff --git a/lib/pico-sdk/rp2350/hardware/structs/xosc.h b/lib/pico-sdk/rp2350/hardware/structs/xosc.h
new file mode 100644
index 0000000..dca0c05
--- /dev/null
+++ b/lib/pico-sdk/rp2350/hardware/structs/xosc.h
@@ -0,0 +1,64 @@
+// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
+
+/**
+ * Copyright (c) 2024 Raspberry Pi Ltd.
+ *
+ * SPDX-License-Identifier: BSD-3-Clause
+ */
+#ifndef _HARDWARE_STRUCTS_XOSC_H
+#define _HARDWARE_STRUCTS_XOSC_H
+
+/**
+ * \file rp2350/xosc.h
+ */
+
+#include "hardware/address_mapped.h"
+#include "hardware/regs/xosc.h"
+
+// Reference to datasheet: https://datasheets.raspberrypi.com/rp2350/rp2350-datasheet.pdf#tab-registerlist_xosc
+//
+// The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature)
+// _REG_(x) will link to the corresponding register in hardware/regs/xosc.h.
+//
+// Bit-field descriptions are of the form:
+// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
+
+/// \tag::xosc_hw[]
+typedef struct {
+    _REG_(XOSC_CTRL_OFFSET) // XOSC_CTRL
+    // Crystal Oscillator Control
+    // 0x00fff000 [23:12] ENABLE       (-) On power-up this field is initialised to DISABLE and the...
+    // 0x00000fff [11:0]  FREQ_RANGE   (-) The 12-bit code is intended to give some protection...
+    io_rw_32 ctrl;
+ 
+    _REG_(XOSC_STATUS_OFFSET) // XOSC_STATUS
+    // Crystal Oscillator Status
+    // 0x80000000 [31]    STABLE       (0) Oscillator is running and stable
+    // 0x01000000 [24]    BADWRITE     (0) An invalid value has been written to CTRL_ENABLE or...
+    // 0x00001000 [12]    ENABLED      (-) Oscillator is enabled but not necessarily running and...
+    // 0x00000003 [1:0]   FREQ_RANGE   (-) The current frequency range setting
+    io_rw_32 status;
+ 
+    _REG_(XOSC_DORMANT_OFFSET) // XOSC_DORMANT
+    // Crystal Oscillator pause control
+    // 0xffffffff [31:0]  DORMANT      (-) This is used to save power by pausing the XOSC +
+    io_rw_32 dormant;
+ 
+    _REG_(XOSC_STARTUP_OFFSET) // XOSC_STARTUP
+    // Controls the startup delay
+    // 0x00100000 [20]    X4           (-) Multiplies the startup_delay by 4, just in case
+    // 0x00003fff [13:0]  DELAY        (-) in multiples of 256*xtal_period
+    io_rw_32 startup;
+ 
+    _REG_(XOSC_COUNT_OFFSET) // XOSC_COUNT
+    // A down counter running at the XOSC frequency which counts to zero and stops.
+    // 0x0000ffff [15:0]  COUNT        (0x0000) 
+    io_rw_32 count;
+} xosc_hw_t;
+/// \end::xosc_hw[]
+
+#define xosc_hw ((xosc_hw_t *)XOSC_BASE)
+static_assert(sizeof (xosc_hw_t) == 0x0014, "");
+
+#endif // _HARDWARE_STRUCTS_XOSC_H
+
diff --git a/lib/rp2040/cmsis_include/RP2040.h b/lib/rp2040/cmsis_include/RP2040.h
deleted file mode 100644
index a29b9e0..0000000
--- a/lib/rp2040/cmsis_include/RP2040.h
+++ /dev/null
@@ -1,109 +0,0 @@
-/*************************************************************************//**
- * @file     RP2040.h
- * @brief    CMSIS-Core(M) Device Peripheral Access Layer Header File for
- *           Device RP2040
- * @version  V1.0.0
- * @date     5. May 2021
- *****************************************************************************/
-/*
- * Copyright (c) 2009-2021 Arm Limited. All rights reserved.
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Licensed under the Apache License, Version 2.0 (the License); you may
- * not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- * www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an AS IS BASIS, WITHOUT
- * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _CMSIS_RP2040_H_
-#define _CMSIS_RP2040_H_
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-/* =========================================================================================================================== */
-/* ================                                Interrupt Number Definition                                ================ */
-/* =========================================================================================================================== */
-
-typedef enum
-{
-  /* =======================================  ARM Cortex-M0+ Specific Interrupt Numbers  ======================================= */
-    Reset_IRQn                = -15,              /*!< -15  Reset Vector, invoked on Power up and warm reset                     */
-    NonMaskableInt_IRQn       = -14,              /*!< -14  Non maskable Interrupt, cannot be stopped or preempted               */
-    HardFault_IRQn            = -13,              /*!< -13  Hard Fault, all classes of Fault                                     */
-    SVCall_IRQn               =  -5,              /*!< -5 System Service Call via SVC instruction                                */
-    PendSV_IRQn               =  -2,              /*!< -2 Pendable request for system service                                    */
-    SysTick_IRQn              =  -1,              /*!< -1 System Tick Timer                                                      */
-  /* ===========================================  RP2040 Specific Interrupt Numbers  =========================================== */
-    TIMER_IRQ_0_IRQn          =   0,              /*!< 0  TIMER_IRQ_0                                                            */
-    TIMER_IRQ_1_IRQn          =   1,              /*!< 1  TIMER_IRQ_1                                                            */
-    TIMER_IRQ_2_IRQn          =   2,              /*!< 2  TIMER_IRQ_2                                                            */
-    TIMER_IRQ_3_IRQn          =   3,              /*!< 3  TIMER_IRQ_3                                                            */
-    PWM_IRQ_WRAP_IRQn         =   4,              /*!< 4  PWM_IRQ_WRAP                                                           */
-    USBCTRL_IRQ_IRQn          =   5,              /*!< 5  USBCTRL_IRQ                                                            */
-    XIP_IRQ_IRQn              =   6,              /*!< 6  XIP_IRQ                                                                */
-    PIO0_IRQ_0_IRQn           =   7,              /*!< 7  PIO0_IRQ_0                                                             */
-    PIO0_IRQ_1_IRQn           =   8,              /*!< 8  PIO0_IRQ_1                                                             */
-    PIO1_IRQ_0_IRQn           =   9,              /*!< 9  PIO1_IRQ_0                                                             */
-    PIO1_IRQ_1_IRQn           =  10,              /*!< 10 PIO1_IRQ_1                                                             */
-    DMA_IRQ_0_IRQn            =  11,              /*!< 11 DMA_IRQ_0                                                              */
-    DMA_IRQ_1_IRQn            =  12,              /*!< 12 DMA_IRQ_1                                                              */
-    IO_IRQ_BANK0_IRQn         =  13,              /*!< 13 IO_IRQ_BANK0                                                           */
-    IO_IRQ_QSPI_IRQn          =  14,              /*!< 14 IO_IRQ_QSPI                                                            */
-    SIO_IRQ_PROC0_IRQn        =  15,              /*!< 15 SIO_IRQ_PROC0                                                          */
-    SIO_IRQ_PROC1_IRQn        =  16,              /*!< 16 SIO_IRQ_PROC1                                                          */
-    CLOCKS_IRQ_IRQn           =  17,              /*!< 17 CLOCKS_IRQ                                                             */
-    SPI0_IRQ_IRQn             =  18,              /*!< 18 SPI0_IRQ                                                               */
-    SPI1_IRQ_IRQn             =  19,              /*!< 19 SPI1_IRQ                                                               */
-    UART0_IRQ_IRQn            =  20,              /*!< 20 UART0_IRQ                                                              */
-    UART1_IRQ_IRQn            =  21,              /*!< 21 UART1_IRQ                                                              */
-    ADC_IRQ_FIFO_IRQn         =  22,              /*!< 22 ADC_IRQ_FIFO                                                           */
-    I2C0_IRQ_IRQn             =  23,              /*!< 23 I2C0_IRQ                                                               */
-    I2C1_IRQ_IRQn             =  24,              /*!< 24 I2C1_IRQ                                                               */
-    RTC_IRQ_IRQn              =  25               /*!< 25 RTC_IRQ                                                                */
-} IRQn_Type;
-
-/* =========================================================================================================================== */
-/* ================                           Processor and Core Peripheral Section                           ================ */
-/* =========================================================================================================================== */
-
-/* ==========================  Configuration of the ARM Cortex-M0+ Processor and Core Peripherals  =========================== */
-#define __CM0PLUS_REV                  0x0001U  /*!< CM0PLUS Core Revision                                                     */
-#define __NVIC_PRIO_BITS               2        /*!< Number of Bits used for Priority Levels                                   */
-#define __Vendor_SysTickConfig         0        /*!< Set to 1 if different SysTick Config is used                              */
-#define __VTOR_PRESENT                 1        /*!< Set to 1 if CPU supports Vector Table Offset Register                     */
-#define __MPU_PRESENT                  1        /*!< MPU present                                                               */
-#define __FPU_PRESENT                  0        /*!< FPU present                                                               */
-
-/** @} */ /* End of group Configuration_of_CMSIS */
-
-#include "core_cm0plus.h"                       /*!< ARM Cortex-M0+ processor and core peripherals                             */
-#include "system_RP2040.h"                      /*!< RP2040 System                                                             */
-
-#ifndef __IM                                    /*!< Fallback for older CMSIS versions                                         */
-#define __IM   __I
-#endif
-#ifndef __OM                                    /*!< Fallback for older CMSIS versions                                         */
-#define __OM   __O
-#endif
-#ifndef __IOM                                   /*!< Fallback for older CMSIS versions                                         */
-#define __IOM  __IO
-#endif
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* _CMSIS_RP2040_H */
diff --git a/lib/rp2040/hardware/platform_defs.h b/lib/rp2040/hardware/platform_defs.h
deleted file mode 100644
index 437594c..0000000
--- a/lib/rp2040/hardware/platform_defs.h
+++ /dev/null
@@ -1,55 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_PLATFORM_DEFS_H
-#define _HARDWARE_PLATFORM_DEFS_H
-
-// This header is included from C and assembler - only define macros
-
-#ifndef _u
-#ifdef __ASSEMBLER__
-#define _u(x) x
-#else
-#define _u(x) x ## u
-#endif
-#endif
-
-#define NUM_CORES _u(2)
-#define NUM_DMA_CHANNELS _u(12)
-#define NUM_IRQS _u(32)
-#define NUM_PIOS _u(2)
-#define NUM_PIO_STATE_MACHINES _u(4)
-#define NUM_PWM_SLICES _u(8)
-#define NUM_SPIN_LOCKS _u(32)
-#define NUM_UARTS _u(2)
-#define NUM_I2CS _u(2)
-#define NUM_SPIS _u(2)
-
-#define NUM_ADC_CHANNELS _u(5)
-
-#define NUM_BANK0_GPIOS _u(30)
-
-#define PIO_INSTRUCTION_COUNT _u(32)
-
-#define XOSC_MHZ _u(12)
-
-// PICO_CONFIG: PICO_STACK_SIZE, Stack Size, min=0x100, default=0x800, advanced=true, group=pico_standard_link
-#ifndef PICO_STACK_SIZE
-#define PICO_STACK_SIZE _u(0x800)
-#endif
-
-// PICO_CONFIG: PICO_HEAP_SIZE, Heap size to reserve, min=0x100, default=0x800, advanced=true, group=pico_standard_link
-#ifndef PICO_HEAP_SIZE
-#define PICO_HEAP_SIZE _u(0x800)
-#endif
-
-// PICO_CONFIG: PICO_NO_RAM_VECTOR_TABLE, Enable/disable the RAM vector table, type=bool, default=0, advanced=true, group=pico_runtime
-#ifndef PICO_NO_RAM_VECTOR_TABLE
-#define PICO_NO_RAM_VECTOR_TABLE 0
-#endif
-
-#endif
-
diff --git a/lib/rp2040/hardware/regs/dreq.h b/lib/rp2040/hardware/regs/dreq.h
deleted file mode 100644
index 9de9dd5..0000000
--- a/lib/rp2040/hardware/regs/dreq.h
+++ /dev/null
@@ -1,50 +0,0 @@
-/**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _DREQ_H_
-#define _DREQ_H_
-
-#define DREQ_PIO0_TX0 0x0
-#define DREQ_PIO0_TX1 0x1
-#define DREQ_PIO0_TX2 0x2
-#define DREQ_PIO0_TX3 0x3
-#define DREQ_PIO0_RX0 0x4
-#define DREQ_PIO0_RX1 0x5
-#define DREQ_PIO0_RX2 0x6
-#define DREQ_PIO0_RX3 0x7
-#define DREQ_PIO1_TX0 0x8
-#define DREQ_PIO1_TX1 0x9
-#define DREQ_PIO1_TX2 0xa
-#define DREQ_PIO1_TX3 0xb
-#define DREQ_PIO1_RX0 0xc
-#define DREQ_PIO1_RX1 0xd
-#define DREQ_PIO1_RX2 0xe
-#define DREQ_PIO1_RX3 0xf
-#define DREQ_SPI0_TX 0x10
-#define DREQ_SPI0_RX 0x11
-#define DREQ_SPI1_TX 0x12
-#define DREQ_SPI1_RX 0x13
-#define DREQ_UART0_TX 0x14
-#define DREQ_UART0_RX 0x15
-#define DREQ_UART1_TX 0x16
-#define DREQ_UART1_RX 0x17
-#define DREQ_PWM_WRAP0 0x18
-#define DREQ_PWM_WRAP1 0x19
-#define DREQ_PWM_WRAP2 0x1a
-#define DREQ_PWM_WRAP3 0x1b
-#define DREQ_PWM_WRAP4 0x1c
-#define DREQ_PWM_WRAP5 0x1d
-#define DREQ_PWM_WRAP6 0x1e
-#define DREQ_PWM_WRAP7 0x1f
-#define DREQ_I2C0_TX 0x20
-#define DREQ_I2C0_RX 0x21
-#define DREQ_I2C1_TX 0x22
-#define DREQ_I2C1_RX 0x23
-#define DREQ_ADC 0x24
-#define DREQ_XIP_STREAM 0x25
-#define DREQ_XIP_SSITX 0x26
-#define DREQ_XIP_SSIRX 0x27
-
-#endif // _DREQ_H_
diff --git a/lib/rp2040/hardware/regs/intctrl.h b/lib/rp2040/hardware/regs/intctrl.h
deleted file mode 100644
index dec7e36..0000000
--- a/lib/rp2040/hardware/regs/intctrl.h
+++ /dev/null
@@ -1,63 +0,0 @@
-/**
- * Copyright (c) 2021 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _INTCTRL_H_
-#define _INTCTRL_H_
-
-#define TIMER_IRQ_0 0
-#define TIMER_IRQ_1 1
-#define TIMER_IRQ_2 2
-#define TIMER_IRQ_3 3
-#define PWM_IRQ_WRAP 4
-#define USBCTRL_IRQ 5
-#define XIP_IRQ 6
-#define PIO0_IRQ_0 7
-#define PIO0_IRQ_1 8
-#define PIO1_IRQ_0 9
-#define PIO1_IRQ_1 10
-#define DMA_IRQ_0 11
-#define DMA_IRQ_1 12
-#define IO_IRQ_BANK0 13
-#define IO_IRQ_QSPI 14
-#define SIO_IRQ_PROC0 15
-#define SIO_IRQ_PROC1 16
-#define CLOCKS_IRQ 17
-#define SPI0_IRQ 18
-#define SPI1_IRQ 19
-#define UART0_IRQ 20
-#define UART1_IRQ 21
-#define ADC_IRQ_FIFO 22
-#define I2C0_IRQ 23
-#define I2C1_IRQ 24
-#define RTC_IRQ 25
-
-#define isr_timer_0 isr_irq0
-#define isr_timer_1 isr_irq1
-#define isr_timer_2 isr_irq2
-#define isr_timer_3 isr_irq3
-#define isr_pwm_wrap isr_irq4
-#define isr_usbctrl isr_irq5
-#define isr_xip isr_irq6
-#define isr_pio0_0 isr_irq7
-#define isr_pio0_1 isr_irq8
-#define isr_pio1_0 isr_irq9
-#define isr_pio1_1 isr_irq10
-#define isr_dma_0 isr_irq11
-#define isr_dma_1 isr_irq12
-#define isr_io_bank0 isr_irq13
-#define isr_io_qspi isr_irq14
-#define isr_sio_proc0 isr_irq15
-#define isr_sio_proc1 isr_irq16
-#define isr_clocks isr_irq17
-#define isr_spi0 isr_irq18
-#define isr_spi1 isr_irq19
-#define isr_uart0 isr_irq20
-#define isr_uart1 isr_irq21
-#define isr_adc_fifo isr_irq22
-#define isr_i2c0 isr_irq23
-#define isr_i2c1 isr_irq24
-#define isr_rtc isr_irq25
-
-#endif // _INTCTRL_H_
diff --git a/lib/rp2040/hardware/structs/adc.h b/lib/rp2040/hardware/structs/adc.h
deleted file mode 100644
index 559b5f1..0000000
--- a/lib/rp2040/hardware/structs/adc.h
+++ /dev/null
@@ -1,28 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _HARDWARE_STRUCTS_ADC_H
-#define _HARDWARE_STRUCTS_ADC_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/adc.h"
-
-typedef struct {
-    io_rw_32 cs;
-    io_rw_32 result;
-    io_rw_32 fcs;
-    io_rw_32 fifo;
-    io_rw_32 div;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_rw_32 ints;
-} adc_hw_t;
-
-check_hw_layout(adc_hw_t, ints, ADC_INTS_OFFSET);
-
-#define adc_hw ((adc_hw_t *const)ADC_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/bus_ctrl.h b/lib/rp2040/hardware/structs/bus_ctrl.h
deleted file mode 100644
index ce95a7c..0000000
--- a/lib/rp2040/hardware/structs/bus_ctrl.h
+++ /dev/null
@@ -1,48 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _HARDWARE_STRUCTS_BUS_CTRL_H
-#define _HARDWARE_STRUCTS_BUS_CTRL_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/busctrl.h"
-
-enum bus_ctrl_perf_counter {
-    arbiter_rom_perf_event_access = 19,
-    arbiter_rom_perf_event_access_contested = 18,
-    arbiter_xip_main_perf_event_access = 17,
-    arbiter_xip_main_perf_event_access_contested = 16,
-    arbiter_sram0_perf_event_access = 15,
-    arbiter_sram0_perf_event_access_contested = 14,
-    arbiter_sram1_perf_event_access = 13,
-    arbiter_sram1_perf_event_access_contested = 12,
-    arbiter_sram2_perf_event_access = 11,
-    arbiter_sram2_perf_event_access_contested = 10,
-    arbiter_sram3_perf_event_access = 9,
-    arbiter_sram3_perf_event_access_contested = 8,
-    arbiter_sram4_perf_event_access = 7,
-    arbiter_sram4_perf_event_access_contested = 6,
-    arbiter_sram5_perf_event_access = 5,
-    arbiter_sram5_perf_event_access_contested = 4,
-    arbiter_fastperi_perf_event_access = 3,
-    arbiter_fastperi_perf_event_access_contested = 2,
-    arbiter_apb_perf_event_access = 1,
-    arbiter_apb_perf_event_access_contested = 0
-};
-
-typedef struct {
-    io_rw_32 priority;
-    io_ro_32 priority_ack;
-    struct {
-        io_rw_32 value;
-        io_rw_32 sel;
-    } counter[4];
-} bus_ctrl_hw_t;
-
-check_hw_layout(bus_ctrl_hw_t, counter[0].value, BUSCTRL_PERFCTR0_OFFSET);
-
-#define bus_ctrl_hw ((bus_ctrl_hw_t *const)BUSCTRL_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/clocks.h b/lib/rp2040/hardware/structs/clocks.h
deleted file mode 100644
index 489876d..0000000
--- a/lib/rp2040/hardware/structs/clocks.h
+++ /dev/null
@@ -1,72 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_CLOCKS_H
-#define _HARDWARE_STRUCTS_CLOCKS_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/clocks.h"
-
-/*! \brief Enumeration identifying a hardware clock
- *  \ingroup hardware_clocks
- */
-/// \tag::clkenum[]
-enum clock_index {
-    clk_gpout0 = 0,     ///< GPIO Muxing 0
-    clk_gpout1,         ///< GPIO Muxing 1
-    clk_gpout2,         ///< GPIO Muxing 2
-    clk_gpout3,         ///< GPIO Muxing 3
-    clk_ref,            ///< Watchdog and timers reference clock
-    clk_sys,            ///< Processors, bus fabric, memory, memory mapped registers
-    clk_peri,           ///< Peripheral clock for UART and SPI
-    clk_usb,            ///< USB clock
-    clk_adc,            ///< ADC clock
-    clk_rtc,            ///< Real time clock
-    CLK_COUNT
-};
-/// \end::clkenum[]
-
-/// \tag::clock_hw[]
-typedef struct {
-    io_rw_32 ctrl;
-    io_rw_32 div;
-    io_rw_32 selected;
-} clock_hw_t;
-/// \end::clock_hw[]
-
-typedef struct {
-    io_rw_32 ref_khz;
-    io_rw_32 min_khz;
-    io_rw_32 max_khz;
-    io_rw_32 delay;
-    io_rw_32 interval;
-    io_rw_32 src;
-    io_ro_32 status;
-    io_ro_32 result;
-} fc_hw_t;
-
-typedef struct {
-    clock_hw_t clk[CLK_COUNT];
-    struct {
-        io_rw_32 ctrl;
-        io_rw_32 status;
-    } resus;
-    fc_hw_t fc0;
-    io_rw_32 wake_en0;
-    io_rw_32 wake_en1;
-    io_rw_32 sleep_en0;
-    io_rw_32 sleep_en1;
-    io_rw_32 enabled0;
-    io_rw_32 enabled1;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_rw_32 ints;
-} clocks_hw_t;
-
-#define clocks_hw ((clocks_hw_t *const)CLOCKS_BASE)
-#endif
diff --git a/lib/rp2040/hardware/structs/dma.h b/lib/rp2040/hardware/structs/dma.h
deleted file mode 100644
index 06cdf79..0000000
--- a/lib/rp2040/hardware/structs/dma.h
+++ /dev/null
@@ -1,64 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_DMA_H
-#define _HARDWARE_STRUCTS_DMA_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/dma.h"
-
-typedef struct {
-    io_rw_32 read_addr;
-    io_rw_32 write_addr;
-    io_rw_32 transfer_count;
-    io_rw_32 ctrl_trig;
-    io_rw_32 al1_ctrl;
-    io_rw_32 al1_read_addr;
-    io_rw_32 al1_write_addr;
-    io_rw_32 al1_transfer_count_trig;
-    io_rw_32 al2_ctrl;
-    io_rw_32 al2_transfer_count;
-    io_rw_32 al2_read_addr;
-    io_rw_32 al2_write_addr_trig;
-    io_rw_32 al3_ctrl;
-    io_rw_32 al3_write_addr;
-    io_rw_32 al3_transfer_count;
-    io_rw_32 al3_read_addr_trig;
-}  dma_channel_hw_t;
-
-typedef struct {
-    dma_channel_hw_t ch[NUM_DMA_CHANNELS];
-    uint32_t _pad0[16 * (16 - NUM_DMA_CHANNELS)];
-    io_ro_32 intr;
-    io_rw_32 inte0;
-    io_rw_32 intf0;
-    io_rw_32 ints0;
-    uint32_t _pad1[1];
-    io_rw_32 inte1;
-    io_rw_32 intf1;
-    io_rw_32 ints1;
-    io_rw_32 timer[4];
-    io_wo_32 multi_channel_trigger;
-    io_rw_32 sniff_ctrl;
-    io_rw_32 sniff_data;
-    uint32_t _pad2[1];
-    io_ro_32 fifo_levels;
-    io_wo_32 abort;
-} dma_hw_t;
-
-typedef struct {
-    struct dma_debug_hw_channel {
-        io_ro_32 ctrdeq;
-        io_ro_32 tcr;
-        uint32_t pad[14];
-    } ch[NUM_DMA_CHANNELS];
-} dma_debug_hw_t;
-
-#define dma_hw ((dma_hw_t *const)DMA_BASE)
-#define dma_debug_hw ((dma_debug_hw_t *const)(DMA_BASE + DMA_CH0_DBG_CTDREQ_OFFSET))
-
-#endif
diff --git a/lib/rp2040/hardware/structs/i2c.h b/lib/rp2040/hardware/structs/i2c.h
deleted file mode 100644
index 1a58c50..0000000
--- a/lib/rp2040/hardware/structs/i2c.h
+++ /dev/null
@@ -1,134 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_I2C_H
-#define _HARDWARE_STRUCTS_I2C_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/i2c.h"
-
-typedef struct {
-    io_rw_32 con;
-    io_rw_32 tar;
-    io_rw_32 sar;
-    uint32_t _pad0;
-    io_rw_32 data_cmd;
-    io_rw_32 ss_scl_hcnt;
-    io_rw_32 ss_scl_lcnt;
-    io_rw_32 fs_scl_hcnt;
-    io_rw_32 fs_scl_lcnt;
-    uint32_t _pad1[2];
-    io_rw_32 intr_stat;
-    io_rw_32 intr_mask;
-    io_rw_32 raw_intr_stat;
-    io_rw_32 rx_tl;
-    io_rw_32 tx_tl;
-    io_rw_32 clr_intr;
-    io_rw_32 clr_rx_under;
-    io_rw_32 clr_rx_over;
-    io_rw_32 clr_tx_over;
-    io_rw_32 clr_rd_req;
-    io_rw_32 clr_tx_abrt;
-    io_rw_32 clr_rx_done;
-    io_rw_32 clr_activity;
-    io_rw_32 clr_stop_det;
-    io_rw_32 clr_start_det;
-    io_rw_32 clr_gen_call;
-    io_rw_32 enable;
-    io_rw_32 status;
-    io_rw_32 txflr;
-    io_rw_32 rxflr;
-    io_rw_32 sda_hold;
-    io_rw_32 tx_abrt_source;
-    io_rw_32 slv_data_nack_only;
-    io_rw_32 dma_cr;
-    io_rw_32 dma_tdlr;
-    io_rw_32 dma_rdlr;
-    io_rw_32 sda_setup;
-    io_rw_32 ack_general_call;
-    io_rw_32 enable_status;
-    io_rw_32 fs_spklen;
-    uint32_t _pad2;
-    io_rw_32 clr_restart_det;
-} i2c_hw_t;
-
-#define i2c0_hw ((i2c_hw_t *const)I2C0_BASE)
-#define i2c1_hw ((i2c_hw_t *const)I2C1_BASE)
-
-// List of configuration constants for the Synopsys I2C hardware (you may see
-// references to these in I2C register header; these are *fixed* values,
-// set at hardware design time):
-
-// IC_ULTRA_FAST_MODE ................ 0x0
-// IC_UFM_TBUF_CNT_DEFAULT ........... 0x8
-// IC_UFM_SCL_LOW_COUNT .............. 0x0008
-// IC_UFM_SCL_HIGH_COUNT ............. 0x0006
-// IC_TX_TL .......................... 0x0
-// IC_TX_CMD_BLOCK ................... 0x1
-// IC_HAS_DMA ........................ 0x1
-// IC_HAS_ASYNC_FIFO ................. 0x0
-// IC_SMBUS_ARP ...................... 0x0
-// IC_FIRST_DATA_BYTE_STATUS ......... 0x1
-// IC_INTR_IO ........................ 0x1
-// IC_MASTER_MODE .................... 0x1
-// IC_DEFAULT_ACK_GENERAL_CALL ....... 0x1
-// IC_INTR_POL ....................... 0x1
-// IC_OPTIONAL_SAR ................... 0x0
-// IC_DEFAULT_TAR_SLAVE_ADDR ......... 0x055
-// IC_DEFAULT_SLAVE_ADDR ............. 0x055
-// IC_DEFAULT_HS_SPKLEN .............. 0x1
-// IC_FS_SCL_HIGH_COUNT .............. 0x0006
-// IC_HS_SCL_LOW_COUNT ............... 0x0008
-// IC_DEVICE_ID_VALUE ................ 0x0
-// IC_10BITADDR_MASTER ............... 0x0
-// IC_CLK_FREQ_OPTIMIZATION .......... 0x0
-// IC_DEFAULT_FS_SPKLEN .............. 0x7
-// IC_ADD_ENCODED_PARAMS ............. 0x0
-// IC_DEFAULT_SDA_HOLD ............... 0x000001
-// IC_DEFAULT_SDA_SETUP .............. 0x64
-// IC_AVOID_RX_FIFO_FLUSH_ON_TX_ABRT . 0x0
-// IC_CLOCK_PERIOD ................... 100
-// IC_EMPTYFIFO_HOLD_MASTER_EN ....... 1
-// IC_RESTART_EN ..................... 0x1
-// IC_TX_CMD_BLOCK_DEFAULT ........... 0x0
-// IC_BUS_CLEAR_FEATURE .............. 0x0
-// IC_CAP_LOADING .................... 100
-// IC_FS_SCL_LOW_COUNT ............... 0x000d
-// APB_DATA_WIDTH .................... 32
-// IC_SDA_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
-// IC_SLV_DATA_NACK_ONLY ............. 0x1
-// IC_10BITADDR_SLAVE ................ 0x0
-// IC_CLK_TYPE ....................... 0x0
-// IC_SMBUS_UDID_MSB ................. 0x0
-// IC_SMBUS_SUSPEND_ALERT ............ 0x0
-// IC_HS_SCL_HIGH_COUNT .............. 0x0006
-// IC_SLV_RESTART_DET_EN ............. 0x1
-// IC_SMBUS .......................... 0x0
-// IC_OPTIONAL_SAR_DEFAULT ........... 0x0
-// IC_PERSISTANT_SLV_ADDR_DEFAULT .... 0x0
-// IC_USE_COUNTS ..................... 0x0
-// IC_RX_BUFFER_DEPTH ................ 16
-// IC_SCL_STUCK_TIMEOUT_DEFAULT ...... 0xffffffff
-// IC_RX_FULL_HLD_BUS_EN ............. 0x1
-// IC_SLAVE_DISABLE .................. 0x1
-// IC_RX_TL .......................... 0x0
-// IC_DEVICE_ID ...................... 0x0
-// IC_HC_COUNT_VALUES ................ 0x0
-// I2C_DYNAMIC_TAR_UPDATE ............ 0
-// IC_SMBUS_CLK_LOW_MEXT_DEFAULT ..... 0xffffffff
-// IC_SMBUS_CLK_LOW_SEXT_DEFAULT ..... 0xffffffff
-// IC_HS_MASTER_CODE ................. 0x1
-// IC_SMBUS_RST_IDLE_CNT_DEFAULT ..... 0xffff
-// IC_SMBUS_UDID_LSB_DEFAULT ......... 0xffffffff
-// IC_SS_SCL_HIGH_COUNT .............. 0x0028
-// IC_SS_SCL_LOW_COUNT ............... 0x002f
-// IC_MAX_SPEED_MODE ................. 0x2
-// IC_STAT_FOR_CLK_STRETCH ........... 0x0
-// IC_STOP_DET_IF_MASTER_ACTIVE ...... 0x0
-// IC_DEFAULT_UFM_SPKLEN ............. 0x1
-// IC_TX_BUFFER_DEPTH ................ 16
-
-#endif
diff --git a/lib/rp2040/hardware/structs/interp.h b/lib/rp2040/hardware/structs/interp.h
deleted file mode 100644
index 6837507..0000000
--- a/lib/rp2040/hardware/structs/interp.h
+++ /dev/null
@@ -1,28 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_INTERP_H
-#define _HARDWARE_STRUCTS_INTERP_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/sio.h"
-
-typedef struct {
-    io_rw_32 accum[2];
-    io_rw_32 base[3];
-    io_ro_32 pop[3];
-    io_ro_32 peek[3];
-    io_rw_32 ctrl[2];
-    io_rw_32 add_raw[2];
-    io_wo_32 base01;
-} interp_hw_t;
-
-#define interp_hw_array ((interp_hw_t *)(SIO_BASE + SIO_INTERP0_ACCUM0_OFFSET))
-#define interp0_hw (&interp_hw_array[0])
-#define interp1_hw (&interp_hw_array[1])
-
-#endif
diff --git a/lib/rp2040/hardware/structs/iobank0.h b/lib/rp2040/hardware/structs/iobank0.h
deleted file mode 100644
index b19800f..0000000
--- a/lib/rp2040/hardware/structs/iobank0.h
+++ /dev/null
@@ -1,35 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_IOBANK0_H
-#define _HARDWARE_STRUCTS_IOBANK0_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/io_bank0.h"
-
-typedef struct {
-    io_rw_32 inte[4];
-    io_rw_32 intf[4];
-    io_rw_32 ints[4];
-} io_irq_ctrl_hw_t;
-
-/// \tag::iobank0_hw[]
-typedef struct {
-    struct {
-        io_rw_32 status;
-        io_rw_32 ctrl;
-    } io[30];
-    io_rw_32 intr[4];
-    io_irq_ctrl_hw_t proc0_irq_ctrl;
-    io_irq_ctrl_hw_t proc1_irq_ctrl;
-    io_irq_ctrl_hw_t dormant_wake_irq_ctrl;
-} iobank0_hw_t;
-/// \end::iobank0_hw[]
-
-#define iobank0_hw ((iobank0_hw_t *const)IO_BANK0_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/ioqspi.h b/lib/rp2040/hardware/structs/ioqspi.h
deleted file mode 100644
index 48d08a7..0000000
--- a/lib/rp2040/hardware/structs/ioqspi.h
+++ /dev/null
@@ -1,23 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_IOQSPI_H
-#define _HARDWARE_STRUCTS_IOQSPI_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/io_qspi.h"
-
-typedef struct {
-    struct {
-        io_rw_32 status;
-        io_rw_32 ctrl;
-    } io[6];
-} ioqspi_hw_t;
-
-#define ioqspi_hw ((ioqspi_hw_t *const)IO_QSPI_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/mpu.h b/lib/rp2040/hardware/structs/mpu.h
deleted file mode 100644
index 34e5c39..0000000
--- a/lib/rp2040/hardware/structs/mpu.h
+++ /dev/null
@@ -1,23 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_MPU_H
-#define _HARDWARE_STRUCTS_MPU_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/m0plus.h"
-
-typedef struct {
-    io_ro_32 type;
-    io_rw_32 ctrl;
-    io_rw_32 rnr;
-    io_rw_32 rbar;
-    io_rw_32 rasr;
-} mpu_hw_t;
-
-#define mpu_hw ((mpu_hw_t *const)(PPB_BASE + M0PLUS_MPU_TYPE_OFFSET))
-
-#endif
diff --git a/lib/rp2040/hardware/structs/pads_qspi.h b/lib/rp2040/hardware/structs/pads_qspi.h
deleted file mode 100644
index 451d7eb..0000000
--- a/lib/rp2040/hardware/structs/pads_qspi.h
+++ /dev/null
@@ -1,21 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PADS_QSPI_H
-#define _HARDWARE_STRUCTS_PADS_QSPI_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/pads_qspi.h"
-
-typedef struct {
-    io_rw_32 voltage_select;
-    io_rw_32 io[6];
-} pads_qspi_hw_t;
-
-#define pads_qspi_hw ((pads_qspi_hw_t *const)PADS_QSPI_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/padsbank0.h b/lib/rp2040/hardware/structs/padsbank0.h
deleted file mode 100644
index f56dc40..0000000
--- a/lib/rp2040/hardware/structs/padsbank0.h
+++ /dev/null
@@ -1,21 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PADSBANK0_H
-#define _HARDWARE_STRUCTS_PADSBANK0_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/pads_bank0.h"
-
-typedef struct {
-    io_rw_32 voltage_select;
-    io_rw_32 io[30];
-} padsbank0_hw_t;
-
-#define padsbank0_hw ((padsbank0_hw_t *)PADS_BANK0_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/pio.h b/lib/rp2040/hardware/structs/pio.h
deleted file mode 100644
index 176863b..0000000
--- a/lib/rp2040/hardware/structs/pio.h
+++ /dev/null
@@ -1,48 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PIO_H
-#define _HARDWARE_STRUCTS_PIO_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/pio.h"
-
-typedef struct {
-    io_rw_32 ctrl;
-    io_ro_32 fstat;
-    io_rw_32 fdebug;
-    io_ro_32 flevel;
-    io_wo_32 txf[NUM_PIO_STATE_MACHINES];
-    io_ro_32 rxf[NUM_PIO_STATE_MACHINES];
-    io_rw_32 irq;
-    io_wo_32 irq_force;
-    io_rw_32 input_sync_bypass;
-    io_rw_32 dbg_padout;
-    io_rw_32 dbg_padoe;
-    io_rw_32 dbg_cfginfo;
-    io_wo_32 instr_mem[32];
-    struct pio_sm_hw {
-        io_rw_32 clkdiv;
-        io_rw_32 execctrl;
-        io_rw_32 shiftctrl;
-        io_ro_32 addr;
-        io_rw_32 instr;
-        io_rw_32 pinctrl;
-    } sm[NUM_PIO_STATE_MACHINES];
-    io_rw_32 intr;
-    io_rw_32 inte0;
-    io_rw_32 intf0;
-    io_ro_32 ints0;
-    io_rw_32 inte1;
-    io_rw_32 intf1;
-    io_ro_32 ints1;
-} pio_hw_t;
-
-#define pio0_hw ((pio_hw_t *const)PIO0_BASE)
-#define pio1_hw ((pio_hw_t *const)PIO1_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/pll.h b/lib/rp2040/hardware/structs/pll.h
deleted file mode 100644
index 4d5b5b7..0000000
--- a/lib/rp2040/hardware/structs/pll.h
+++ /dev/null
@@ -1,25 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PLL_H
-#define _HARDWARE_STRUCTS_PLL_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/pll.h"
-
-/// \tag::pll_hw[]
-typedef struct {
-    io_rw_32 cs;
-    io_rw_32 pwr;
-    io_rw_32 fbdiv_int;
-    io_rw_32 prim;
-} pll_hw_t;
-
-#define pll_sys_hw ((pll_hw_t *const)PLL_SYS_BASE)
-#define pll_usb_hw ((pll_hw_t *const)PLL_USB_BASE)
-/// \end::pll_hw[]
-
-#endif
diff --git a/lib/rp2040/hardware/structs/psm.h b/lib/rp2040/hardware/structs/psm.h
deleted file mode 100644
index cc9fb97..0000000
--- a/lib/rp2040/hardware/structs/psm.h
+++ /dev/null
@@ -1,23 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PSM_H
-#define _HARDWARE_STRUCTS_PSM_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/psm.h"
-
-typedef struct {
-    io_rw_32 frce_on;
-    io_rw_32 frce_off;
-    io_rw_32 wdsel;
-    io_rw_32 done;
-} psm_hw_t;
-
-#define psm_hw ((psm_hw_t *const)PSM_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/pwm.h b/lib/rp2040/hardware/structs/pwm.h
deleted file mode 100644
index 5499561..0000000
--- a/lib/rp2040/hardware/structs/pwm.h
+++ /dev/null
@@ -1,33 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_PWM_H
-#define _HARDWARE_STRUCTS_PWM_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/pwm.h"
-
-typedef struct pwm_slice_hw {
-    io_rw_32 csr;
-    io_rw_32 div;
-    io_rw_32 ctr;
-    io_rw_32 cc;
-    io_rw_32 top;
-} pwm_slice_hw_t;
-
-typedef struct {
-    pwm_slice_hw_t slice[NUM_PWM_SLICES];
-    io_rw_32 en;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_rw_32 ints;
-} pwm_hw_t;
-
-#define pwm_hw ((pwm_hw_t *const)PWM_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/resets.h b/lib/rp2040/hardware/structs/resets.h
deleted file mode 100644
index a96ddeb..0000000
--- a/lib/rp2040/hardware/structs/resets.h
+++ /dev/null
@@ -1,22 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _HARDWARE_STRUCTS_RESETS_H
-#define _HARDWARE_STRUCTS_RESETS_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/resets.h"
-
-/// \tag::resets_hw[]
-typedef struct {
-    io_rw_32 reset;
-    io_rw_32 wdsel;
-    io_rw_32 reset_done;
-} resets_hw_t;
-
-#define resets_hw ((resets_hw_t *const)RESETS_BASE)
-/// \end::resets_hw[]
-
-#endif
diff --git a/lib/rp2040/hardware/structs/rosc.h b/lib/rp2040/hardware/structs/rosc.h
deleted file mode 100644
index 1054393..0000000
--- a/lib/rp2040/hardware/structs/rosc.h
+++ /dev/null
@@ -1,29 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_ROSC_H
-#define _HARDWARE_STRUCTS_ROSC_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/rosc.h"
-
-typedef struct {
-    io_rw_32 ctrl;
-    io_rw_32 freqa;
-    io_rw_32 freqb;
-    io_rw_32 dormant;
-    io_rw_32 div;
-    io_rw_32 phase;
-    io_rw_32 status;
-    io_rw_32 randombit;
-    io_rw_32 count;
-    io_rw_32 dftx;
-} rosc_hw_t;
-
-#define rosc_hw ((rosc_hw_t *const)ROSC_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/rtc.h b/lib/rp2040/hardware/structs/rtc.h
deleted file mode 100644
index 276bd7a..0000000
--- a/lib/rp2040/hardware/structs/rtc.h
+++ /dev/null
@@ -1,31 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_RTC_H
-#define _HARDWARE_STRUCTS_RTC_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/rtc.h"
-
-typedef struct {
-    io_rw_32 clkdiv_m1;
-    io_rw_32 setup_0;
-    io_rw_32 setup_1;
-    io_rw_32 ctrl;
-    io_rw_32 irq_setup_0;
-    io_rw_32 irq_setup_1;
-    io_rw_32 rtc_1;
-    io_rw_32 rtc_0;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_rw_32 ints;
-} rtc_hw_t;
-
-#define rtc_hw ((rtc_hw_t *const)RTC_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/scb.h b/lib/rp2040/hardware/structs/scb.h
deleted file mode 100644
index b48a872..0000000
--- a/lib/rp2040/hardware/structs/scb.h
+++ /dev/null
@@ -1,24 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _HARDWARE_STRUCTS_SCB_H
-#define _HARDWARE_STRUCTS_SCB_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/m0plus.h"
-
-// SCB == System Control Block
-typedef struct {
-    io_ro_32 cpuid;
-    io_rw_32 icsr;
-    io_rw_32 vtor;
-    io_rw_32 aircr;
-    io_rw_32 scr;
-    // ...
-} armv6m_scb_t;
-
-#define scb_hw ((armv6m_scb_t *const)(PPB_BASE + M0PLUS_CPUID_OFFSET))
-
-#endif
diff --git a/lib/rp2040/hardware/structs/sio.h b/lib/rp2040/hardware/structs/sio.h
deleted file mode 100644
index bc277af..0000000
--- a/lib/rp2040/hardware/structs/sio.h
+++ /dev/null
@@ -1,61 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_SIO_H
-#define _HARDWARE_STRUCTS_SIO_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/sio.h"
-#include "hardware/structs/interp.h"
-
-typedef struct {
-    io_ro_32 cpuid;
-    io_ro_32 gpio_in;
-    io_ro_32 gpio_hi_in;
-    uint32_t _pad;
-
-    io_rw_32 gpio_out;
-    io_wo_32 gpio_set;
-    io_wo_32 gpio_clr;
-    io_wo_32 gpio_togl;
-
-    io_wo_32 gpio_oe;
-    io_wo_32 gpio_oe_set;
-    io_wo_32 gpio_oe_clr;
-    io_wo_32 gpio_oe_togl;
-
-    io_rw_32 gpio_hi_out;
-    io_wo_32 gpio_hi_set;
-    io_wo_32 gpio_hi_clr;
-    io_wo_32 gpio_hi_togl;
-
-    io_wo_32 gpio_hi_oe;
-    io_wo_32 gpio_hi_oe_set;
-    io_wo_32 gpio_hi_oe_clr;
-    io_wo_32 gpio_hi_oe_togl;
-
-    io_rw_32 fifo_st;
-    io_wo_32 fifo_wr;
-    io_ro_32 fifo_rd;
-    io_ro_32 spinlock_st;
-
-    io_rw_32 div_udividend;
-    io_rw_32 div_udivisor;
-    io_rw_32 div_sdividend;
-    io_rw_32 div_sdivisor;
-
-    io_rw_32 div_quotient;
-    io_rw_32 div_remainder;
-    io_rw_32 div_csr;
-
-    uint32_t _pad2;
-
-    interp_hw_t interp[2];
-} sio_hw_t;
-
-#define sio_hw ((sio_hw_t *)SIO_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/spi.h b/lib/rp2040/hardware/structs/spi.h
deleted file mode 100644
index 5b3b2ba..0000000
--- a/lib/rp2040/hardware/structs/spi.h
+++ /dev/null
@@ -1,29 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_SPI_H
-#define _HARDWARE_STRUCTS_SPI_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/spi.h"
-
-typedef struct {
-    io_rw_32 cr0;
-    io_rw_32 cr1;
-    io_rw_32 dr;
-    io_rw_32 sr;
-    io_rw_32 cpsr;
-    io_rw_32 imsc;
-    io_rw_32 ris;
-    io_rw_32 mis;
-    io_rw_32 icr;
-    io_rw_32 dmacr;
-} spi_hw_t;
-
-#define spi0_hw ((spi_hw_t *const)SPI0_BASE)
-#define spi1_hw ((spi_hw_t *const)SPI1_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/ssi.h b/lib/rp2040/hardware/structs/ssi.h
deleted file mode 100644
index 80779fe..0000000
--- a/lib/rp2040/hardware/structs/ssi.h
+++ /dev/null
@@ -1,47 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_SSI_H
-#define _HARDWARE_STRUCTS_SSI_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/ssi.h"
-
-typedef struct {
-    io_rw_32 ctrlr0;
-    io_rw_32 ctrlr1;
-    io_rw_32 ssienr;
-    io_rw_32 mwcr;
-    io_rw_32 ser;
-    io_rw_32 baudr;
-    io_rw_32 txftlr;
-    io_rw_32 rxftlr;
-    io_rw_32 txflr;
-    io_rw_32 rxflr;
-    io_rw_32 sr;
-    io_rw_32 imr;
-    io_rw_32 isr;
-    io_rw_32 risr;
-    io_rw_32 txoicr;
-    io_rw_32 rxoicr;
-    io_rw_32 rxuicr;
-    io_rw_32 msticr;
-    io_rw_32 icr;
-    io_rw_32 dmacr;
-    io_rw_32 dmatdlr;
-    io_rw_32 dmardlr;
-    io_rw_32 idr;
-    io_rw_32 ssi_version_id;
-    io_rw_32 dr0;
-    uint32_t _pad[(0xf0 - 0x60) / 4 - 1];
-    io_rw_32 rx_sample_dly;
-    io_rw_32 spi_ctrlr0;
-    io_rw_32 txd_drive_edge;
-} ssi_hw_t;
-
-#define ssi_hw ((ssi_hw_t *const)XIP_SSI_BASE)
-#endif
diff --git a/lib/rp2040/hardware/structs/syscfg.h b/lib/rp2040/hardware/structs/syscfg.h
deleted file mode 100644
index 0bfc729..0000000
--- a/lib/rp2040/hardware/structs/syscfg.h
+++ /dev/null
@@ -1,26 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_SYSCFG_H
-#define _HARDWARE_STRUCTS_SYSCFG_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/syscfg.h"
-
-typedef struct {
-    io_rw_32 proc0_nmi_mask;
-    io_rw_32 proc1_nmi_mask;
-    io_rw_32 proc_config;
-    io_rw_32 proc_in_sync_bypass;
-    io_rw_32 proc_in_sync_bypass_hi;
-    io_rw_32 dbgforce;
-    io_rw_32 mempowerdown;
-} syscfg_hw_t;
-
-#define syscfg_hw ((syscfg_hw_t *const)SYSCFG_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/systick.h b/lib/rp2040/hardware/structs/systick.h
deleted file mode 100644
index 24673fb..0000000
--- a/lib/rp2040/hardware/structs/systick.h
+++ /dev/null
@@ -1,22 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_SYSTICK_H
-#define _HARDWARE_STRUCTS_SYSTICK_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/m0plus.h"
-
-typedef struct {
-    io_rw_32 csr;
-    io_rw_32 rvr;
-    io_rw_32 cvr;
-    io_ro_32 calib;
-} systick_hw_t;
-
-#define systick_hw ((systick_hw_t *const)(PPB_BASE + M0PLUS_SYST_CSR_OFFSET))
-
-#endif
diff --git a/lib/rp2040/hardware/structs/timer.h b/lib/rp2040/hardware/structs/timer.h
deleted file mode 100644
index e051a06..0000000
--- a/lib/rp2040/hardware/structs/timer.h
+++ /dev/null
@@ -1,35 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_TIMER_H
-#define _HARDWARE_STRUCTS_TIMER_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/timer.h"
-
-#define NUM_TIMERS 4
-
-typedef struct {
-    io_wo_32 timehw;
-    io_wo_32 timelw;
-    io_ro_32 timehr;
-    io_ro_32 timelr;
-    io_rw_32 alarm[NUM_TIMERS];
-    io_rw_32 armed;
-    io_ro_32 timerawh;
-    io_ro_32 timerawl;
-    io_rw_32 dbgpause;
-    io_rw_32 pause;
-    io_rw_32 intr;
-    io_rw_32 inte;
-    io_rw_32 intf;
-    io_ro_32 ints;
-} timer_hw_t;
-
-#define timer_hw ((timer_hw_t *const)TIMER_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/uart.h b/lib/rp2040/hardware/structs/uart.h
deleted file mode 100644
index 42fe8e8..0000000
--- a/lib/rp2040/hardware/structs/uart.h
+++ /dev/null
@@ -1,35 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_UART_H
-#define _HARDWARE_STRUCTS_UART_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/uart.h"
-
-typedef struct {
-    io_rw_32 dr;
-    io_rw_32 rsr;
-    uint32_t _pad0[4];
-    io_rw_32 fr;
-    uint32_t _pad1;
-    io_rw_32 ilpr;
-    io_rw_32 ibrd;
-    io_rw_32 fbrd;
-    io_rw_32 lcr_h;
-    io_rw_32 cr;
-    io_rw_32 ifls;
-    io_rw_32 imsc;
-    io_rw_32 ris;
-    io_rw_32 mis;
-    io_rw_32 icr;
-    io_rw_32 dmacr;
-} uart_hw_t;
-
-#define uart0_hw ((uart_hw_t *const)UART0_BASE)
-#define uart1_hw ((uart_hw_t *const)UART1_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/vreg_and_chip_reset.h b/lib/rp2040/hardware/structs/vreg_and_chip_reset.h
deleted file mode 100644
index 9956d68..0000000
--- a/lib/rp2040/hardware/structs/vreg_and_chip_reset.h
+++ /dev/null
@@ -1,22 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_VREG_AND_CHIP_RESET_H
-#define _HARDWARE_STRUCTS_VREG_AND_CHIP_RESET_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/vreg_and_chip_reset.h"
-
-typedef struct {
-    io_rw_32 vreg;
-    io_rw_32 bod;
-    io_rw_32 chip_reset;
-} vreg_and_chip_reset_hw_t;
-
-#define vreg_and_chip_reset_hw ((vreg_and_chip_reset_hw_t *const)VREG_AND_CHIP_RESET_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/watchdog.h b/lib/rp2040/hardware/structs/watchdog.h
deleted file mode 100644
index 2cf05f1..0000000
--- a/lib/rp2040/hardware/structs/watchdog.h
+++ /dev/null
@@ -1,24 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_WATCHDOG_H
-#define _HARDWARE_STRUCTS_WATCHDOG_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/watchdog.h"
-
-typedef struct {
-    io_rw_32 ctrl;
-    io_wo_32 load;
-    io_ro_32 reason;
-    io_rw_32 scratch[8];
-    io_rw_32 tick;
-} watchdog_hw_t;
-
-#define watchdog_hw ((watchdog_hw_t *const)WATCHDOG_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/xip_ctrl.h b/lib/rp2040/hardware/structs/xip_ctrl.h
deleted file mode 100644
index bfa5b1c..0000000
--- a/lib/rp2040/hardware/structs/xip_ctrl.h
+++ /dev/null
@@ -1,29 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-#ifndef _HARDWARE_STRUCTS_XIP_CTRL_H
-#define _HARDWARE_STRUCTS_XIP_CTRL_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/regs/xip.h"
-
-typedef struct {
-    io_rw_32 ctrl;
-    io_rw_32 flush;
-    io_rw_32 stat;
-    io_rw_32 ctr_hit;
-    io_rw_32 ctr_acc;
-    io_rw_32 stream_addr;
-    io_rw_32 stream_ctr;
-    io_rw_32 stream_fifo;
-} xip_ctrl_hw_t;
-
-#define XIP_STAT_FIFO_FULL     0x4u
-#define XIP_STAT_FIFO_EMPTY    0x2u
-#define XIP_STAT_FLUSH_RDY     0x1u
-
-#define xip_ctrl_hw ((xip_ctrl_hw_t *const)XIP_CTRL_BASE)
-
-#endif
diff --git a/lib/rp2040/hardware/structs/xosc.h b/lib/rp2040/hardware/structs/xosc.h
deleted file mode 100644
index 698e6a2..0000000
--- a/lib/rp2040/hardware/structs/xosc.h
+++ /dev/null
@@ -1,27 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _HARDWARE_STRUCTS_XOSC_H
-#define _HARDWARE_STRUCTS_XOSC_H
-
-#include "hardware/address_mapped.h"
-#include "hardware/platform_defs.h"
-#include "hardware/regs/xosc.h"
-
-/// \tag::xosc_hw[]
-typedef struct {
-    io_rw_32 ctrl;
-    io_rw_32 status;
-    io_rw_32 dormant;
-    io_rw_32 startup;
-    io_rw_32 _reserved[3];
-    io_rw_32 count;
-} xosc_hw_t;
-
-#define xosc_hw ((xosc_hw_t *const)XOSC_BASE)
-/// \end::xosc_hw[]
-
-#endif
diff --git a/lib/rp2040/pico/bootrom/bootrom.h b/lib/rp2040/pico/bootrom/bootrom.h
deleted file mode 100644
index 04d1bd8..0000000
--- a/lib/rp2040/pico/bootrom/bootrom.h
+++ /dev/null
@@ -1,170 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#ifndef _PLATFORM_BOOTROM_H
-#define _PLATFORM_BOOTROM_H
-
-/** \file bootrom.h
- * \defgroup pico_bootrom pico_bootrom
- * Access to functions and data in the RP2040 bootrom
- *
- * This header may be included by assembly code
- */
-
-// ROM FUNCTIONS
-
-#define ROM_FUNC_POPCOUNT32             ROM_TABLE_CODE('P', '3')
-#define ROM_FUNC_REVERSE32              ROM_TABLE_CODE('R', '3')
-#define ROM_FUNC_CLZ32                  ROM_TABLE_CODE('L', '3')
-#define ROM_FUNC_CTZ32                  ROM_TABLE_CODE('T', '3')
-#define ROM_FUNC_MEMSET                 ROM_TABLE_CODE('M', 'S')
-#define ROM_FUNC_MEMSET4                ROM_TABLE_CODE('S', '4')
-#define ROM_FUNC_MEMCPY                 ROM_TABLE_CODE('M', 'C')
-#define ROM_FUNC_MEMCPY44               ROM_TABLE_CODE('C', '4')
-#define ROM_FUNC_RESET_USB_BOOT         ROM_TABLE_CODE('U', 'B')
-#define ROM_FUNC_CONNECT_INTERNAL_FLASH ROM_TABLE_CODE('I', 'F')
-#define ROM_FUNC_FLASH_EXIT_XIP         ROM_TABLE_CODE('E', 'X')
-#define ROM_FUNC_FLASH_RANGE_ERASE      ROM_TABLE_CODE('R', 'E')
-#define ROM_FUNC_FLASH_RANGE_PROGRAM    ROM_TABLE_CODE('R', 'P')
-#define ROM_FUNC_FLASH_FLUSH_CACHE      ROM_TABLE_CODE('F', 'C')
-#define ROM_FUNC_FLASH_ENTER_CMD_XIP    ROM_TABLE_CODE('C', 'X')
-
-/*! \brief Return a bootrom lookup code based on two ASCII characters
- * \ingroup pico_bootrom
- *
- * These codes are uses to lookup data or function addresses in the bootrom
- *
- * \param c1 the first character
- * \param c2 the second character
- * \return the 'code' to use in rom_func_lookup() or rom_data_lookup()
- */
-#define ROM_TABLE_CODE(c1, c2) ((c1) | ((c2) << 8))
-
-#ifndef __ASSEMBLER__
-
-// ROM FUNCTION SIGNATURES
-
-typedef uint32_t (*rom_popcount32_fn)(uint32_t);
-typedef uint32_t (*rom_reverse32_fn)(uint32_t);
-typedef uint32_t (*rom_clz32_fn)(uint32_t);
-typedef uint32_t (*rom_ctz32_fn)(uint32_t);
-typedef uint8_t *(*rom_memset_fn)(uint8_t *, uint8_t, uint32_t);
-typedef uint32_t *(*rom_memset4_fn)(uint32_t *, uint8_t, uint32_t);
-typedef uint32_t *(*rom_memcpy_fn)(uint8_t *, const uint8_t *, uint32_t);
-typedef uint32_t *(*rom_memcpy44_fn)(uint32_t *, const uint32_t *, uint32_t);
-typedef void __attribute__((noreturn)) (*rom_reset_usb_boot_fn)(uint32_t, uint32_t);
-typedef rom_reset_usb_boot_fn reset_usb_boot_fn; // kept for backwards compatibility
-typedef void (*rom_connect_internal_flash_fn)(void);
-typedef void (*rom_flash_exit_xip_fn)(void);
-typedef void (*rom_flash_range_erase_fn)(uint32_t, size_t, uint32_t, uint8_t);
-typedef void (*rom_flash_range_program_fn)(uint32_t, const uint8_t*, size_t);
-typedef void (*rom_flash_flush_cache_fn)(void);
-typedef void (*rom_flash_enter_cmd_xip_fn)(void);
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-/*! \brief Return a bootrom lookup code based on two ASCII characters
- * \ingroup pico_bootrom
- *
- * These codes are uses to lookup data or function addresses in the bootrom
- *
- * \param c1 the first character
- * \param c2 the second character
- * \return the 'code' to use in rom_func_lookup() or rom_data_lookup()
- */
-static inline uint32_t rom_table_code(uint8_t c1, uint8_t c2) {
-    return ROM_TABLE_CODE((uint32_t) c1, (uint32_t) c2);
-}
-
-/*!
- * \brief Lookup a bootrom function by code
- * \ingroup pico_bootrom
- * \param code the code
- * \return a pointer to the function, or NULL if the code does not match any bootrom function
- */
-void *rom_func_lookup(uint32_t code);
-
-/*!
- * \brief Lookup a bootrom address by code
- * \ingroup pico_bootrom
- * \param code the code
- * \return a pointer to the data, or NULL if the code does not match any bootrom function
- */
-void *rom_data_lookup(uint32_t code);
-
-/*!
- * \brief Helper function to lookup the addresses of multiple bootrom functions
- * \ingroup pico_bootrom
- *
- * This method looks up the 'codes' in the table, and convert each table entry to the looked up
- * function pointer, if there is a function for that code in the bootrom.
- *
- * \param table an IN/OUT array, elements are codes on input, function pointers on success.
- * \param count the number of elements in the table
- * \return true if all the codes were found, and converted to function pointers, false otherwise
- */
-bool rom_funcs_lookup(uint32_t *table, unsigned int count);
-
-// Bootrom function: rom_table_lookup
-// Returns the 32 bit pointer into the ROM if found or NULL otherwise.
-typedef void *(*rom_table_lookup_fn)(uint16_t *table, uint32_t code);
-
-#if defined(__GNUC__) && (__GNUC__ >= 12)
-// Convert a 16 bit pointer stored at the given rom address into a 32 bit pointer
-static inline void *rom_hword_as_ptr(uint16_t rom_address) {
-#pragma GCC diagnostic push
-#pragma GCC diagnostic ignored "-Warray-bounds"
-    return (void *)(uintptr_t)*(uint16_t *)(uintptr_t)rom_address;
-#pragma GCC diagnostic pop
-}
-#else
-// Convert a 16 bit pointer stored at the given rom address into a 32 bit pointer
-#define rom_hword_as_ptr(rom_address) (void *)(uintptr_t)(*(uint16_t *)(uintptr_t)(rom_address))
-#endif
-
-/*!
- * \brief Lookup a bootrom function by code. This method is forceably inlined into the caller for FLASH/RAM sensitive code usage
- * \ingroup pico_bootrom
- * \param code the code
- * \return a pointer to the function, or NULL if the code does not match any bootrom function
- */
-static __force_inline void *rom_func_lookup_inline(uint32_t code) {
-    rom_table_lookup_fn rom_table_lookup = (rom_table_lookup_fn) rom_hword_as_ptr(0x18);
-    uint16_t *func_table = (uint16_t *) rom_hword_as_ptr(0x14);
-    return rom_table_lookup(func_table, code);
-}
-
-/*!
- * \brief Reboot the device into BOOTSEL mode
- * \ingroup pico_bootrom
- *
- * This function reboots the device into the BOOTSEL mode ('usb boot").
- *
- * Facilities are provided to enable an "activity light" via GPIO attached LED for the USB Mass Storage Device,
- * and to limit the USB interfaces exposed.
- *
- * \param usb_activity_gpio_pin_mask 0 No pins are used as per a cold boot. Otherwise a single bit set indicating which
- *                               GPIO pin should be set to output and raised whenever there is mass storage activity
- *                               from the host.
- * \param disable_interface_mask value to control exposed interfaces
- *  - 0 To enable both interfaces (as per a cold boot)
- *  - 1 To disable the USB Mass Storage Interface
- *  - 2 To disable the USB PICOBOOT Interface
- */
-static inline void __attribute__((noreturn)) reset_usb_boot(uint32_t usb_activity_gpio_pin_mask,
-                                                            uint32_t disable_interface_mask) {
-    rom_reset_usb_boot_fn func = (rom_reset_usb_boot_fn) rom_func_lookup(ROM_FUNC_RESET_USB_BOOT);
-    func(usb_activity_gpio_pin_mask, disable_interface_mask);
-}
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif // !__ASSEMBLER__
-#endif
diff --git a/lib/rp2040/pico/flash/hw_flash.c b/lib/rp2040/pico/flash/hw_flash.c
deleted file mode 100644
index 29a814d..0000000
--- a/lib/rp2040/pico/flash/hw_flash.c
+++ /dev/null
@@ -1,200 +0,0 @@
-/*
- * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
- *
- * SPDX-License-Identifier: BSD-3-Clause
- */
-
-#include "hw_flash.h"
-
-#include "hardware/structs/ssi.h"
-#include "hardware/structs/ioqspi.h"
-
-#include "bootrom.h"
-
-#ifndef __noinline
-#define __noinline __attribute__((noinline))
-#endif
-#ifndef __force_inline
-#if defined(__GNUC__) && (__GNUC__ <= 6 || (__GNUC__ == 7 && (__GNUC_MINOR__ < 3 || !defined(__cplusplus))))
-#define __force_inline inline __always_inline
-#else
-#define __force_inline __always_inline
-#endif
-#endif
-#ifndef __STRING
-#define __STRING(x) #x
-#endif
-#define __not_in_flash(group) __attribute__((section(".ramfunc." group)))
-#define __not_in_flash_func(func_name) __not_in_flash(__STRING(func_name)) func_name
-#define __no_inline_not_in_flash_func(func_name) __noinline __not_in_flash_func(func_name)
-
-__force_inline static void __compiler_memory_barrier(void) {
-    __asm__ volatile ("" : : : "memory");
-}
-
-//#include "platform.h"
-
-#define FLASH_BLOCK_ERASE_CMD 0xd8
-
-// Standard RUID instruction: 4Bh command prefix, 32 dummy bits, 64 data bits.
-#define FLASH_RUID_CMD 0x4b
-#define FLASH_RUID_DUMMY_BYTES 4
-#define FLASH_RUID_DATA_BYTES 8
-#define FLASH_RUID_TOTAL_BYTES (1 + FLASH_RUID_DUMMY_BYTES + FLASH_RUID_DATA_BYTES)
-
-//-----------------------------------------------------------------------------
-// Infrastructure for reentering XIP mode after exiting for programming (take
-// a copy of boot2 before XIP exit). Calling boot2 as a function works because
-// it accepts a return vector in LR (and doesn't trash r4-r7). Bootrom passes
-// NULL in LR, instructing boot2 to enter flash vector table's reset handler.
-
-#if !PICO_NO_FLASH
-
-#define BOOT2_SIZE_WORDS 64
-
-static uint32_t boot2_copyout[BOOT2_SIZE_WORDS];
-static bool boot2_copyout_valid = false;
-
-static void __no_inline_not_in_flash_func(flash_init_boot2_copyout)(void) {
-    if (boot2_copyout_valid)
-        return;
-    for (int i = 0; i < BOOT2_SIZE_WORDS; ++i)
-        boot2_copyout[i] = ((uint32_t *)XIP_BASE)[i];
-    __compiler_memory_barrier();
-    boot2_copyout_valid = true;
-}
-
-static void __no_inline_not_in_flash_func(flash_enable_xip_via_boot2)(void) {
-    ((void (*)(void))boot2_copyout+1)();
-}
-
-#else
-
-static void __no_inline_not_in_flash_func(flash_init_boot2_copyout)(void) {}
-
-static void __no_inline_not_in_flash_func(flash_enable_xip_via_boot2)(void) {
-    // Set up XIP for 03h read on bus access (slow but generic)
-    rom_flash_enter_cmd_xip_fn flash_enter_cmd_xip = (rom_flash_enter_cmd_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_ENTER_CMD_XIP);
-    //assert(flash_enter_cmd_xip);
-    flash_enter_cmd_xip();
-}
-
-#endif
-
-//-----------------------------------------------------------------------------
-// Actual flash programming shims (work whether or not PICO_NO_FLASH==1)
-
-void __no_inline_not_in_flash_func(flash_range_erase)(uint32_t flash_offs, size_t count) {
-#ifdef PICO_FLASH_SIZE_BYTES
-//    hard_assert(flash_offs + count <= PICO_FLASH_SIZE_BYTES);
-#endif
-    //invalid_params_if(FLASH, flash_offs & (FLASH_SECTOR_SIZE - 1));
-    //invalid_params_if(FLASH, count & (FLASH_SECTOR_SIZE - 1));
-    rom_connect_internal_flash_fn connect_internal_flash = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
-    rom_flash_exit_xip_fn flash_exit_xip = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
-    rom_flash_range_erase_fn flash_range_erase = (rom_flash_range_erase_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_ERASE);
-    rom_flash_flush_cache_fn flash_flush_cache = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
-    //assert(connect_internal_flash && flash_exit_xip && flash_range_erase && flash_flush_cache);
-    flash_init_boot2_copyout();
-
-    // No flash accesses after this point
-    __compiler_memory_barrier();
-
-    connect_internal_flash();
-    flash_exit_xip();
-    flash_range_erase(flash_offs, count, FLASH_BLOCK_SIZE, FLASH_BLOCK_ERASE_CMD);
-    flash_flush_cache(); // Note this is needed to remove CSn IO force as well as cache flushing
-    flash_enable_xip_via_boot2();
-}
-
-void __no_inline_not_in_flash_func(flash_range_program)(uint32_t flash_offs, const uint8_t *data, size_t count) {
-#ifdef PICO_FLASH_SIZE_BYTES
-    //hard_assert(flash_offs + count <= PICO_FLASH_SIZE_BYTES);
-#endif
-    //invalid_params_if(FLASH, flash_offs & (FLASH_PAGE_SIZE - 1));
-    //invalid_params_if(FLASH, count & (FLASH_PAGE_SIZE - 1));
-    rom_connect_internal_flash_fn connect_internal_flash = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
-    rom_flash_exit_xip_fn flash_exit_xip = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
-    rom_flash_range_program_fn flash_range_program = (rom_flash_range_program_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_RANGE_PROGRAM);
-    rom_flash_flush_cache_fn flash_flush_cache = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
-    //assert(connect_internal_flash && flash_exit_xip && flash_range_program && flash_flush_cache);
-    flash_init_boot2_copyout();
-
-    __compiler_memory_barrier();
-
-    connect_internal_flash();
-    flash_exit_xip();
-    flash_range_program(flash_offs, data, count);
-    flash_flush_cache(); // Note this is needed to remove CSn IO force as well as cache flushing
-    flash_enable_xip_via_boot2();
-}
-
-//-----------------------------------------------------------------------------
-// Lower-level flash access functions
-
-#if !PICO_NO_FLASH
-// Bitbanging the chip select using IO overrides, in case RAM-resident IRQs
-// are still running, and the FIFO bottoms out. (the bootrom does the same)
-static void __no_inline_not_in_flash_func(flash_cs_force)(bool high) {
-    uint32_t field_val = high ?
-        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH :
-        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW;
-    hw_write_masked(&ioqspi_hw->io[1].ctrl,
-        field_val << IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB,
-        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS
-    );
-}
-
-void __no_inline_not_in_flash_func(flash_do_cmd)(const uint8_t *txbuf, uint8_t *rxbuf, size_t count) {
-    rom_connect_internal_flash_fn connect_internal_flash = (rom_connect_internal_flash_fn)rom_func_lookup_inline(ROM_FUNC_CONNECT_INTERNAL_FLASH);
-    rom_flash_exit_xip_fn flash_exit_xip = (rom_flash_exit_xip_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_EXIT_XIP);
-    rom_flash_flush_cache_fn flash_flush_cache = (rom_flash_flush_cache_fn)rom_func_lookup_inline(ROM_FUNC_FLASH_FLUSH_CACHE);
-    //assert(connect_internal_flash && flash_exit_xip && flash_flush_cache);
-    flash_init_boot2_copyout();
-    __compiler_memory_barrier();
-    connect_internal_flash();
-    flash_exit_xip();
-
-    flash_cs_force(0);
-    size_t tx_remaining = count;
-    size_t rx_remaining = count;
-    // We may be interrupted -- don't want FIFO to overflow if we're distracted.
-    const size_t max_in_flight = 16 - 2;
-    while (tx_remaining || rx_remaining) {
-        uint32_t flags = ssi_hw->sr;
-        bool can_put = !!(flags & SSI_SR_TFNF_BITS);
-        bool can_get = !!(flags & SSI_SR_RFNE_BITS);
-        if (can_put && tx_remaining && rx_remaining - tx_remaining < max_in_flight) {
-            ssi_hw->dr0 = *txbuf++;
-            --tx_remaining;
-        }
-        if (can_get && rx_remaining) {
-            *rxbuf++ = (uint8_t)ssi_hw->dr0;
-            --rx_remaining;
-        }
-    }
-    flash_cs_force(1);
-
-    flash_flush_cache();
-    flash_enable_xip_via_boot2();
-}
-#endif
-
-// Use standard RUID command to get a unique identifier for the flash (and
-// hence the board)
-
-//static_assert(FLASH_UNIQUE_ID_SIZE_BYTES == FLASH_RUID_DATA_BYTES, "");
-
-void flash_get_unique_id(uint8_t *id_out) {
-#if PICO_NO_FLASH
-    __unused uint8_t *ignore = id_out;
-    panic_unsupported();
-#else
-    uint8_t txbuf[FLASH_RUID_TOTAL_BYTES] = {0};
-    uint8_t rxbuf[FLASH_RUID_TOTAL_BYTES] = {0};
-    txbuf[0] = FLASH_RUID_CMD;
-    flash_do_cmd(txbuf, rxbuf, FLASH_RUID_TOTAL_BYTES);
-    for (int i = 0; i < FLASH_RUID_DATA_BYTES; i++)
-        id_out[i] = rxbuf[i + 1 + FLASH_RUID_DUMMY_BYTES];
-#endif
-}
diff --git a/lib/rp2040/rp2040.patch b/lib/rp2040/rp2040.patch
deleted file mode 100644
index bae9e6d..0000000
--- a/lib/rp2040/rp2040.patch
+++ /dev/null
@@ -1,41 +0,0 @@
-diff --git a/lib/rp2040/boot_stage2/boot2_generic_03h.S b/lib/rp2040/boot_stage2/boot2_generic_03h.S
-index a10e66abd..cc7e4fbc7 100644
---- a/lib/rp2040/boot_stage2/boot2_generic_03h.S
-+++ b/lib/rp2040/boot_stage2/boot2_generic_03h.S
-@@ -16,7 +16,7 @@
- //                4-byte checksum. Therefore code size cannot exceed 252 bytes.
- // ----------------------------------------------------------------------------
- 
--#include "pico/asm_helper.S"
-+//#include "pico/asm_helper.S"
- #include "hardware/regs/addressmap.h"
- #include "hardware/regs/ssi.h"
- 
-diff --git a/lib/rp2040/boot_stage2/boot2_w25q080.S b/lib/rp2040/boot_stage2/boot2_w25q080.S
-index ad3238e2..8fb3def4 100644
---- a/lib/rp2040/boot_stage2/boot2_w25q080.S
-+++ b/lib/rp2040/boot_stage2/boot2_w25q080.S
-@@ -26,7 +26,7 @@
- //                4-byte checksum. Therefore code size cannot exceed 252 bytes.
- // ----------------------------------------------------------------------------
- 
--#include "pico/asm_helper.S"
-+//#include "pico/asm_helper.S"
- #include "hardware/regs/addressmap.h"
- #include "hardware/regs/ssi.h"
- #include "hardware/regs/pads_qspi.h"
-diff --git a/lib/rp2040/hardware/address_mapped.h b/lib/rp2040/hardware/address_mapped.h
-index b58f1e50..d651f598 100644
---- a/lib/rp2040/hardware/address_mapped.h
-+++ b/lib/rp2040/hardware/address_mapped.h
-@@ -7,7 +7,9 @@
- #ifndef _HARDWARE_ADDRESS_MAPPED_H
- #define _HARDWARE_ADDRESS_MAPPED_H
- 
--#include "pico.h"
-+//#include "pico.h"
-+#define __force_inline inline
-+#define static_assert(a,b)
- #include "hardware/regs/addressmap.h"
- 
- /** \file address_mapped.h
diff --git a/lib/rp2040_flash/Makefile b/lib/rp2040_flash/Makefile
index d98a72d..142ad32 100644
--- a/lib/rp2040_flash/Makefile
+++ b/lib/rp2040_flash/Makefile
@@ -1,10 +1,10 @@
 CC=gcc
-CFLAGS=-c -Wall -ggdb
+CFLAGS=-c -Wall -ggdb -DHAS_LIBUSB
 LDFALGS=
 SOURCES=main.c picoboot_connection.c
 OBJECTS=$(SOURCES:.c=.o)
 LIBS=`pkg-config libusb-1.0 --libs`
-INCLUDE_DIRS+=-I../rp2040/ `pkg-config libusb-1.0 --cflags`
+INCLUDE_DIRS+=-I../pico-sdk/ `pkg-config libusb-1.0 --cflags`
 
 EXECUTABLE=rp2040_flash
 
diff --git a/lib/rp2040_flash/addresses.h b/lib/rp2040_flash/addresses.h
new file mode 100644
index 0000000..d8926f0
--- /dev/null
+++ b/lib/rp2040_flash/addresses.h
@@ -0,0 +1,94 @@
+#ifndef _ADDRESSES_H
+#define _ADDRESSES_H
+
+#define ROM_START               0x00000000 // same as ROM_BASE in addressmap.h
+#define ROM_END_RP2040          0x00004000
+#define ROM_END_RP2350          0x00008000
+// todo amy based on what sort of elf (also this breaks RP2040 builds?)
+#define FLASH_START             0x10000000 // same as XIP_MAIN_BASE in addressmap.h
+#define FLASH_END_RP2040        0x11000000 // +32 MiB -- remainder has no external devices mapped
+#define FLASH_END_RP2350        0x12000000 // +32 MiB -- remainder has no external devices mapped
+// todo amy based on what sort of elf
+#define XIP_SRAM_START_RP2040   0x15000000
+#define XIP_SRAM_END_RP2040     0x15004000
+#define XIP_SRAM_START_RP2350   0x13ffc000 // same as XIP_SRAM_BASE in addressmap.h
+#define XIP_SRAM_END_RP2350     0x14000000 // same as XIP_SRAM_END in addressmap.h
+
+#define SRAM_START              0x20000000 // same as SRAM_BASE in addressmap.h
+#define SRAM_END_RP2040         0x20042000
+#define SRAM_END_RP2350         0x20082000
+// todo amy no more banked alias
+#define MAIN_RAM_BANKED_START   0x21000000
+#define MAIN_RAM_BANKED_END     0x21040000
+
+
+#ifdef __cplusplus
+
+#include <cstdint>
+#include <vector>
+
+#ifdef _WIN32
+#undef IGNORE
+#endif
+
+// Address ranges for RP2040/RP2350
+struct address_range {
+    enum type {
+        CONTENTS,     // may have contents
+        NO_CONTENTS,  // must be uninitialized
+        IGNORE        // will be ignored
+    };
+    address_range(uint32_t from, uint32_t to, type type) : from(from), to(to), type(type) {}
+    address_range() : address_range(0, 0, IGNORE) {}
+    uint32_t from;
+    uint32_t to;
+    type type;
+};
+
+typedef std::vector<address_range> address_ranges;
+
+
+const address_ranges rp2040_address_ranges_flash {
+    address_range(FLASH_START, FLASH_END_RP2040, address_range::type::CONTENTS),
+    address_range(SRAM_START, SRAM_END_RP2040, address_range::type::NO_CONTENTS),
+    address_range(MAIN_RAM_BANKED_START, MAIN_RAM_BANKED_END, address_range::type::NO_CONTENTS)
+};
+
+const address_ranges rp2040_address_ranges_ram {
+    address_range(SRAM_START, SRAM_END_RP2040, address_range::type::CONTENTS),
+    address_range(XIP_SRAM_START_RP2040, XIP_SRAM_END_RP2040, address_range::type::CONTENTS),
+    address_range(ROM_START, ROM_END_RP2040, address_range::type::IGNORE) // for now we ignore the bootrom if present
+};
+
+const address_ranges rp2350_address_ranges_flash {
+    address_range(FLASH_START, FLASH_END_RP2350, address_range::type::CONTENTS),
+    address_range(SRAM_START, SRAM_END_RP2350, address_range::type::NO_CONTENTS),
+    address_range(MAIN_RAM_BANKED_START, MAIN_RAM_BANKED_END, address_range::type::NO_CONTENTS)
+};
+
+const address_ranges rp2350_address_ranges_ram {
+    address_range(SRAM_START, SRAM_END_RP2350, address_range::type::CONTENTS),
+    address_range(XIP_SRAM_START_RP2350, XIP_SRAM_END_RP2350, address_range::type::CONTENTS),
+    address_range(ROM_START, ROM_END_RP2350, address_range::type::IGNORE) // for now we ignore the bootrom if present
+};
+
+static bool is_address_valid(const address_ranges& valid_ranges, uint32_t addr) {
+    for(const auto& range : valid_ranges) {
+        if (range.from <= addr && range.to > addr) {
+            return true;
+        }
+    }
+    return false;
+}
+
+static bool is_address_initialized(const address_ranges& valid_ranges, uint32_t addr) {
+    for(const auto& range : valid_ranges) {
+        if (range.from <= addr && range.to > addr) {
+            return address_range::type::CONTENTS == range.type;
+        }
+    }
+    return false;
+}
+
+#endif
+#endif
diff --git a/lib/rp2040_flash/main.c b/lib/rp2040_flash/main.c
index e938eb3..017fe94 100644
--- a/lib/rp2040_flash/main.c
+++ b/lib/rp2040_flash/main.c
@@ -12,7 +12,7 @@
 #include "picoboot_connection.h"
 #include "boot/uf2.h"
 
-#define FLASH_MAX_SIZE (FLASH_END - FLASH_START)
+#define FLASH_MAX_SIZE (FLASH_END_RP2350 - FLASH_START)
 #define FLASH_NUM_WRITE_BLOCKS (FLASH_MAX_SIZE / PAGE_SIZE)
 #define FLASH_NUM_ERASE_BLOCKS (FLASH_MAX_SIZE / FLASH_SECTOR_ERASE_SIZE)
 
@@ -62,7 +62,7 @@ int load_flash_data(const char *filename, struct flash_data *target) {
 
         // Bounds and alignment checking
         if (block.target_addr != (block.target_addr & ~(PAGE_SIZE-1))) continue;
-        if (block.target_addr > FLASH_END - PAGE_SIZE) continue;
+        if (block.target_addr > FLASH_END_RP2350 - PAGE_SIZE) continue;
         if (block.target_addr < FLASH_START) continue;
 
         uint32_t offset = block.target_addr - FLASH_START;
@@ -110,7 +110,7 @@ int report_error(libusb_device_handle *handle, const char *cmd) {
     return 1;
 };
 
-int picoboot_flash(libusb_device_handle *handle, struct flash_data *image) {
+int picoboot_flash(libusb_device_handle *handle, struct flash_data *image, model_t model) {
     fprintf(stderr, "Resetting interface\n");
     if (picoboot_reset(handle)) {
         return report_error(handle, "reset");
@@ -146,8 +146,18 @@ int picoboot_flash(libusb_device_handle *handle, struct flash_data *image) {
     }
 
     fprintf(stderr, "Rebooting device\n");
-    if (picoboot_reboot(handle, 0, 0, 500)) {
-        return report_error(handle, "reboot");
+    if (model == rp2040) {
+        if (picoboot_reboot(handle, 0, 0, 500)) {
+            return report_error(handle, "reboot");
+        }
+    } else {
+        struct picoboot_reboot2_cmd cmd = {
+            .dFlags = REBOOT2_FLAG_REBOOT_TYPE_NORMAL,
+            .dDelayMS = 500,
+        };
+        if (picoboot_reboot2(handle, &cmd)) {
+            return report_error(handle, "reboot");
+        }
     }
 
     return 0;
@@ -204,12 +214,13 @@ int main(int argc, char *argv[]) {
         goto do_exit;
     }
 
+    model_t model;
     for (libusb_device **dev = devs; *dev; ++dev) {
         if (has_target) {
             if (target_bus != libusb_get_bus_number(*dev)) continue;
             if (target_address != libusb_get_device_address(*dev)) continue;
         }
-        enum picoboot_device_result res = picoboot_open_device(*dev, &handle);
+        enum picoboot_device_result res = picoboot_open_device(*dev, &handle, &model, -1, -1, "");
         if (res == dr_vidpid_bootrom_ok) {
             break;
         }
@@ -229,7 +240,7 @@ int main(int argc, char *argv[]) {
         libusb_get_bus_number(dev), libusb_get_device_address(dev));
     fprintf(stderr, "Flashing...\n");
 
-    rc = picoboot_flash(handle, image);
+    rc = picoboot_flash(handle, image, model);
 
 do_exit:
     if (handle) {
diff --git a/lib/rp2040_flash/picoboot_connection.c b/lib/rp2040_flash/picoboot_connection.c
index c0d2176..7a519d1 100644
--- a/lib/rp2040_flash/picoboot_connection.c
+++ b/lib/rp2040_flash/picoboot_connection.c
@@ -7,29 +7,32 @@
 #include <stdlib.h>
 #include <string.h>
 #include <stdbool.h>
+#include <inttypes.h>
 
 #include "picoboot_connection.h"
+#include "pico/bootrom_constants.h"
 
-#if false && !defined(NDEBUG)
-#define output(format,...) printf(format, __VA_ARGS__)
+#if ENABLE_DEBUG_LOG
+#include <stdio.h>
+#define output(...) printf(__VA_ARGS__)
 #else
 #define output(format,...) ((void)0)
 #endif
 
 static bool verbose;
+static bool definitely_exclusive;
+static enum {
+    XIP_UNKOWN,
+    XIP_ACTIVE,
+    XIP_INACTIVE,
+} xip_state;
 
 // todo test sparse binary (well actually two range is this)
 
-#define VENDOR_ID_RASPBERRY_PI 0x2e8au
-#define PRODUCT_ID_RP2_USBBOOT 0x0003u
-#define PRODUCT_ID_PICOPROBE   0x0004u
-#define PRODUCT_ID_MICROPYTHON 0x0005u
-#define PRODUCT_ID_STDIO_USB   0x000au
-
 uint32_t crc32_for_byte(uint32_t remainder) {
     const uint32_t POLYNOMIAL = 0x4C11DB7;
     remainder <<= 24u;
-    for (uint bit = 8; bit > 0; bit--) {
+    for (unsigned int bit = 8; bit > 0; bit--) {
         if (remainder & 0x80000000)
             remainder = (remainder << 1) ^ POLYNOMIAL;
         else
@@ -38,47 +41,64 @@ uint32_t crc32_for_byte(uint32_t remainder) {
     return remainder;
 }
 
-uint32_t crc32_sw(const uint8_t *buf, uint count, uint32_t crc) {
+uint32_t crc32_sw(const uint8_t *buf, unsigned int count, uint32_t crc) {
     static uint32_t table[0x100];
     if (!table[1]) {
-        for (uint i = 0; i < count_of(table); i++) {
+        for (unsigned int i = 0; i < count_of(table); i++) {
             table[i] = crc32_for_byte(i);
         }
     }
-    for (uint i = 0; i < count; ++i) {
+    for (unsigned int i = 0; i < count; ++i) {
         crc = (crc << 8u) ^ table[(uint8_t) ((crc >> 24u) ^ buf[i])];
     }
     return crc;
 }
 
-uint interface;
-uint out_ep;
-uint in_ep;
+unsigned int interface;
+unsigned int out_ep;
+unsigned int in_ep;
 
-enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_device_handle **dev_handle) {
+enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_device_handle **dev_handle, model_t *model, int vid, int pid, const char* ser) {
     struct libusb_device_descriptor desc;
     struct libusb_config_descriptor *config;
 
+    definitely_exclusive = false;
     *dev_handle = NULL;
+    *model = unknown;
     int ret = libusb_get_device_descriptor(device, &desc);
+    enum picoboot_device_result res = dr_vidpid_unknown;
     if (ret && verbose) {
-        output("Failed to read device descriptor");
+        output("Failed to read device descriptor\n");
     }
     if (!ret) {
-        if (desc.idVendor != VENDOR_ID_RASPBERRY_PI) {
-            return dr_vidpid_unknown;
-        }
-        switch (desc.idProduct) {
-            case PRODUCT_ID_MICROPYTHON:
-                return dr_vidpid_micropython;
-            case PRODUCT_ID_PICOPROBE:
-                return dr_vidpid_picoprobe;
-            case PRODUCT_ID_STDIO_USB:
-                return dr_vidpid_stdio_usb;
-            case PRODUCT_ID_RP2_USBBOOT:
-                break;
-            default:
+        if (pid >= 0) {
+            bool match_vid = (vid < 0 ? VENDOR_ID_RASPBERRY_PI : (unsigned int)vid) == desc.idVendor;
+            bool match_pid = pid == desc.idProduct;
+            if (!(match_vid && match_pid)) {
                 return dr_vidpid_unknown;
+            }
+        } else if (vid != 0) { // ignore vid/pid filtering if no pid and vid == 0
+            if (desc.idVendor != (vid < 0 ? VENDOR_ID_RASPBERRY_PI : (unsigned int)vid)) {
+                return dr_vidpid_unknown;
+            }
+            switch (desc.idProduct) {
+                case PRODUCT_ID_MICROPYTHON:
+                    return dr_vidpid_micropython;
+                case PRODUCT_ID_PICOPROBE:
+                    return dr_vidpid_picoprobe;
+                case PRODUCT_ID_RP2040_STDIO_USB:
+                case PRODUCT_ID_STDIO_USB:
+                    res = dr_vidpid_stdio_usb;
+                    break;
+                case PRODUCT_ID_RP2040_USBBOOT:
+                    *model = rp2040;
+                    break;
+                case PRODUCT_ID_RP2350_USBBOOT:
+                    *model = rp2350;
+                    break;
+                default:
+                    return dr_vidpid_unknown;
+            }
         }
         ret = libusb_get_active_config_descriptor(device, &config);
         if (ret && verbose) {
@@ -92,7 +112,29 @@ enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_d
             output("Failed to open device %d\n", ret);
         }
         if (ret) {
-            return dr_vidpid_bootrom_cant_connect;
+            if (vid == 0 || strlen(ser) != 0) {
+                // didn't check vid or ser, so treat as unknown
+                return dr_vidpid_unknown;
+            } else if (res != dr_vidpid_unknown) {
+                return res;
+            } else {
+                return dr_vidpid_bootrom_cant_connect;
+            }
+        }
+    }
+
+    if (res == dr_vidpid_stdio_usb) {
+        if (strlen(ser) != 0) {
+            // Check USB serial number
+            char ser_str[128];
+            libusb_get_string_descriptor_ascii(*dev_handle, desc.iSerialNumber, (unsigned char*)ser_str, sizeof(ser_str));
+            if (strcmp(ser, ser_str)) {
+                return dr_vidpid_unknown;
+            } else {
+                return res;
+            }
+        } else {
+            return res;
         }
     }
 
@@ -114,14 +156,48 @@ enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_d
                 if (verbose) output("Failed to claim interface\n");
                 return dr_vidpid_bootrom_no_interface;
             }
-
-            return dr_vidpid_bootrom_ok;
         } else {
             if (verbose) output("Did not find PICOBOOT interface\n");
             return dr_vidpid_bootrom_no_interface;
         }
     }
 
+    if (!ret) {
+        if (*model == unknown) {
+            struct picoboot_get_info_cmd info_cmd;
+            info_cmd.bType = PICOBOOT_GET_INFO_SYS,
+            info_cmd.dParams[0] = (uint32_t) (SYS_INFO_CHIP_INFO);
+            uint32_t word_buf[64];
+            // RP2040 doesn't have this function, so returns non-zero
+            int info_ret = picoboot_get_info(*dev_handle, &info_cmd, (uint8_t*)word_buf, sizeof(word_buf));
+            if (info_ret) {
+                *model = rp2040;
+            } else {
+                *model = rp2350;
+            }
+        }
+        if (strlen(ser) != 0) {
+            if (*model == rp2040) {
+                // Check flash ID, as USB serial number is not unique
+                uint64_t ser_num = strtoull(ser, NULL, 16);
+                uint64_t id = 0;
+                int id_ret = picoboot_flash_id(*dev_handle, &id);
+                if (verbose) output("Flash ID %"PRIX64"\n", id);
+                if (id_ret || (ser_num != id)) {
+                    return dr_vidpid_unknown;
+                }
+            } else {
+                // Check USB serial number
+                char ser_str[128];
+                libusb_get_string_descriptor_ascii(*dev_handle, desc.iSerialNumber, (unsigned char*)ser_str, sizeof(ser_str));
+                if (strcmp(ser, ser_str)) {
+                    return dr_vidpid_unknown;
+                }
+            }
+        }
+        return dr_vidpid_bootrom_ok;
+    }
+
     assert(ret);
 
     if (*dev_handle) {
@@ -169,6 +245,7 @@ int picoboot_reset(libusb_device_handle *usb_device) {
         return ret;
     }
     if (verbose) output("  ...ok\n");
+    definitely_exclusive = false;
     return 0;
 }
 
@@ -198,7 +275,7 @@ int picoboot_cmd_status(libusb_device_handle *usb_device, struct picoboot_cmd_st
 
 int one_time_bulk_timeout;
 
-int picoboot_cmd(libusb_device_handle *usb_device, struct picoboot_cmd *cmd, uint8_t *buffer, uint buf_size) {
+int picoboot_cmd(libusb_device_handle *usb_device, struct picoboot_cmd *cmd, uint8_t *buffer, unsigned int buf_size) {
     int sent = 0;
     int ret;
 
@@ -212,6 +289,10 @@ int picoboot_cmd(libusb_device_handle *usb_device, struct picoboot_cmd *cmd, uin
         return ret;
     }
 
+    int saved_xip_state = xip_state;
+    bool saved_exclusive = definitely_exclusive;
+    xip_state = XIP_UNKOWN;
+    definitely_exclusive = false;
     int timeout = 10000;
     if (one_time_bulk_timeout) {
         timeout = one_time_bulk_timeout;
@@ -250,6 +331,42 @@ int picoboot_cmd(libusb_device_handle *usb_device, struct picoboot_cmd *cmd, uin
         if (verbose) output("zero length in\n");
         ret = libusb_bulk_transfer(usb_device, in_ep, spoon, 1, &received, cmd->dTransferLength == 0 ? timeout : 3000);
     }
+    if (!ret) {
+        // do our defensive best to keep the xip_state up to date
+        switch (cmd->bCmdId) {
+            case PC_EXIT_XIP:
+                xip_state = XIP_INACTIVE;
+                break;
+            case PC_ENTER_CMD_XIP:
+                xip_state = XIP_ACTIVE;
+                break;
+            case PC_READ:
+            case PC_WRITE:
+                // whitelist PC_READ and PC_WRITE as not affecting xip state
+                xip_state = saved_xip_state;
+                break;
+            default:
+                xip_state = XIP_UNKOWN;
+                break;
+        }
+        // do our defensive best to keep the exclusive var up to date
+        switch (cmd->bCmdId) {
+            case PC_EXCLUSIVE_ACCESS:
+                definitely_exclusive = cmd->exclusive_cmd.bExclusive;
+                break;
+            case PC_ENTER_CMD_XIP:
+            case PC_EXIT_XIP:
+            case PC_READ:
+            case PC_WRITE:
+                // whitelist PC_READ and PC_WRITE as not affecting xip state
+                definitely_exclusive = saved_exclusive;
+                break;
+            default:
+                definitely_exclusive = false;
+                break;
+        }
+    }
+
     return ret;
 }
 
@@ -264,11 +381,16 @@ int picoboot_exclusive_access(libusb_device_handle *usb_device, uint8_t exclusiv
 }
 
 int picoboot_exit_xip(libusb_device_handle *usb_device) {
+    if (definitely_exclusive && xip_state == XIP_INACTIVE) {
+        if (verbose) output("Skipping EXIT_XIP");
+        return 0;
+    }
     struct picoboot_cmd cmd;
     if (verbose) output("EXIT_XIP\n");
     cmd.bCmdId = PC_EXIT_XIP;
     cmd.bCmdSize = 0;
     cmd.dTransferLength = 0;
+    xip_state = XIP_INACTIVE;
     return picoboot_cmd(usb_device, &cmd, NULL, 0);
 }
 
@@ -278,12 +400,13 @@ int picoboot_enter_cmd_xip(libusb_device_handle *usb_device) {
     cmd.bCmdId = PC_ENTER_CMD_XIP;
     cmd.bCmdSize = 0;
     cmd.dTransferLength = 0;
+    xip_state = XIP_ACTIVE;
     return picoboot_cmd(usb_device, &cmd, NULL, 0);
 }
 
 int picoboot_reboot(libusb_device_handle *usb_device, uint32_t pc, uint32_t sp, uint32_t delay_ms) {
     struct picoboot_cmd cmd;
-    if (verbose) output("REBOOT %08x %08x %u\n", (uint) pc, (uint) sp, (uint) delay_ms);
+    if (verbose) output("REBOOT %08x %08x %u\n", (unsigned int) pc, (unsigned int) sp, (unsigned int) delay_ms);
     cmd.bCmdId = PC_REBOOT;
     cmd.bCmdSize = sizeof(cmd.reboot_cmd);
     cmd.dTransferLength = 0;
@@ -293,11 +416,21 @@ int picoboot_reboot(libusb_device_handle *usb_device, uint32_t pc, uint32_t sp,
     return picoboot_cmd(usb_device, &cmd, NULL, 0);
 }
 
+int picoboot_reboot2(libusb_device_handle *usb_device, struct picoboot_reboot2_cmd *reboot_cmd) {
+    struct picoboot_cmd cmd;
+    if (verbose) output("REBOOT %08x %08x %08x %u\n", (unsigned int)reboot_cmd->dFlags, (unsigned int) reboot_cmd->dParam0, (unsigned int) reboot_cmd->dParam1, (unsigned int) reboot_cmd->dDelayMS);
+    cmd.bCmdId = PC_REBOOT2;
+    cmd.bCmdSize = sizeof(cmd.reboot2_cmd);
+    cmd.reboot2_cmd = *reboot_cmd;
+    cmd.dTransferLength = 0;
+    return picoboot_cmd(usb_device, &cmd, NULL, 0);
+}
+
 int picoboot_exec(libusb_device_handle *usb_device, uint32_t addr) {
     struct picoboot_cmd cmd;
     // shouldn't be necessary any more
     // addr |= 1u; // Thumb bit
-    if (verbose) output("EXEC %08x\n", (uint) addr);
+    if (verbose) output("EXEC %08x\n", (unsigned int) addr);
     cmd.bCmdId = PC_EXEC;
     cmd.bCmdSize = sizeof(cmd.address_only_cmd);
     cmd.dTransferLength = 0;
@@ -305,9 +438,22 @@ int picoboot_exec(libusb_device_handle *usb_device, uint32_t addr) {
     return picoboot_cmd(usb_device, &cmd, NULL, 0);
 }
 
+// int picoboot_exec2(libusb_device_handle *usb_device, struct picoboot_exec2_cmd *exec2_cmd) {
+//     struct picoboot_cmd cmd;
+//     // shouldn't be necessary any more
+//     // addr |= 1u; // Thumb bit
+//     //if (verbose) output("EXEC2 %08x\n", (unsigned int) exec2_cmd->scan_base);
+//     cmd.bCmdId = PC_EXEC2;
+//     cmd.bCmdSize = sizeof(cmd.exec2_cmd);
+//     cmd.dTransferLength = 0;
+//     cmd.exec2_cmd = *exec2_cmd;
+//     return picoboot_cmd(usb_device, &cmd, NULL, 0);
+// } // currently unused
+
+
 int picoboot_flash_erase(libusb_device_handle *usb_device, uint32_t addr, uint32_t len) {
     struct picoboot_cmd cmd;
-    if (verbose) output("FLASH_ERASE %08x+%08x\n", (uint) addr, (uint) len);
+    if (verbose) output("FLASH_ERASE %08x+%08x\n", (unsigned int) addr, (unsigned int) len);
     cmd.bCmdId = PC_FLASH_ERASE;
     cmd.bCmdSize = sizeof(cmd.range_cmd);
     cmd.range_cmd.dAddr = addr;
@@ -318,7 +464,7 @@ int picoboot_flash_erase(libusb_device_handle *usb_device, uint32_t addr, uint32
 
 int picoboot_vector(libusb_device_handle *usb_device, uint32_t addr) {
     struct picoboot_cmd cmd;
-    if (verbose) output("VECTOR %08x\n", (uint) addr);
+    if (verbose) output("VECTOR %08x\n", (unsigned int) addr);
     cmd.bCmdId = PC_VECTORIZE_FLASH;
     cmd.bCmdSize = sizeof(cmd.address_only_cmd);
     cmd.range_cmd.dAddr = addr;
@@ -328,7 +474,7 @@ int picoboot_vector(libusb_device_handle *usb_device, uint32_t addr) {
 
 int picoboot_write(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buffer, uint32_t len) {
     struct picoboot_cmd cmd;
-    if (verbose) output("WRITE %08x+%08x\n", (uint) addr, (uint) len);
+    if (verbose) output("WRITE %08x+%08x\n", (unsigned int) addr, (unsigned int) len);
     cmd.bCmdId = PC_WRITE;
     cmd.bCmdSize = sizeof(cmd.range_cmd);
     cmd.range_cmd.dAddr = addr;
@@ -338,7 +484,7 @@ int picoboot_write(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buf
 
 int picoboot_read(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buffer, uint32_t len) {
     memset(buffer, 0xaa, len);
-    if (verbose) output("READ %08x+%08x\n", (uint) addr, (uint) len);
+    if (verbose) output("READ %08x+%08x\n", (unsigned int) addr, (unsigned int) len);
     struct picoboot_cmd cmd;
     cmd.bCmdId = PC_READ;
     cmd.bCmdSize = sizeof(cmd.range_cmd);
@@ -357,8 +503,47 @@ int picoboot_read(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buff
     return ret;
 }
 
+int picoboot_otp_write(libusb_device_handle *usb_device, struct picoboot_otp_cmd *otp_cmd, uint8_t *buffer, uint32_t len) {
+    struct picoboot_cmd cmd;
+    if (verbose) output("OTP WRITE %04x+%08x ecc=%d\n", (unsigned int) otp_cmd->wRow, otp_cmd->wRowCount, otp_cmd->bEcc);
+    cmd.bCmdId = PC_OTP_WRITE;
+#ifdef _MSC_VER
+    cmd.bCmdSize = 5;   // for some reason with MSVC, and only with picoboot_otp_cmd, the size is 6 not 5??
+#else
+    cmd.bCmdSize = sizeof(cmd.otp_cmd);
+#endif
+    cmd.otp_cmd = *otp_cmd;
+    cmd.dTransferLength = len;
+    one_time_bulk_timeout = 5000 + len * 5;
+    return picoboot_cmd(usb_device, &cmd, buffer, len);
+}
 
-#if 0
+int picoboot_otp_read(libusb_device_handle *usb_device, struct picoboot_otp_cmd *otp_cmd, uint8_t *buffer, uint32_t len) {
+    struct picoboot_cmd cmd;
+    if (verbose) output("OTP READ %04x+%08x ecc=%d\n", (unsigned int) otp_cmd->wRow, otp_cmd->wRowCount, otp_cmd->bEcc);
+    cmd.bCmdId = PC_OTP_READ;
+#ifdef _MSC_VER
+    cmd.bCmdSize = 5;   // for some reason with MSVC, and only with picoboot_otp_cmd, the size is 6 not 5??
+#else
+    cmd.bCmdSize = sizeof(cmd.otp_cmd);
+#endif
+    cmd.otp_cmd = *otp_cmd;
+    cmd.dTransferLength = len;
+    return picoboot_cmd(usb_device, &cmd, buffer, len);
+}
+
+int picoboot_get_info(libusb_device_handle *usb_device, struct picoboot_get_info_cmd *get_info_cmd, uint8_t *buffer, uint32_t len) {
+    if (verbose) output("GET_INFO\n");
+    struct picoboot_cmd cmd;
+    cmd.bCmdId = PC_GET_INFO;
+    cmd.bCmdSize = sizeof(cmd.get_info_cmd);
+    cmd.get_info_cmd = *get_info_cmd;
+    cmd.dTransferLength = len;
+    int ret = picoboot_cmd(usb_device, &cmd, buffer, len);
+    return ret;
+}
+
+#if 1
 // Peek/poke via EXEC
 
 // 00000000 <poke>:
@@ -376,6 +561,7 @@ static const size_t picoboot_poke_cmd_len = 8;
 static const uint8_t picoboot_poke_cmd[] = {
         0x01, 0x48, 0x02, 0x49, 0x08, 0x60, 0x70, 0x47
 };
+#define PICOBOOT_POKE_CMD_PROG_SIZE (size_t)(8 + 8)
 
 // 00000000 <peek>:
 //    0:   4802        ldr r0, [pc, #8]    ; (c <inout>)
@@ -391,19 +577,53 @@ static const size_t picoboot_peek_cmd_len = 12;
 static const uint8_t picoboot_peek_cmd[] = {
         0x02, 0x48, 0x00, 0x68, 0x79, 0x46, 0x48, 0x60, 0x70, 0x47, 0xc0, 0x46
 };
+#define PICOBOOT_PEEK_CMD_PROG_SIZE (size_t)(12 + 4)
+
+// todo - compile this - currently taken from github PR #86
+static const size_t picoboot_flash_id_cmd_len = 152;
+static const uint8_t picoboot_flash_id_cmd[] = {
+    // void flash_get_unique_id(void)
+    0x02, 0xa0, 0x06, 0xa1, 0x00, 0x4a, 0x11, 0xe0, 
+    // int buflen
+    0x0d, 0x00, 0x00, 0x00,
+    // char txbuf[13]
+    0x4b, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+    0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+    // char rxbuf[13]
+    0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+    0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+    // void flash_do_cmd(txbuf, rxbuf, buflen)
+    0x80, 0x23, 0xf0, 0xb5, 0x17, 0x4e, 0x9b, 0x00,
+    0x34, 0x68, 0x63, 0x40, 0xc0, 0x24, 0xa4, 0x00,
+    0x23, 0x40, 0x15, 0x4c, 0x23, 0x60, 0xc0, 0x24,
+    0x13, 0x00, 0x64, 0x05, 0x17, 0x00, 0x1f, 0x43,
+    0x06, 0xd1, 0xc0, 0x23, 0x32, 0x68, 0x9b, 0x00,
+    0x93, 0x43, 0x0f, 0x4a, 0x13, 0x60, 0xf0, 0xbd,
+    0x08, 0x25, 0xa7, 0x6a, 0x3d, 0x40, 0xac, 0x46,
+    0x02, 0x25, 0x2f, 0x42, 0x08, 0xd0, 0x00, 0x2a,
+    0x06, 0xd0, 0x9f, 0x1a, 0x0d, 0x2f, 0x03, 0xd8,
+    0x07, 0x78, 0x01, 0x3a, 0x27, 0x66, 0x01, 0x30,
+    0x65, 0x46, 0x00, 0x2d, 0xe2, 0xd0, 0x00, 0x2b,
+    0xe0, 0xd0, 0x27, 0x6e, 0x01, 0x3b, 0x0f, 0x70,
+    0x01, 0x31, 0xdb, 0xe7, 0x0c, 0x80, 0x01, 0x40,
+    0x0c, 0x90, 0x01, 0x40,
+};
+#define PICOBOOT_FLASH_ID_CMD_PROG_SIZE (size_t)(152)
 
 // TODO better place for this e.g. the USB DPRAM location the controller has already put it in
 #define PEEK_POKE_CODE_LOC 0x20000000u
 
+#define FLASH_ID_CODE_LOC 0x15000000 // XIP_SRAM_BASE on RP2040, as we're not using XIP so probably fine
+#define FLASH_ID_UID_ADDR (FLASH_ID_CODE_LOC + 28 + 1 + 4)
+
 int picoboot_poke(libusb_device_handle *usb_device, uint32_t addr, uint32_t data) {
-    const size_t prog_size = picoboot_poke_cmd_len + 8;
-    uint8_t prog[prog_size];
+    uint8_t prog[PICOBOOT_POKE_CMD_PROG_SIZE];
     output("POKE (D)%08x -> (A)%08x\n", data, addr);
     memcpy(prog, picoboot_poke_cmd, picoboot_poke_cmd_len);
     *(uint32_t *) (prog + picoboot_poke_cmd_len) = data;
     *(uint32_t *) (prog + picoboot_poke_cmd_len + 4) = addr;
 
-    int ret = picoboot_write(usb_device, PEEK_POKE_CODE_LOC, prog, prog_size);
+    int ret = picoboot_write(usb_device, PEEK_POKE_CODE_LOC, prog, PICOBOOT_POKE_CMD_PROG_SIZE);
     if (ret)
         return ret;
     return picoboot_exec(usb_device, PEEK_POKE_CODE_LOC);
@@ -411,13 +631,12 @@ int picoboot_poke(libusb_device_handle *usb_device, uint32_t addr, uint32_t data
 
 // TODO haven't checked the store goes to the right address :)
 int picoboot_peek(libusb_device_handle *usb_device, uint32_t addr, uint32_t *data) {
-    const size_t prog_size = picoboot_peek_cmd_len + 4;
-    uint8_t prog[prog_size];
+    uint8_t prog[PICOBOOT_PEEK_CMD_PROG_SIZE];
     output("PEEK %08x\n", addr);
     memcpy(prog, picoboot_peek_cmd, picoboot_peek_cmd_len);
     *(uint32_t *) (prog + picoboot_peek_cmd_len) = addr;
 
-    int ret = picoboot_write(usb_device, PEEK_POKE_CODE_LOC, prog, prog_size);
+    int ret = picoboot_write(usb_device, PEEK_POKE_CODE_LOC, prog, PICOBOOT_PEEK_CMD_PROG_SIZE);
     if (ret)
         return ret;
     ret = picoboot_exec(usb_device, PEEK_POKE_CODE_LOC);
@@ -425,4 +644,36 @@ int picoboot_peek(libusb_device_handle *usb_device, uint32_t addr, uint32_t *dat
         return ret;
     return picoboot_read(usb_device, PEEK_POKE_CODE_LOC + picoboot_peek_cmd_len, (uint8_t *) data, sizeof(uint32_t));
 }
-#endif
+
+int picoboot_flash_id(libusb_device_handle *usb_device, uint64_t *data) {
+    picoboot_exclusive_access(usb_device, 1);
+    uint8_t prog[PICOBOOT_FLASH_ID_CMD_PROG_SIZE];
+    uint64_t id;
+    output("GET FLASH ID\n");
+    memcpy(prog, picoboot_flash_id_cmd, picoboot_flash_id_cmd_len);
+
+    // ensure XIP is exited before executing
+    int ret = picoboot_exit_xip(usb_device);
+    if (ret) 
+        goto flash_id_return;
+    ret = picoboot_write(usb_device, FLASH_ID_CODE_LOC, prog, PICOBOOT_FLASH_ID_CMD_PROG_SIZE);
+    if (ret)
+        goto flash_id_return;
+    ret = picoboot_exec(usb_device, FLASH_ID_CODE_LOC);
+    if (ret)
+        goto flash_id_return;
+    ret = picoboot_read(usb_device, FLASH_ID_UID_ADDR, (uint8_t *) &id, sizeof(uint64_t));
+    *data = (((id & 0x00000000000000FF) << 56) |
+            ((id & 0x000000000000FF00) << 40) |
+            ((id & 0x0000000000FF0000) << 24) |
+            ((id & 0x00000000FF000000) <<  8) |
+            ((id & 0x000000FF00000000) >>  8) |
+            ((id & 0x0000FF0000000000) >> 24) |
+            ((id & 0x00FF000000000000) >> 40) |
+            ((id & 0xFF00000000000000) >> 56));
+
+flash_id_return:
+    picoboot_exclusive_access(usb_device, 0);
+    return ret;
+}
+#endif
\ No newline at end of file
diff --git a/lib/rp2040_flash/picoboot_connection.h b/lib/rp2040_flash/picoboot_connection.h
index ebdabfc..875c35c 100644
--- a/lib/rp2040_flash/picoboot_connection.h
+++ b/lib/rp2040_flash/picoboot_connection.h
@@ -10,9 +10,21 @@
 // todo we should use fully encapsulate libusb
 
 #include <assert.h>
+#if HAS_LIBUSB
 #include <libusb.h>
+#endif
 #include "boot/picoboot.h"
 
+#include "addresses.h"
+
+#define VENDOR_ID_RASPBERRY_PI 0x2e8au
+#define PRODUCT_ID_RP2040_USBBOOT 0x0003u
+#define PRODUCT_ID_PICOPROBE   0x0004u
+#define PRODUCT_ID_MICROPYTHON 0x0005u
+#define PRODUCT_ID_STDIO_USB   0x0009u
+#define PRODUCT_ID_RP2040_STDIO_USB 0x000au
+#define PRODUCT_ID_RP2350_USBBOOT 0x000fu
+
 #ifdef __cplusplus
 extern "C" {
 #endif
@@ -28,7 +40,20 @@ enum picoboot_device_result {
     dr_vidpid_stdio_usb,
 };
 
-enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_device_handle **dev_handle);
+typedef enum {
+    rp2040,
+    rp2350,
+    unknown
+} model_t;
+
+typedef enum {
+    rp2350_a2,
+    rp2350_unknown
+} rp2350_version_t;
+
+#if HAS_LIBUSB
+// note that vid and pid are filters, unless both are specified in which case a device with that VID and PID is allowed for RP2350
+enum picoboot_device_result picoboot_open_device(libusb_device *device, libusb_device_handle **dev_handle, model_t *model, int vid, int pid, const char* ser);
 
 int picoboot_reset(libusb_device_handle *usb_device);
 int picoboot_cmd_status_verbose(libusb_device_handle *usb_device, struct picoboot_cmd_status *status,
@@ -38,26 +63,20 @@ int picoboot_exclusive_access(libusb_device_handle *usb_device, uint8_t exclusiv
 int picoboot_enter_cmd_xip(libusb_device_handle *usb_device);
 int picoboot_exit_xip(libusb_device_handle *usb_device);
 int picoboot_reboot(libusb_device_handle *usb_device, uint32_t pc, uint32_t sp, uint32_t delay_ms);
+int picoboot_reboot2(libusb_device_handle *usb_device, struct picoboot_reboot2_cmd *reboot_cmd);
+int picoboot_get_info(libusb_device_handle *usb_device, struct picoboot_get_info_cmd *cmd, uint8_t *buffer, uint32_t len);
 int picoboot_exec(libusb_device_handle *usb_device, uint32_t addr);
+// int picoboot_exec2(libusb_device_handle *usb_device, struct picoboot_exec2_cmd *exec2_cmd); // currently unused
 int picoboot_flash_erase(libusb_device_handle *usb_device, uint32_t addr, uint32_t len);
 int picoboot_vector(libusb_device_handle *usb_device, uint32_t addr);
 int picoboot_write(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buffer, uint32_t len);
 int picoboot_read(libusb_device_handle *usb_device, uint32_t addr, uint8_t *buffer, uint32_t len);
+int picoboot_otp_write(libusb_device_handle *usb_device, struct picoboot_otp_cmd *otp_cmd, uint8_t *buffer, uint32_t len);
+int picoboot_otp_read(libusb_device_handle *usb_device, struct picoboot_otp_cmd *otp_cmd, uint8_t *buffer, uint32_t len);
 int picoboot_poke(libusb_device_handle *usb_device, uint32_t addr, uint32_t data);
 int picoboot_peek(libusb_device_handle *usb_device, uint32_t addr, uint32_t *data);
-
-#define ROM_START   0x00000000
-#define ROM_END     0x00004000
-#define FLASH_START 0x10000000
-#define FLASH_END   0x11000000 // this is maximum
-#define XIP_SRAM_BASE 0x15000000
-#define XIP_SRAM_END 0x15004000
-
-#define SRAM_START  0x20000000
-#define SRAM_END    0x20042000
-
-#define SRAM_UNSTRIPED_START  0x21000000
-#define SRAM_UNSTRIPED_END    0x21040000
+int picoboot_flash_id(libusb_device_handle *usb_device, uint64_t *data);
+#endif
 
 // we require 256 (as this is the page size supported by the device)
 #define LOG2_PAGE_SIZE 8u
@@ -74,27 +93,44 @@ enum memory_type {
 };
 
 // inclusive of ends
-static inline enum memory_type get_memory_type(uint32_t addr) {
-    if (addr >= ROM_START && addr <= ROM_END) {
-        return rom;
-    }
-    if (addr >= FLASH_START && addr <= FLASH_END) {
+static inline enum memory_type get_memory_type(uint32_t addr, model_t model) {
+    if (addr >= FLASH_START && addr <= FLASH_END_RP2040) {
         return flash;
     }
-    if (addr >= SRAM_START && addr <= SRAM_END) {
+    if (addr >= ROM_START && addr <= ROM_END_RP2040) {
+        return rom;
+    }
+    if (addr >= SRAM_START && addr <= SRAM_END_RP2040) {
         return sram;
     }
-    if (addr >= SRAM_UNSTRIPED_START && addr <= SRAM_UNSTRIPED_END) {
+    if (model == rp2350) {
+        if (addr >= FLASH_START && addr <= FLASH_END_RP2350) {
+            return flash;
+        }
+        if (addr >= ROM_START && addr <= ROM_END_RP2350) {
+            return rom;
+        }
+        if (addr >= SRAM_START && addr <= SRAM_END_RP2350) {
+            return sram;
+        }
+    }
+    if (addr >= MAIN_RAM_BANKED_START && addr <= MAIN_RAM_BANKED_END) {
         return sram_unstriped;
     }
-    if (addr >= XIP_SRAM_BASE && addr <= XIP_SRAM_END) {
-        return xip_sram;
+    if (model == rp2040) {
+        if (addr >= XIP_SRAM_START_RP2040 && addr <= XIP_SRAM_END_RP2040) {
+            return xip_sram;
+        }
+    } else if (model == rp2350) {
+        if (addr >= XIP_SRAM_START_RP2350 && addr <= XIP_SRAM_END_RP2350) {
+            return xip_sram;
+        }
     }
     return invalid;
 }
 
-static inline bool is_transfer_aligned(uint32_t addr) {
-    enum memory_type t = get_memory_type(addr);
+static inline bool is_transfer_aligned(uint32_t addr, model_t model) {
+    enum memory_type t = get_memory_type(addr, model);
     return t != invalid && !(t == flash && addr & (PAGE_SIZE-1));
 }
 
diff --git a/src/Kconfig b/src/Kconfig
index ceaf6c8..f0ac93e 100644
--- a/src/Kconfig
+++ b/src/Kconfig
@@ -14,8 +14,8 @@ choice
         bool "LPC176x (Smoothieboard)"
     config MACH_STM32
         bool "STMicroelectronics STM32"
-    config MACH_RP2040
-        bool "Raspberry Pi RP2040"
+    config MACH_RPXXXX
+        bool "Raspberry Pi RP2040/RP235x"
 endchoice
 
 source "src/lpc176x/Kconfig"
diff --git a/src/generic/armcm_boot.c b/src/generic/armcm_boot.c
index f83ca60..17eb8c8 100644
--- a/src/generic/armcm_boot.c
+++ b/src/generic/armcm_boot.c
@@ -22,7 +22,31 @@ extern uint32_t _stack_end;
  * Basic interrupt handlers
  ****************************************************************/
 
-static void __noreturn
+// Inlined version of memset (to avoid function calls during intial boot code)
+static void __always_inline
+boot_memset(void *s, int c, size_t n)
+{
+    volatile uint32_t *p = s;
+    while (n) {
+        *p++ = c;
+        n -= sizeof(*p);
+    }
+}
+
+// Inlined version of memcpy (to avoid function calls during intial boot code)
+static void __always_inline
+boot_memcpy(void *dest, const void *src, size_t n)
+{
+    const uint32_t *s = src;
+    volatile uint32_t *d = dest;
+    while (n) {
+        *d++ = *s++;
+        n -= sizeof(*d);
+    }
+}
+
+// Main initialization code (called from ResetHandler below)
+static void __noreturn __section(".text.armcm_boot.stage_two")
 reset_handler_stage_two(void)
 {
     int i;
@@ -35,8 +59,13 @@ reset_handler_stage_two(void)
     }
 
     // Reset all user interrupt priorities
+#if __CORTEX_M == 33
+    for (i = 0; i < ARRAY_SIZE(NVIC->IPR); i++)
+        NVIC->IPR[i] = 0;
+#else
     for (i = 0; i < ARRAY_SIZE(NVIC->IP); i++)
         NVIC->IP[i] = 0;
+#endif
 
     // Disable SysTick interrupt
     SysTick->CTRL = SysTick_CTRL_CLKSOURCE_Msk;
@@ -46,7 +75,7 @@ reset_handler_stage_two(void)
     SCB->ICSR = SCB_ICSR_PENDSVCLR_Msk | SCB_ICSR_PENDSTCLR_Msk;
 
     // Reset all system interrupt priorities
-#if __CORTEX_M >= 7
+#if __CORTEX_M == 7 || __CORTEX_M == 33
     for (i = 0; i < ARRAY_SIZE(SCB->SHPR); i++)
         SCB->SHPR[i] = 0;
 #else
@@ -60,10 +89,10 @@ reset_handler_stage_two(void)
 
     // Copy global variables from flash to ram
     uint32_t count = (&_data_end - &_data_start) * 4;
-    __builtin_memcpy(&_data_start, &_data_flash, count);
+    boot_memcpy(&_data_start, &_data_flash, count);
 
     // Clear the bss segment
-    __builtin_memset(&_bss_start, 0, (&_bss_end - &_bss_start) * 4);
+    boot_memset(&_bss_start, 0, (&_bss_end - &_bss_start) * 4);
 
     barrier();
 
@@ -80,7 +109,7 @@ reset_handler_stage_two(void)
 
 // Initial code entry point - invoked by the processor after a reset
 // Reset interrupts and stack to take control from bootloaders
-void
+void __section(".text.armcm_boot.stage_one")
 ResetHandler(void)
 {
     __disable_irq();
diff --git a/src/generic/armcm_canboot.c b/src/generic/armcm_canboot.c
index 75d926f..80065c9 100644
--- a/src/generic/armcm_canboot.c
+++ b/src/generic/armcm_canboot.c
@@ -30,19 +30,25 @@ get_bootup_code(void)
     return *req_code;
 }
 
-void
-set_bootup_code(uint64_t code)
+static void __always_inline
+boot_set_bootup_code(uint64_t code)
 {
     uint64_t *req_code = (void*)&_stack_end;
     *req_code = code;
     barrier();
-#if __CORTEX_M >= 7
+#if __CORTEX_M == 7
     SCB_CleanDCache_by_Addr((void*)req_code, sizeof(*req_code));
 #endif
 }
 
 #pragma GCC diagnostic pop
 
+void
+set_bootup_code(uint64_t code)
+{
+    boot_set_bootup_code(code);
+}
+
 // Helper function to read area of flash
 void
 application_read_flash(uint32_t address, uint32_t *dest)
@@ -67,10 +73,10 @@ application_jump(void)
     NVIC_SystemReset();
 }
 
-static void
-start_application(void)
+static void __always_inline
+boot_start_application(void)
 {
-    set_bootup_code(0);
+    boot_set_bootup_code(0);
     uint32_t *vtor = (void*)CONFIG_LAUNCH_APP_ADDRESS;
 #if __CORTEX_M > 0 || __VTOR_PRESENT
     SCB->VTOR = (uint32_t)vtor;
@@ -78,19 +84,42 @@ start_application(void)
     asm volatile("MSR msp, %0\n    bx %1" : : "r"(vtor[0]), "r"(vtor[1]));
 }
 
-void __noreturn __visible
+// Inlined version of memset (to avoid function calls during intial boot code)
+static void __always_inline
+boot_memset(void *s, int c, size_t n)
+{
+    volatile uint32_t *p = s;
+    while (n) {
+        *p++ = c;
+        n -= sizeof(*p);
+    }
+}
+
+// Inlined version of memcpy (to avoid function calls during intial boot code)
+static void __always_inline
+boot_memcpy(void *dest, const void *src, size_t n)
+{
+    const uint32_t *s = src;
+    volatile uint32_t *d = dest;
+    while (n) {
+        *d++ = *s++;
+        n -= sizeof(*d);
+    }
+}
+
+void __noreturn __visible __section(".text.armcm_boot.stage_two")
 reset_handler_stage_two(void)
 {
     uint64_t bootup_code = get_bootup_code();
     if (bootup_code == REQUEST_START_APP)
-        start_application();
+        boot_start_application();
 
     // Copy global variables from flash to ram
     uint32_t count = (&_data_end - &_data_start) * 4;
-    __builtin_memcpy(&_data_start, &_data_flash, count);
+    boot_memcpy(&_data_start, &_data_flash, count);
 
     // Clear the bss segment
-    __builtin_memset(&_bss_start, 0, (&_bss_end - &_bss_start) * 4);
+    boot_memset(&_bss_start, 0, (&_bss_end - &_bss_start) * 4);
 
     barrier();
 
@@ -106,7 +135,7 @@ reset_handler_stage_two(void)
 }
 
 // Initial code entry point - invoked by the processor after a reset
-asm(".section .text.ResetHandler\n"
+asm(".section .text.armcm_boot.stage_one\n"
     ".balign 8\n"
     ".8byte " __stringify(CANBOOT_SIGNATURE) "\n"
     ".global ResetHandler\n"
diff --git a/src/generic/armcm_irq.c b/src/generic/armcm_irq.c
index c490922..329670a 100644
--- a/src/generic/armcm_irq.c
+++ b/src/generic/armcm_irq.c
@@ -38,7 +38,7 @@ irq_restore(irqstatus_t flag)
 void
 irq_wait(void)
 {
-    if (__CORTEX_M >= 7)
+    if (__CORTEX_M == 7)
         // Cortex-m7 may disable cpu counter on wfi, so use nop
         asm volatile("cpsie i\n    nop\n    cpsid i\n" ::: "memory");
     else
diff --git a/src/generic/armcm_reset.c b/src/generic/armcm_reset.c
index 81a2642..946db8c 100644
--- a/src/generic/armcm_reset.c
+++ b/src/generic/armcm_reset.c
@@ -18,7 +18,7 @@ try_request_canboot(void)
     uint64_t *req_sig = (uint64_t *)bl_vectors[0];
     irq_disable();
     *req_sig = REQUEST_CANBOOT;
-#if __CORTEX_M >= 7
+#if __CORTEX_M == 7
     SCB_CleanDCache_by_Addr((void*)req_sig, sizeof(*req_sig));
 #endif
     NVIC_SystemReset();
diff --git a/src/rp2040/Kconfig b/src/rp2040/Kconfig
index 5ccff17..151a555 100644
--- a/src/rp2040/Kconfig
+++ b/src/rp2040/Kconfig
@@ -1,8 +1,8 @@
-# Kconfig settings for RP2040 processor
+# Kconfig settings for RPxxxx processors
 
-if MACH_RP2040
+if MACH_RPXXXX
 
-config RP2040_SELECT
+config RPXXXX_SELECT
     bool
     default y
     select HAVE_GPIO
@@ -12,25 +12,45 @@ config BOARD_DIRECTORY
     string
     default "rp2040"
 
+######################################################################
+# Chip selection
+######################################################################
+
+choice
+    prompt "Processor model"
+    config MACH_RP2040
+        bool "rp2040"
+    config MACH_RP2350
+        bool "rp2350"
+endchoice
+
 config MCU
     string
-    default "rp2040"
+    default "rp2040" if MACH_RP2040
+    default "rp2350" if MACH_RP2350
 
 config CLOCK_FREQ
     int
-    default 12000000
+    default 12000000 if MACH_RP2040
+    default 150000000 if MACH_RP2350
 
 config FLASH_SIZE
     hex
     default 0x200000
 
+config FLASH_BOOT_ADDRESS
+    hex
+    default 0x10000100 if MACH_RP2040 # Stage2 binary starts at 0x10000000
+    default 0x10000000 if MACH_RP2350
+
 config RAM_START
     hex
     default 0x20000000
 
 config RAM_SIZE
     hex
-    default 0x42000
+    default 0x42000 if MACH_RP2040
+    default 0x82000 if MACH_RP2350
 
 config STACK_SIZE
     int
@@ -44,10 +64,6 @@ config LAUNCH_APP_ADDRESS
     default 0x10004000
     hex
 
-config FLASH_BOOT_ADDRESS
-    hex
-    default 0x10000100
-
 config BLOCK_SIZE
     int
     default 64
@@ -56,17 +72,12 @@ config BLOCK_SIZE
 # Bootloader options
 ######################################################################
 
-config RP2040_ADD_BOOT_SIGNATURE
+config RP2040_HAVE_STAGE2
     bool
-    default y
-    help
-      Add boot signature (zero page at application start)
-      into resulting uf2.
-      This is used to force bootloader entry
-      before application is updated.
+    default y if MACH_RP2040
 
 choice
-    prompt "Flash chip" if LOW_LEVEL_OPTIONS
+    prompt "Flash chip" if LOW_LEVEL_OPTIONS && RP2040_HAVE_STAGE2
     config RP2040_FLASH_W25Q080
         bool "W25Q080 with CLKDIV 2"
     config RP2040_FLASH_GENERIC_03
@@ -89,39 +100,68 @@ config RP2040_STAGE2_CLKDIV
 
 choice
     prompt "Build Katapult deployment application"
-    config RP2040_FLASH_START_0000
+    config RPXXXX_FLASH_START_0000
         bool "Do not build"
-    config RP2040_FLASH_START_4000
+        depends on MACH_RP2350
+    config RPXXXX_FLASH_START_0100
+        bool "Do not build"
+        depends on MACH_RP2040
+    config RPXXXX_FLASH_START_4000
         bool "16KiB bootloader"
 endchoice
 config FLASH_APPLICATION_ADDRESS
     hex
-    default 0x10004000 if RP2040_FLASH_START_4000
-    default 0x10000100
+    default 0x10004000 if RPXXXX_FLASH_START_4000
+    default 0x10000100 if RPXXXX_FLASH_START_0100
+    default 0x10000000 if RPXXXX_FLASH_START_0000
 
 ######################################################################
 # Communication inteface
 ######################################################################
 
 choice
-    prompt "Communication interface"
-    config RP2040_USB
-        bool "USB"
+    prompt "Communication Interface"
+    config RPXXXX_USB
+        bool "USBSERIAL"
         select USBSERIAL
-    config RP2040_SERIAL_UART0
-        bool "Serial (on UART0 GPIO1/GPIO0)"
+    config RPXXXX_SERIAL_UART0_PINS_0_1
+        bool "UART0 on GPIO0/GPIO1"
         select SERIAL
-    config RP2040_CANBUS
+    config RPXXXX_SERIAL_UART0_PINS_12_13
+        bool "UART0 on GPIO12/GPIO13" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART0_PINS_16_17
+        bool "UART0 on GPIO16/GPIO17" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART0_PINS_28_29
+        bool "UART0 on GPIO28/GPIO29" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART1_PINS_4_5
+        bool "UART1 on GPIO4/GPIO5" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART1_PINS_8_9
+        bool "UART1 on  GPIO8/GPIO9" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART1_PINS_20_21
+        bool "UART1 on  GPIO20/GPIO21" if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_SERIAL_UART1_PINS_24_25
+        bool "UART1 on GPIO24/GPIO25"  if LOW_LEVEL_OPTIONS
+        select SERIAL
+    config RPXXXX_CANBUS
         bool "CAN bus"
         select CANSERIAL
+    config RPXXXX_USBCANBUS
+        bool "USB to CAN bus bridge"
+        select USBCANBUS
 endchoice
 
-config RP2040_CANBUS_GPIO_RX
+config RPXXXX_CANBUS_GPIO_RX
     int "CAN RX gpio number" if CANBUS
     default 4
     range 0 29
 
-config RP2040_CANBUS_GPIO_TX
+config RPXXXX_CANBUS_GPIO_TX
     int "CAN TX gpio number" if CANBUS
     default 5
     range 0 29
diff --git a/src/rp2040/Makefile b/src/rp2040/Makefile
index 58efca1..dfcad30 100644
--- a/src/rp2040/Makefile
+++ b/src/rp2040/Makefile
@@ -1,61 +1,71 @@
-# Additional RP2040 build rules
+# Additional RPxxxx Raspberry Pi MCU build rules
 
 # Setup the toolchain
 CROSS_PREFIX=arm-none-eabi-
 
-dirs-y += src/rp2040 src/generic lib/rp2040/elf2uf2 lib/fast-hash lib/can2040 lib/rp2040/pico/flash/
+dirs-y += src/rp2040 src/generic lib/elf2uf2 lib/fast-hash lib/can2040
+dirs-y += lib/pico-sdk/hardware
 
-CFLAGS += -mcpu=cortex-m0plus -mthumb -Ilib/cmsis-core
-CFLAGS += -Ilib/rp2040 -Ilib/rp2040/cmsis_include -Ilib/fast-hash -Ilib/can2040 -Ilib/rp2040/pico/flash/ -Ilib/rp2040/pico/bootrom/
+MCU := $(shell echo $(CONFIG_MCU))
+MCU_UPPER := $(shell echo $(CONFIG_MCU) | tr a-z A-Z | tr X x)
 
-CFLAGS_katapult.elf += -nostdlib -lgcc -lc_nano
-CFLAGS_katapult.elf += -T $(OUT)src/rp2040/rp2040_link.ld
+CFLAGS-$(CONFIG_MACH_RP2040) += -mcpu=cortex-m0plus
+CFLAGS-$(CONFIG_MACH_RP2350) += -mcpu=cortex-m33
+CFLAGS += $(CFLAGS-y) -DPICO_$(MCU_UPPER) -mthumb -Ilib/cmsis-core
+CFLAGS += -Ilib/pico-sdk/$(MCU) -Ilib/pico-sdk
+CFLAGS += -Ilib/pico-sdk/$(MCU)/cmsis_include -Ilib/fast-hash -Ilib/can2040
 
 # Add source files
-mcu-y  = rp2040/main.c rp2040/gpio.c rp2040/timer.c rp2040/flash.c  ../lib/rp2040/pico/flash/hw_flash.c
+mcu-y += rp2040/main.c rp2040/gpio.c rp2040/flash.c
 mcu-y += generic/armcm_irq.c generic/crc16_ccitt.c
+mcu-y += ../lib/pico-sdk/hardware/flash.c
+mcu-$(CONFIG_MACH_RP2040) += rp2040/timer.c rp2040/bootrom.c
+mcu-$(CONFIG_MACH_RP2350) += generic/armcm_timer.c rp2040/rp2350_bootrom.c
 
-src-y += rp2040/armcm_canboot.c $(mcu-y)
-src-$(CONFIG_USBSERIAL) += rp2040/usbserial.c generic/usb_cdc.c
-src-$(CONFIG_USBSERIAL) += rp2040/chipid.c
+src-y += generic/armcm_canboot.c $(mcu-y)
+src-$(CONFIG_USBSERIAL) += rp2040/usbserial.c generic/usb_cdc.c rp2040/chipid.c
 src-$(CONFIG_SERIAL) += rp2040/serial.c generic/serial_irq.c
 src-$(CONFIG_CANSERIAL) += rp2040/can.c rp2040/chipid.c ../lib/can2040/can2040.c
 src-$(CONFIG_CANSERIAL) += generic/canserial.c generic/canbus.c
 src-$(CONFIG_CANSERIAL) += ../lib/fast-hash/fasthash.c
 
-$(OUT)katapult.elf: $(OUT)stage2.o $(OUT)src/rp2040/rp2040_link.ld
 # rp2040 stage2 building
 STAGE2_FILE := $(shell echo $(CONFIG_RP2040_STAGE2_FILE))
-$(OUT)stage2.o: lib/rp2040/boot_stage2/$(STAGE2_FILE) $(OUT)autoconf.h
+$(OUT)stage2.o: lib/pico-sdk/$(MCU)/boot_stage2/$(STAGE2_FILE) $(OUT)autoconf.h
 	@echo "  Building rp2040 stage2 $@"
-	$(Q)$(CC) $(CFLAGS) -Ilib/rp2040/boot_stage2 -Ilib/rp2040/boot_stage2/asminclude -DPICO_FLASH_SPI_CLKDIV=$(CONFIG_RP2040_STAGE2_CLKDIV) -c $< -o $(OUT)stage2raw1.o
-	$(Q)$(LD) $(OUT)stage2raw1.o --script=lib/rp2040/boot_stage2/boot_stage2.ld -o $(OUT)stage2raw.o
+	$(Q)$(CC) $(CFLAGS) -Ilib/pico-sdk/$(MCU)/boot_stage2 -Ilib/pico-sdk/$(MCU)/boot_stage2/asminclude -DPICO_FLASH_SPI_CLKDIV=$(CONFIG_RP2040_STAGE2_CLKDIV) -c $< -o $(OUT)stage2raw1.o
+	$(Q)$(LD) $(OUT)stage2raw1.o --script=lib/pico-sdk/$(MCU)/boot_stage2/boot_stage2.ld -o $(OUT)stage2raw.o
 	$(Q)$(OBJCOPY) -O binary $(OUT)stage2raw.o $(OUT)stage2raw.bin
-	$(Q)lib/rp2040/boot_stage2/pad_checksum -s 0xffffffff $(OUT)stage2raw.bin $(OUT)stage2.S
+	$(Q)lib/pico-sdk/$(MCU)/boot_stage2/pad_checksum -s 0xffffffff $(OUT)stage2raw.bin $(OUT)stage2.S
 	$(Q)$(CC) $(CFLAGS) -c $(OUT)stage2.S -o $(OUT)stage2.o
-OBJS_katapult.elf += $(OUT)stage2.o
+
+stage2-$(CONFIG_RP2040_HAVE_STAGE2) := $(OUT)stage2.o
+
+# Set katapult.elf linker rules
+target-y += $(OUT)katapult.uf2
+CFLAGS_katapult.elf += -nostdlib -lgcc -lc_nano
+CFLAGS_katapult.elf += -T $(OUT)src/rp2040/rpxxxx_link.ld
+OBJS_katapult.elf += $(stage2-y)
+$(OUT)katapult.elf: $(stage2-y) $(OUT)src/rp2040/rpxxxx_link.ld
 
 # Binary output file rules
-target-y += $(OUT)katapult.uf2
-
-$(OUT)lib/rp2040/elf2uf2/elf2uf2: lib/rp2040/elf2uf2/main.cpp
+$(OUT)lib/elf2uf2/elf2uf2: lib/elf2uf2/main.cpp
 	@echo "  Building $@"
-	$(Q)g++ -g -O -Ilib/rp2040 $< -o $@
+	$(Q)g++ -g -O -Ilib/pico-sdk $< -o $@
 
-$(OUT)katapult.uf2: $(OUT)katapult.elf $(OUT)lib/rp2040/elf2uf2/elf2uf2
+$(OUT)katapult.uf2: $(OUT)katapult.elf $(OUT)lib/elf2uf2/elf2uf2
 	@echo "  Creating uf2 file $@"
-	$(Q)$(OUT)lib/rp2040/elf2uf2/elf2uf2 $(OUT)katapult.elf $(OUT)katapult.uf2
-ifeq ($(CONFIG_RP2040_ADD_BOOT_SIGNATURE), y)
-	$(Q)$(PYTHON) ./scripts/uf2_append_boot_signature.py --address $(CONFIG_LAUNCH_APP_ADDRESS) --input $(OUT)katapult.uf2 --output $(OUT)katapult.uf2
-endif
+	$(Q)$(OUT)lib/elf2uf2/elf2uf2 $(OUT)katapult.elf $(OUT)katapult.uf2
+	@echo "  Creating uf2 file $(OUT)katapult.withclear.uf2"
+	$(Q)$(PYTHON) ./scripts/uf2_append_boot_signature.py --address $(CONFIG_LAUNCH_APP_ADDRESS) --input $(OUT)katapult.uf2 --output $(OUT)katapult.withclear.uf2
 	@echo "  Creating legacy uf2 file $(OUT)canboot.uf2"
 	$(Q)cp $@ $(OUT)canboot.uf2
 
+# Flash rules
 lib/rp2040_flash/rp2040_flash:
 	@echo "  Building rp2040_flash"
 	$(Q)make -C lib/rp2040_flash rp2040_flash
 
-# Flash rules
 flash: $(OUT)katapult.uf2 lib/rp2040_flash/rp2040_flash
 	@echo "  Flashing $< "
 	$(Q) $(if $(NOSUDO),,sudo) ./lib/rp2040_flash/rp2040_flash $(OUT)katapult.uf2
@@ -63,5 +73,5 @@ flash: $(OUT)katapult.uf2 lib/rp2040_flash/rp2040_flash
 # Deployer build
 deployer-y += generic/armcm_boot.c generic/armcm_reset.c $(mcu-y)
 CFLAGS_deployer.elf += -nostdlib -lgcc -lc_nano
-CFLAGS_deployer.elf += -T $(OUT)src/generic/armcm_deployer.ld
-$(OUT)deployer.elf: $(OUT)src/generic/armcm_deployer.ld
+CFLAGS_deployer.elf += -T $(OUT)src/rp2040/rpxxxx_deployer.ld
+$(OUT)deployer.elf: $(OUT)src/rp2040/rpxxxx_deployer.ld
diff --git a/src/rp2040/armcm_canboot.c b/src/rp2040/armcm_canboot.c
deleted file mode 100644
index 0d34cae..0000000
--- a/src/rp2040/armcm_canboot.c
+++ /dev/null
@@ -1,136 +0,0 @@
-// CanBoot specific entry code for ARM Cortex-M vector table and bootup
-//
-// Copyright (C) 2019  Kevin O'Connor <kevin@koconnor.net>
-//
-// This file may be distributed under the terms of the GNU GPLv3 license.
-
-#include <string.h> // memcpy
-#include "generic/armcm_boot.h" // DECL_ARMCM_IRQ
-#include "autoconf.h" // CONFIG_MCU
-#include "board/internal.h" // SysTick
-#include "board/irq.h" // irq_disable
-#include "board/misc.h" // get_bootup_code
-#include "canboot.h" // get_bootup_code
-#include "command.h" // DECL_CONSTANT_STR
-
-// Export MCU type
-DECL_CONSTANT_STR("MCU", CONFIG_MCU);
-
-// Symbols created by armcm_link.lds.S linker script
-extern uint32_t _data_start, _data_end, _data_flash;
-extern uint32_t _bss_start, _bss_end, _stack_start;
-extern uint32_t _stack_end;
-
-#pragma GCC diagnostic push
-#pragma GCC diagnostic ignored  "-Warray-bounds"
-
-uint64_t
-get_bootup_code(void)
-{
-    uint64_t *req_code = (void*)&_stack_end;
-    return *req_code;
-}
-
-void
-set_bootup_code(uint64_t code)
-{
-    uint64_t *req_code = (void*)&_stack_end;
-    *req_code = code;
-    barrier();
-}
-
-#pragma GCC diagnostic pop
-
-// Helper function to read area of flash
-void
-application_read_flash(uint32_t address, uint32_t *dest)
-{
-    memcpy(dest, (void*)address, CONFIG_BLOCK_SIZE);
-}
-
-// Check if the application flash area looks valid
-int
-application_check_valid(void)
-{
-    uint32_t *app = (void*)CONFIG_LAUNCH_APP_ADDRESS;
-    return *app != 0 && *app != 0xffffffff;
-}
-
-// Jump to the main application (exiting the bootloader)
-void
-application_jump(void)
-{
-    irq_disable();
-    set_bootup_code(REQUEST_START_APP);
-    NVIC_SystemReset();
-}
-
-static void
-start_application(void)
-{
-    set_bootup_code(0);
-    uint32_t *vtor = (void*)CONFIG_LAUNCH_APP_ADDRESS;
-    SCB->VTOR = (uint32_t)vtor;
-    asm volatile("MSR msp, %0\n    bx %1" : : "r"(vtor[0]), "r"(vtor[1]));
-}
-
-void __noreturn __visible
-__attribute__((used, section(".reset_handler_flash.reset_handler_stage_two")))
-reset_handler_stage_two(void)
-{
-    // Copy global variables from flash to ram
-    uint32_t count = (&_data_end - &_data_start);
-    for(int i = 0; i < count; i++) {
-        (&_data_start)[i] = (&_data_flash)[i];
-        barrier();
-    }
-    // Clear the bss segment
-    count = (&_bss_end - &_bss_start);
-    for(int i = 0 ; i < count; i++ ) {
-       (&_bss_start)[i] = 0;
-       barrier();
-    }
-    SCB->VTOR = (uint32_t)VectorTable;
-    barrier();
-    //All data have been transferred to the ram.
-    //Now it is safe to call any function, not just in .reset_handler_flash.
-
-    // Initializing the C library isn't needed...
-    //__libc_init_array();
-
-    uint64_t bootup_code = get_bootup_code();
-    if (bootup_code == REQUEST_START_APP)
-        start_application();
-
-    // Run the main board specific code
-    armcm_main();
-
-    // The armcm_main() call should not return
-    for (;;)
-        ;
-}
-
-// Initial code entry point - invoked by the processor after a reset
-asm(".section .reset_handler_flash.ResetHandler\n"
-    ".balign 8\n"
-    ".8byte " __stringify(CANBOOT_SIGNATURE) "\n"
-    ".global ResetHandler\n"
-    ".type ResetHandler, %function\n"
-    "ResetHandler:\n"
-    "    b reset_handler_stage_two\n"
-    );
-extern void ResetHandler();
-DECL_ARMCM_IRQ(ResetHandler, -15);
-
-// Code called for any undefined interrupts
-void
-DefaultHandler(void)
-{
-    for (;;)
-        ;
-}
-
-const void *VectorTableFlash[32] __attribute__((used, section(".vector_table_flash"))) = {
-    &_stack_end,
-    ResetHandler
-};
diff --git a/src/rp2040/bootrom.c b/src/rp2040/bootrom.c
new file mode 100644
index 0000000..e54bdcc
--- /dev/null
+++ b/src/rp2040/bootrom.c
@@ -0,0 +1,174 @@
+// Hardware interface to bootrom on rp2040
+//
+// Copyright (C) 2021  Lasse Dalegaard <dalegaard@gmail.com>
+//
+// This file may be distributed under the terms of the GNU GPLv3 license.
+
+#include <stdint.h> // uint16_t, uint32_t, uintptr_t
+#include <string.h> // memcpy
+#include "board/irq.h" // irq_disable, irq_enable
+#include "compiler.h" // noinline, __section
+#include "hardware/structs/ioqspi.h" // ioqspi_hw
+#include "hardware/structs/ssi.h" // ssi_hw
+#include "internal.h" // _ramfunc
+
+#define ROM_TABLE_CODE(c1, c2) ((c1) | ((c2) << 8))
+
+// All functions in here need to be RAM-resident, as we may need
+// to (especially for the flash functions) call while the XIP layer
+// is unavailable.
+
+static __always_inline void *rom_hword_as_ptr(uint16_t rom_address) {
+#if defined(__GNUC__) && (__GNUC__ >= 12)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Warray-bounds"
+  return (void *)(uintptr_t)*(uint16_t *)(uintptr_t)rom_address;
+#pragma GCC diagnostic pop
+#else
+  return (void *)(uintptr_t)*(uint16_t *)(uintptr_t)rom_address;
+#endif
+}
+
+static void * _ramfunc
+rom_func_lookup(uint32_t code)
+{
+  // Table and lookup function are provided by the BOOTROM
+  void *(*fn)(uint16_t *, uint32_t) = rom_hword_as_ptr(0x18);
+  uint16_t *table = rom_hword_as_ptr(0x14);
+  return fn(table, code);
+}
+
+static void _ramfunc
+reset_to_usb_boot(uint32_t gpio_activity_pin_mask
+                  , uint32_t disable_interface_mask)
+{
+  void (*fn)(uint32_t, uint32_t) = rom_func_lookup(ROM_TABLE_CODE('U', 'B'));
+  fn(gpio_activity_pin_mask, disable_interface_mask);
+}
+
+static void _ramfunc
+connect_internal_flash(void)
+{
+  void (*fn)(void) = rom_func_lookup(ROM_TABLE_CODE('I', 'F'));
+  fn();
+}
+
+static void _ramfunc
+flash_exit_xip(void)
+{
+  void (*fn)(void) = rom_func_lookup(ROM_TABLE_CODE('E', 'X'));
+  fn();
+}
+
+static void _ramfunc
+flash_flush_cache(void)
+{
+  void (*fn)(void) = rom_func_lookup(ROM_TABLE_CODE('F', 'C'));
+  fn();
+}
+
+
+/****************************************************************
+ * Reboot to USB rom bootloader
+ ****************************************************************/
+
+void
+bootrom_reboot_usb_bootloader(void)
+{
+    reset_to_usb_boot(0, 0);
+}
+
+
+/****************************************************************
+ * Unique id reading
+ ****************************************************************/
+
+// Functions for reading out the flash chip ID. Adapted from the official
+// Pi SDK.
+
+static void _ramfunc
+flash_cs_force(int high)
+{
+    uint32_t field_val = high ?
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_HIGH :
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_VALUE_LOW;
+    hw_write_masked(&ioqspi_hw->io[1].ctrl,
+        field_val << IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_LSB,
+        IO_QSPI_GPIO_QSPI_SS_CTRL_OUTOVER_BITS
+    );
+}
+
+// To re-enable XIP we need to call flash_enter_xip. It's available in the
+// bootrom, but that version is a generic one that works for most devices and
+// the tradeoff for that is enabling a low performance mode.
+// Instead we copy out the boot2 XIP enabling stage, and save it in RAM
+// so we can call it later on.
+
+#define BOOT2_SIZE 0x100
+
+static uint8_t boot2_copy[BOOT2_SIZE] __aligned(16);
+
+static void
+flash_enter_xip_prepare(void)
+{
+  void * volatile target = (void *)XIP_BASE; // Avoids warning
+  memcpy(boot2_copy, target, BOOT2_SIZE);
+  barrier();
+}
+
+static void _ramfunc
+flash_enter_xip_perform(void)
+{
+  ((void (*)(void))boot2_copy+1)();
+}
+
+#define FLASH_RUID_CMD         0x4B
+#define FLASH_RUID_DUMMY_BYTES 4
+#define FLASH_RUID_DATA_BYTES  8
+#define FLASH_RUID_TOTAL_BYTES (1+FLASH_RUID_DUMMY_BYTES+FLASH_RUID_DATA_BYTES)
+
+void _ramfunc
+bootrom_read_unique_id(uint8_t *out, uint32_t maxlen)
+{
+    uint8_t txbuf[FLASH_RUID_TOTAL_BYTES] = {0};
+    uint8_t rxbuf[FLASH_RUID_TOTAL_BYTES] = {0};
+
+    uint8_t *txptr = txbuf;
+    uint8_t *rxptr = rxbuf;
+
+    int tx_remaining = FLASH_RUID_TOTAL_BYTES;
+    int rx_remaining = FLASH_RUID_TOTAL_BYTES;
+
+    txbuf[0] = FLASH_RUID_CMD;
+
+    // Set up flash so we can work with it without XIP getting in the way
+    flash_enter_xip_prepare();
+    irq_disable();
+    barrier();
+    connect_internal_flash();
+    flash_exit_xip();
+    flash_cs_force(0);
+
+    while (tx_remaining || rx_remaining) {
+        uint32_t flags = ssi_hw->sr;
+        int can_put = !!(flags & SSI_SR_TFNF_BITS);
+        int can_get = !!(flags & SSI_SR_RFNE_BITS);
+        if (can_put && tx_remaining) {
+            ssi_hw->dr0 = *txptr++;
+            tx_remaining--;
+        }
+        if (can_get && rx_remaining) {
+            *rxptr++ = (uint8_t)ssi_hw->dr0;
+            --rx_remaining;
+        }
+    }
+
+    // Restore XIP
+    flash_cs_force(1);
+    flash_flush_cache();
+    flash_enter_xip_perform();
+    barrier();
+    irq_enable();
+
+    memcpy(out, rxbuf+1+FLASH_RUID_DUMMY_BYTES, FLASH_RUID_DATA_BYTES);
+}
diff --git a/src/rp2040/can.c b/src/rp2040/can.c
index 6cae2a7..1f4c281 100644
--- a/src/rp2040/can.c
+++ b/src/rp2040/can.c
@@ -18,8 +18,8 @@
 #include "internal.h" // DMA_IRQ_0_IRQn
 #include "sched.h" // DECL_INIT
 
-#define GPIO_STR_CAN_RX "gpio" __stringify(CONFIG_RP2040_CANBUS_GPIO_RX)
-#define GPIO_STR_CAN_TX "gpio" __stringify(CONFIG_RP2040_CANBUS_GPIO_TX)
+#define GPIO_STR_CAN_RX "gpio" __stringify(CONFIG_RPXXXX_CANBUS_GPIO_RX)
+#define GPIO_STR_CAN_TX "gpio" __stringify(CONFIG_RPXXXX_CANBUS_GPIO_TX)
 DECL_CONSTANT_STR("RESERVE_PINS_CAN", GPIO_STR_CAN_RX "," GPIO_STR_CAN_TX);
 
 static struct can2040 cbus;
@@ -73,6 +73,6 @@ can_init(void)
     // Start canbus
     uint32_t pclk = get_pclock_frequency(RESETS_RESET_PIO0_RESET);
     can2040_start(&cbus, pclk, CONFIG_CANBUS_FREQUENCY
-                  , CONFIG_RP2040_CANBUS_GPIO_RX, CONFIG_RP2040_CANBUS_GPIO_TX);
+                  , CONFIG_RPXXXX_CANBUS_GPIO_RX, CONFIG_RPXXXX_CANBUS_GPIO_TX);
 }
 DECL_INIT(can_init);
diff --git a/src/rp2040/chipid.c b/src/rp2040/chipid.c
index 520f5c2..75d6e38 100644
--- a/src/rp2040/chipid.c
+++ b/src/rp2040/chipid.c
@@ -1,16 +1,14 @@
 // Support for extracting the hardware chip id on rp2040
 //
-// Copyright (C) 2021  Lasse Dalegaard <dalegaard@gmail.com>
+// Copyright (C) 2019-2024  Kevin O'Connor <kevin@koconnor.net>
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.
 
-#include <string.h> // memcpy
 #include "autoconf.h" // CONFIG_USB_SERIAL_NUMBER_CHIPID
-#include "hw_flash.h"
-#include "board/irq.h" // irq_disable, irq_enable
 #include "board/canserial.h" // canserial_set_uuid
 #include "generic/usb_cdc.h" // usb_fill_serial
 #include "generic/usbstd.h" // usb_string_descriptor
+#include "internal.h" // bootrom_read_unique_id
 #include "sched.h" // DECL_INIT
 
 #define CHIP_UID_LEN 8
@@ -32,8 +30,8 @@ chipid_init(void)
     if (!(CONFIG_USB_SERIAL_NUMBER_CHIPID || CONFIG_CANBUS))
         return;
 
-    uint8_t data[8] = {0};
-    flash_get_unique_id(data);
+    uint8_t data[CHIP_UID_LEN] = {};
+    bootrom_read_unique_id(data, sizeof(data));
 
     if (CONFIG_USB_SERIAL_NUMBER_CHIPID)
         usb_fill_serial(&cdc_chipid.desc, ARRAY_SIZE(cdc_chipid.data), data);
diff --git a/src/rp2040/flash.c b/src/rp2040/flash.c
index 07a96ef..dab22ce 100644
--- a/src/rp2040/flash.c
+++ b/src/rp2040/flash.c
@@ -5,7 +5,7 @@
 #include <string.h> // memcpy
 #include "autoconf.h" // CONFIG_BLOCK_SIZE
 #include "generic/irq.h"
-#include "hw_flash.h" // flash_write_page
+#include "hardware/flash.h" // flash_range_erase
 
 #define MAX(a, b) ((a) > (b))?(a):(b)
 #define PAGE_SIZE (MAX(CONFIG_BLOCK_SIZE, 256))
diff --git a/src/rp2040/gpio.h b/src/rp2040/gpio.h
index ae60837..0dd393b 100644
--- a/src/rp2040/gpio.h
+++ b/src/rp2040/gpio.h
@@ -50,8 +50,8 @@ struct i2c_config {
 };
 
 struct i2c_config i2c_setup(uint32_t bus, uint32_t rate, uint8_t addr);
-void i2c_write(struct i2c_config config, uint8_t write_len, uint8_t *write);
-void i2c_read(struct i2c_config config, uint8_t reg_len, uint8_t *reg
-              , uint8_t read_len, uint8_t *read);
+int i2c_write(struct i2c_config config, uint8_t write_len, uint8_t *write);
+int i2c_read(struct i2c_config config, uint8_t reg_len, uint8_t *reg
+             , uint8_t read_len, uint8_t *read);
 
 #endif // gpio.h
diff --git a/src/rp2040/internal.h b/src/rp2040/internal.h
index 8c48640..da5b0a5 100644
--- a/src/rp2040/internal.h
+++ b/src/rp2040/internal.h
@@ -1,12 +1,24 @@
 #ifndef __RP2040_INTERNAL_H
 #define __RP2040_INTERNAL_H
-// Local definitions for rp2040
+// Local definitions for RPxxxx chips
 
-#include "RP2040.h"
+#include "autoconf.h" // CONFIG_MACH_RP2040
+
+#if CONFIG_MACH_RP2040
+  #include "RP2040.h"
+#elif CONFIG_MACH_RP2350
+  #include "RP2350.h"
+#endif
 
 void enable_pclock(uint32_t reset_bit);
 int is_enabled_pclock(uint32_t reset_bit);
 uint32_t get_pclock_frequency(uint32_t reset_bit);
 void gpio_peripheral(uint32_t gpio, int func, int pull_up);
+void bootrom_reboot_usb_bootloader(void);
+void bootrom_read_unique_id(uint8_t *out, uint32_t maxlen);
+
+// Force a function to run from ram
+#define UNIQSEC __FILE__ "." __stringify(__LINE__)
+#define _ramfunc noinline __section(".ramfunc." UNIQSEC)
 
 #endif // internal.h
diff --git a/src/rp2040/main.c b/src/rp2040/main.c
index 350c38a..27a9661 100644
--- a/src/rp2040/main.c
+++ b/src/rp2040/main.c
@@ -14,12 +14,37 @@
 #include "internal.h" // enable_pclock
 #include "sched.h" // sched_main
 
+#if !CONFIG_MACH_RP2040
+#include "hardware/structs/ticks.h" // ticks_hw
+#endif
+
+
+/****************************************************************
+ * Ram IRQ vector table
+ ****************************************************************/
+
+// Copy vector table to ram and activate it
+static void
+enable_ram_vectortable(void)
+{
+    // Symbols created by rpxxxx_link.lds.S linker script
+    extern uint32_t _ram_vectortable_start, _ram_vectortable_end;
+    extern uint32_t _text_vectortable_start;
+
+    uint32_t count = (&_ram_vectortable_end - &_ram_vectortable_start) * 4;
+    __builtin_memcpy(&_ram_vectortable_start, &_text_vectortable_start, count);
+    barrier();
+
+    SCB->VTOR = (uint32_t)&_ram_vectortable_start;
+}
+
+
 /****************************************************************
  * Clock setup
  ****************************************************************/
 
 #define FREQ_XOSC 12000000
-#define FREQ_SYS 125000000
+#define FREQ_SYS (CONFIG_MACH_RP2040 ? 125000000 : CONFIG_CLOCK_FREQ)
 #define FREQ_USB 48000000
 
 void
@@ -49,7 +74,7 @@ xosc_setup(void)
     xosc_hw->startup = DIV_ROUND_UP(FREQ_XOSC, 1000 * 256); // 1ms
     xosc_hw->ctrl = (XOSC_CTRL_FREQ_RANGE_VALUE_1_15MHZ
                      | (XOSC_CTRL_ENABLE_VALUE_ENABLE << XOSC_CTRL_ENABLE_LSB));
-    while(!(xosc_hw->status & XOSC_STATUS_STABLE_BITS))
+    while (!(xosc_hw->status & XOSC_STATUS_STABLE_BITS))
         ;
 }
 
@@ -58,6 +83,10 @@ pll_setup(pll_hw_t *pll, uint32_t mul, uint32_t postdiv)
 {
     // Setup pll
     uint32_t refdiv = 1, fbdiv = mul, postdiv2 = 2, postdiv1 = postdiv/postdiv2;
+    if (postdiv1 > 0x07) {
+        postdiv1 >>= 1;
+        postdiv2 <<= 1;
+    }
     pll->cs = refdiv;
     pll->fbdiv_int = fbdiv;
     pll->pwr = PLL_PWR_DSMPD_BITS | PLL_PWR_POSTDIVPD_BITS;
@@ -107,7 +136,7 @@ clock_setup(void)
 
     // Setup pll_usb
     enable_pclock(RESETS_RESET_PLL_USB_BITS);
-    pll_setup(pll_usb_hw, 40, 40*FREQ_XOSC/FREQ_USB);
+    pll_setup(pll_usb_hw, 80, 80*FREQ_XOSC/FREQ_USB);
 
     // Setup peripheral clocks
     clk_aux_setup(clk_peri, CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLK_SYS);
@@ -119,17 +148,22 @@ clock_setup(void)
     cref->ctrl = CLOCKS_CLK_REF_CTRL_SRC_VALUE_XOSC_CLKSRC;
     while (!(cref->selected & (1 << 2)))
         ;
+#if CONFIG_MACH_RP2040
     watchdog_hw->tick = 1 | WATCHDOG_TICK_ENABLE_BITS;
+#else
+    ticks_hw->ticks[TICK_WATCHDOG].cycles = 1;
+    ticks_hw->ticks[TICK_WATCHDOG].ctrl = TICKS_WATCHDOG_CTRL_ENABLE_BITS;
+#endif
 
     // Enable GPIO control
     enable_pclock(RESETS_RESET_IO_BANK0_BITS | RESETS_RESET_PADS_BANK0_BITS);
 }
 
 // Main entry point - called from armcm_boot.c:ResetHandler()
-void
-noinline
+void noinline
 armcm_main(void)
 {
+    enable_ram_vectortable();
     clock_setup();
     sched_main();
 }
diff --git a/src/rp2040/rp2350_bootrom.c b/src/rp2040/rp2350_bootrom.c
new file mode 100644
index 0000000..257fb3d
--- /dev/null
+++ b/src/rp2040/rp2350_bootrom.c
@@ -0,0 +1,59 @@
+// Code for interacting with bootrom on rp235x chips
+//
+// Copyright (C) 2024  Kevin O'Connor <kevin@koconnor.net>
+//
+// This file may be distributed under the terms of the GNU GPLv3 license.
+
+#include <stdint.h> // uint32_t
+#include "boot/picoboot_constants.h" // REBOOT2_FLAG_REBOOT_TYPE_BOOTSEL
+#include "hardware/address_mapped.h" // static_assert
+#include "internal.h" // bootrom_read_unique_id
+#include "pico/bootrom_constants.h" // RT_FLAG_FUNC_ARM_NONSEC
+
+static void *
+rom_func_lookup(uint32_t code)
+{
+    typedef void *(*rom_table_lookup_fn)(uint32_t code, uint32_t mask);
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Warray-bounds"
+    rom_table_lookup_fn rom_table_lookup = (rom_table_lookup_fn)
+        (uintptr_t)*(uint16_t*)(BOOTROM_TABLE_LOOKUP_OFFSET);
+#pragma GCC diagnostic pop
+    return rom_table_lookup(code, RT_FLAG_FUNC_ARM_SEC);
+}
+
+
+/****************************************************************
+ * Reboot to USB rom bootloader
+ ****************************************************************/
+
+void
+bootrom_reboot_usb_bootloader(void)
+{
+    typedef int (*rom_reboot_fn)(uint32_t flags, uint32_t delay_ms
+                                 , uint32_t p0, uint32_t p1);
+    rom_reboot_fn func = rom_func_lookup(ROM_FUNC_REBOOT);
+    func(REBOOT2_FLAG_REBOOT_TYPE_BOOTSEL | REBOOT2_FLAG_NO_RETURN_ON_SUCCESS
+         , 10, 0, 0);
+}
+
+
+/****************************************************************
+ * Unique id reading
+ ****************************************************************/
+
+#define PICO_UNIQUE_BOARD_ID_SIZE_BYTES 8
+
+void
+bootrom_read_unique_id(uint8_t *out, uint32_t maxlen)
+{
+    typedef int (*rom_get_sys_info_fn)(uint8_t *out_buffer
+                                       , uint32_t out_buffer_word_size
+                                       , uint32_t flags);
+    rom_get_sys_info_fn func = rom_func_lookup(ROM_FUNC_GET_SYS_INFO);
+    uint8_t data[9 * 4];
+    func(data, 9, SYS_INFO_CHIP_INFO);
+    int i;
+    for (i = 0; i < PICO_UNIQUE_BOARD_ID_SIZE_BYTES; i++)
+        out[i] = data[PICO_UNIQUE_BOARD_ID_SIZE_BYTES - 1 + 2 * 4 - i];
+}
diff --git a/src/rp2040/rp2040_link.lds.S b/src/rp2040/rpxxxx_deployer.lds.S
similarity index 56%
rename from src/rp2040/rp2040_link.lds.S
rename to src/rp2040/rpxxxx_deployer.lds.S
index 193c21e..67c929b 100644
--- a/src/rp2040/rp2040_link.lds.S
+++ b/src/rp2040/rpxxxx_deployer.lds.S
@@ -1,45 +1,60 @@
 // rp2040 linker script (based on armcm_link.lds.S and customized for stage2)
 //
-// Copyright (C) 2019-2021  Kevin O'Connor <kevin@koconnor.net>
+// Copyright (C) 2019-2024  Kevin O'Connor <kevin@koconnor.net>
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.
 
-#include "autoconf.h" // CONFIG_FLASH_START
+#include "autoconf.h" // CONFIG_FLASH_SIZE
 
 OUTPUT_FORMAT("elf32-littlearm", "elf32-littlearm", "elf32-littlearm")
 OUTPUT_ARCH(arm)
 
 MEMORY
 {
-  rom (rx) : ORIGIN = CONFIG_FLASH_START , LENGTH = CONFIG_FLASH_SIZE
+  rom (rx) : ORIGIN = CONFIG_FLASH_APPLICATION_ADDRESS , LENGTH = CONFIG_FLASH_SIZE
   ram (rwx) : ORIGIN = CONFIG_RAM_START , LENGTH = CONFIG_RAM_SIZE
 }
 
+// Force flags for each output section to avoid RWX linker warning
+PHDRS
+{
+    text_segment PT_LOAD FLAGS(5); // RX flags
+    ram_vectortable_segment PT_LOAD FLAGS(6); // RW flags
+    data_segment PT_LOAD FLAGS(6); // RW flags
+    bss_segment PT_LOAD FLAGS(6); // RW flags
+    stack_segment PT_LOAD FLAGS(6); // RW flags
+}
+
 SECTIONS
 {
     .text : {
         . = ALIGN(4);
-        KEEP(*(.boot2))
-        KEEP(*(.vector_table_flash))
-        KEEP(*(.reset_handler_flash))
-        KEEP(*(.reset_handler_flash.*))
-    } > rom
+        _text_vectortable_start = .;
+        KEEP(*(.vector_table))
+        _text_vectortable_end = .;
+        *(.text.armcm_boot*)
+    } > rom :text_segment
 
     . = ALIGN(4);
     _data_flash = .;
 
+    .ram_vectortable (NOLOAD) : {
+        _ram_vectortable_start = .;
+        . = . + ( _text_vectortable_end - _text_vectortable_start ) ;
+        _ram_vectortable_end = .;
+    } > ram :ram_vectortable_segment
+
     .data : AT (_data_flash)
     {
-        . = ALIGN(128);
+        . = ALIGN(4);
         _data_start = .;
-        KEEP(*(.vector_table))
         *(.text .text.*)
-        *(.rodata .rodata*)
         *(.ramfunc .ramfunc.*);
+        *(.rodata .rodata*)
         *(.data .data.*);
         . = ALIGN(4);
         _data_end = .;
-    } > ram
+    } > ram :data_segment
 
     .bss (NOLOAD) :
     {
@@ -49,14 +64,14 @@ SECTIONS
         *(COMMON)
         . = ALIGN(4);
         _bss_end = .;
-    } > ram
+    } > ram :bss_segment
 
-    _stack_start = CONFIG_RAM_START + CONFIG_RAM_SIZE - CONFIG_STACK_SIZE - 1024;
+    _stack_start = CONFIG_RAM_START + CONFIG_RAM_SIZE - CONFIG_STACK_SIZE ;
     .stack _stack_start (NOLOAD) :
     {
         . = . + CONFIG_STACK_SIZE;
         _stack_end = .;
-    } > ram
+    } > ram :stack_segment
 
     /DISCARD/ : {
         // The .init/.fini sections are used by __libc_init_array(), but
diff --git a/src/rp2040/rpxxxx_link.lds.S b/src/rp2040/rpxxxx_link.lds.S
new file mode 100644
index 0000000..7075d3e
--- /dev/null
+++ b/src/rp2040/rpxxxx_link.lds.S
@@ -0,0 +1,97 @@
+// rp2040 linker script (based on armcm_link.lds.S and customized for stage2)
+//
+// Copyright (C) 2019-2024  Kevin O'Connor <kevin@koconnor.net>
+//
+// This file may be distributed under the terms of the GNU GPLv3 license.
+
+#include "autoconf.h" // CONFIG_FLASH_SIZE
+
+OUTPUT_FORMAT("elf32-littlearm", "elf32-littlearm", "elf32-littlearm")
+OUTPUT_ARCH(arm)
+
+MEMORY
+{
+  rom (rx) : ORIGIN = CONFIG_FLASH_START , LENGTH = CONFIG_FLASH_SIZE
+  ram (rwx) : ORIGIN = CONFIG_RAM_START , LENGTH = CONFIG_RAM_SIZE
+}
+
+// Force flags for each output section to avoid RWX linker warning
+PHDRS
+{
+    text_segment PT_LOAD FLAGS(5); // RX flags
+    ram_vectortable_segment PT_LOAD FLAGS(6); // RW flags
+    data_segment PT_LOAD FLAGS(6); // RW flags
+    bss_segment PT_LOAD FLAGS(6); // RW flags
+    stack_segment PT_LOAD FLAGS(6); // RW flags
+}
+
+SECTIONS
+{
+    .text : {
+        . = ALIGN(4);
+#if CONFIG_RP2040_HAVE_STAGE2
+        KEEP(*(.boot2))
+#endif
+        _text_vectortable_start = .;
+        KEEP(*(.vector_table))
+        _text_vectortable_end = .;
+        *(.text.armcm_boot*)
+
+#if CONFIG_MACH_RP2350
+        // The rp2350 needs an "image definition" for the internal ROM
+        LONG(0xffffded3)
+        LONG(0x10210142)
+        LONG(0x000001ff)
+        LONG(0x00000000)
+        LONG(0xab123579)
+#endif
+    } > rom :text_segment
+
+    . = ALIGN(4);
+    _data_flash = .;
+
+    .ram_vectortable (NOLOAD) : {
+        _ram_vectortable_start = .;
+        . = . + ( _text_vectortable_end - _text_vectortable_start ) ;
+        _ram_vectortable_end = .;
+    } > ram :ram_vectortable_segment
+
+    .data : AT (_data_flash)
+    {
+        . = ALIGN(4);
+        _data_start = .;
+        *(.text .text.*)
+        *(.ramfunc .ramfunc.*);
+        *(.rodata .rodata*)
+        *(.data .data.*);
+        . = ALIGN(4);
+        _data_end = .;
+    } > ram :data_segment
+
+    .bss (NOLOAD) :
+    {
+        . = ALIGN(4);
+        _bss_start = .;
+        *(.bss .bss.*)
+        *(COMMON)
+        . = ALIGN(4);
+        _bss_end = .;
+    } > ram :bss_segment
+
+    _stack_start = CONFIG_RAM_START + CONFIG_RAM_SIZE - CONFIG_STACK_SIZE - 1024;
+    .stack _stack_start (NOLOAD) :
+    {
+        . = . + CONFIG_STACK_SIZE;
+        _stack_end = .;
+    } > ram :stack_segment
+
+    /DISCARD/ : {
+        // The .init/.fini sections are used by __libc_init_array(), but
+        // that isn't needed so no need to include them in the binary.
+        *(.init)
+        *(.fini)
+        // Don't include exception tables
+        *(.ARM.extab)
+        *(.ARM.exidx)
+    }
+}
diff --git a/src/rp2040/serial.c b/src/rp2040/serial.c
index abfdcb8..1c23697 100644
--- a/src/rp2040/serial.c
+++ b/src/rp2040/serial.c
@@ -4,20 +4,64 @@
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.
 
+
 #include <stdint.h> // uint32_t
-#include "autoconf.h" // CONFIG_SERIAL
+#include "autoconf.h" // Include configuration header
 #include "board/armcm_boot.h" // armcm_enable_irq
 #include "board/irq.h" // irq_save
 #include "board/serial_irq.h" // serial_rx_data
-#include "hardware/structs/resets.h" // RESETS_RESET_UART0_BITS
-#include "hardware/structs/uart.h" // UART0_BASE
-#include "internal.h" // UART0_IRQn
+#include "hardware/structs/resets.h" // RESETS_RESET_UART0/1_BITS
+#include "hardware/structs/uart.h" // uart0_hw, uart1_hw
+#include "internal.h" // UART0_IRQn, UART1_IRQn
 #include "sched.h" // DECL_INIT
 
-#define UARTx uart0_hw
-#define UARTx_IRQn UART0_IRQ_IRQn
-#define GPIO_Rx 1
-#define GPIO_Tx 0
+// Dynamically select UART and IRQ based on configuration
+
+
+    #if CONFIG_RPXXXX_SERIAL_UART0_PINS_0_1
+        #define GPIO_Rx 1
+        #define GPIO_Tx 0
+        #define UARTx uart0_hw
+        #define UARTx_IRQn UART0_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART0_PINS_12_13
+        #define GPIO_Rx 13
+        #define GPIO_Tx 12
+        #define UARTx uart0_hw
+        #define UARTx_IRQn UART0_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART0_PINS_16_17
+        #define GPIO_Rx 17
+        #define GPIO_Tx 16
+        #define UARTx uart0_hw
+        #define UARTx_IRQn UART0_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART0_PINS_28_29
+        #define GPIO_Rx 29
+        #define GPIO_Tx 28
+        #define UARTx uart1_hw
+        #define UARTx_IRQn UART1_IRQ_IRQn
+        #define UARTx uart0_hw
+        #define UARTx_IRQn UART0_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART1_PINS_4_5
+        #define GPIO_Rx 5
+        #define GPIO_Tx 4
+        #define UARTx uart1_hw
+        #define UARTx_IRQn UART1_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART1_PINS_8_9
+        #define GPIO_Rx 9
+        #define GPIO_Tx 8
+        #define UARTx uart1_hw
+        #define UARTx_IRQn UART1_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART1_PINS_20_21
+        #define GPIO_Rx 20
+        #define GPIO_Tx 21
+        #define UARTx uart1_hw
+        #define UARTx_IRQn UART1_IRQ_IRQn
+    #elif CONFIG_RPXXXX_SERIAL_UART1_PINS_24_25
+        #define GPIO_Rx 24
+        #define GPIO_Tx 25
+        #define UARTx uart1_hw
+        #define UARTx_IRQn UART1_IRQ_IRQn
+    #endif
+
 
 // Write tx bytes to the serial port
 static void
@@ -67,10 +111,19 @@ serial_enable_tx_irq(void)
 void
 serial_init(void)
 {
-    enable_pclock(RESETS_RESET_UART0_BITS);
+
+    uint32_t pclk= 0x00;
+    if (UARTx == uart0_hw){
+        enable_pclock(RESETS_RESET_UART0_BITS);
+        pclk= get_pclock_frequency(RESETS_RESET_UART0_BITS);
+    } else {
+        enable_pclock(RESETS_RESET_UART1_BITS);
+        pclk = get_pclock_frequency(RESETS_RESET_UART1_BITS);
+    }
+
 
     // Setup baud
-    uint32_t pclk = get_pclock_frequency(RESETS_RESET_UART0_BITS);
+
     uint32_t div = DIV_ROUND_CLOSEST(pclk * 4, CONFIG_SERIAL_BAUD);
     UARTx->ibrd = div >> 6;
     UARTx->fbrd = div & 0x3f;
diff --git a/src/rp2040/usbserial.c b/src/rp2040/usbserial.c
index e63e590..b4d90b5 100644
--- a/src/rp2040/usbserial.c
+++ b/src/rp2040/usbserial.c
@@ -1,6 +1,6 @@
 // Hardware interface to USB on rp2040
 //
-// Copyright (C) 2021  Kevin O'Connor <kevin@koconnor.net>
+// Copyright (C) 2021-2024  Kevin O'Connor <kevin@koconnor.net>
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.
 
@@ -26,70 +26,128 @@
 
 #define DPBUF_SIZE 64
 
+// Get the offset of a given endpoint's base buffer
 static uint32_t
 usb_buf_offset(uint32_t ep)
 {
     return 0x100 + ep * DPBUF_SIZE * 2;
 }
 
-static int_fast8_t
-usb_write_packet(uint32_t ep, const void *data, uint_fast8_t len)
+// Obtain a pointer to an endpoint buffer
+static void*
+usb_buf_addr(uint32_t ep, int bufnum)
 {
-    // Check if there is room for this packet
-    uint32_t epb = usb_dpram->ep_buf_ctrl[ep].in;
-    if (epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL))
-        return -1;
-    uint32_t pid = (epb ^ USB_BUF_CTRL_DATA1_PID) & USB_BUF_CTRL_DATA1_PID;
-    uint32_t new_epb = USB_BUF_CTRL_FULL | USB_BUF_CTRL_LAST | pid | len;
-    usb_dpram->ep_buf_ctrl[ep].in = new_epb;
-    // Copy the packet to the hw buffer
-    void *addr = (void*)usb_dpram + usb_buf_offset(ep);
-    barrier();
-    memcpy(addr, data, len);
-    barrier();
-    // Inform the USB hardware of the available packet
-    usb_dpram->ep_buf_ctrl[ep].in = new_epb | USB_BUF_CTRL_AVAIL;
-    return len;
+    return (void*)usb_dpram + usb_buf_offset(ep) + bufnum * DPBUF_SIZE;
 }
 
-static int_fast8_t
-usb_read_packet(uint32_t ep, void *data, uint_fast8_t max_len)
+// Return a pointer to the ep_buf_ctrl register for an endpoint
+static volatile uint16_t *
+lookup_epbufctrl(uint32_t ep, int is_rx, int bufnum)
+{
+    volatile uint16_t *epbp;
+    if (is_rx)
+        epbp = (void*)&usb_dpram->ep_buf_ctrl[ep].out;
+    else
+        epbp = (void*)&usb_dpram->ep_buf_ctrl[ep].in;
+    return &epbp[bufnum];
+}
+
+// Determine the next transfer PID id from the last PID
+static uint32_t
+next_data_pid(uint32_t epb)
+{
+    return (epb ^ USB_BUF_CTRL_DATA1_PID) & USB_BUF_CTRL_DATA1_PID;
+}
+
+// Extract the number of bytes in an rx buffer
+static uint32_t
+get_rx_count(uint32_t epb, uint32_t max_len)
 {
-    // Check if there is a packet ready
-    uint32_t epb = usb_dpram->ep_buf_ctrl[ep].out;
-    if ((epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL)) != USB_BUF_CTRL_FULL)
-        return -1;
-    // Copy the packet to the given buffer
-    uint32_t pid = (epb ^ USB_BUF_CTRL_DATA1_PID) & USB_BUF_CTRL_DATA1_PID;
-    uint32_t new_epb = USB_BUF_CTRL_LAST | pid | DPBUF_SIZE;
-    usb_dpram->ep_buf_ctrl[ep].out = new_epb;
     uint32_t c = epb & USB_BUF_CTRL_LEN_MASK;
     if (c > max_len)
         c = max_len;
-    void *addr = (void*)usb_dpram + usb_buf_offset(ep);
-    barrier();
-    memcpy(data, addr, c);
-    barrier();
-    // Notify the USB hardware that the space is now available
-    usb_dpram->ep_buf_ctrl[ep].out = new_epb | USB_BUF_CTRL_AVAIL;
     return c;
 }
 
+// Memcpy using 8-bit read/write (system memcpy may make unaligned accesses)
+static void
+dpram_memcpy(void *dest, const void *src, size_t n)
+{
+    const uint8_t *s = src;
+    volatile uint8_t *d = dest;
+    while (n) {
+        *d++ = *s++;
+        n -= sizeof(*d);
+    }
+}
+
+// Memset using only 8-bit writes (system memcpy may make unaligned accesses)
+static void
+dpram_memset(void *s, int c, size_t n)
+{
+    volatile uint8_t *p = s;
+    while (n) {
+        *p++ = c;
+        n -= sizeof(*p);
+    }
+}
+
 
 /****************************************************************
  * Interface
  ****************************************************************/
 
+static uint32_t bulk_out_push_count;
+
 int_fast8_t
 usb_read_bulk_out(void *data, uint_fast8_t max_len)
 {
-    return usb_read_packet(USB_CDC_EP_BULK_OUT, data, max_len);
+    // Check if there is a packet ready
+    uint32_t bopc = bulk_out_push_count, bufnum = bopc & 1;
+    uint32_t ep = USB_CDC_EP_BULK_OUT;
+    volatile uint16_t *epbp = lookup_epbufctrl(ep, 1, bufnum);
+    uint32_t epb = *epbp;
+    if ((epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL)) != USB_BUF_CTRL_FULL)
+        return -1;
+    // Determine the next packet header
+    bulk_out_push_count = bopc + 1;
+    uint32_t pid = bufnum ? USB_BUF_CTRL_DATA1_PID : 0;
+    uint32_t new_epb = USB_BUF_CTRL_LAST | pid | DPBUF_SIZE;
+    *epbp = new_epb;
+    barrier();
+    // Copy the packet to the given buffer
+    uint32_t c = get_rx_count(epb, max_len);
+    dpram_memcpy(data, usb_buf_addr(ep, bufnum), c);
+    // Notify the USB hardware that the space is now available
+    barrier();
+    *epbp = new_epb | USB_BUF_CTRL_AVAIL;
+    return c;
 }
 
+static uint32_t bulk_in_pop_count;
+
 int_fast8_t
 usb_send_bulk_in(void *data, uint_fast8_t len)
 {
-    return usb_write_packet(USB_CDC_EP_BULK_IN, data, len);
+    // Check if there is room for this packet
+    uint32_t bipc = bulk_in_pop_count, bufnum = bipc & 1;
+    uint32_t ep = USB_CDC_EP_BULK_IN;
+    volatile uint16_t *epbp = lookup_epbufctrl(ep, 0, bufnum);
+    uint32_t epb = *epbp;
+    if (epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL))
+        return -1;
+    // Determine the next packet header
+    bulk_in_pop_count = bipc + 1;
+    uint32_t pid = bufnum ? USB_BUF_CTRL_DATA1_PID : 0;
+    uint32_t new_epb = USB_BUF_CTRL_FULL | USB_BUF_CTRL_LAST | pid | len;
+    *epbp = new_epb;
+    barrier();
+    // Copy the packet to the hw buffer
+    dpram_memcpy(usb_buf_addr(ep, bufnum), data, len);
+    // Inform the USB hardware of the available packet
+    barrier();
+    *epbp = new_epb | USB_BUF_CTRL_AVAIL;
+    return len;
 }
 
 int_fast8_t
@@ -105,7 +163,7 @@ usb_read_ep0_setup(void *data, uint_fast8_t max_len)
                                      | USB_BUF_CTRL_AVAIL | DPBUF_SIZE);
     usb_hw->sie_status = USB_SIE_STATUS_SETUP_REC_BITS;
     barrier();
-    memcpy(data, (void*)usb_dpram->setup_packet, max_len);
+    dpram_memcpy(data, (void*)usb_dpram->setup_packet, max_len);
     barrier();
     if (usb_hw->intr & USB_INTR_SETUP_REQ_BITS) {
         // Raced with next setup packet
@@ -118,19 +176,51 @@ usb_read_ep0_setup(void *data, uint_fast8_t max_len)
 int_fast8_t
 usb_read_ep0(void *data, uint_fast8_t max_len)
 {
+    // Check if there is a packet ready
+    uint32_t ep = 0;
     if (usb_hw->intr & USB_INTR_SETUP_REQ_BITS)
         // Early end of transmission
         return -2;
-    return usb_read_packet(0, data, max_len);
+    volatile uint16_t *epbp = lookup_epbufctrl(ep, 1, 0);
+    uint32_t epb = *epbp;
+    if ((epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL)) != USB_BUF_CTRL_FULL)
+        return -1;
+    // Determine the next packet header
+    uint32_t new_epb = USB_BUF_CTRL_LAST | next_data_pid(epb) | DPBUF_SIZE;
+    *epbp = new_epb;
+    barrier();
+    // Copy the packet to the given buffer
+    uint32_t c = get_rx_count(epb, max_len);
+    dpram_memcpy(data, usb_buf_addr(ep, 0), c);
+    // Notify the USB hardware that the space is now available
+    barrier();
+    *epbp = new_epb | USB_BUF_CTRL_AVAIL;
+    return c;
 }
 
 int_fast8_t
 usb_send_ep0(const void *data, uint_fast8_t len)
 {
+    // Check if there is room for this packet
+    uint32_t ep = 0;
     if (usb_hw->intr & USB_INTR_SETUP_REQ_BITS || usb_hw->buf_status & 2)
         // Early end of transmission
         return -2;
-    return usb_write_packet(0, data, len);
+    volatile uint16_t *epbp = lookup_epbufctrl(ep, 0, 0);
+    uint32_t epb = *epbp;
+    if (epb & (USB_BUF_CTRL_AVAIL|USB_BUF_CTRL_FULL))
+        return -1;
+    // Determine the next packet header
+    uint32_t pid = next_data_pid(epb);
+    uint32_t new_epb = USB_BUF_CTRL_FULL | USB_BUF_CTRL_LAST | pid | len;
+    *epbp = new_epb;
+    barrier();
+    // Copy the packet to the hw buffer
+    dpram_memcpy(usb_buf_addr(ep, 0), data, len);
+    // Inform the USB hardware of the available packet
+    barrier();
+    *epbp = new_epb | USB_BUF_CTRL_AVAIL;
+    return len;
 }
 
 void
@@ -156,9 +246,13 @@ usb_set_address(uint_fast8_t addr)
 void
 usb_set_configure(void)
 {
-    usb_dpram->ep_buf_ctrl[USB_CDC_EP_BULK_IN].in = USB_BUF_CTRL_DATA1_PID;
-    usb_dpram->ep_buf_ctrl[USB_CDC_EP_BULK_OUT].out = (
-        USB_BUF_CTRL_AVAIL | USB_BUF_CTRL_LAST | DPBUF_SIZE);
+    bulk_in_pop_count = 0;
+    usb_dpram->ep_buf_ctrl[USB_CDC_EP_BULK_IN].in = 0;
+
+    bulk_out_push_count = 0;
+    uint32_t epb0 = USB_BUF_CTRL_AVAIL | USB_BUF_CTRL_LAST | DPBUF_SIZE;
+    uint32_t epb1 = epb0 | USB_BUF_CTRL_DATA1_PID;
+    usb_dpram->ep_buf_ctrl[USB_CDC_EP_BULK_OUT].out = epb0 | (epb1 << 16);
 }
 
 
@@ -290,10 +384,12 @@ endpoint_setup(void)
     usb_dpram->ep_ctrl[USB_CDC_EP_ACM-1].in = ep_acm;
     // BULK
     uint32_t ep_out = (EP_CTRL_ENABLE_BITS | usb_buf_offset(USB_CDC_EP_BULK_OUT)
+                       | EP_CTRL_DOUBLE_BUFFERED_BITS
                        | EP_CTRL_INTERRUPT_PER_BUFFER
                        | (USB_ENDPOINT_XFER_BULK << EP_CTRL_BUFFER_TYPE_LSB));
     usb_dpram->ep_ctrl[USB_CDC_EP_BULK_OUT-1].out = ep_out;
     uint32_t ep_in = (EP_CTRL_ENABLE_BITS | usb_buf_offset(USB_CDC_EP_BULK_IN)
+                      | EP_CTRL_DOUBLE_BUFFERED_BITS
                       | EP_CTRL_INTERRUPT_PER_BUFFER
                       | (USB_ENDPOINT_XFER_BULK << EP_CTRL_BUFFER_TYPE_LSB));
     usb_dpram->ep_ctrl[USB_CDC_EP_BULK_IN-1].in = ep_in;
@@ -307,7 +403,7 @@ usbserial_init(void)
     enable_pclock(RESETS_RESET_USBCTRL_BITS);
 
     // Setup shared memory area
-    memset(usb_dpram, 0, sizeof(*usb_dpram));
+    dpram_memset(usb_dpram, 0, sizeof(*usb_dpram));
     endpoint_setup();
 
     // Enable USB in device mode